1hgb Citations

High resolution crystal structures and comparisons of T-state deoxyhaemoglobin and two liganded T-state haemoglobins: T(alpha-oxy)haemoglobin and T(met)haemoglobin.

Liddington R, Derewenda Z, Dodson E, Hubbard R, Dodson G
J Mol Biol 228 551-79 (1992)
Related entries: 1hga, 1hgc

Cited: 57 times
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Abstract

The origin of co-operativity in haemoglobin (Hb) resides in the reduced affinity of the T-state. T-state Hb crystals grown from polyethyleneglycol can be liganded without the molecule switching to the R high affinity state. X-ray analysis of T-state alpha-oxy Hb and T-state met Hb has identified the structural basis for reduced affinity. The nature of the chemical tension at the haem environment is different in the alpha and beta haems. There are small but definite structural changes associated with ligation in the T-state: these prove to be mostly in the same direction as the larger changes that occur in the T-->R transition.

Reviews - 1hgb mentioned but not cited (1)

  1. New look at hemoglobin allostery. Yuan Y, Tam MF, Simplaceanu V, Ho C. Chem Rev 115 1702-1724 (2015)

Articles - 1hgb mentioned but not cited (6)

  1. A new method of identifying the site of tyrosyl radicals in proteins. Svistunenko DA, Cooper CE. Biophys J 87 582-595 (2004)
  2. Delineation of lipopolysaccharide (LPS)-binding sites on hemoglobin: from in silico predictions to biophysical characterization. Bahl N, Du R, Winarsih I, Ho B, Tucker-Kellogg L, Tidor B, Ding JL. J Biol Chem 286 37793-37803 (2011)
  3. The structure of haemoglobin bound to the haemoglobin receptor IsdH from Staphylococcus aureus shows disruption of the native α-globin haem pocket. Dickson CF, Jacques DA, Clubb RT, Guss JM, Gell DA. Acta Crystallogr D Biol Crystallogr 71 1295-1306 (2015)
  4. Structure of human R-state aquomethemoglobin at 2.0 Å resolution. Yi J, Thomas LM, Richter-Addo GB. Acta Crystallogr Sect F Struct Biol Cryst Commun 67 647-651 (2011)
  5. Methemoglobin formation in mutant hemoglobin α chains: electron transfer parameters and rates. Dixit VA, Blumberger J, Vyas SK. Biophys J 120 3807-3819 (2021)
  6. Tyrosyl radical in haemoglobin and haptoglobin-haemoglobin complex: how does haptoglobin make haemoglobin less toxic? Svistunenko DA, Manole A. J Biomed Res 34 281-291 (2019)


Reviews citing this publication (4)

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  4. From protein structure to function via single crystal optical spectroscopy. Ronda L, Bruno S, Bettati S, Storici P, Mozzarelli A. Front Mol Biosci 2 12 (2015)

Articles citing this publication (46)

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  30. Differences in coordination states of substituted tyrosine residues and quaternary structures among hemoglobin M probed by resonance Raman spectroscopy. Aki Y, Nagai M, Nagai Y, Imai K, Aki M, Sato A, Kubo M, Nagatomo S, Kitagawa T. J Biol Inorg Chem 15 147-158 (2010)
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  35. Normal coordinate structural decomposition of the heme distortions of hemoglobin in various quaternary states and bound to allosteric effectors. Laberge M, Yonetani T, Fidy J. Mol Divers 7 15-23 (2003)
  36. Stereospinomers of pentacoordinate iron porphyrin complexes: the case of the [Fe(porphyrinato)(CN)]- anions. Cirera J, Alvarez S. Dalton Trans 42 7002-7008 (2013)
  37. A new relaxed state in horse methemoglobin characterized by crystallographic studies. Sankaranarayanan R, Biswal BK, Vijayan M. Proteins 60 547-551 (2005)
  38. Conformation of the sebacyl beta1Lys82-beta2Lys82 crosslink in T-state human hemoglobin. Ji X, Braxenthaler M, Moult J, Fronticelli C, Bucci E, Gilliland GL. Proteins 30 309-320 (1998)
  39. H2O2 determination by a biosensor based on hemoglobin. Sezgintürk MK, Dinçkaya E. Prep Biochem Biotechnol 39 1-10 (2009)
  40. Structure of deoxyhemoglobin: ionizable groups and polyethylene glycol. Saroff HA. Proteins 50 329-340 (2003)
  41. Structure of liganded T-state haemoglobin from cat (Felis silvestris catus), a low oxygen-affinity species, in two different crystal forms. Balasubramanian M, Sathya Moorthy P, Neelagandan K, Ramadoss R, Kolatkar PR, Ponnuswamy MN. Acta Crystallogr D Biol Crystallogr 70 1898-1906 (2014)
  42. Movements at the hemoglobin A-hemes and their role in ligand binding, analyzed by X-ray crystallography. Dodson E, Dodson G. Biopolymers 91 1056-1063 (2009)
  43. Anaerobic fixed-target serial crystallography using sandwiched silicon nitride membranes. Bjelčić M, Sigfridsson Clauss KGV, Aurelius O, Milas M, Nan J, Ursby T. Acta Crystallogr D Struct Biol 79 1018-1025 (2023)
  44. Antichaperone activity and heme degradation effect of methyl tert-butyl ether (MTBE) on normal and diabetic hemoglobins. Najdegerami IH, Maghami P, Sheikh-Hasani V, Hosseinzadeh G, Sheibani N, Moosavi-Movahedi AA. J Mol Recognit 30 (2017)
  45. Biodistribution PET/CT Study of Hemoglobin-DFO-89Zr Complex in Healthy and Lung Tumor-Bearing Mice. Kiraga Ł, Cerutti G, Braniewska A, Strzemecki D, Sas Z, Boffi A, Savino C, Montemiglio LC, Turnham D, Seaton G, Bonamore A, Clarkson R, Dabkowski AM, Paisey SJ, Taciak B, Kucharzewska P, Rygiel TP, Król M. Int J Mol Sci 21 E4991 (2020)
  46. Characterization of the acid-alkaline transition in the individual subunits of human adult and foetal methaemoglobins. Shibata T, Nagao S, Tai H, Nagatomo S, Hamada H, Yoshikawa H, Suzuki A, Yamamoto Y. J Biochem 148 217-229 (2010)


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