Krystal M, Young J F, Palese P, Wilson I A, Skehel J J, Wiley D C
Proc Natl Acad Sci U S A. 1983 Jul;80(14):4527-31. doi: 10.1073/pnas.80.14.4527.
Comparative analysis of the amino acid sequences of hemagglutinins (HAs) of influenza B/Lee/40, B/Md/59, and B/HK/73 viruses has allowed examination of the molecular basis of antigenic variation in type B viruses. As seen with influenza type A viruses, antigenic drift in influenza B viruses proceeds mostly through the accumulation of amino acid substitutions within the HA1 portion of the HA molecule. However, the rate of variation observed among the influenza B virus HAs appears to be significantly lower than the observed rate of variation among influenza A virus HAs. The overall rate of amino acid change in the HA1s of the influenza B viruses studied is 2% per 10 years, whereas the HA1s of H3 influenza A viruses vary by 9.2% per 10 years. The sequences of the influenza B HAs were also examined in relation to the three-dimensional model for the A/Aichi/2/68 HA. When the primary amino acid sequences are compared, it appears that most of the important structural features of the type A HAs--such as the sialic acid binding site, the disulfide linkages, and the stem structure of the trimer--are conserved in the influenza B virus HAs. Regions are also identified where extensive amino acid substitutions have occurred among the three antigenically distinct influenza B virus HAs. The locations of these areas in the B HA structure correspond to antigenic regions proposed for the A virus HAs. In addition, modulation of antigenic regions in B virus HAs may also occur through amino acid deletions and variation in glycosylation sites.
对乙型流感病毒B/Lee/40、B/Md/59和B/HK/73血凝素(HA)的氨基酸序列进行比较分析,有助于研究乙型流感病毒抗原变异的分子基础。正如甲型流感病毒那样,乙型流感病毒的抗原漂移主要是通过HA分子HA1部分内氨基酸替换的积累而发生的。然而,观察到的乙型流感病毒HA之间的变异率似乎明显低于甲型流感病毒HA之间观察到的变异率。所研究的乙型流感病毒HA1中氨基酸变化的总体速率为每10年2%,而甲型H3流感病毒的HA1每10年变化9.2%。还根据A/Aichi/2/68 HA的三维模型研究了乙型流感病毒HA的序列。当比较一级氨基酸序列时,似乎甲型流感病毒HA的大多数重要结构特征——如唾液酸结合位点、二硫键和三聚体的茎结构——在乙型流感病毒HA中是保守的。还确定了在三种抗原性不同的乙型流感病毒HA之间发生广泛氨基酸替换的区域。这些区域在乙型流感病毒HA结构中的位置与甲型流感病毒HA所提出的抗原区域相对应。此外,乙型流感病毒HA抗原区域的调节也可能通过氨基酸缺失和糖基化位点的变异而发生。