补体C2受体抑制剂三跨展:从人到血吸虫。

Springer seminars in immunopathology Pub Date : 2005-11-01 Epub Date: 2005-11-11 DOI:10.1007/s00281-005-0009-9
Jameel M Inal
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引用次数: 22

摘要

水平基因转移(HGT)与寄主和寄生虫之间的遗传转移有关,是一种鲜为人知的机制。自从补体抑制剂CRIT首次在人类血吸虫(Bilharzia的病原体)和克氏锥虫(一种引起恰加斯病的寄生虫)中被发现以来,它已被发现分布在各种物种中,从早期硬骨鱼到大鼠和人类。就进化距离而言,通过对这些CRIT基因在核苷酸水平上的系统发育分析,寄生物种与大鼠序列一样远离人类宿主,这表明HGT。根据经验数据和越来越多的关于人类和血吸虫基因组中可移动遗传元件的数据,提出了人类和血吸虫中CRIT是同源的,以及血吸虫中CRIT的存在是宿主-寄生虫HGT的结果的假设。综上所述,这些数据表明血吸虫和人类CRIT在系统发育上接近,功能相同,核苷酸/氨基酸和二级蛋白结构相同,基因组组织相同。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Complement C2 receptor inhibitor trispanning: from man to schistosome.

Horizontal gene transfer (HGT), in relation to genetic transfer between hosts and parasites, is a little described mechanism. Since the complement inhibitor CRIT was first discovered in the human Schistosoma parasite (the causative agent of Bilharzia) and in Trypanosoma cruzi (a parasite causing Chagas' disease), it has been found to be distributed amongst various species, ranging from the early teleost cod to rats and humans. In terms of evolutionary distance, as measured in a phylogenetic analysis of these CRIT genes at nucleotide level, the parasitic species are as removed from their human host as is the rat sequence, suggesting HGT. The hypotheses that CRIT in humans and schistosomes is orthologous and that the presence of CRIT in schistosomes occurs as a result of host-to-parasite HGT are presented in the light of empirical data and the growing body of data on mobile genetic elements in human and schistosome genomes. In summary, these data indicate phylogenetic proximity between Schistosoma and human CRIT, identity of function, high nucleotide/amino acid identity and secondary protein structure, as well as identical genomic organization.

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