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  • Title: Role of Bohr group salt bridges in cooperativity in hemoglobin.
    Author: Kilmartin JV, Imai K, Jones RT, Faruqui AR, Fogg J, Baldwin JM.
    Journal: Biochim Biophys Acta; 1978 May 24; 534(1):15-25. PubMed ID: 26416.
    Abstract:
    Possible problems in measuring the first Adair constant, K1, from accurate oxygen equilibrium curves have been investigated. Of these only the presence of small amounts of CO-hemoglobin or hemoglobin dimers had a significant effect. The former can be eliminated by treatment with oxygen, the latter by measuring the concentration-dependence of K1 or working at high protein concentrations. K1 values have been measured for normal hemoglobin at pH 7 and 9, hemoglobin specifically reacted with cyanate at Val 1alpha (alphac2beta2) and des(His 146beta) hemoglobin at pH 7. K1 is equal to KT, the oxygen affinity of the T state of hemoglobin, for all these hemoglobins and was increased in all of them when compared to normal hemoglobin at pH 7. This shows that the breakage of the Bohr group salt bridges by increasing pH or specific modification changes KT. Hence the Bohr group salt bridges break on ligation of the T state and are partially responsible for the free energy of cooperativity.
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