免疫球蛋白D基因座的新型重排。倒位和融合增加了免疫球蛋白重链的体细胞多样性。
Novel rearrangements at the immunoglobulin D locus. Inversions and fusions add to IgH somatic diversity.
作者信息
Meek K D, Hasemann C A, Capra J D
机构信息
Department of Microbiology, University of Texas Southwestern Medical Center, Dallas 75235.
出版信息
J Exp Med. 1989 Jul 1;170(1):39-57. doi: 10.1084/jem.170.1.39.
Abstract
IgH rearrangements (VH-D, D-JH) are central to the generation of antibody diversity. The majority of the diversity seen in the third hypervariable region is generated by the D segment and at the joints formed by both junctional and N segment variation during D-JH and VH-D rearrangements. The mechanisms that regulate rearrangement are thought to obey the 12/23 rule, wherein D-D or VH-JH rearrangements are precluded. Here, we present evidence that D-D fusions do in fact occur, either as direct or inverted rearrangements. The fused D segments so generated may be fully capable of proceeding in subsequent D-JH and VH-D rearrangements. The resultant VH-D-D-JH recombinations add another dimension to the potential repertoire of IgH V regions by increasing the level of combinatorial diversity and by providing additional sites for N region variation.
摘要
免疫球蛋白重链(IgH)重排(VH-D、D-JH)对于抗体多样性的产生至关重要。在第三个高变区所见的大部分多样性是由D片段以及在D-JH和VH-D重排过程中由连接区和N片段变异形成的接头处产生的。调节重排的机制被认为遵循12/23规则,即D-D或VH-JH重排被排除在外。在此,我们提供证据表明D-D融合实际上确实会发生,无论是作为直接重排还是反向重排。如此产生的融合D片段可能完全有能力在随后的D-JH和VH-D重排中继续进行。由此产生的VH-D-D-JH重组通过增加组合多样性水平并提供额外的N区变异位点,为IgH V区的潜在库增添了另一个维度。
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