有证据表明，模块化蛋白质的人类基因保留的祖先内含子比其果蝇或线虫的直系同源基因要多得多。

Evidence that human genes of modular proteins have retained significantly more ancestral introns than their fly or worm orthologues.

作者信息

Bányai László, Patthy László

机构信息

Institute of Enzymology, Biological Research Center, Hungarian Academy of Sciences, P.O. Box 7, H-1518 Budapest, Hungary.

出版信息

FEBS Lett. 2004 May 7;565(1-3):127-32. doi: 10.1016/j.febslet.2004.03.088.

DOI:10.1016/j.febslet.2004.03.088

PMID:15135065

Abstract

Comparison of the exon-intron structures of human, fly and worm orthologues of mosaic genes assembled from class 1-1 modules by exon-shuffling has revealed that human genes retained significantly more of the original inter-module introns than their protostome orthologues. It is suggested that the much higher rate of intron loss in the worm- and insect lineages than in the chordate lineage reflects their greater tendency for genome compaction.

摘要

通过外显子重排由1-1类模块组装而成的镶嵌基因的人类、果蝇和线虫直系同源物的外显子-内含子结构比较显示，与原口动物直系同源物相比，人类基因保留了显著更多的原始模块间内含子。有人提出，线虫和昆虫谱系中的内含子丢失率比脊索动物谱系中的高得多，这反映了它们在基因组压缩方面有更大的倾向。

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有证据表明，模块化蛋白质的人类基因保留的祖先内含子比其果蝇或线虫的直系同源基因要多得多。

Evidence that human genes of modular proteins have retained significantly more ancestral introns than their fly or worm orthologues.

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有证据表明，模块化蛋白质的人类基因保留的祖先内含子比其果蝇或线虫的直系同源基因要多得多。

Evidence that human genes of modular proteins have retained significantly more ancestral introns than their fly or worm orthologues.

作者信息

机构信息

出版信息

相似文献

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