Ewars P A, Sooter K V
Biochem J. 1969 Sep;114(2):227-35. doi: 10.1042/bj1140227.
Molecular weights and sedimentation coefficients of four major fractions of calf thymus histones were measured. The minimum molecular weights were determined in concentrated solutions of guanidine hydrochloride. The results indicate that, with the possible exception of fraction F3, the fractions are heterogeneous. Comparisons in 0.1m-sodium chloride suggest that fraction F1 does not aggregate and show that fractions F2(a) and F3 aggregate to form larger complexes than does fraction F2(b). The degree of aggregation of each fraction is independent of pH in the range pH1-7. Detailed studies with fraction F2(b) have confirmed that the change in sedimentation coefficient observed as the sodium chloride concentration of the solution is increased results from increases in the apparent molecular weight of the sedimenting units. It has been found that the molecules of fraction F2(b) are present as single molecules only in sodium chloride solutions of 33mm or less. At these low concentrations the effects of charge greatly increase the concentration dependence of the sedimentation rate; the results can, however, be interpreted by using the theory developed by Alexandrowicz & Daniel (1963) and Daniel & Alexandrowicz (1963).
测定了小牛胸腺组蛋白四个主要组分的分子量和沉降系数。在浓盐酸胍溶液中测定了最小分子量。结果表明,除了F3组分可能例外,其他组分都是不均一的。在0.1m氯化钠中的比较表明,F1组分不聚集,并且表明F2(a)和F3组分比F2(b)组分聚集形成更大的复合物。各组分的聚集程度在pH1 - 7范围内与pH无关。对F2(b)组分的详细研究证实,随着溶液中氯化钠浓度的增加,沉降系数的变化是由于沉降单元表观分子量的增加所致。已发现F2(b)组分的分子仅在33mm或更低的氯化钠溶液中以单分子形式存在。在这些低浓度下,电荷效应极大地增加了沉降速率对浓度的依赖性;然而,结果可以用Alexandrowicz和Daniel(1963年)以及Daniel和Alexandrowicz(1963年)提出的理论来解释。