scholarly article | Q13442814 |
P50 | author | Paul Langan | Q44745418 |
Andrey Kovalevsky | Q47503013 | ||
P2093 | author name string | B Leif Hanson | |
S Zoë Fisher | |||
Timothy C Mueser | |||
Steven Dajnowicz | |||
Sean Seaver | |||
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Direct determination of protonation states of histidine residues in a 2 A neutron structure of deoxy-human normal adult hemoglobin and implications for the Bohr effect | Q27660241 | ||
The structure of horse methaemoglobin at 2.0 Å resolution | Q27729076 | ||
Coot: model-building tools for molecular graphics | Q27860505 | ||
The finer things in X-ray diffraction data collection | Q27860660 | ||
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Assessment of roles of surface histidyl residues in the molecular basis of the Bohr effect and of beta 143 histidine in the binding of 2,3-bisphosphoglycerate in human normal adult hemoglobin | Q28610110 | ||
Comparison of Experimental Binding Data and Theoretical Models in Proteins Containing Subunits* | Q29615452 | ||
Preliminary neutron and X-ray crystallographic studies of equine cyanomethemoglobin | Q33780189 | ||
Locating active-site hydrogen atoms in D-xylose isomerase: time-of-flight neutron diffraction | Q33995949 | ||
Energetics of subunit assembly and ligand binding in human hemoglobin | Q34251565 | ||
1.25 A resolution crystal structures of human haemoglobin in the oxy, deoxy and carbonmonoxy forms. | Q34536745 | ||
The structure--function relationship of hemoglobin in solution at atomic resolution | Q35685655 | ||
Evolution of vertebrate haemoglobins: Histidine side chains, specific buffer value and Bohr effect | Q36397730 | ||
Protein structures by spallation neutron crystallography. | Q36672477 | ||
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Generalized X-ray and neutron crystallographic analysis: more accurate and complete structures for biological macromolecules | Q37200953 | ||
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Stereochemistry of Cooperative Effects in Haemoglobin: Haem–Haem Interaction and the Problem of Allostery | Q59054576 | ||
Identification of Residues responsible for the Alkaline Bohr Effect in Haemoglobin | Q59072005 | ||
Rapid molecular characterization of mutations leading to unstable hemoglobin beta-chain variants | Q67571368 | ||
The characterization of hemoglobin Manitoba or alpha (2)102(G9)Ser----Arg beta 2 and hemoglobin Contaldo or alpha (2)103(G10)His----Arg beta 2 by high performance liquid chromatography | Q70815039 | ||
Changes in pKa values of individual histidine residues of human hemoglobin upon reaction with carbon monoxide | Q71289843 | ||
Identification of residues contributing to the Bohr effect of human haemoglobin | Q71306215 | ||
Studies on the function of abnormal hemoglobins I. An improved method for automatic measurement of the oxygen equilibrium curve of hemoglobin | Q71546412 | ||
Isotope effects in peptide group hydrogen exchange | Q72589792 | ||
Hb Schlierbach or beta108(G10)Asn-->Ile: a new variant with low oxygen affinity detected in a Swiss family | Q74614459 | ||
Hematological and molecular characteristics of Hb Sarrebourg [beta131(H9)Gln-->Arg (CAG-->CGG)] found in a Spanish family | Q80283121 | ||
P433 | issue | Pt 7 | |
P921 | main subject | visualization | Q451553 |
P304 | page(s) | 892-903 | |
P577 | publication date | 2016-06-28 | |
P1433 | published in | Acta crystallographica. Section D, Structural biology | Q27727181 |
P1476 | title | Visualizing the Bohr effect in hemoglobin: neutron structure of equine cyanomethemoglobin in the R state and comparison with human deoxyhemoglobin in the T state | |
P478 | volume | 72 |
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