Blast results problem

[mmmtnez@…]

The following bug report has been submitted:
Platform:        Linux-5.4.0-58-generic-x86_64-with-debian-buster-sid
ChimeraX Version: 1.1 (2020-09-09 22:22:27 UTC)
Description
bastprotein command seems not working, nor with atomic structure chains and sequences either

Log:
UCSF ChimeraX version: 1.1 (2020-09-09)  
© 2016-2020 Regents of the University of California. All rights reserved.  
How to cite UCSF ChimeraX  

> open
> /home/marta/OLD/marta/ScipionUserData/projects/TestChimeraModellerSearch/Runs/000944_ChimeraModelFromTemplate/tmp/axis_input.bild

Opened BILD data containing 6 objects  

> cofr 0,0,0

> open
> /home/marta/OLD/marta/ScipionUserData/projects/TestChimeraModellerSearch/Runs/000944_ChimeraModelFromTemplate/extra/aligned_1.fasta

Summary of feedback from opening
/home/marta/OLD/marta/ScipionUserData/projects/TestChimeraModellerSearch/Runs/000944_ChimeraModelFromTemplate/extra/aligned_1.fasta  
---  
note | Alignment identifier is aligned_1.fasta  
  
Opened 1 sequences from aligned_1.fasta  

> open 5ni1

5ni1 title:  
CryoEM structure of haemoglobin at 3.2 A determined with the Volta phase plate
[more info...]  
  
Chain information for 5ni1 #2  
---  
Chain | Description  
A C | Hemoglobin subunit α  
B D | Hemoglobin subunit β  
  
Non-standard residues in 5ni1 #2  
---  
HEM — protoporphyrin IX containing Fe (HEME)  
  

> blastprotein #2/A database pdb matrix BLOSUM62 cutoff 0.001 maxSeqs 100 log
> true

Web Service: BlastProtein2 is a Python wrapper that calls blastp to search nr
or pdb for sequences similar to the given protein sequence  
Opal service URL:
http://webservices.rbvi.ucsf.edu/opal2/services/BlastProtein2Service  
Opal job id: appBlastProtein2Service16119133345711037463771  
Opal status URL prefix:
http://webservices.rbvi.ucsf.edu/appBlastProtein2Service16119133345711037463771  
stdout.txt = standard output  
stderr.txt = standard error  
BlastProtein finished.  
BLAST results for:  
chain: #2/A  
database: pdb  
cutoff: 0.001  
maxSeqs: 100  
matrix: BLOSUM62  
query 0.0e+00 0.0 user_input  
A 3.9e-100 284 Hemoglobin (Val Beta1 Met, Trp Beta37 Tyr) Mutant [Homo
sapiens]  
C 3.9e-100 284 Hemoglobin (Val Beta1 Met, Trp Beta37 Tyr) Mutant [Homo
sapiens]  
A 3.9e-100 284 Hemoglobin (Val Beta1 Met, Trp Beta37 Ala) Mutant [Homo
sapiens]  
C 3.9e-100 284 Hemoglobin (Val Beta1 Met, Trp Beta37 Ala) Mutant [Homo
sapiens]  
A 3.9e-100 284 Hemoglobin (Val Beta1 Met) Mutant [Homo sapiens]  
C 3.9e-100 284 Hemoglobin (Val Beta1 Met) Mutant [Homo sapiens]  
A 3.9e-100 284 Hemoglobin (Val Beta1 Met) Mutant [Homo sapiens]  
C 3.9e-100 284 Hemoglobin (Val Beta1 Met) Mutant [Homo sapiens]  
A 3.9e-100 284 Deoxy Human Hemoglobin [Homo sapiens]  
C 3.9e-100 284 Deoxy Human Hemoglobin [Homo sapiens]  
A 3.9e-100 284 Human Embryonic Gower Ii Carbonmonoxy Hemoglobin [Homo sapiens]  
C 3.9e-100 284 Human Embryonic Gower Ii Carbonmonoxy Hemoglobin [Homo sapiens]  
A 3.9e-100 284 Human Deoxyhaemoglobin-2,3-Diphosphoglycerate Complex [Homo
sapiens]  
C 3.9e-100 284 Human Deoxyhaemoglobin-2,3-Diphosphoglycerate Complex [Homo
sapiens]  
A 3.9e-100 284 A Third Quaternary Structure Of Human Hemoglobin A At
1.7-angstroms Resolution [Homo sapiens]  
C 3.9e-100 284 A Third Quaternary Structure Of Human Hemoglobin A At
1.7-angstroms Resolution [Homo sapiens]  
A 3.9e-100 284 Crosslinked, Deoxy Human Hemoglobin A [Homo sapiens]  
C 3.9e-100 284 Crosslinked, Deoxy Human Hemoglobin A [Homo sapiens]  
A 3.9e-100 284 Crystal Structure Of S-Nitroso-Nitrosyl Human Hemoglobin A
[Homo sapiens]  
C 3.9e-100 284 Crystal Structure Of S-Nitroso-Nitrosyl Human Hemoglobin A
[Homo sapiens]  
A 3.9e-100 284 Hemoglobin A (Human, Deoxy, High Salt) [Homo sapiens]  
C 3.9e-100 284 Hemoglobin A (Human, Deoxy, High Salt) [Homo sapiens]  
A 3.9e-100 284 Cross-Linked Human Hemoglobin Deoxy [Homo sapiens]  
C 3.9e-100 284 Cross-Linked Human Hemoglobin Deoxy [Homo sapiens]  
A 3.9e-100 284 The Mutation Beta99 Asp-Tyr Stabilizes Y-A New, Composite
Quaternary State Of Human Hemoglobin [Homo sapiens]  
C 3.9e-100 284 The Mutation Beta99 Asp-Tyr Stabilizes Y-A New, Composite
Quaternary State Of Human Hemoglobin [Homo sapiens]  
A 3.9e-100 284 Structure Of Haemoglobin In The Deoxy Quaternary State With
Ligand Bound At The Alpha Haems [Homo sapiens]  
C 3.9e-100 284 Structure Of Haemoglobin In The Deoxy Quaternary State With
Ligand Bound At The Alpha Haems [Homo sapiens]  
A 3.9e-100 284 NI BETA HEME HUMAN HEMOGLOBIN [Homo sapiens]  
C 3.9e-100 284 NI BETA HEME HUMAN HEMOGLOBIN [Homo sapiens]  
A 3.9e-100 284 High-Resolution X-Ray Study Of Deoxy Recombinant Human
Hemoglobins Synthesized From Beta-Globins Having Mutated Amino Termini [Homo
sapiens]  
C 3.9e-100 284 High-Resolution X-Ray Study Of Deoxy Recombinant Human
Hemoglobins Synthesized From Beta-Globins Having Mutated Amino Termini [Homo
sapiens]  
A 3.9e-100 284 High-Resolution X-Ray Study Of Deoxy Recombinant Human
Hemoglobins Synthesized From Beta-Globins Having Mutated Amino Termini [Homo
sapiens]  
C 3.9e-100 284 High-Resolution X-Ray Study Of Deoxy Recombinant Human
Hemoglobins Synthesized From Beta-Globins Having Mutated Amino Termini [Homo
sapiens]  
A 3.9e-100 284 High-resolution X-ray Study Of Deoxy Recombinant Human
Hemoglobins Synthesized From Beta-globins Having Mutated Amino Termini [Homo
sapiens]  
C 3.9e-100 284 High-resolution X-ray Study Of Deoxy Recombinant Human
Hemoglobins Synthesized From Beta-globins Having Mutated Amino Termini [Homo
sapiens]  
A 3.9e-100 284 Structure Of Human Foetal Deoxyhaemoglobin [Homo sapiens]  
B 3.9e-100 284 Structure Of Human Foetal Deoxyhaemoglobin [Homo sapiens]  
A 3.9e-100 284 Crystal Structure Of Nickel Reconstituted Hemoglobin-a Case For
Permanent, T-state Hemoglobin [Homo sapiens]  
C 3.9e-100 284 Crystal Structure Of Nickel Reconstituted Hemoglobin-a Case For
Permanent, T-state Hemoglobin [Homo sapiens]  
A 3.9e-100 284 High Resolution Crystal Structure Of Deoxy Hemoglobin Complexed
With A Potent Allosteric Effector [Homo sapiens]  
C 3.9e-100 284 High Resolution Crystal Structure Of Deoxy Hemoglobin Complexed
With A Potent Allosteric Effector [Homo sapiens]  
A 3.9e-100 284 DEOXY (BETA-(C93A,C112G)) HUMAN HEMOGLOBIN [Homo sapiens]  
C 3.9e-100 284 DEOXY (BETA-(C93A,C112G)) HUMAN HEMOGLOBIN [Homo sapiens]  
A 3.9e-100 284 (ALPHA-OXY, BETA-(C112G)DEOXY) T-STATE HUMAN HEMOGLOBIN [Homo
sapiens]  
C 3.9e-100 284 (ALPHA-OXY, BETA-(C112G)DEOXY) T-STATE HUMAN HEMOGLOBIN [Homo
sapiens]  
A 3.9e-100 284 oxy T state haemoglobin: oxygen bound at all four haems [Homo
sapiens]  
C 3.9e-100 284 oxy T state haemoglobin: oxygen bound at all four haems [Homo
sapiens]  
A 3.9e-100 284 Crosslinked Haemoglobin [Homo sapiens]  
C 3.9e-100 284 Crosslinked Haemoglobin [Homo sapiens]  
A 3.9e-100 284 Crosslinked Haemoglobin [Homo sapiens]  
C 3.9e-100 284 Crosslinked Haemoglobin [Homo sapiens]  
A 3.9e-100 284 High-Resolution X-Ray Study Of Deoxyhemoglobin Rothschild
37beta Trp-  
C 3.9e-100 284 High-Resolution X-Ray Study Of Deoxyhemoglobin Rothschild
37beta Trp-  
A 3.9e-100 284 High-Resolution X-Ray Study Of Deoxyhemoglobin Rothschild
37beta Trp-  
C 3.9e-100 284 High-Resolution X-Ray Study Of Deoxyhemoglobin Rothschild
37beta Trp-  
A 3.9e-100 284 Refined Crystal Structure Of Deoxyhemoglobin S. I. Restrained
Least-Squares Refinement At 3.0-Angstroms Resolution [Homo sapiens]  
C 3.9e-100 284 Refined Crystal Structure Of Deoxyhemoglobin S. I. Restrained
Least-Squares Refinement At 3.0-Angstroms Resolution [Homo sapiens]  
E 3.9e-100 284 Refined Crystal Structure Of Deoxyhemoglobin S. I. Restrained
Least-Squares Refinement At 3.0-Angstroms Resolution [Homo sapiens]  
G 3.9e-100 284 Refined Crystal Structure Of Deoxyhemoglobin S. I. Restrained
Least-Squares Refinement At 3.0-Angstroms Resolution [Homo sapiens]  
A 3.9e-100 284 The Structure Of Human Carbonmonoxy Haemoglobin At 2.7
Angstroms Resolution [Homo sapiens]  
A 3.9e-100 284 Analysis Of The Crystal Structure, Molecular Modeling And
Infrared Spectroscopy Of The Distal Beta-Heme Pocket Valine67(E11)-Threonine
Mutation Of Hemoglobin [Homo sapiens]  
C 3.9e-100 284 Analysis Of The Crystal Structure, Molecular Modeling And
Infrared Spectroscopy Of The Distal Beta-Heme Pocket Valine67(E11)-Threonine
Mutation Of Hemoglobin [Homo sapiens]  
A 3.9e-100 284 High Resolution Crystal Structures And Comparisons Of T State
Deoxyhaemoglobin And Two Liganded T-state Haemoglobins: T(alpha-oxy)
Haemoglobin And T(met)haemoglobin [Homo sapiens]  
C 3.9e-100 284 High Resolution Crystal Structures And Comparisons Of T State
Deoxyhaemoglobin And Two Liganded T-state Haemoglobins: T(alpha-oxy)
Haemoglobin And T(met)haemoglobin [Homo sapiens]  
A 3.9e-100 284 High Resolution Crystal Structures And Comparisons Of T State
Deoxyhaemoglobin And Two Liganded T-State Haemoglobins: T(Alpha-Oxy)
Haemoglobin And T(Met)haemoglobin [Homo sapiens]  
C 3.9e-100 284 High Resolution Crystal Structures And Comparisons Of T State
Deoxyhaemoglobin And Two Liganded T-State Haemoglobins: T(Alpha-Oxy)
Haemoglobin And T(Met)haemoglobin [Homo sapiens]  
A 3.9e-100 284 High Resolution Crystal Structures And Comparisons Of T State
Deoxyhaemoglobin And Two Liganded T-state Haemoglobins: T(alpha-oxy)
Haemoglobin And T(met)haemoglobin [Homo sapiens]  
C 3.9e-100 284 High Resolution Crystal Structures And Comparisons Of T State
Deoxyhaemoglobin And Two Liganded T-state Haemoglobins: T(alpha-oxy)
Haemoglobin And T(met)haemoglobin [Homo sapiens]  
A 3.9e-100 284 Structure Of Human Oxyhaemoglobin At 2.1 Angstroms Resolution
[Homo sapiens]  
A 3.9e-100 284 Crystal Structure of Human Carbonmonoxy-Haemoglobin at 1.25 A
Resolution [Homo sapiens]  
A 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human hemoglobin; Crystal structure of alpha(Fe)-beta(Ni)
hemoglobin (laser photolysed) [Homo sapiens]  
C 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human hemoglobin; Crystal structure of alpha(Fe)-beta(Ni)
hemoglobin (laser photolysed) [Homo sapiens]  
E 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human hemoglobin; Crystal structure of alpha(Fe)-beta(Ni)
hemoglobin (laser photolysed) [Homo sapiens]  
G 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human hemoglobin; Crystal structure of alpha(Fe)-beta(Ni)
hemoglobin (laser photolysed) [Homo sapiens]  
A 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human haemoglobin; Crystal structure of alpha(Fe-CO)-beta(Ni)
hemoglobin (laser unphotolysed) [Homo sapiens]  
C 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human haemoglobin; Crystal structure of alpha(Fe-CO)-beta(Ni)
hemoglobin (laser unphotolysed) [Homo sapiens]  
E 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human haemoglobin; Crystal structure of alpha(Fe-CO)-beta(Ni)
hemoglobin (laser unphotolysed) [Homo sapiens]  
G 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human haemoglobin; Crystal structure of alpha(Fe-CO)-beta(Ni)
hemoglobin (laser unphotolysed) [Homo sapiens]  
A 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human haemoglobin; Crystal structure of alpha(Ni)-beta(Fe-CO)
hemoglobin (laser unphotolysed) [Homo sapiens]  
C 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human haemoglobin; Crystal structure of alpha(Ni)-beta(Fe-CO)
hemoglobin (laser unphotolysed) [Homo sapiens]  
E 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human haemoglobin; Crystal structure of alpha(Ni)-beta(Fe-CO)
hemoglobin (laser unphotolysed) [Homo sapiens]  
G 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human haemoglobin; Crystal structure of alpha(Ni)-beta(Fe-CO)
hemoglobin (laser unphotolysed) [Homo sapiens]  
A 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human haemoglobin; Crystal structure of alpha(Ni)-beta(Fe)
hemoglobin (laser photolysed) [Homo sapiens]  
C 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human haemoglobin; Crystal structure of alpha(Ni)-beta(Fe)
hemoglobin (laser photolysed) [Homo sapiens]  
E 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human haemoglobin; Crystal structure of alpha(Ni)-beta(Fe)
hemoglobin (laser photolysed) [Homo sapiens]  
G 3.9e-100 284 Direct observation of photolysis-induced tertiary structural
changes in human haemoglobin; Crystal structure of alpha(Ni)-beta(Fe)
hemoglobin (laser photolysed) [Homo sapiens]  
A 3.9e-100 284 The Structure Of Human Methemoglobin. The Variation Of A Theme
[Homo sapiens]  
C 3.9e-100 284 The Structure Of Human Methemoglobin. The Variation Of A Theme
[Homo sapiens]  
P 3.9e-100 284 The Structure Of Human Methemoglobin. The Variation Of A Theme
[Homo sapiens]  
R 3.9e-100 284 The Structure Of Human Methemoglobin. The Variation Of A Theme
[Homo sapiens]  
U 3.9e-100 284 The Structure Of Human Methemoglobin. The Variation Of A Theme
[Homo sapiens]  
W 3.9e-100 284 The Structure Of Human Methemoglobin. The Variation Of A Theme
[Homo sapiens]  
A 3.9e-100 284 X-ray Crystallographic Analyses of Symmetrical Allosteric
Effectors of Hemoglobin. Compounds Designed to Link Primary and Secondary
Binding Sites [Homo sapiens]  
C 3.9e-100 284 X-ray Crystallographic Analyses of Symmetrical Allosteric
Effectors of Hemoglobin. Compounds Designed to Link Primary and Secondary
Binding Sites [Homo sapiens]  
A 3.9e-100 284 Structure of Mutant Human Carbonmonoxyhemoglobin C (beta E6K)
at 2.0 Angstrom Resolution in Phosphate Buffer. [Homo sapiens]  
A 3.9e-100 284 Crystal Structure of Human Deoxyhemoglobin in Absence of Any
Anions [Homo sapiens]  
C 3.9e-100 284 Crystal Structure of Human Deoxyhemoglobin in Absence of Any
Anions [Homo sapiens]  
A 3.9e-100 284 Deoxy Hemoglobin (90% Relative Humidity) [Homo sapiens]  
C 3.9e-100 284 Deoxy Hemoglobin (90% Relative Humidity) [Homo sapiens]  
P 3.9e-100 284 Deoxy Hemoglobin (90% Relative Humidity) [Homo sapiens]  
R 3.9e-100 284 Deoxy Hemoglobin (90% Relative Humidity) [Homo sapiens]  
A 3.9e-100 284 Oxy Hemoglobin (93% Relative Humidity) [Homo sapiens]  
A 3.9e-100 284 Oxy Hemoglobin (90% Relative Humidity) [Homo sapiens]  
A 3.9e-100 284 Oxy Hemoglobin (88% Relative Humidity) [Homo sapiens]  
A 3.9e-100 284 Oxy Hemoglobin (84% Relative Humidity) [Homo sapiens]  
A 3.9e-100 284 Oxy Hemoglobin (25% Methanol) [Homo sapiens]  
A 3.9e-100 284 Crystal Structure of Human Carbonmonoxy Hemoglobin at 2.16 A: A
Snapshot of the Allosteric Transition [Homo sapiens]  
A 3.9e-100 284 Crystalline Human Carbonmonoxy Hemoglobin C Exhibits The R2
Quaternary State at Neutral pH In The Presence of Polyethylene Glycol: The 2.1
Angstrom Resolution Crystal Structure [Homo sapiens]  
C 3.9e-100 284 Crystalline Human Carbonmonoxy Hemoglobin C Exhibits The R2
Quaternary State at Neutral pH In The Presence of Polyethylene Glycol: The 2.1
Angstrom Resolution Crystal Structure [Homo sapiens]  
A 3.9e-100 284 A Fourth Quaternary Structure of Human Hemoglobin A at 2.18 A
Resolution [Homo sapiens]  
C 3.9e-100 284 A Fourth Quaternary Structure of Human Hemoglobin A at 2.18 A
Resolution [Homo sapiens]  
A 3.9e-100 284 Crystalline Human Carbonmonoxy Hemoglobin S (Liganded Sickle
Cell Hemoglobin) Exhibits The R2 Quaternary State At Neutral pH In The
Presence Of Polyethylene Glycol: The 2.1 Angstrom Resolution Crystal Structure
[Homo sapiens]  
C 3.9e-100 284 Crystalline Human Carbonmonoxy Hemoglobin S (Liganded Sickle
Cell Hemoglobin) Exhibits The R2 Quaternary State At Neutral pH In The
Presence Of Polyethylene Glycol: The 2.1 Angstrom Resolution Crystal Structure
[Homo sapiens]  
A 3.9e-100 284 Structure of deoxy-quaternary haemoglobin with liganded beta
subunits [Homo sapiens]  
C 3.9e-100 284 Structure of deoxy-quaternary haemoglobin with liganded beta
subunits [Homo sapiens]  
A 3.9e-100 284 Crystal structure of Human hemoglobin E at 1.73 A resolution
[Homo sapiens]  
C 3.9e-100 284 Crystal structure of Human hemoglobin E at 1.73 A resolution
[Homo sapiens]  
A 3.9e-100 284 Magnesium(Ii)-And Zinc(Ii)-Protoporphyrin Ix's Stabilize The
Lowest Oxygen Affinity State Of Human Hemoglobin Even More Strongly Than
Deoxyheme [Homo sapiens]  
C 3.9e-100 284 Magnesium(Ii)-And Zinc(Ii)-Protoporphyrin Ix's Stabilize The
Lowest Oxygen Affinity State Of Human Hemoglobin Even More Strongly Than
Deoxyheme [Homo sapiens]  
A 3.9e-100 284 Magnesium(Ii)-And Zinc(Ii)-Protoporphyrin Ix's Stabilize The
Lowest Oxygen Affinity State Of Human Hemoglobin Even More Strongly Than
Deoxyheme [Homo sapiens]  
C 3.9e-100 284 Magnesium(Ii)-And Zinc(Ii)-Protoporphyrin Ix's Stabilize The
Lowest Oxygen Affinity State Of Human Hemoglobin Even More Strongly Than
Deoxyheme [Homo sapiens]  
A 3.9e-100 284 Structural Basis for the Potent Antisickling Effect of a Novel
Class of 5-Membered Heterocyclic Aldehydic Compounds [Homo sapiens]  
C 3.9e-100 284 Structural Basis for the Potent Antisickling Effect of a Novel
Class of 5-Membered Heterocyclic Aldehydic Compounds [Homo sapiens]  
A 3.9e-100 284 Structural Basis for the Potent Antisickling Effect of a Novel
Class of 5-Membered Heterocyclic Aldehydic Compounds [Homo sapiens]  
C 3.9e-100 284 Structural Basis for the Potent Antisickling Effect of a Novel
Class of 5-Membered Heterocyclic Aldehydic Compounds [Homo sapiens]  
A 3.9e-100 284 Crystallographic Analysis of the Interaction of Nitric Oxide
with Quaternary-T Human Hemoglobin. Hemoglobin exposed to NO under anerobic
conditions [Homo sapiens]  
C 3.9e-100 284 Crystallographic Analysis of the Interaction of Nitric Oxide
with Quaternary-T Human Hemoglobin. Hemoglobin exposed to NO under anerobic
conditions [Homo sapiens]  
A 3.9e-100 284 Crystallographic Analysis of the Interaction of Nitric Oxide
with Quaternary-T Human Deoxyhemoglobin, Deoxyhemoglobin [Homo sapiens]  
C 3.9e-100 284 Crystallographic Analysis of the Interaction of Nitric Oxide
with Quaternary-T Human Deoxyhemoglobin, Deoxyhemoglobin [Homo sapiens]  
A 3.9e-100 284 Crystallographic Analysis of the Interaction of Nitric Oxide
with Quaternary-T Human Hemoglobin, HEMOGLOBIN EXPOSED TO NO UNDER AEROBIC
CONDITIONS [Homo sapiens]  
C 3.9e-100 284 Crystallographic Analysis of the Interaction of Nitric Oxide
with Quaternary-T Human Hemoglobin, HEMOGLOBIN EXPOSED TO NO UNDER AEROBIC
CONDITIONS [Homo sapiens]  
A 3.9e-100 284 Crystallographic Analysis of the Interaction of Nitric Oxide
with Quaternary-T Human Hemoglobin. Beta W73E hemoglobin exposed to NO under
anaerobic conditions [Homo sapiens]  
C 3.9e-100 284 Crystallographic Analysis of the Interaction of Nitric Oxide
with Quaternary-T Human Hemoglobin. Beta W73E hemoglobin exposed to NO under
anaerobic conditions [Homo sapiens]  
A 3.9e-100 284 Cross-linked, Carbonmonoxy Hemoglobin A [Homo sapiens]  
C 3.9e-100 284 Cross-linked, Carbonmonoxy Hemoglobin A [Homo sapiens]  
A 3.9e-100 284 Cross-Linked, Carbonmonoxy Hemoglobin A [Homo sapiens]  
C 3.9e-100 284 Cross-Linked, Carbonmonoxy Hemoglobin A [Homo sapiens]  
A 3.9e-100 284 Crystal structure of ferrocyanide bound human hemoglobin A2 at
1.88A resolution [Homo sapiens]  
C 3.9e-100 284 Crystal structure of ferrocyanide bound human hemoglobin A2 at
1.88A resolution [Homo sapiens]  
A 3.9e-100 284 Crystal structure of Human hemoglobin A2 (in R2 state) at 2.2 A
resolution [Homo sapiens]  
C 3.9e-100 284 Crystal structure of Human hemoglobin A2 (in R2 state) at 2.2 A
resolution [Homo sapiens]  
A 3.9e-100 284 Refinement Of A Partially Oxygenated T State Haemoglobin At 1.5
Angstroms Resolution [Homo sapiens]  
C 3.9e-100 284 Refinement Of A Partially Oxygenated T State Haemoglobin At 1.5
Angstroms Resolution [Homo sapiens]  
A 3.9e-100 284 Crystal Structures of Unliganded and Half-Liganded Human
Hemoglobin Derivatives Cross-Linked between Lys 82beta1 and Lys 82beta2 [Homo
sapiens]  
C 3.9e-100 284 Crystal Structures of Unliganded and Half-Liganded Human
Hemoglobin Derivatives Cross-Linked between Lys 82beta1 and Lys 82beta2 [Homo
sapiens]  
E 3.9e-100 284 Crystal Structures of Unliganded and Half-Liganded Human
Hemoglobin Derivatives Cross-Linked between Lys 82beta1 and Lys 82beta2 [Homo
sapiens]  
G 3.9e-100 284 Crystal Structures of Unliganded and Half-Liganded Human
Hemoglobin Derivatives Cross-Linked between Lys 82beta1 and Lys 82beta2 [Homo
sapiens]  
A 3.9e-100 284 The T-to-T High Transitions in Human Hemoglobin: wild-type
deoxy Hb A (low salt, one test set) [Homo sapiens]  
C 3.9e-100 284 The T-to-T High Transitions in Human Hemoglobin: wild-type
deoxy Hb A (low salt, one test set) [Homo sapiens]  
A 3.9e-100 284 wild-type hemoglobin deoxy no-salt [Homo sapiens]  
C 3.9e-100 284 wild-type hemoglobin deoxy no-salt [Homo sapiens]  
A 3.9e-100 284 T-to-T(High) Quaternary Transitions in Human Hemoglobin:
betaV1M deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-to-T(High) Quaternary Transitions in Human Hemoglobin:
betaV1M deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-to-THigh quaternary Transitions in Human Hemoglobin: betaV1M
deoxy low-salt (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-to-THigh quaternary Transitions in Human Hemoglobin: betaV1M
deoxy low-salt (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaV33A deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaV33A deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaV34G deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaV34G deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaY35A deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaY35A deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaY35F deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaY35F deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(high) quaternary transitions in human hemoglobin:
betaP36A deoxy low-salt (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(high) quaternary transitions in human hemoglobin:
betaP36A deoxy low-salt (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37Y deoxy low-salt (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37Y deoxy low-salt (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37H deoxy low-salt (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37H deoxy low-salt (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37A deoxy low-salt (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37A deoxy low-salt (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37G deoxy low-salt (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37G deoxy low-salt (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(high) quaternary transitions in human hemoglobin:
betaW37E deoxy low-salt (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(high) quaternary transitions in human hemoglobin:
betaW37E deoxy low-salt (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaF42A deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaF42A deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaF45A deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaF45A deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaC93A deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaC93A deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaL96A deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaL96A deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaH97A deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaH97A deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaD99A deoxy low-salt (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaD99A deoxy low-salt (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaP100A deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaP100A deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaP100G deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaP100G deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(high) quaternary transitions in human hemoglobin:
betaN102A deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(high) quaternary transitions in human hemoglobin:
betaN102A deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaN108A deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaN108A deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaY145G deoxy low-salt (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaY145G deoxy low-salt (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
desHIS146beta deoxy low-salt [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
desHIS146beta deoxy low-salt [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaV33A oxy (2MM IHP, 20% PEG) (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaV33A oxy (2MM IHP, 20% PEG) (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaY35A oxy (2MM IHP, 20% PEG) (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaY35A oxy (2MM IHP, 20% PEG) (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaY35F oxy (2MM IHP, 20% PEG) (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaY35F oxy (2MM IHP, 20% PEG) (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaP36A oxy (2MM IHP, 20% PEG) (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaP36A oxy (2MM IHP, 20% PEG) (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37A OXY (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37A OXY (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37Y OXY (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37Y OXY (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37G OXY (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37G OXY (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37E OXY (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37E OXY (10 test sets) [Homo sapiens]  
A 3.9e-100 284 STRUCTURE OF HUMAN CARBONMONOXYHEMOGLOBIN C (BETA E6K): TWO
QUATERNARY STATES (R2 and R3) IN ONE CRYSTAL [Homo sapiens]  
C 3.9e-100 284 STRUCTURE OF HUMAN CARBONMONOXYHEMOGLOBIN C (BETA E6K): TWO
QUATERNARY STATES (R2 and R3) IN ONE CRYSTAL [Homo sapiens]  
E 3.9e-100 284 STRUCTURE OF HUMAN CARBONMONOXYHEMOGLOBIN C (BETA E6K): TWO
QUATERNARY STATES (R2 and R3) IN ONE CRYSTAL [Homo sapiens]  
G 3.9e-100 284 STRUCTURE OF HUMAN CARBONMONOXYHEMOGLOBIN C (BETA E6K): TWO
QUATERNARY STATES (R2 and R3) IN ONE CRYSTAL [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37H OXY (2MM IHP, 20% PEG) (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37H OXY (2MM IHP, 20% PEG) (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37E alpha zinc beta oxy (10 TEST SETS) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin:
betaW37E alpha zinc beta oxy (10 TEST SETS) [Homo sapiens]  
A 3.9e-100 284 T-to-T(high) quaternary transitions in human hemoglobin:
betaH97A oxy (2MM IHP, 20% PEG) (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-to-T(high) quaternary transitions in human hemoglobin:
betaH97A oxy (2MM IHP, 20% PEG) (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-to-T(High) quaternary transitions in human hemoglobin: HbA
OXY (2MM IHP, 20% PEG) (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-to-T(High) quaternary transitions in human hemoglobin: HbA
OXY (2MM IHP, 20% PEG) (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin: HbA
OXY (5.0MM IHP, 20% PEG) (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin: HbA
OXY (5.0MM IHP, 20% PEG) (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin: HbA
OXY (10.0MM IHP, 20% PEG) (10 test sets) [Homo sapiens]  
C 3.9e-100 284 T-To-T(High) quaternary transitions in human hemoglobin: HbA
OXY (10.0MM IHP, 20% PEG) (10 test sets) [Homo sapiens]  
A 3.9e-100 284 T-to-thigh quaternary transitions in human hemoglobin: betaW37A
oxy (2.2MM IHP, 13% PEG) (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-to-thigh quaternary transitions in human hemoglobin: betaW37A
oxy (2.2MM IHP, 13% PEG) (1 test set) [Homo sapiens]  
A 3.9e-100 284 T-to-T(High) quaternary transitions in human hemoglobin:
betaP100A oxy (2.2MM IHP, 20% PEG) (1 test set) [Homo sapiens]  
C 3.9e-100 284 T-to-T(High) quaternary transitions in human hemoglobin:
betaP100A oxy (2.2MM IHP, 20% PEG) (1 test set) [Homo sapiens]  
A 3.9e-100 284 The low salt (PEG) crystal structure of CO Hemoglobin E
(betaE26K) approaching physiological pH (pH 7.5) [Homo sapiens]  
C 3.9e-100 284 The low salt (PEG) crystal structure of CO Hemoglobin E
(betaE26K) approaching physiological pH (pH 7.5) [Homo sapiens]  
A 3.9e-100 284 The high salt (phosphate) crystal structure of CO Hemoglobin E
(Glu26Lys) at physiological pH (pH 7.35) [Homo sapiens]  
A 3.9e-100 284 A novel quaternary structure of human carbonmonoxy hemoglobin
[Homo sapiens]  
A 3.9e-100 284 Crystal structure of T-state human hemoglobin complexed with
three L35 molecules [Homo sapiens]  
C 3.9e-100 284 Crystal structure of T-state human hemoglobin complexed with
three L35 molecules [Homo sapiens]  
A 3.9e-100 284 Crystal structure of deoxy human hemoglobin complexed with two
L35 molecules [Homo sapiens]  
C 3.9e-100 284 Crystal structure of deoxy human hemoglobin complexed with two
L35 molecules [Homo sapiens]  
A 3.9e-100 284 1.25A resolution crystal structure of human hemoglobin in the
oxy form [Homo sapiens]  
A 3.9e-100 284 1.25A resolution crystal structure of human hemoglobin in the
deoxy form [Homo sapiens]  
C 3.9e-100 284 1.25A resolution crystal structure of human hemoglobin in the
deoxy form [Homo sapiens]  
A 3.9e-100 284 1.25A resolution crystal structure of human hemoglobin in the
carbonmonoxy form [Homo sapiens]  
A 3.9e-100 284 Neutron Structure Analysis of Deoxy Human Hemoglobin [Homo
sapiens]  
C 3.9e-100 284 Neutron Structure Analysis of Deoxy Human Hemoglobin [Homo
sapiens]  
A 3.9e-100 284 Solution structure of Human normal adult hemoglobin [Homo
sapiens]  
C 3.9e-100 284 Solution structure of Human normal adult hemoglobin [Homo
sapiens]  
A 3.9e-100 284 HIGH RESOLUTION X-RAY STRUCTURES OF MYOGLOBIN-AND HEMOGLOBIN-
ALKYL ISOCYANIDE COMPLEXES [Homo sapiens]  
A 3.9e-100 284 HIGH RESOLUTION X-RAY STRUCTURES OF MYOGLOBIN-AND HEMOGLOBIN-
ALKYL ISOCYANIDE COMPLEXES [Homo sapiens]  
A 3.9e-100 284 HIGH RESOLUTION X-RAY STRUCTURES OF MYOGLOBIN-AND HEMOGLOBIN-
ALKYL ISOCYANIDE COMPLEXES [Homo sapiens]  
A 3.9e-100 284 HIGH RESOLUTION X-RAY STRUCTURES OF MYOGLOBIN-AND HEMOGLOBIN-
ALKYL ISOCYANIDE COMPLEXES [Homo sapiens]  
A 3.9e-100 284 The High Resolution Crystal Structure Of Deoxyhemoglobin S
[Homo sapiens]  
C 3.9e-100 284 The High Resolution Crystal Structure Of Deoxyhemoglobin S
[Homo sapiens]  
E 3.9e-100 284 The High Resolution Crystal Structure Of Deoxyhemoglobin S
[Homo sapiens]  
G 3.9e-100 284 The High Resolution Crystal Structure Of Deoxyhemoglobin S
[Homo sapiens]  
A 3.9e-100 284 The Structure Of Human Carbonmonoxy Haemoglobin At 2.7
Angstroms Resolution [Homo sapiens]  
A 3.9e-100 284 The Crystal Structure Of Human Deoxyhaemoglobin At 1.74
Angstroms Resolution [Homo sapiens]  
C 3.9e-100 284 The Crystal Structure Of Human Deoxyhaemoglobin At 1.74
Angstroms Resolution [Homo sapiens]  
A 3.9e-100 284 Oxygen Affinity Modulation By The N-Termini Of The Beta- Chains
In Human And Bovine Hemoglobin [Homo sapiens]  
C 3.9e-100 284 Oxygen Affinity Modulation By The N-Termini Of The Beta- Chains
In Human And Bovine Hemoglobin [Homo sapiens]  
A 3.9e-100 284 Oxygen Affinity Modulation By The N-Termini Of The Beta Chains
In Human And Bovine Hemoglobin [Homo sapiens]  
C 3.9e-100 284 Oxygen Affinity Modulation By The N-Termini Of The Beta Chains
In Human And Bovine Hemoglobin [Homo sapiens]  
A 3.9e-100 284 Refined solution structure of Human Adult Hemoglobin in the
Carbonmonoxy Form [Homo sapiens]  
C 3.9e-100 284 Refined solution structure of Human Adult Hemoglobin in the
Carbonmonoxy Form [Homo sapiens]  
A 3.9e-100 284 Structure of Human deoxy Hemoglobin A in complex with Xenon
[Homo sapiens]  
C 3.9e-100 284 Structure of Human deoxy Hemoglobin A in complex with Xenon
[Homo sapiens]  
A 3.9e-100 284 Human hemoglobin D Los Angeles: crystal structure [Homo
sapiens]  
C 3.9e-100 284 Human hemoglobin D Los Angeles: crystal structure [Homo
sapiens]  
I 3.9e-100 284 Human hemoglobin D Los Angeles: crystal structure [Homo
sapiens]  
M 3.9e-100 284 Human hemoglobin D Los Angeles: crystal structure [Homo
sapiens]  
A 3.9e-100 284 Crystal Structure of Glycated Human Haemoglobin [Homo sapiens]  
C 3.9e-100 284 Crystal Structure of Glycated Human Haemoglobin [Homo sapiens]  
E 3.9e-100 284 Crystal Structure of Glycated Human Haemoglobin [Homo sapiens]  
G 3.9e-100 284 Crystal Structure of Glycated Human Haemoglobin [Homo sapiens]  
S 3.9e-100 284 Crystal Structure of Glycated Human Haemoglobin [Homo sapiens]  
A 3.9e-100 284 A triply ligated crystal structure of relaxed state human
hemoglobin [Homo sapiens]  
C 3.9e-100 284 A triply ligated crystal structure of relaxed state human
hemoglobin [Homo sapiens]  
A 3.9e-100 284 Human hemoglobin, nitrogen dioxide anion modified [Homo
sapiens]  
A 3.9e-100 284 The high salt (phosphate) crystal structure of deoxy hemoglobin
E (GLU26LYS) at physiological pH (pH 7.35) [Homo sapiens]  
C 3.9e-100 284 The high salt (phosphate) crystal structure of deoxy hemoglobin
E (GLU26LYS) at physiological pH (pH 7.35) [Homo sapiens]  
A 3.9e-100 284 The Crystal Structure Of Human Deoxyhaemoglobin At 1.74
Angstroms Resolution [Homo sapiens]  
C 3.9e-100 284 The Crystal Structure Of Human Deoxyhaemoglobin At 1.74
Angstroms Resolution [Homo sapiens]  
A 3.9e-100 284 The structure of human carbonmonoxyhemoglobin complex to IHP at
2.0 angstrons resolution. [Homo sapiens]  
C 3.9e-100 284 The structure of human carbonmonoxyhemoglobin complex to IHP at
2.0 angstrons resolution. [Homo sapiens]  
A 3.9e-100 284 Crystal Structure of liganded hemoglobin in complex with a
potent antisickling agent, INN-298 [Homo sapiens]  
C 3.9e-100 284 Crystal Structure of liganded hemoglobin in complex with a
potent antisickling agent, INN-298 [Homo sapiens]  
A 3.9e-100 284 Crystal Structure of liganded hemoglobin in complex with a
potent antisickling agent, INN-266 [Homo sapiens]  
C 3.9e-100 284 Crystal Structure of liganded hemoglobin in complex with a
potent antisickling agent, INN-266 [Homo sapiens]  
A 3.9e-100 284 Room Temperature Time-of-Flight Neutron Diffraction Study of
Deoxy Human Normal Adult Hemoglobin [Homo sapiens]  
E 3.9e-100 284 Room Temperature Time-of-Flight Neutron Diffraction Study of
Deoxy Human Normal Adult Hemoglobin [Homo sapiens]  
A 3.9e-100 284 Human Hemoglobin A mutant beta H63W carbonmonoxy-form [Homo
sapiens]  
A 3.9e-100 284 Structure of a Crystal Form of Human Methemoglobin Indicative
of Fiber Formation [Homo sapiens]  
C 3.9e-100 284 Structure of a Crystal Form of Human Methemoglobin Indicative
of Fiber Formation [Homo sapiens]  
A 3.9e-100 284 Human tetrameric hemoglobin: proximal nitrite ligand at beta
[Homo sapiens]  
A 3.9e-100 284 R-state human hemoglobin: nitriheme modified at alpha [Homo
sapiens]  
A 3.9e-100 284 R-state human hemoglobin: nitriheme modified [Homo sapiens]  
C 3.9e-100 284 Crystal Structure of Human Alpha-Haemoglobin Complexed with
AHSP and the First NEAT Domain of IsdH from Staphylococcus aureus [Homo
sapiens]  
A 3.9e-100 284 Ferric R-state human aquomethemoglobin [Homo sapiens]  
A 3.9e-100 284 Human Hemoglobin A Mutant Beta H63L Carbonmonoxy-Form [Homo
sapiens]  
A 3.9e-100 284 Human Hemoglobin A Mutant Beta H63L Deoxy-Form [Homo sapiens]  
C 3.9e-100 284 Human Hemoglobin A Mutant Beta H63L Deoxy-Form [Homo sapiens]  
A 3.9e-100 284 Crystal structure of liganded Hemoglobin complexed with a
potent Antisickling agent, INN-312 [Homo sapiens]  
C 3.9e-100 284 Crystal structure of liganded Hemoglobin complexed with a
potent Antisickling agent, INN-312 [Homo sapiens]  
C 3.9e-100 284 Human Alpha-Haemoglobin Complexed with the First NEAT Domain of
IsdH from Staphylococcus aureus [Homo sapiens]  
D 3.9e-100 284 Human Alpha-Haemoglobin Complexed with the First NEAT Domain of
IsdH from Staphylococcus aureus [Homo sapiens]  
A 3.9e-100 284 Structures and oxygen affinities of crystalline human
hemoglobin C (beta6 Lys) in the R2 quaternary structures [Homo sapiens]  
C 3.9e-100 284 Structures and oxygen affinities of crystalline human
hemoglobin C (beta6 Lys) in the R2 quaternary structures [Homo sapiens]  
A 3.9e-100 284 Structures and oxygen affinities of crystalline human
hemoglobin C (beta6 Lys) in the R quaternary structures [Homo sapiens]  
A 3.9e-100 284 Crystal Structure of Human metHaemoglobin Complexed with the
First NEAT Domain of IsdH from Staphylococcus aureus [Homo sapiens]  
D 3.9e-100 284 Crystal Structure of Human metHaemoglobin Complexed with the
First NEAT Domain of IsdH from Staphylococcus aureus [Homo sapiens]  
A 3.9e-100 284 Deoxyhemoglobin SH-drug complex [Homo sapiens]  
C 3.9e-100 284 Deoxyhemoglobin SH-drug complex [Homo sapiens]  
A 3.9e-100 284 Structure of Hemoglobin Complex with 18-crown-6 [Homo sapiens]  
E 3.9e-100 284 Structure of Hemoglobin Complex with 18-crown-6 [Homo sapiens]  
A 3.9e-100 284 Crystal Structure of Human Methaemoglobin Complexed with the
Second NEAT Domain of IsdH from Staphylococcus aureus [Homo sapiens]  
A 3.9e-100 284 THE CRYSTAL STRUCTURE OF HUMAN DEOXYHAEMOGLOBIN AT 1.74
ANGSTROMS RESOLUTION [Homo sapiens]  
C 3.9e-100 284 THE CRYSTAL STRUCTURE OF HUMAN DEOXYHAEMOGLOBIN AT 1.74
ANGSTROMS RESOLUTION [Homo sapiens]  
A 3.9e-100 284 Human methemoglobin in complex with the second and third NEAT
domains of IsdH from Staphylococcus aureus [Homo sapiens]  
C 3.9e-100 284 Human methemoglobin in complex with the second and third NEAT
domains of IsdH from Staphylococcus aureus [Homo sapiens]  
A 3.9e-100 284 Deoxygenated Hb in complex with the allosteric effectors,
IRL2500 and 2,3-DPG [Homo sapiens]  
C 3.9e-100 284 Deoxygenated Hb in complex with the allosteric effectors,
IRL2500 and 2,3-DPG [Homo sapiens]  
A 3.9e-100 284 Human Hemoglobin Nitromethane Modified [Homo sapiens]  
A 3.9e-100 284 Human Hemoglobin Nitroethane Modified [Homo sapiens]  
A 3.9e-100 284 Structure of Carbonmonoxy Adult Hemoglobin Bristol-Alesha
alphawtbetaV67M [Homo sapiens]  
A 3.9e-100 284 Structure of Wild-type Fetal Human Hemoglobin HbF [Homo
sapiens]  
C 3.9e-100 284 Structure of Wild-type Fetal Human Hemoglobin HbF [Homo
sapiens]  
E 3.9e-100 284 Structure of Wild-type Fetal Human Hemoglobin HbF [Homo
sapiens]  
G 3.9e-100 284 Structure of Wild-type Fetal Human Hemoglobin HbF [Homo
sapiens]  
A 3.9e-100 284 Carbonmonoxy Structure of the Human Fetal Hemoglobin Mutant HbF
Toms River alphawtgammaV67M [Homo sapiens]  
C 3.9e-100 284 Carbonmonoxy Structure of the Human Fetal Hemoglobin Mutant HbF
Toms River alphawtgammaV67M [Homo sapiens]  
E 3.9e-100 284 Carbonmonoxy Structure of the Human Fetal Hemoglobin Mutant HbF
Toms River alphawtgammaV67M [Homo sapiens]  
G 3.9e-100 284 Carbonmonoxy Structure of the Human Fetal Hemoglobin Mutant HbF
Toms River alphawtgammaV67M [Homo sapiens]  
A 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of full-liganded human haemoglobin with
phosphate at 2.75 A resolution. [Homo sapiens]  
C 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of full-liganded human haemoglobin with
phosphate at 2.75 A resolution. [Homo sapiens]  
E 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of full-liganded human haemoglobin with
phosphate at 2.75 A resolution. [Homo sapiens]  
G 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of full-liganded human haemoglobin with
phosphate at 2.75 A resolution. [Homo sapiens]  
I 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of full-liganded human haemoglobin with
phosphate at 2.75 A resolution. [Homo sapiens]  
K 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of full-liganded human haemoglobin with
phosphate at 2.75 A resolution. [Homo sapiens]  
A 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of half-liganded human haemoglobin with
phosphate at 2.5 A resolution. [Homo sapiens]  
C 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of half-liganded human haemoglobin with
phosphate at 2.5 A resolution. [Homo sapiens]  
E 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of half-liganded human haemoglobin with
phosphate at 2.5 A resolution. [Homo sapiens]  
G 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of half-liganded human haemoglobin with
phosphate at 2.5 A resolution. [Homo sapiens]  
I 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of half-liganded human haemoglobin with
phosphate at 2.5 A resolution. [Homo sapiens]  
K 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of half-liganded human haemoglobin with
phosphate at 2.5 A resolution. [Homo sapiens]  
A 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of half-liganded human haemoglobin without
phosphate at 2.8 A resolution. [Homo sapiens]  
C 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of half-liganded human haemoglobin without
phosphate at 2.8 A resolution. [Homo sapiens]  
E 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of half-liganded human haemoglobin without
phosphate at 2.8 A resolution. [Homo sapiens]  
G 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of half-liganded human haemoglobin without
phosphate at 2.8 A resolution. [Homo sapiens]  
I 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of half-liganded human haemoglobin without
phosphate at 2.8 A resolution. [Homo sapiens]  
K 3.9e-100 284 Capturing the haemoglobin allosteric transition in a single
crystal form; Crystal structure of half-liganded human haemoglobin without
phosphate at 2.8 A resolution. [Homo sapiens]  
A 3.9e-100 284 Human hemoglobin nitric oxide adduct [Homo sapiens]  
A 3.9e-100 284 Quaternary R3 CO-liganded hemoglobin structure in complex with
a thiol containing compound [Homo sapiens]  
A 3.9e-100 284 Qauternary R CO-liganded hemoglobin structure in complex with a
thiol containing compound [Homo sapiens]  
A 3.9e-100 284 Deoxyhemoglobin in complex with imidazolylacryloyl derivatives
[Homo sapiens]  
C 3.9e-100 284 Deoxyhemoglobin in complex with imidazolylacryloyl derivatives
[Homo sapiens]  
A 3.9e-100 284 Deoxyhemoglobin in complex with imidazolylacryloyl derivatives
[Homo sapiens]  
C 3.9e-100 284 Deoxyhemoglobin in complex with imidazolylacryloyl derivatives
[Homo sapiens]  
A 3.9e-100 284 Structure of T. brucei haptoglobin-hemoglobin receptor binding
to human haptoglobin-hemoglobin [Homo sapiens]  
F 3.9e-100 284 Structure of T. brucei haptoglobin-hemoglobin receptor binding
to human haptoglobin-hemoglobin [Homo sapiens]  
K 3.9e-100 284 Structure of T. brucei haptoglobin-hemoglobin receptor binding
to human haptoglobin-hemoglobin [Homo sapiens]  
P 3.9e-100 284 Structure of T. brucei haptoglobin-hemoglobin receptor binding
to human haptoglobin-hemoglobin [Homo sapiens]  
U 3.9e-100 284 Structure of T. brucei haptoglobin-hemoglobin receptor binding
to human haptoglobin-hemoglobin [Homo sapiens]  
Z 3.9e-100 284 Structure of T. brucei haptoglobin-hemoglobin receptor binding
to human haptoglobin-hemoglobin [Homo sapiens]  
A 3.9e-100 284 Human haptoglobin-haemoglobin complex [Homo sapiens]  
A 3.9e-100 284 Human methemoglobin in complex with the second and third NEAT
domains of IsdH(F365Y/A369F/Y642A) from Staphylococcus aureus [Homo sapiens]  
A 3.9e-100 284 Crystal Structure of Deoxygenated Hemoglobin in Complex with an
Allosteric Effector and Nitric Oxide [Homo sapiens]  
C 3.9e-100 284 Crystal Structure of Deoxygenated Hemoglobin in Complex with an
Allosteric Effector and Nitric Oxide [Homo sapiens]  
A 3.9e-100 284 Crystal Structure of Carbonmonoxy Sickle Hemoglobin in R-State
Conformation [Homo sapiens]  
A 3.9e-100 284 CRYSTAL STRUCTURE OF CARBONMONOXY HEMOGLOBIN S (LIGANDED SICKLE
CELL HEMOGLOBIN) COMPLEXED WITH GBT440, CO-CRYSTALLIZATION EXPERIMENT [Homo
sapiens]  
C 3.9e-100 284 CRYSTAL STRUCTURE OF CARBONMONOXY HEMOGLOBIN S (LIGANDED SICKLE
CELL HEMOGLOBIN) COMPLEXED WITH GBT440, CO-CRYSTALLIZATION EXPERIMENT [Homo
sapiens]  
C 3.9e-100 284 The crystal structure of HpuA from Kingella denitrificans in
complex with human haemoglobin [Homo sapiens]  
E 3.9e-100 284 The crystal structure of HpuA from Kingella denitrificans in
complex with human haemoglobin [Homo sapiens]  
A 3.9e-100 284 Structure of the T. brucei haptoglobin-haemoglobin receptor
bound to human haptolgobin-haemoglobin [Homo sapiens]  
A 3.9e-100 284 Glycation restrains allosteric transition in hemoglobin: The
molecular basis of oxidative stress under hyperglycemic conditions in diabetes
[Homo sapiens]  
C 3.9e-100 284 Glycation restrains allosteric transition in hemoglobin: The
molecular basis of oxidative stress under hyperglycemic conditions in diabetes
[Homo sapiens]  
E 3.9e-100 284 Glycation restrains allosteric transition in hemoglobin: The
molecular basis of oxidative stress under hyperglycemic conditions in diabetes
[Homo sapiens]  
G 3.9e-100 284 Glycation restrains allosteric transition in hemoglobin: The
molecular basis of oxidative stress under hyperglycemic conditions in diabetes
[Homo sapiens]  
S 3.9e-100 284 Glycation restrains allosteric transition in hemoglobin: The
molecular basis of oxidative stress under hyperglycemic conditions in diabetes
[Homo sapiens]  
C 3.9e-100 284 T. congolense haptoglobin-haemoglobin receptor in complex with
haemoglobin [Homo sapiens]  
A 3.9e-100 284 Deoxyhemoglobin in Complex with an Aryloxyalkanoic acid [Homo
sapiens]  
C 3.9e-100 284 Deoxyhemoglobin in Complex with an Aryloxyalkanoic acid [Homo
sapiens]  
A 3.9e-100 284 Crystal structure of deoxygenated hemoglobin in complex with
sphingosine phosphate and 2,3-Bisphosphoglycerate [Homo sapiens]  
C 3.9e-100 284 Crystal structure of deoxygenated hemoglobin in complex with
sphingosine phosphate and 2,3-Bisphosphoglycerate [Homo sapiens]  
A 3.9e-100 284 Crystal structure of deoxygenated hemoglobin in complex with
Sphingosine phosphate [Homo sapiens]  
C 3.9e-100 284 Crystal structure of deoxygenated hemoglobin in complex with
Sphingosine phosphate [Homo sapiens]  
A 3.9e-100 284 CryoEM structure of haemoglobin at 3.2 A determined with the
Volta phase plate [Homo sapiens]  
C 3.9e-100 284 CryoEM structure of haemoglobin at 3.2 A determined with the
Volta phase plate [Homo sapiens]  
A 3.9e-100 284 CRYSTAL STRUCTURE OF CARBONMONOXY HEMOGLOBIN S (LIGANDED SICKLE
CELL HEMOGLOBIN) COMPLEXED WITH GBT compound 31 [Homo sapiens]  
C 3.9e-100 284 CRYSTAL STRUCTURE OF CARBONMONOXY HEMOGLOBIN S (LIGANDED SICKLE
CELL HEMOGLOBIN) COMPLEXED WITH GBT compound 31 [Homo sapiens]  
A 3.9e-100 284 STRUCTURAL AND MECHANISTIC INSIGHTS INTO HEMOGLOBIN-CATALYZED
HYDROGEN SULFIDE OXIDATION AND THE FATE OF POLYSULFIDE PRODUCTS [Homo sapiens]  
A 3.9e-100 284 Crystal Structure of Carbonmonoxy Hemoglobin S (Liganded Sickle
Cell Hemoglobin) Complexed with GBT Compound 6 [Homo sapiens]  
C 3.9e-100 284 Crystal Structure of Carbonmonoxy Hemoglobin S (Liganded Sickle
Cell Hemoglobin) Complexed with GBT Compound 6 [Homo sapiens]  
A 3.9e-100 284 Design, Synthesis, Functional and Biological Evaluation of
Ether and Ester Derivatives of the Antisickling Agent 5-HMF for the Treatment
of Sickle Cell Disease [Homo sapiens]  
C 3.9e-100 284 Design, Synthesis, Functional and Biological Evaluation of
Ether and Ester Derivatives of the Antisickling Agent 5-HMF for the Treatment
of Sickle Cell Disease [Homo sapiens]  
A 3.9e-100 284 Staphylococcus aureus IsdB bound to human hemoglobin [Homo
sapiens]  
C 3.9e-100 284 Staphylococcus aureus IsdB bound to human hemoglobin [Homo
sapiens]  
A 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 10 mM
phosphate pH 6.9. [Homo sapiens]  
C 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 10 mM
phosphate pH 6.9. [Homo sapiens]  
E 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 10 mM
phosphate pH 6.9. [Homo sapiens]  
G 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 10 mM
phosphate pH 6.9. [Homo sapiens]  
I 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 10 mM
phosphate pH 6.9. [Homo sapiens]  
K 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 10 mM
phosphate pH 6.9. [Homo sapiens]  
A 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 4 mM
bezafibrate pH 6.5. [Homo sapiens]  
C 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 4 mM
bezafibrate pH 6.5. [Homo sapiens]  
E 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 4 mM
bezafibrate pH 6.5. [Homo sapiens]  
G 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 4 mM
bezafibrate pH 6.5. [Homo sapiens]  
I 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 4 mM
bezafibrate pH 6.5. [Homo sapiens]  
K 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 4 mM
bezafibrate pH 6.5. [Homo sapiens]  
A 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 4 mM
bezafibrate pH 7.2. [Homo sapiens]  
C 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 4 mM
bezafibrate pH 7.2. [Homo sapiens]  
E 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 4 mM
bezafibrate pH 7.2. [Homo sapiens]  
G 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 4 mM
bezafibrate pH 7.2. [Homo sapiens]  
I 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 4 mM
bezafibrate pH 7.2. [Homo sapiens]  
K 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 4 mM
bezafibrate pH 7.2. [Homo sapiens]  
A 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 80 mM
phosphate pH 6.7. [Homo sapiens]  
C 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 80 mM
phosphate pH 6.7. [Homo sapiens]  
E 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 80 mM
phosphate pH 6.7. [Homo sapiens]  
G 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 80 mM
phosphate pH 6.7. [Homo sapiens]  
I 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 80 mM
phosphate pH 6.7. [Homo sapiens]  
K 3.9e-100 284 Direct Observation of Conformational Population Shifts in
Hemoglobin: Crystal Structure of Half-Liganded Hemoglobin after Adding 80 mM
phosphate pH 6.7. [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy hemoglobin in complex with the antisickling agent
5-methoxy-2-(pyridin-2-ylmethoxy)benzaldehyde (INN310) [Homo sapiens]  
C 3.9e-100 284 Carbonmonoxy hemoglobin in complex with the antisickling agent
5-methoxy-2-(pyridin-2-ylmethoxy)benzaldehyde (INN310) [Homo sapiens]  
A 3.9e-100 284 Crystal structure of Deoxy Hemoglobin in complex with beta
Cys93 modifying agent, TD3 [Homo sapiens]  
C 3.9e-100 284 Crystal structure of Deoxy Hemoglobin in complex with beta
Cys93 modifying agent, TD3 [Homo sapiens]  
A 3.9e-100 284 Crystal structure of carboxyhemoglobin in complex with beta
Cys93 modifying agent, TD3 [Homo sapiens]  
A 3.9e-100 284 Rational Modification of Vanillin Derivatives to
Stereospecifically Destabilize Sickle Hemoglobin Polymer Formation [Homo
sapiens]  
C 3.9e-100 284 Rational Modification of Vanillin Derivatives to
Stereospecifically Destabilize Sickle Hemoglobin Polymer Formation [Homo
sapiens]  
A 3.9e-100 284 Crystal structure of deoxy-human hemoglobin beta6 glu-  
C 3.9e-100 284 Crystal structure of deoxy-human hemoglobin beta6 glu-  
A 3.9e-100 284 Crystal structure of ferric R-state human methemoglobin bound
to maleimide-deferoxamine bifunctional chelator (DFO) [Homo sapiens]  
C 3.9e-100 284 Crystal structure of ferric R-state human methemoglobin bound
to maleimide-deferoxamine bifunctional chelator (DFO) [Homo sapiens]  
A 3.9e-100 284 Closslinked alpha(Fe-CO)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Dark [Homo sapiens]  
C 3.9e-100 284 Closslinked alpha(Fe-CO)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Dark [Homo sapiens]  
E 3.9e-100 284 Closslinked alpha(Fe-CO)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Dark [Homo sapiens]  
G 3.9e-100 284 Closslinked alpha(Fe-CO)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Dark [Homo sapiens]  
A 3.9e-100 284 Closslinked alpha(Fe-CO)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Light [Homo sapiens]  
C 3.9e-100 284 Closslinked alpha(Fe-CO)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Light [Homo sapiens]  
E 3.9e-100 284 Closslinked alpha(Fe-CO)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Light [Homo sapiens]  
G 3.9e-100 284 Closslinked alpha(Fe-CO)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Light [Homo sapiens]  
A 3.9e-100 284 Closslinked alpha(Ni)-beta(Fe-CO) human hemoglobin A in the T
quaternary structure at 95 K: Dark [Homo sapiens]  
C 3.9e-100 284 Closslinked alpha(Ni)-beta(Fe-CO) human hemoglobin A in the T
quaternary structure at 95 K: Dark [Homo sapiens]  
E 3.9e-100 284 Closslinked alpha(Ni)-beta(Fe-CO) human hemoglobin A in the T
quaternary structure at 95 K: Dark [Homo sapiens]  
G 3.9e-100 284 Closslinked alpha(Ni)-beta(Fe-CO) human hemoglobin A in the T
quaternary structure at 95 K: Dark [Homo sapiens]  
A 3.9e-100 284 Closslinked alpha(Ni)-beta(Fe) human hemoglobin A in the T
quaternary structure at 95 K: Light [Homo sapiens]  
C 3.9e-100 284 Closslinked alpha(Ni)-beta(Fe) human hemoglobin A in the T
quaternary structure at 95 K: Light [Homo sapiens]  
E 3.9e-100 284 Closslinked alpha(Ni)-beta(Fe) human hemoglobin A in the T
quaternary structure at 95 K: Light [Homo sapiens]  
G 3.9e-100 284 Closslinked alpha(Ni)-beta(Fe) human hemoglobin A in the T
quaternary structure at 95 K: Light [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy human hemoglobin C in the R quaternary structure
at 95 K: Dark [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy human hemoglobin C in the R quaternary structure
at 95 K: Light [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy human hemoglobin C in the R quaternary structure
at 140 K: Dark [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy human hemoglobin C in the R quaternary structure
at 140 K: Light [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy human hemoglobin A in the R2 quaternary structure
at 95 K: Dark [Homo sapiens]  
C 3.9e-100 284 Carbonmonoxy human hemoglobin A in the R2 quaternary structure
at 95 K: Dark [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy human hemoglobin A in the R2 quaternary structure
at 95 K: Light [Homo sapiens]  
C 3.9e-100 284 Carbonmonoxy human hemoglobin A in the R2 quaternary structure
at 95 K: Light [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy human hemoglobin A in the R2 quaternary structure
at 140 K: Dark [Homo sapiens]  
C 3.9e-100 284 Carbonmonoxy human hemoglobin A in the R2 quaternary structure
at 140 K: Dark [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy human hemoglobin A in the R2 quaternary structure
at 140 K: Light [Homo sapiens]  
C 3.9e-100 284 Carbonmonoxy human hemoglobin A in the R2 quaternary structure
at 140 K: Light [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy human hemoglobin C in the R quaternary structure
at 95 K: Light (2 min) [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy human hemoglobin C in the R quaternary structure
at 140 K: Light (2 min) [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy human hemoglobin A in the R2 quaternary structure
at 95 K: Light (2 min) [Homo sapiens]  
C 3.9e-100 284 Carbonmonoxy human hemoglobin A in the R2 quaternary structure
at 95 K: Light (2 min) [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy human hemoglobin A in the R2 quaternary structure
at 140 K: Light (2 min) [Homo sapiens]  
C 3.9e-100 284 Carbonmonoxy human hemoglobin A in the R2 quaternary structure
at 140 K: Light (2 min) [Homo sapiens]  
A 3.9e-100 284 Closslinked alpha(Ni)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Dark [Homo sapiens]  
C 3.9e-100 284 Closslinked alpha(Ni)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Dark [Homo sapiens]  
E 3.9e-100 284 Closslinked alpha(Ni)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Dark [Homo sapiens]  
G 3.9e-100 284 Closslinked alpha(Ni)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Dark [Homo sapiens]  
A 3.9e-100 284 Closslinked alpha(Ni)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Light [Homo sapiens]  
C 3.9e-100 284 Closslinked alpha(Ni)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Light [Homo sapiens]  
E 3.9e-100 284 Closslinked alpha(Ni)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Light [Homo sapiens]  
G 3.9e-100 284 Closslinked alpha(Ni)-beta(Ni) human hemoglobin A in the T
quaternary structure at 95 K: Light [Homo sapiens]  
A 3.9e-100 284 human (alpha met/beta hemichrome) hemoglobin with S-nitrosation
at beta-Cys93 [Homo sapiens]  
A 3.9e-100 284 Structure of human haptoglobin-hemoglobin bound to S. aureus
IsdH [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy hemoglobin in complex with the antisickling agent
2-hydroxy-6-((6-(hydroxymethyl)pyridin-2-yl)methoxy)benzaldehyde (VZHE039)
[Homo sapiens]  
C 3.9e-100 284 Carbonmonoxy hemoglobin in complex with the antisickling agent
2-hydroxy-6-((6-(hydroxymethyl)pyridin-2-yl)methoxy)benzaldehyde (VZHE039)
[Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy hemoglobin in complex with the antisickling agent
methyl 5-((2-formyl-4-methoxyphenoxy)methyl)picolinate [Homo sapiens]  
C 3.9e-100 284 Carbonmonoxy hemoglobin in complex with the antisickling agent
methyl 5-((2-formyl-4-methoxyphenoxy)methyl)picolinate [Homo sapiens]  
A 3.9e-100 284 Carbonmonoxy hemoglobin in complex with the antisickling agent
methyl 2-((2-formyl-3-hydroxyphenoxy)methyl)nicotinate [Homo sapiens]  
C 3.9e-100 284 Carbonmonoxy hemoglobin in complex with the antisickling agent
methyl 2-((2-formyl-3-hydroxyphenoxy)methyl)nicotinate [Homo sapiens]  
A 3.9e-100 284 Human Hemoglobin in Complex with Nitrosoamphetamine [Homo
sapiens]  
C 3.9e-100 284 Human Hemoglobin in Complex with Nitrosoamphetamine [Homo
sapiens]  
A 4.0e-100 284 Hemoglobin (Alpha + Met) Variant [Homo sapiens]  
C 4.0e-100 284 Hemoglobin (Alpha + Met) Variant [Homo sapiens]  
B 4.0e-100 284 Crystal structure of AHSP bound to Fe(II) alpha-hemoglobin
[Homo sapiens]  
B 4.0e-100 284 Crystal structure of oxidized alpha hemoglobin bound to AHSP
[Homo sapiens]  
D 4.0e-100 284 Crystal structure of oxidized alpha hemoglobin bound to AHSP
[Homo sapiens]  
A 4.0e-100 284 The crystal structure of recombinant human adult hemoglobin
[Homo sapiens]  
C 4.0e-100 284 The crystal structure of recombinant human adult hemoglobin
[Homo sapiens]  
E 4.0e-100 284 The crystal structure of recombinant human adult hemoglobin
[Homo sapiens]  
G 4.0e-100 284 The crystal structure of recombinant human adult hemoglobin
[Homo sapiens]  
I 4.0e-100 284 The crystal structure of recombinant human adult hemoglobin
[Homo sapiens]  
K 4.0e-100 284 The crystal structure of recombinant human adult hemoglobin
[Homo sapiens]  
B 5.3e-100 283 A cis-proline in alpha-hemoglobin stabilizing Protein directs
the structural reorganization of alpha-hemoglobin [Homo sapiens]  
D 5.3e-100 283 A cis-proline in alpha-hemoglobin stabilizing Protein directs
the structural reorganization of alpha-hemoglobin [Homo sapiens]  
A 9.7e-100 283 R-State Human Carbonmonoxyhemoglobin Alpha-A53s [Homo sapiens]  
A 1.1e-99 283 Hemoglobin (Alpha V1m) Mutant [Homo sapiens]  
C 1.1e-99 283 Hemoglobin (Alpha V1m) Mutant [Homo sapiens]  
A 1.1e-99 283 DEOXY RHB1.0 (RECOMBINANT HEMOGLOBIN) [Homo sapiens]  
C 1.1e-99 283 DEOXY RHB1.0 (RECOMBINANT HEMOGLOBIN) [Homo sapiens]  
A 1.1e-99 283 Crystal structure of deoxy HbbetaYQ, a site directed mutant of
HbA [Homo sapiens]  
C 1.1e-99 283 Crystal structure of deoxy HbbetaYQ, a site directed mutant of
HbA [Homo sapiens]  
A 1.1e-99 283 Deoxy hemoglobin (A,C:V1M; B,D:V1M,V67W) [Homo sapiens]  
C 1.1e-99 283 Deoxy hemoglobin (A,C:V1M; B,D:V1M,V67W) [Homo sapiens]  
A 1.1e-99 283 Carbonmonoxy Structure of Hemoglobin Evans alphaV62Mbetawt [Homo
sapiens]  
A 1.4e-99 282 Structure of the Human Hemoglobin Mutant Hb Providence
(A-Gly-C:V1M; B,D:V1M,K82D; Ferrous, carbonmonoxy bound) [Homo sapiens]  
A 1.6e-99 282 Hemoglobin Thionville: An Alpha-Chain Variant With A
Substitution Of A Glutamate For Valine At Na-1 And Having An Acetylated
Methionine Nh2 Terminus [Homo sapiens]  
C 1.6e-99 282 Hemoglobin Thionville: An Alpha-Chain Variant With A
Substitution Of A Glutamate For Valine At Na-1 And Having An Acetylated
Methionine Nh2 Terminus [Homo sapiens]  
A 3.5e-99 281 Deoxy hemoglobin (A,C:V1M,V62L; B,D:V1M,V67L) [Homo sapiens]  
C 3.5e-99 281 Deoxy hemoglobin (A,C:V1M,V62L; B,D:V1M,V67L) [Homo sapiens]  
A 3.8e-99 281 Artificial Mutant (Alpha Y42h) Of Deoxy Hemoglobin [Homo
sapiens]  
C 3.8e-99 281 Artificial Mutant (Alpha Y42h) Of Deoxy Hemoglobin [Homo
sapiens]  
A 4.0e-99 281 T-to-THigh Quaternary Transitions in Human Hemoglobin:
desArg141alpha deoxy low-salt [Homo sapiens]  
C 4.0e-99 281 T-to-THigh Quaternary Transitions in Human Hemoglobin:
desArg141alpha deoxy low-salt [Homo sapiens]  
A 4.0e-99 281 Structure of Aquomet Hemoglobin Bristol-Alesha alphawtbetaV67M
[Homo sapiens]  
E 4.0e-99 281 T. congolense haptoglobin-haemoglobin receptor in complex with
haemoglobin [Homo sapiens]  
A 4.0e-99 281 human methemoglobin state 1 determined using single-particle
cryo-EM at 200 keV [Homo sapiens]  
C 4.0e-99 281 human methemoglobin state 1 determined using single-particle
cryo-EM at 200 keV [Homo sapiens]  
A 4.0e-99 281 Human methemoglobin state 2 determined using single-particle
cryo-EM at 200 keV [Homo sapiens]  
C 4.0e-99 281 Human methemoglobin state 2 determined using single-particle
cryo-EM at 200 keV [Homo sapiens]  
A 4.5e-99 281 T-to-THigh Quaternary Transitions in Human Hemoglobin:
alphaY140F deoxy low-salt [Homo sapiens]  
C 4.5e-99 281 T-to-THigh Quaternary Transitions in Human Hemoglobin:
alphaY140F deoxy low-salt [Homo sapiens]  
A 4.5e-99 281 T-To-T(High) quaternary transitions in human hemoglobin:
alphaY140F oxy (2MM IHP, 20% PEG) (1 test set) [Homo sapiens]  
C 4.5e-99 281 T-To-T(High) quaternary transitions in human hemoglobin:
alphaY140F oxy (2MM IHP, 20% PEG) (1 test set) [Homo sapiens]  
A 5.5e-99 281 R State Human Hemoglobin [alpha V96w], Carbonmonoxy [Homo
sapiens]  
A 5.5e-99 281 T State Human Hemoglobin [alpha V96w], Alpha Aquomet, Beta Deoxy
[Homo sapiens]  
C 5.5e-99 281 T State Human Hemoglobin [alpha V96w], Alpha Aquomet, Beta Deoxy
[Homo sapiens]  
A 6.2e-99 281 Crystal structure of oxy-human hemoglobin Bassett at 2.15
angstrom [Homo sapiens]  
A 6.2e-99 281 Crystal structure of deoxy-human hemoglobin Bassett at 1.8
angstrom [Homo sapiens]  
C 6.2e-99 281 Crystal structure of deoxy-human hemoglobin Bassett at 1.8
angstrom [Homo sapiens]  
A 6.5e-99 281 T-to-THigh Quaternary Transitions in Human Hemoglobin: alphaL91A
deoxy low-salt [Homo sapiens]  
C 6.5e-99 281 T-to-THigh Quaternary Transitions in Human Hemoglobin: alphaL91A
deoxy low-salt [Homo sapiens]  
A 7.8e-99 280 Human Hemoglobin A mutant alpha H58W deoxy-form [Homo sapiens]  
C 7.8e-99 280 Human Hemoglobin A mutant alpha H58W deoxy-form [Homo sapiens]  
A 9.2e-99 280 T-to-THigh Transitions in Human Hemoglobin: alphaK40G deoxy low-
salt [Homo sapiens]  
C 9.2e-99 280 T-to-THigh Transitions in Human Hemoglobin: alphaK40G deoxy low-
salt [Homo sapiens]  
A 1.0e-98 280 Human Hemoglobin A Mutant Alpha H58L Carbonmonoxy-Form [Homo
sapiens]  
A 1.0e-98 280 Human Hemoglobin A Mutant Alpha H58L Deoxy-Form [Homo sapiens]  
C 1.0e-98 280 Human Hemoglobin A Mutant Alpha H58L Deoxy-Form [Homo sapiens]  
A 1.1e-98 280 DEOXYGENATED STRUCTURE OF A DISTAL SITE HEMOGLOBIN MUTANT PLUS
XE [Homo sapiens]  
A 1.3e-98 280 T-to-THigh Quaternary Transitions in Human Hemoglobin: alphaD94G
deoxy low-salt [Homo sapiens]  
C 1.3e-98 280 T-to-THigh Quaternary Transitions in Human Hemoglobin: alphaD94G
deoxy low-salt [Homo sapiens]  
A 1.4e-98 280 DEOXYHEMOGLOBIN T38W (ALPHA CHAINS), V1G (ALPHA AND BETA CHAINS)
[Homo sapiens]  
C 1.4e-98 280 DEOXYHEMOGLOBIN T38W (ALPHA CHAINS), V1G (ALPHA AND BETA CHAINS)
[Homo sapiens]  
A 1.6e-98 280 T-to-THigh Quaternary Transitions in Human Hemoglobin: alphaP95A
deoxy low-salt [Homo sapiens]  
C 1.6e-98 280 T-to-THigh Quaternary Transitions in Human Hemoglobin: alphaP95A
deoxy low-salt [Homo sapiens]  
A 1.7e-98 280 T-to-THigh Quaternary Transitions in Human Hemoglobin: alphaR92A
deoxy low-salt [Homo sapiens]  
C 1.7e-98 280 T-to-THigh Quaternary Transitions in Human Hemoglobin: alphaR92A
deoxy low-salt [Homo sapiens]  
A 1.7e-98 280 T-To-T(High) quaternary transitions in human hemoglobin:
alphaR92A oxy (2mM IHP, 20% PEG) (10 test sets) [Homo sapiens]  
C 1.7e-98 280 T-To-T(High) quaternary transitions in human hemoglobin:
alphaR92A oxy (2mM IHP, 20% PEG) (10 test sets) [Homo sapiens]  
A 1.8e-98 280 Human Oxy-Hemoglobin [Homo sapiens]  
A 1.8e-98 280 Human carbonmonoxy hemoglobin SFX dataset [Homo sapiens]  
C 1.8e-98 280 Human carbonmonoxy hemoglobin SFX dataset [Homo sapiens]  
A 2.0e-98 279 T-to-T(High) Quaternary Transitions in Human Hemoglobin:
alphaN97A deoxy low-salt [Homo sapiens]  
C 2.0e-98 279 T-to-T(High) Quaternary Transitions in Human Hemoglobin:
alphaN97A deoxy low-salt [Homo sapiens]  
A 2.5e-98 279 Cyanomet hemoglobin (A-GLY-C:V1M,L29F,H58Q; B,D:V1M,L106W) [Homo
sapiens]  
A 2.7e-98 279 T-to-THigh Transitions in Human Hemoglobin: alpha Y42A deoxy low
salt [Homo sapiens]  
C 2.7e-98 279 T-to-THigh Transitions in Human Hemoglobin: alpha Y42A deoxy low
salt [Homo sapiens]  
A 2.7e-98 279 Intersubunit Interactions Associated with Tyr42alpha Stabilize
the Quaternary-T Tetramer but are not Major Quaternary Constraints in
Deoxyhemoglobin: alphaY42A deoxyhemoglobin no-salt [Homo sapiens]  
C 2.7e-98 279 Intersubunit Interactions Associated with Tyr42alpha Stabilize
the Quaternary-T Tetramer but are not Major Quaternary Constraints in
Deoxyhemoglobin: alphaY42A deoxyhemoglobin no-salt [Homo sapiens]  
A 2.7e-98 279 T-to-THigh Quaternary Transitions in Human Hemoglobin:
alphaY140A deoxy low-salt [Homo sapiens]  
C 2.7e-98 279 T-to-THigh Quaternary Transitions in Human Hemoglobin:
alphaY140A deoxy low-salt [Homo sapiens]  
A 2.9e-98 279 Crystal Structure of deoxy HbalphaYQ, a mutant of HbA [Homo
sapiens]  
C 2.9e-98 279 Crystal Structure of deoxy HbalphaYQ, a mutant of HbA [Homo
sapiens]  
A 2.9e-98 279 Crystal structure of partially ligated mutant of HbA [Homo
sapiens]  
C 2.9e-98 279 Crystal structure of partially ligated mutant of HbA [Homo
sapiens]  
A 2.9e-98 279 Deoxygenated Structure Of A Distal Pocket Hemoglobin Mutant
[Homo sapiens]  
C 2.9e-98 279 Deoxygenated Structure Of A Distal Pocket Hemoglobin Mutant
[Homo sapiens]  
C 2.9e-98 279 DEOXYGENATED STRUCTURE OF A DISTAL SITE HEMOGLOBIN MUTANT PLUS
XE [Homo sapiens]  
A 5.6e-98 283 Deoxy Rhb1.1 (Recombinant Hemoglobin) [Homo sapiens]  
A 1.7e-97 282 Deoxy Rhb1.1 (Recombinant Hemoglobin) [Homo sapiens]  
A 5.6e-98 283 Cyanomet Rhb1.1 (Recombinant Hemoglobin) [Homo sapiens]  
A 1.7e-97 282 Cyanomet Rhb1.1 (Recombinant Hemoglobin) [Homo sapiens]  
A 5.6e-98 283 DEOXY RHB1.1 (RECOMBINANT HEMOGLOBIN) [Homo sapiens]  
A 1.7e-97 282 DEOXY RHB1.1 (RECOMBINANT HEMOGLOBIN) [Homo sapiens]  
A 5.6e-98 283 Deoxy hemoglobin (A-GLY-C:V1M; B,D:V1M,C93A,N108K) [Homo
sapiens]  
A 1.7e-97 282 Deoxy hemoglobin (A-GLY-C:V1M; B,D:V1M,C93A,N108K) [Homo
sapiens]  
A 6.6e-98 283 Deoxy Rhb1.2 (recombinant Hemoglobin) [Homo sapiens]  
A 2.0e-97 282 Deoxy Rhb1.2 (recombinant Hemoglobin) [Homo sapiens]  
A 1.4e-97 277 Structure of Aquomet Hemoglobin Evans alphaV62Mbetawt [Homo
sapiens]  
A 4.9e-97 281 Deoxy hemoglobin (A-GLYGLYGLY-C:V1M,L29W; B,D:V1M) [Homo
sapiens]  
A 1.5e-96 280 Deoxy hemoglobin (A-GLYGLYGLY-C:V1M,L29W; B,D:V1M) [Homo
sapiens]  
A 1.0e-96 280 Deoxy hemoglobin (A-GLY-C:V1M,L29F,H58Q; B,D:V1M,L106W) [Homo
sapiens]  
A 3.2e-96 279 Deoxy hemoglobin (A-GLY-C:V1M,L29F,H58Q; B,D:V1M,L106W) [Homo
sapiens]  
A 1.3e-96 280 Deoxy hemoglobin (A-GLYGLYGLY-C:V1M,L29F,H58Q B,D:V1M,V67W)
[Homo sapiens]  
A 3.8e-96 279 Deoxy hemoglobin (A-GLYGLYGLY-C:V1M,L29F,H58Q B,D:V1M,V67W)
[Homo sapiens]  
A 1.4e-96 275 Human Hemoglobin immersed in Liquid Oxygen for 1 minute [Homo
sapiens]  
B 1.4e-96 275 Human Hemoglobin immersed in Liquid Oxygen for 1 minute [Homo
sapiens]  
A 1.4e-96 275 Human Hemoglobin Immersed in Liquid Oxygen for 20 seconds [Homo
sapiens]  
C 1.4e-96 275 Human Hemoglobin Immersed in Liquid Oxygen for 20 seconds [Homo
sapiens]  
A 2.3e-96 280 Deoxy hemoglobin (A-GLY-C:V1M,L29W,H58Q; B,D:V1M) [Homo sapiens]  
A 7.0e-96 278 Deoxy hemoglobin (A-GLY-C:V1M,L29W,H58Q; B,D:V1M) [Homo sapiens]  
A 1.3e-89 257 Structure of predicted ancestral pika hemoglobin [Ochotona
princeps]  
A 3.2e-89 256 The crystal structure of mongoose (Helogale parvula) hemoglobin
at pH 8.2 [Helogale parvula]  
A 3.2e-89 256 Crystal structure of Mongoose (Helogale parvula) hemoglobin at
pH 7.0 [Helogale parvula]  
C 3.2e-89 256 Crystal structure of Mongoose (Helogale parvula) hemoglobin at
pH 7.0 [Helogale parvula]  
A 6.1e-88 253 Crystal structure determination of indian flying fox (Pteropus
giganteus) at 1.62 A resolution [Pteropus giganteus]  
A 4.4e-87 251 Crystal structure determination of cat (Felis silvestris catus)
hemoglobin at 2.2 angstrom resolution [Felis catus]  
C 4.4e-87 251 Crystal structure determination of cat (Felis silvestris catus)
hemoglobin at 2.2 angstrom resolution [Felis catus]  
A 4.4e-87 251 Crystal structure determination of cat (Felis silvestris catus)
hemoglobin at 2.0 angstrom resolution [Felis catus]  
C 4.4e-87 251 Crystal structure determination of cat (Felis silvestris catus)
hemoglobin at 2.0 angstrom resolution [Felis catus]  
A 4.4e-87 251 Crystal structure determination of cat (Felis silvestris catus)
hemoglobin at 2.4 angstrom resolution [Felis catus]  
C 4.4e-87 251 Crystal structure determination of cat (Felis silvestris catus)
hemoglobin at 2.4 angstrom resolution [Felis catus]  
E 4.4e-87 251 Crystal structure determination of cat (Felis silvestris catus)
hemoglobin at 2.4 angstrom resolution [Felis catus]  
G 4.4e-87 251 Crystal structure determination of cat (Felis silvestris catus)
hemoglobin at 2.4 angstrom resolution [Felis catus]  
A 4.4e-87 251 Crystal structure determination of cat (Felis silvestris catus)
hemoglobin at 2.9 angstrom resolution [Felis catus]  
C 4.4e-87 251 Crystal structure determination of cat (Felis silvestris catus)
hemoglobin at 2.9 angstrom resolution [Felis catus]  
E 4.4e-87 251 Crystal structure determination of cat (Felis silvestris catus)
hemoglobin at 2.9 angstrom resolution [Felis catus]  
G 4.4e-87 251 Crystal structure determination of cat (Felis silvestris catus)
hemoglobin at 2.9 angstrom resolution [Felis catus]  
A 6.4e-87 250 Crystal Structure of Horse Carbonmonoxyhemoglobin-Bezafibrate
Complex at 1.55A Resolution: A Novel Allosteric Binding Site in R-State
Hemoglobin [Equus caballus]  
A 6.4e-87 250 Crystal structure of carbonmonoxy horse hemoglobin complexed
with L35 [Equus caballus]  
A 6.4e-87 250 Joint X-ray/neutron structure of equine cyanomet hemoglobin in R
state [Equus caballus]  
A 6.4e-87 250 Hemoglobin structure from serial crystallography with a
3D-printed nozzle. [Equus caballus]  
C 6.4e-87 250 Hemoglobin structure from serial crystallography with a
3D-printed nozzle. [Equus caballus]  
A 9.1e-87 250 Crystal structure of hemoglobin from mouse (Mus musculus)at 2.8
[Mus musculus]  
C 9.1e-87 250 Crystal structure of hemoglobin from mouse (Mus musculus)at 2.8
[Mus musculus]  
A 1.4e-86 249 Crystal structure determination of buffalo (Bubalus bubalis)
hemoglobin at 2 angstrom resolution [Bubalus bubalis]  
C 1.4e-86 249 Crystal structure determination of buffalo (Bubalus bubalis)
hemoglobin at 2 angstrom resolution [Bubalus bubalis]  
A 1.7e-86 249 The X-ray Structure Determination Of Bovine Carbonmonoxy Hb At
2.1 A Resolution And Its Relationship To The Quaternary Structure Of Other Hb
Crystal Forms [Bos taurus]  
C 1.7e-86 249 The X-ray Structure Determination Of Bovine Carbonmonoxy Hb At
2.1 A Resolution And Its Relationship To The Quaternary Structure Of Other Hb
Crystal Forms [Bos taurus]  
A 1.7e-86 249 Carbonmonoxy Liganded Bovine Hemoglobin Ph 5.0 [Bos taurus]  
C 1.7e-86 249 Carbonmonoxy Liganded Bovine Hemoglobin Ph 5.0 [Bos taurus]  
A 1.7e-86 249 Carbonmonoxy Liganded Bovine Hemoglobin Ph 7.2 [Bos taurus]  
C 1.7e-86 249 Carbonmonoxy Liganded Bovine Hemoglobin Ph 7.2 [Bos taurus]  
A 1.7e-86 249 Carbonmonoxy Liganded Bovine Hemoglobin Ph 8.5 [Bos taurus]  
C 1.7e-86 249 Carbonmonoxy Liganded Bovine Hemoglobin Ph 8.5 [Bos taurus]  
A 1.7e-86 249 A NOVEL ALLOSTERIC MECHANISM IN HAEMOGLOBIN. STRUCTURE OF BOVINE
DEOXYHAEMOGLOBIN, ABSENCE OF SPECIFIC CHLORIDE-BINDING SITES AND ORIGIN OF THE
CHLORIDE-LINKED BOHR EFFECT IN BOVINE AND HUMAN HAEMOGLOBIN [Bos taurus]  
C 1.7e-86 249 A NOVEL ALLOSTERIC MECHANISM IN HAEMOGLOBIN. STRUCTURE OF BOVINE
DEOXYHAEMOGLOBIN, ABSENCE OF SPECIFIC CHLORIDE-BINDING SITES AND ORIGIN OF THE
CHLORIDE-LINKED BOHR EFFECT IN BOVINE AND HUMAN HAEMOGLOBIN [Bos taurus]  
A 1.7e-86 249 Bovine Hemoglobin at pH 5.7 [Bos taurus]  
C 1.7e-86 249 Bovine Hemoglobin at pH 5.7 [Bos taurus]  
A 1.7e-86 249 Bovine hemoglobin at pH 6.3 [Bos taurus]  
C 1.7e-86 249 Bovine hemoglobin at pH 6.3 [Bos taurus]  
A 1.7e-86 249 Site-Selective Glycosylation of Cysteine-93 beta on the Surface
of Bovine Hemoglobin and its Application as a Novel Oxygen Therapeutic [Bos
taurus]  
C 1.7e-86 249 Site-Selective Glycosylation of Cysteine-93 beta on the Surface
of Bovine Hemoglobin and its Application as a Novel Oxygen Therapeutic [Bos
taurus]  
A 1.7e-86 249 Site-specific Glycosylation of Hemoglobin Utilizing Oxime
Ligation Chemistry as a Viable Alternative to PEGylation [Bos taurus]  
C 1.7e-86 249 Site-specific Glycosylation of Hemoglobin Utilizing Oxime
Ligation Chemistry as a Viable Alternative to PEGylation [Bos taurus]  
A 1.7e-86 249 Site-specific Glycosylation of Hemoglobin Utilizing Oxime
Ligation Chemistry as a Viable Alternative to PEGylation [Bos taurus]  
C 1.7e-86 249 Site-specific Glycosylation of Hemoglobin Utilizing Oxime
Ligation Chemistry as a Viable Alternative to PEGylation [Bos taurus]  
A 1.7e-86 249 Site-specific Glycosylation of Hemoglobin Utilizing Oxime
Ligation Chemistry as a Viable Alternative to PEGylation [Bos taurus]  
C 1.7e-86 249 Site-specific Glycosylation of Hemoglobin Utilizing Oxime
Ligation Chemistry as a Viable Alternative to PEGylation [Bos taurus]  
A 3.7e-86 248 THREE DIMENSIONAL FOURIER SYNTHESIS OF HORSE DEOXYHAEMOGLOBIN AT
2.8 ANGSTROMS RESOLUTION [Equus caballus]  
A 3.7e-86 248 Carbonmonoxy Liganded Equine Hemoglobin Ph 8.5 [Equus caballus]  
A 3.7e-86 248 The 2.1A Structure of Horse (alpha hemichrome/beta met)
Hemoglobin at pH 5.4 [Equus caballus]  
A 3.7e-86 248 The 1.6A Structure of Horse Methemoglobin at pH 7.1 [Equus
caballus]  
A 3.7e-86 248 Horse Methemoglobin Low Salt, Ph 7.0 [Equus caballus]  
C 3.7e-86 248 Horse Methemoglobin Low Salt, Ph 7.0 [Equus caballus]  
A 3.7e-86 248 Horse methemoglobin low salt, PH 7.0 (98% relative humidity)
[Equus caballus]  
C 3.7e-86 248 Horse methemoglobin low salt, PH 7.0 (98% relative humidity)
[Equus caballus]  
A 3.7e-86 248 Horse methemoglobin low salt, PH 7.0 (88% relative humidity)
[Equus caballus]  
C 3.7e-86 248 Horse methemoglobin low salt, PH 7.0 (88% relative humidity)
[Equus caballus]  
A 3.7e-86 248 The Structure Of Horse Methaemoglobin At 2.0 Angstroms
Resolution [Equus caballus]  
A 3.7e-86 248 Horse methemoglobin high salt, pH 7.0 [Equus caballus]  
A 3.7e-86 248 Horse methemoglobin high salt, pH 7.0 (88% relative humidity)
[Equus caballus]  
A 3.7e-86 248 Horse methemoglobin high salt, pH 7.0 (79% relative humidity)
[Equus caballus]  
A 3.7e-86 248 Horse methemoglobin high salt, pH 7.0 (75% relative humidity)
[Equus caballus]  
C 3.7e-86 248 Horse methemoglobin high salt, pH 7.0 (75% relative humidity)
[Equus caballus]  
A 3.7e-86 248 Horse methemoglobin high salt, pH 7.0 (66% relative humidity)
[Equus caballus]  
C 3.7e-86 248 Horse methemoglobin high salt, pH 7.0 (66% relative humidity)
[Equus caballus]  
A 6.6e-86 248 Multicrystal structure of equine Haemoglobin at room temperature
using a multilayer monochromator. [Equus caballus]  
A 7.4e-86 248 Crystal structure determination of Lepus europaeus 2.8 A
resolution [Lepus europaeus]  
C 7.4e-86 248 Crystal structure determination of Lepus europaeus 2.8 A
resolution [Lepus europaeus]  
A 1.5e-85 247 DEOXY-HAEMOGLOBIN TRAPPED IN THE HIGH-AFFINITY (R) STATE [Equus
caballus]  
A 1.8e-85 246 Structure determination of haemoglobin from Donkey(equus asinus)
at 3.0 Angstrom resolution [Equus asinus]  
A 1.9e-85 246 Deer mouse hemoglobin in hydrated format [Peromyscus
maniculatus]  
A 2.1e-85 246 Crystal Structure Analysis of bovine Hemoglobin modified by SNP
[Bos taurus]  
C 2.1e-85 246 Crystal Structure Analysis of bovine Hemoglobin modified by SNP
[Bos taurus]  
A 2.7e-85 246 X ray crystal structure of rabbit hemoglobin (oxy form) at 2.0
angstrom resolution [Oryctolagus cuniculus]  
C 2.7e-85 246 X ray crystal structure of rabbit hemoglobin (oxy form) at 2.0
angstrom resolution [Oryctolagus cuniculus]  
A 5.6e-85 245 Crystal structure determination of sheep methemoglobin at 2.7
Angstrom resolution [Ovis aries]  
C 5.6e-85 245 Crystal structure determination of sheep methemoglobin at 2.7
Angstrom resolution [Ovis aries]  
A 5.6e-85 245 Crystal Structure determination of Goat Methemoglobin at 2.7
Angstrom [Capra hircus]  
C 5.6e-85 245 Crystal Structure determination of Goat Methemoglobin at 2.7
Angstrom [Capra hircus]  
I 5.6e-85 245 Crystal Structure determination of Goat Methemoglobin at 2.7
Angstrom [Capra hircus]  
K 5.6e-85 245 Crystal Structure determination of Goat Methemoglobin at 2.7
Angstrom [Capra hircus]  
A 5.6e-85 245 Crystal Structure determination of goat hemoglobin (Capra
hircus) at 3 angstrom resolution [Capra hircus]  
C 5.6e-85 245 Crystal Structure determination of goat hemoglobin (Capra
hircus) at 3 angstrom resolution [Capra hircus]  
A 6.7e-85 245 Crystal Structure Determination of Goat Hemoglobin at 2.61
Angstrom Resolution [Capra hircus]  
C 6.7e-85 245 Crystal Structure Determination of Goat Hemoglobin at 2.61
Angstrom Resolution [Capra hircus]  
A 2.9e-84 244 Crystal structure determination of camel(Camelus
dromedarius)hemoglobin at 2 angstrom resolution [Camelus dromedarius]  
C 2.9e-84 244 Crystal structure determination of camel(Camelus
dromedarius)hemoglobin at 2 angstrom resolution [Camelus dromedarius]  
A 8.1e-84 243 crystal structure of hemoglobin from dog (Canis familiaris) at
3.5 Angstrom resolution [Canis lupus familiaris]  
C 8.1e-84 243 crystal structure of hemoglobin from dog (Canis familiaris) at
3.5 Angstrom resolution [Canis lupus familiaris]  
A 8.1e-84 243 Crystal structure of dog (Canis familiaris) hemoglobin [Canis
lupus familiaris]  
C 8.1e-84 243 Crystal structure of dog (Canis familiaris) hemoglobin [Canis
lupus familiaris]  
A 8.1e-84 243 Structure of Greyhound Hemoglobin: Origin of High Oxygen
Affinity [Canis lupus familiaris]  
A 8.7e-84 242 Deer mouse recombinant hemoglobin from high altitude species
[Peromyscus maniculatus]  
C 8.7e-84 242 Deer mouse recombinant hemoglobin from high altitude species
[Peromyscus maniculatus]  
E 8.7e-84 242 Deer mouse recombinant hemoglobin from high altitude species
[Peromyscus maniculatus]  
G 8.7e-84 242 Deer mouse recombinant hemoglobin from high altitude species
[Peromyscus maniculatus]  
A 1.2e-83 242 The crystal structure of hemoglobin from woolly mammoth in the
deoxy form [Mammuthus primigenius]  
C 1.2e-83 242 The crystal structure of hemoglobin from woolly mammoth in the
deoxy form [Mammuthus primigenius]  
A 1.2e-83 242 The crystal structure of hemoglobin from woolly mammoth in the
carbonmonoxy forms [Mammuthus primigenius]  
A 1.2e-83 242 The crystal structure of hemoglobin from woolly mammoth in the
met form [Mammuthus primigenius]  
A 1.7e-83 241 Crystal Structure Analysis of CO form hemoglobin from Bos taurus
[Bos taurus]  
C 1.7e-83 241 Crystal Structure Analysis of CO form hemoglobin from Bos taurus
[Bos taurus]  
A 3.0e-83 241 Crystal Structure Of Aquomet Hemoglobin-I Of The Maned Wolf
(Chrysocyon Brachyurus) At 2.0 Resolution. [Chrysocyon brachyurus]  
C 3.0e-83 241 Crystal Structure Of Aquomet Hemoglobin-I Of The Maned Wolf
(Chrysocyon Brachyurus) At 2.0 Resolution. [Chrysocyon brachyurus]  
A 3.0e-83 241 Hemoglobin from Cerdocyon thous, a canidae from Brazil, at 2.2
Angstroms resolution [Cerdocyon thous]  
C 3.0e-83 241 Hemoglobin from Cerdocyon thous, a canidae from Brazil, at 2.2
Angstroms resolution [Cerdocyon thous]  
A 3.9e-83 241 Crystal Structure Determination Of Porcine Hemoglobin At 1.8a
Resolution [Sus scrofa]  
C 3.9e-83 241 Crystal Structure Determination Of Porcine Hemoglobin At 1.8a
Resolution [Sus scrofa]  
A 3.9e-83 241 Structure Determination Of Aquomet Porcine Hemoglobin At 2.8
Angstrom Resolution [Sus scrofa]  
C 3.9e-83 241 Structure Determination Of Aquomet Porcine Hemoglobin At 2.8
Angstrom Resolution [Sus scrofa]  
A 3.9e-83 241 Structure of the Haptoglobin-Haemoglobin Complex [Sus scrofa]  
D 3.9e-83 241 Structure of the Haptoglobin-Haemoglobin Complex [Sus scrofa]  
G 3.9e-83 241 Structure of the Haptoglobin-Haemoglobin Complex [Sus scrofa]  
J 3.9e-83 241 Structure of the Haptoglobin-Haemoglobin Complex [Sus scrofa]  
A 4.5e-77 225 MACROMOLECULAR STRUCTURE REFINEMENT BY RESTRAINED LEAST-SQUARES
AND INTERACTIVE GRAPHICS AS APPLIED TO SICKLING DEER TYPE III HEMOGLOBIN
[Odocoileus virginianus]  
C 4.5e-77 225 MACROMOLECULAR STRUCTURE REFINEMENT BY RESTRAINED LEAST-SQUARES
AND INTERACTIVE GRAPHICS AS APPLIED TO SICKLING DEER TYPE III HEMOGLOBIN
[Odocoileus virginianus]  
A 9.0e-75 219 Crystal structure analysis of guinea pig oxyhemoglobin at 2.5
angstroms resolution [Cavia porcellus]  
A 9.0e-75 219 Crystal structure of the altitude adapted hemoglobin of guinea
pig. [Cavia porcellus]  
A 1.9e-71 211 Crystal structure determination of duck (Anas platyrhynchos)
hemoglobin at 2.1 Angstrom resolution [Anas platyrhynchos]  
A 7.8e-71 209 Graylag Goose Hemoglobin (Oxy Form) [Anser anser]  
C 7.8e-71 209 Graylag Goose Hemoglobin (Oxy Form) [Anser anser]  
A 1.5e-70 209 Crystal Structure Determination of Methemoglobin from Pigeon at
2 Angstrom Resolution (Columba livia) [Columba livia]  
C 1.5e-70 209 Crystal Structure Determination of Methemoglobin from Pigeon at
2 Angstrom Resolution (Columba livia) [Columba livia]  
E 1.5e-70 209 Crystal Structure Determination of Methemoglobin from Pigeon at
2 Angstrom Resolution (Columba livia) [Columba livia]  
G 1.5e-70 209 Crystal Structure Determination of Methemoglobin from Pigeon at
2 Angstrom Resolution (Columba livia) [Columba livia]  
A 1.6e-70 209 Pigeon Hemoglobin (OXY form) [Columba livia]  
C 1.6e-70 209 Pigeon Hemoglobin (OXY form) [Columba livia]  
A 1.6e-70 209 Crystal structure determination of pigeon (columba livia)
haemoglobin at 3.5 angstrom resolution [Columba livia]  
A 1.2e-69 207 Crystal structure determination of Japanese quail (Coturnix
coturnix japonica) hemoglobin at 2.76 Angstrom resolution [Coturnix japonica]  
C 1.2e-69 207 Crystal structure determination of Japanese quail (Coturnix
coturnix japonica) hemoglobin at 2.76 Angstrom resolution [Coturnix japonica]  
A 1.3e-69 207 Structure determination of haemoglobin from Turkey(meleagris
gallopavo) at 2.8 Angstrom resolution [Meleagris gallopavo]  
C 1.3e-69 207 Structure determination of haemoglobin from Turkey(meleagris
gallopavo) at 2.8 Angstrom resolution [Meleagris gallopavo]  
A 1.6e-69 206 Crystal structure of Turkey (Meleagiris gallopova)hemoglobin at
2.3 Angstrom [Meleagris gallopavo]  
C 1.6e-69 206 Crystal structure of Turkey (Meleagiris gallopova)hemoglobin at
2.3 Angstrom [Meleagris gallopavo]  
A 1.6e-69 206 Crystal structure of hemoglobin from turkey (Meleagiris
gallopova) crystallized in orthorhombic form at 1.4 Angstrom resolution
[Meleagris gallopavo]  
C 1.6e-69 206 Crystal structure of hemoglobin from turkey (Meleagiris
gallopova) crystallized in orthorhombic form at 1.4 Angstrom resolution
[Meleagris gallopavo]  
A 1.6e-69 206 Crystal structure of hemoglobin from turkey (Meleagiris
gallopova) crystallized in monoclinic form at 1.66 Angstrom resolution
[Meleagris gallopavo]  
C 1.6e-69 206 Crystal structure of hemoglobin from turkey (Meleagiris
gallopova) crystallized in monoclinic form at 1.66 Angstrom resolution
[Meleagris gallopavo]  
A 1.8e-69 206 The Crystal Structure Determination of Rat (rattus norvegicus)
Hemoglobin [Rattus norvegicus]  
A 1.8e-69 206 Crystal structure of rat methemoglobin in R2 state [Rattus
norvegicus]  
E 1.8e-69 206 Crystal structure of rat methemoglobin in R2 state [Rattus
norvegicus]  
A 7.0e-69 205 Structure of Hemoglobin from flightless bird (Struthio camelus)
[Struthio camelus]  
C 7.0e-69 205 Structure of Hemoglobin from flightless bird (Struthio camelus)
[Struthio camelus]  
E 7.0e-69 205 Structure of Hemoglobin from flightless bird (Struthio camelus)
[Struthio camelus]  
G 7.0e-69 205 Structure of Hemoglobin from flightless bird (Struthio camelus)
[Struthio camelus]  
A 7.0e-69 205 Crystal structure determination of Ostrich hemoglobin at 2.2
Angstrom resolution [Struthio camelus]  
C 7.0e-69 205 Crystal structure determination of Ostrich hemoglobin at 2.2
Angstrom resolution [Struthio camelus]  
A 3.4e-68 203 Bar-Headed Goose Hemoglobin (Oxy Form) [Anser indicus]  
A 3.4e-68 203 Crystal Structure Analysis Of Bar-head Goose Hemoglobin (deoxy
Form) [Anser indicus]  
C 3.4e-68 203 Crystal Structure Analysis Of Bar-head Goose Hemoglobin (deoxy
Form) [Anser indicus]  
E 3.4e-68 203 Crystal Structure Analysis Of Bar-head Goose Hemoglobin (deoxy
Form) [Anser indicus]  
G 3.4e-68 203 Crystal Structure Analysis Of Bar-head Goose Hemoglobin (deoxy
Form) [Anser indicus]  
A 1.5e-67 201 BAR-HEADED GOOSE HEMOGLOBIN (AQUOMET FORM) [Anser indicus]  
A 2.0e-67 201 Crystal structure of Emu (dromaius novaehollandiae) hemoglobin
at 2.3 angstrom resolution [Dromaius novaehollandiae]  
C 2.0e-67 201 Crystal structure of Emu (dromaius novaehollandiae) hemoglobin
at 2.3 angstrom resolution [Dromaius novaehollandiae]  
A 7.0e-66 197 Side-necked turtle (Pleurodira, Chelonia, REPTILIA) hemoglobin:
cDNA-derived primary structures and X-ray crystal structures of Hb A
[Podocnemis unifilis]  
A 7.0e-66 197 Side-necked turtle (Pleurodira, Chelonia, REPTILIA) hemoglobin:
cDNA-derived primary structures and X-ray crystal structures of Hb A
[Podocnemis unifilis]  
A 1.8e-65 196 Crystal structure of parrot hemoglobin (Psittacula krameri) at
pH 7.5 [Psittacula krameri]  
A 2.4e-65 196 Crystal structure of Cormorant (Phalacrocorax carbo) hemoglobin
[Phalacrocorax carbo]  
A 7.2e-60 182 R-state Form Of Chicken Hemoglobin D [Gallus gallus]  
C 7.2e-60 182 R-state Form Of Chicken Hemoglobin D [Gallus gallus]  
A 3.8e-58 177 Crystal structure of hemoglobin D from the Aldabra giant
tortoise (Geochelone gigantea) at 2.0 A resolution [Aldabrachelys gigantea]  
A 3.8e-58 177 Crystal Structure of Hemoglobin D from the Aldabra Giant
Tortoise, Geochelone gigantea, at 1.65 A resolution [Aldabrachelys gigantea]  
A 3.8e-58 177 Crystal Structure of Carbonmonoxy Hemoglobin D from the Aldabra
Giant Tortoise, Geochelone gigantea [Aldabrachelys gigantea]  
A 8.4e-57 174 Human zeta-2 beta-2-s hemoglobin [Homo sapiens]  
C 8.4e-57 174 Human zeta-2 beta-2-s hemoglobin [Homo sapiens]  
E 8.4e-57 174 Human zeta-2 beta-2-s hemoglobin [Homo sapiens]  
A 9.9e-57 174 Chimeric Human/Mouse Carbonmonoxy Hemoglobin (Human Zeta2 /
Mouse Beta2) [Homo sapiens]  
C 9.9e-57 174 Chimeric Human/Mouse Carbonmonoxy Hemoglobin (Human Zeta2 /
Mouse Beta2) [Homo sapiens]  
A 5.7e-55 169 X-ray sequence and high resolution crystal structure of Starry
sturgeon methemoglobin [Acipenser stellatus]  
A 8.4e-54 167 Module-Substituted Chimera Hemoglobin Beta-Alpha (F133v) [Homo
sapiens]  
B 8.4e-54 167 Module-Substituted Chimera Hemoglobin Beta-Alpha (F133v) [Homo
sapiens]  
C 8.4e-54 167 Module-Substituted Chimera Hemoglobin Beta-Alpha (F133v) [Homo
sapiens]  
D 8.4e-54 167 Module-Substituted Chimera Hemoglobin Beta-Alpha (F133v) [Homo
sapiens]  
A 4.8e-53 165 X-ray sequence and high resolution crystal structure of Persian
sturgeon methemoglobin [Acipenser persicus]  
A 2.5e-50 158 Trout Hemoglobin I [Oncorhynchus mykiss]  
A 2.5e-50 158 Carbonmonoxy Trout Hemoglobin I [Oncorhynchus mykiss]  
C 2.5e-50 158 Carbonmonoxy Trout Hemoglobin I [Oncorhynchus mykiss]  
A 1.1e-49 156 Crystal structure of bluefin tuna carbonmonoxy-hemoglobin
[Thunnus thynnus]  
C 1.1e-49 156 Crystal structure of bluefin tuna carbonmonoxy-hemoglobin
[Thunnus thynnus]  
A 1.1e-49 156 Crystal structure of bluefin tuna hemoglobin deoxy form at pH7.5
[Thunnus thynnus]  
C 1.1e-49 156 Crystal structure of bluefin tuna hemoglobin deoxy form at pH7.5
[Thunnus thynnus]  
A 1.1e-49 156 Crystal structure of bluefin tuna hemoglobin deoxy form at pH5.0
[Thunnus thynnus]  
C 1.1e-49 156 Crystal structure of bluefin tuna hemoglobin deoxy form at pH5.0
[Thunnus thynnus]  
A 4.9e-49 154 met-Perch Hemoglobin at pH 5.7 [Perca flavescens]  
C 4.9e-49 154 met-Perch Hemoglobin at pH 5.7 [Perca flavescens]  
A 4.9e-49 154 met-Perch Hemoglobin at pH 6.3 [Perca flavescens]  
C 4.9e-49 154 met-Perch Hemoglobin at pH 6.3 [Perca flavescens]  
A 4.9e-49 154 met-Perch hemoglobin at pH 8.0 [Perca flavescens]  
C 4.9e-49 154 met-Perch hemoglobin at pH 8.0 [Perca flavescens]  
A 2.5e-48 153 Met-Perch Hemoglobin at 1.9A [Perca flavescens]  
C 2.5e-48 153 Met-Perch Hemoglobin at 1.9A [Perca flavescens]  
A 1.3e-46 149 STRUCTURE OF DEOXYHAEMOGLOBIN OF THE ANTARCTIC FISH PAGOTHENIA
BERNACCHII AND STRUCTURAL BASIS OF THE ROOT EFFECT [Trematomus bernacchii]  
C 1.3e-46 149 STRUCTURE OF DEOXYHAEMOGLOBIN OF THE ANTARCTIC FISH PAGOTHENIA
BERNACCHII AND STRUCTURAL BASIS OF THE ROOT EFFECT [Trematomus bernacchii]  
A 1.3e-46 149 Haemoglobin Of The Antarctic Fish Pagothenia Bernacchii: Amino
Acid Sequence, Oxygen Equilibria And Crystal Structure Of Its Carbonmonoxy
Derivative [Trematomus bernacchii]  
A 1.3e-46 149 The crystal structure of Trematomus bernacchii hemoglobin
oxidized by air [Trematomus bernacchii]  
A 1.3e-46 149 The crystal structure of Trematomus bernacchii hemoglobin
oxidized by ferricyanide [Trematomus bernacchii]  
C 1.3e-46 149 The crystal structure of Trematomus bernacchii hemoglobin
oxidized by ferricyanide [Trematomus bernacchii]  
A 1.3e-46 149 Crystal structure of deoxy hemoglobin from Trematomus bernacchii
at pH 8.4 [Trematomus bernacchii]  
C 1.3e-46 149 Crystal structure of deoxy hemoglobin from Trematomus bernacchii
at pH 8.4 [Trematomus bernacchii]  
A 1.3e-46 149 Crystal structure of deoxy hemoglobin from Trematomus bernacchii
at pH 6.2 [Trematomus bernacchii]  
C 1.3e-46 149 Crystal structure of deoxy hemoglobin from Trematomus bernacchii
at pH 6.2 [Trematomus bernacchii]  
A 1.3e-46 149 Crystal structure of Trematomus bernacchii hemoglobin in a
partial hemichrome state [Trematomus bernacchii]  
A 1.3e-46 149 X-ray structure of an intermediate along the oxidation pathway
of Trematomus bernacchii hemoglobin [Trematomus bernacchii]  
A 1.3e-46 149 Crystal structure at acidic pH of the ferric form of the Root
effect hemoglobin from Trematomus bernacchii. [Trematomus bernacchii]  
C 1.3e-46 149 Crystal structure at acidic pH of the ferric form of the Root
effect hemoglobin from Trematomus bernacchii. [Trematomus bernacchii]  
A 1.3e-46 149 Crystallographic analysis of the interaction of nitric oxide
with hemoglobin from Trematomus bernacchii in the T quaternary structure
(fully ligated state). [Trematomus bernacchii]  
C 1.3e-46 149 Crystallographic analysis of the interaction of nitric oxide
with hemoglobin from Trematomus bernacchii in the T quaternary structure
(fully ligated state). [Trematomus bernacchii]  
A 1.3e-46 149 Crystal structure of T-state carbonmonoxy hemoglobin from
Trematomus bernacchii at pH 8.4 [Trematomus bernacchii]  
C 1.3e-46 149 Crystal structure of T-state carbonmonoxy hemoglobin from
Trematomus bernacchii at pH 8.4 [Trematomus bernacchii]  
A 1.3e-46 149 Crystal structure of Trematomus bernacchii hemoglobin in a
partially cyanided state [Trematomus bernacchii]  
A 2.4e-46 148 met-Trout IV hemoglobin at pH 6.3 [Oncorhynchus mykiss]  
C 2.4e-46 148 met-Trout IV hemoglobin at pH 6.3 [Oncorhynchus mykiss]  
A 2.4e-46 148 Crystal structure of trout hemoglobin at 1.35 Angstrom
resolution [Oncorhynchus mykiss]  
C 2.4e-46 148 Crystal structure of trout hemoglobin at 1.35 Angstrom
resolution [Oncorhynchus mykiss]  
A 7.5e-46 146 Crystal structure of oxy-hemoglobin from Brycon cephalus [Brycon
cephalus]  
C 7.5e-46 146 Crystal structure of oxy-hemoglobin from Brycon cephalus [Brycon
cephalus]  
A 1.3e-45 146 R/T intermediate quaternary structure of an antarctic fish
hemoglobin in an alpha(CO)-beta(pentacoordinate) state [Trematomus newnesi]  
A 1.3e-45 146 The crystal structure of Trematomus newnesi hemoglobin in a
partial hemichrome state [Trematomus newnesi]  
A 1.3e-45 146 CRYSTAL STRUCTURE OF CARBONMONOXY HEMOGLOBIN [Trematomus
newnesi]  
A 1.3e-45 146 Crystal structure of the cathodic hemoglobin isolated from the
Antarctic fish Trematomus Newnesi [Trematomus newnesi]  
C 1.3e-45 146 Crystal structure of the cathodic hemoglobin isolated from the
Antarctic fish Trematomus Newnesi [Trematomus newnesi]  
A 1.3e-45 146 The crystal structure of hemoglobin I from trematomus newnesi in
deoxygenated state [Trematomus newnesi]  
C 1.3e-45 146 The crystal structure of hemoglobin I from trematomus newnesi in
deoxygenated state [Trematomus newnesi]  
A 1.3e-45 146 The crystal structure of hemoglobin I from Trematomus newnesi in
deoxygenated state obtained through an oxidation/reduction cycle in which
potassium hexacyanoferrate and sodium dithionite were alternatively added
[Trematomus newnesi]  
C 1.3e-45 146 The crystal structure of hemoglobin I from Trematomus newnesi in
deoxygenated state obtained through an oxidation/reduction cycle in which
potassium hexacyanoferrate and sodium dithionite were alternatively added
[Trematomus newnesi]  
A 1.3e-45 146 X-ray structure of a new fully ligated carbomonoxy form of
Trematomus newnesi hemoglobin (Hb1TnCO). [Trematomus newnesi]  
C 1.3e-45 146 X-ray structure of a new fully ligated carbomonoxy form of
Trematomus newnesi hemoglobin (Hb1TnCO). [Trematomus newnesi]  
A 3.4e-45 145 X-ray structure of carbonmonoxy hemoglobin of Eleginops
maclovinus [Eleginops maclovinus]  
C 3.4e-45 145 X-ray structure of carbonmonoxy hemoglobin of Eleginops
maclovinus [Eleginops maclovinus]  
A 3.4e-45 145 Crystal structure of monocarboxylated hemoglobin from the sub-
Antarctic fish Eleginops maclovinus [Eleginops maclovinus]  
A 9.7e-44 141 Carbonmonoxy Hemoglobin From The Teleost Fish Leiostomus
Xanthurus [Leiostomus xanthurus]  
A 1.5e-38 128 The crystal structure of haemoglobin from Atlantic cod [Gadus
morhua]  
C 1.5e-38 128 The crystal structure of haemoglobin from Atlantic cod [Gadus
morhua]  
E 1.5e-38 128 The crystal structure of haemoglobin from Atlantic cod [Gadus
morhua]  
G 1.5e-38 128 The crystal structure of haemoglobin from Atlantic cod [Gadus
morhua]  
B 1.2e-33 115 T-To-T(High) quaternary transitions in human hemoglobin:
betaC93A deoxy low-salt (1 test set) [Homo sapiens]  
D 1.2e-33 115 T-To-T(High) quaternary transitions in human hemoglobin:
betaC93A deoxy low-salt (1 test set) [Homo sapiens]  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/U  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/J  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/K  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/Z  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/A  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/S  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/W  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/D  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/R  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/E  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/F  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/G  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/I  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/P  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/M  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/B  
Failed HTTP Error 404:  
  

Fetching BLAST PDB info using URL:  
https://data.rcsb.org/rest/v1/core/entry/C  
Failed HTTP Error 404:  
  

Could not fetch entry information for U  

Could not fetch entry information for J  

Could not fetch entry information for K  

Could not fetch entry information for Z  

Could not fetch entry information for A  

Could not fetch entry information for S  

Could not fetch entry information for W  

Could not fetch entry information for D  

Could not fetch entry information for R  

Could not fetch entry information for E  

Could not fetch entry information for F  

Could not fetch entry information for G  

Could not fetch entry information for I  

Could not fetch entry information for P  

Could not fetch entry information for M  

Could not fetch entry information for B  

Could not fetch entry information for C  

Traceback (most recent call last):  
File
"/home/marta/software/scipion3/software/em/chimerax-1.1/lib/python3.7/site-
packages/chimerax/ui/gui.py", line 629, in customEvent  
func(*args, **kw)  
File
"/home/marta/software/scipion3/software/em/chimerax-1.1/lib/python3.7/site-
packages/chimerax/blastprotein/tool.py", line 109, in handle_scheme  
self.initialize()  
File
"/home/marta/software/scipion3/software/em/chimerax-1.1/lib/python3.7/site-
packages/chimerax/blastprotein/tool.py", line 166, in initialize  
self._show_results(self._ref_atomspec, self._blast_results)  
File
"/home/marta/software/scipion3/software/em/chimerax-1.1/lib/python3.7/site-
packages/chimerax/blastprotein/tool.py", line 326, in _show_results  
self._add_pdbinfo(pdb_chains)  
File
"/home/marta/software/scipion3/software/em/chimerax-1.1/lib/python3.7/site-
packages/chimerax/blastprotein/tool.py", line 345, in _add_pdbinfo  
data = info.fetch_info(self.session, chain_ids)  
File
"/home/marta/software/scipion3/software/em/chimerax-1.1/lib/python3.7/site-
packages/chimerax/blastprotein/pdbinfo.py", line 206, in fetch_info  
entry, auth_cid = pcid.split('_')  
ValueError: not enough values to unpack (expected 2, got 1)  
  
ValueError: not enough values to unpack (expected 2, got 1)  
  
File
"/home/marta/software/scipion3/software/em/chimerax-1.1/lib/python3.7/site-
packages/chimerax/blastprotein/pdbinfo.py", line 206, in fetch_info  
entry, auth_cid = pcid.split('_')  
  
See log for complete Python traceback.  
  




OpenGL version: 3.3.0 NVIDIA 440.33.01
OpenGL renderer: GeForce GTX 1060/PCIe/SSE2
OpenGL vendor: NVIDIA Corporation
Manufacturer: Alienware
Model: Alienware 15 R4
OS: Ubuntu 18.04 bionic
Architecture: 64bit ELF
CPU: 12 Intel(R) Core(TM) i7-8750H CPU @ 2.20GHz
Cache Size: 9216 KB
Memory:
	              total        used        free      shared  buff/cache   available
	Mem:            31G        2.7G         26G        146M        1.8G         27G
	Swap:          7.4G          0B        7.4G

Graphics:
	01:00.0 VGA compatible controller [0300]: NVIDIA Corporation GP106M [GeForce GTX 1060 Mobile] [10de:1c20] (rev a1)	
	Subsystem: Dell GP106M [GeForce GTX 1060 Mobile] [1028:0887]	
	Kernel driver in use: nvidia
PyQt version: 5.12.3
Compiled Qt version: 5.12.4
Runtime Qt version: 5.12.9
Installed Packages:
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    appdirs: 1.4.4
    Babel: 2.8.0
    backcall: 0.2.0
    blockdiag: 2.0.1
    certifi: 2020.6.20
    chardet: 3.0.4
    ChimeraX-AddH: 2.1.1
    ChimeraX-AlignmentAlgorithms: 2.0
    ChimeraX-AlignmentHdrs: 3.2
    ChimeraX-AlignmentMatrices: 2.0
    ChimeraX-Alignments: 2.1
    ChimeraX-Arrays: 1.0
    ChimeraX-Atomic: 1.6.1
    ChimeraX-AtomSearch: 2.0
    ChimeraX-AxesPlanes: 2.0
    ChimeraX-BasicActions: 1.1
    ChimeraX-BILD: 1.0
    ChimeraX-BlastProtein: 1.0.1
    ChimeraX-BondRot: 2.0
    ChimeraX-BugReporter: 1.0
    ChimeraX-BuildStructure: 2.0
    ChimeraX-Bumps: 1.0
    ChimeraX-BundleBuilder: 1.0
    ChimeraX-ButtonPanel: 1.0
    ChimeraX-CageBuilder: 1.0
    ChimeraX-CellPack: 1.0
    ChimeraX-Centroids: 1.1
    ChimeraX-ChemGroup: 2.0
    ChimeraX-Clashes: 2.0
    ChimeraX-ColorActions: 1.0
    ChimeraX-ColorGlobe: 1.0
    ChimeraX-CommandLine: 1.1.3
    ChimeraX-ConnectStructure: 2.0
    ChimeraX-Contacts: 1.0
    ChimeraX-Core: 1.1
    ChimeraX-CoreFormats: 1.0
    ChimeraX-coulombic: 1.0.1
    ChimeraX-Crosslinks: 1.0
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    ChimeraX-DataFormats: 1.0
    ChimeraX-Dicom: 1.0
    ChimeraX-DistMonitor: 1.1
    ChimeraX-DistUI: 1.0
    ChimeraX-Dssp: 2.0
    ChimeraX-EMDB-SFF: 1.0
    ChimeraX-ExperimentalCommands: 1.0
    ChimeraX-FileHistory: 1.0
    ChimeraX-FunctionKey: 1.0
    ChimeraX-Geometry: 1.1
    ChimeraX-gltf: 1.0
    ChimeraX-Graphics: 1.0
    ChimeraX-Hbonds: 2.0
    ChimeraX-Help: 1.0
    ChimeraX-HKCage: 1.0
    ChimeraX-IHM: 1.0
    ChimeraX-ImageFormats: 1.0
    ChimeraX-IMOD: 1.0
    ChimeraX-IO: 1.0
    ChimeraX-Label: 1.0
    ChimeraX-LinuxSupport: 1.0
    ChimeraX-ListInfo: 1.0
    ChimeraX-Log: 1.1.1
    ChimeraX-LookingGlass: 1.1
    ChimeraX-Map: 1.0.1
    ChimeraX-MapData: 2.0
    ChimeraX-MapEraser: 1.0
    ChimeraX-MapFilter: 2.0
    ChimeraX-MapFit: 2.0
    ChimeraX-MapSeries: 2.0
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    ChimeraX-Mask: 1.0
    ChimeraX-MatchMaker: 1.1
    ChimeraX-MDcrds: 2.0
    ChimeraX-MedicalToolbar: 1.0.1
    ChimeraX-Meeting: 1.0
    ChimeraX-MLP: 1.0
    ChimeraX-mmCIF: 2.2
    ChimeraX-MMTF: 2.0
    ChimeraX-Modeller: 1.0
    ChimeraX-ModelPanel: 1.0
    ChimeraX-ModelSeries: 1.0
    ChimeraX-Mol2: 2.0
    ChimeraX-Morph: 1.0
    ChimeraX-MouseModes: 1.0
    ChimeraX-Movie: 1.0
    ChimeraX-Neuron: 1.0
    ChimeraX-Nucleotides: 2.0
    ChimeraX-OpenCommand: 1.2.1
    ChimeraX-PDB: 2.1
    ChimeraX-PDBBio: 1.0
    ChimeraX-PickBlobs: 1.0
    ChimeraX-Positions: 1.0
    ChimeraX-PresetMgr: 1.0
    ChimeraX-PubChem: 2.0
    ChimeraX-Read-Pbonds: 1.0
    ChimeraX-Registration: 1.1
    ChimeraX-RemoteControl: 1.0
    ChimeraX-ResidueFit: 1.0
    ChimeraX-RestServer: 1.0
    ChimeraX-RNALayout: 1.0
    ChimeraX-RotamerLibMgr: 2.0
    ChimeraX-RotamerLibsDunbrack: 2.0
    ChimeraX-RotamerLibsDynameomics: 2.0
    ChimeraX-RotamerLibsRichardson: 2.0
    ChimeraX-SaveCommand: 1.2
    ChimeraX-SchemeMgr: 1.0
    ChimeraX-ScipionExtensions: 1.3
    ChimeraX-SDF: 2.0
    ChimeraX-Segger: 1.0
    ChimeraX-Segment: 1.0
    ChimeraX-SeqView: 2.2
    ChimeraX-Shape: 1.0.1
    ChimeraX-Shell: 1.0
    ChimeraX-Shortcuts: 1.0
    ChimeraX-ShowAttr: 1.0
    ChimeraX-ShowSequences: 1.0
    ChimeraX-SideView: 1.0
    ChimeraX-Smiles: 2.0
    ChimeraX-SmoothLines: 1.0
    ChimeraX-SpaceNavigator: 1.0
    ChimeraX-StdCommands: 1.0.4
    ChimeraX-STL: 1.0
    ChimeraX-Storm: 1.0
    ChimeraX-Struts: 1.0
    ChimeraX-Surface: 1.0
    ChimeraX-SwapAA: 2.0
    ChimeraX-SwapRes: 2.0
    ChimeraX-TapeMeasure: 1.0
    ChimeraX-Test: 1.0
    ChimeraX-Toolbar: 1.0
    ChimeraX-ToolshedUtils: 1.0
    ChimeraX-Tug: 1.0
    ChimeraX-UI: 1.2.3
    ChimeraX-uniprot: 2.0
    ChimeraX-ViewDockX: 1.0
    ChimeraX-Vive: 1.1
    ChimeraX-VolumeMenu: 1.0
    ChimeraX-VTK: 1.0
    ChimeraX-WavefrontOBJ: 1.0
    ChimeraX-WebCam: 1.0
    ChimeraX-WebServices: 1.0
    ChimeraX-Zone: 1.0
    colorama: 0.4.3
    comtypes: 1.1.7
    cxservices: 1.0
    cycler: 0.10.0
    Cython: 0.29.20
    decorator: 4.4.2
    distlib: 0.3.1
    distro: 1.5.0
    docutils: 0.16
    filelock: 3.0.12
    funcparserlib: 0.3.6
    grako: 3.16.5
    h5py: 2.10.0
    html2text: 2020.1.16
    idna: 2.10
    ihm: 0.16
    imagecodecs: 2020.5.30
    imagecodecs-lite: 2020.1.31
    imagesize: 1.2.0
    ipykernel: 5.3.0
    ipython: 7.15.0
    ipython-genutils: 0.2.0
    jedi: 0.17.2
    Jinja2: 2.11.2
    jupyter-client: 6.1.3
    jupyter-core: 4.6.3
    kiwisolver: 1.2.0
    line-profiler: 2.1.2
    lxml: 4.5.1
    MarkupSafe: 1.1.1
    matplotlib: 3.2.1
    msgpack: 1.0.0
    netifaces: 0.10.9
    networkx: 2.4
    numexpr: 2.7.1
    numpy: 1.18.5
    numpydoc: 1.0.0
    openvr: 1.12.501
    packaging: 20.4
    parso: 0.7.1
    pexpect: 4.8.0
    pickleshare: 0.7.5
    Pillow: 7.1.2
    pip: 20.2.2
    pkginfo: 1.5.0.1
    prompt-toolkit: 3.0.7
    psutil: 5.7.0
    ptyprocess: 0.6.0
    pycollada: 0.7.1
    pydicom: 2.0.0
    Pygments: 2.6.1
    PyOpenGL: 3.1.5
    PyOpenGL-accelerate: 3.1.5
    pyparsing: 2.4.7
    PyQt5-commercial: 5.12.3
    PyQt5-sip: 4.19.19
    PyQtWebEngine-commercial: 5.12.1
    python-dateutil: 2.8.1
    pytz: 2020.1
    pyzmq: 19.0.2
    qtconsole: 4.7.4
    QtPy: 1.9.0
    RandomWords: 0.3.0
    requests: 2.24.0
    scipy: 1.4.1
    setuptools: 49.4.0
    sfftk-rw: 0.6.6.dev0
    six: 1.15.0
    snowballstemmer: 2.0.0
    sortedcontainers: 2.2.2
    Sphinx: 3.1.1
    sphinxcontrib-applehelp: 1.0.2
    sphinxcontrib-blockdiag: 2.0.0
    sphinxcontrib-devhelp: 1.0.2
    sphinxcontrib-htmlhelp: 1.0.3
    sphinxcontrib-jsmath: 1.0.1
    sphinxcontrib-qthelp: 1.0.3
    sphinxcontrib-serializinghtml: 1.1.4
    suds-jurko: 0.6
    tables: 3.6.1
    tifffile: 2020.6.3
    tinyarray: 1.2.2
    tornado: 6.0.4
    traitlets: 5.0.4
    urllib3: 1.25.10
    wcwidth: 0.2.5
    webcolors: 1.11.1
    wheel: 0.34.2

[Eric Pettersen]

Hi Marta,

Thanks for reporting this problem. It is fixed in the current daily build, so if you get that you should be able to run your blast search. Sorry for the inconvenience.

--Eric

Eric Pettersen
UCSF Computer Graphics Lab