id summary reporter owner description type status priority milestone component version resolution keywords cc blockedby blocking notify_on_close platform project 4189 Blast results problem mmmtnez@… Eric Pettersen "{{{ 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: alabaster: 0.7.12 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 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