Toll样受体4基因座（TLR4）的系统发育变异和多态性。

Phylogenetic variation and polymorphism at the toll-like receptor 4 locus (TLR4).

作者信息

Smirnova I, Poltorak A, Chan E K, McBride C, Beutler B

机构信息

The University of Texas Southwestern Medical Center and the Howard Hughes Medical Institute, 5323 Harry Hines Boulevard, Dallas, Texas 75235-9050, USA.

出版信息

Genome Biol. 2000;1(1):RESEARCH002. doi: 10.1186/gb-2000-1-1-research002. Epub 2000 Apr 27.

DOI:10.1186/gb-2000-1-1-research002

PMID:11104518

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC31919/

Abstract

BACKGROUND

Differences in responses to bacterial surface lipopolysaccharides (LPSs) are apparent between and within mammalian species. It has been shown in mice that resistance to LPS is caused by defects in the Toll-like receptor 4 gene (Tlr4), the product of which is thought to bind LPS and mediate LPS signal transduction in immune system cells.

RESULTS

We have sequenced the Toll-like receptor 4 gene of humans (TLR4; 19.0 kilobases, kb) and mice (Tlr4; 91.7 kb), as well as the coding region and splice junctions of Tlr4 from 35 mouse (Mus musculus) strains, from the chimpanzee and from the baboon. No other discernible genes or regions of interspecies conservation lies close to Tlr4 and, in both humans and mice, flanking sequences and introns are rich in repeats of retroviral origin. Interstrain analyses reveal that Tlr4 is a polymorphic protein and that the extracellular domain is far more variable than the cytoplasmic domain, both among strains and among species. The cytoplasmic domain of the Tlr4 protein is highly variable at the carboxy-terminal end.

CONCLUSIONS

We suggest that selective evolutionary pressure exerted by microbes expressing structurally distinguishable LPS molecules has produced the high level of variability in the Tlr4 extracellular domain. The highly variable carboxy-terminal region of the cytoplasmic domain is likely to determine the magnitude of the response to LPS within a species.

摘要

背景

哺乳动物物种之间以及物种内部对细菌表面脂多糖（LPS）的反应存在明显差异。在小鼠中已表明，对LPS的抗性是由Toll样受体4基因（Tlr4）的缺陷引起的，该基因的产物被认为可结合LPS并介导免疫系统细胞中的LPS信号转导。

结果

我们已对人类（TLR4；19.0千碱基，kb）和小鼠（Tlr4；91.7 kb）的Toll样受体4基因，以及来自35个小鼠（小家鼠）品系、黑猩猩和狒狒的Tlr4编码区和剪接位点进行了测序。在Tlr4附近没有其他可识别的基因或种间保守区域，并且在人类和小鼠中，侧翼序列和内含子都富含逆转录病毒起源的重复序列。品系间分析表明，Tlr4是一种多态性蛋白，并且细胞外结构域在品系间和物种间比细胞质结构域的变异性大得多。Tlr4蛋白的细胞质结构域在羧基末端高度可变。

结论

我们认为，表达结构上可区分的LPS分子的微生物施加的选择性进化压力导致了Tlr4细胞外结构域的高度变异性。细胞质结构域高度可变的羧基末端区域可能决定了物种内对LPS反应的强度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b32e/31919/d61f3dc38bc5/gb-2000-1-1-research002-1.jpg

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Toll样受体4基因座（TLR4）的系统发育变异和多态性。

Phylogenetic variation and polymorphism at the toll-like receptor 4 locus (TLR4).

作者信息

Smirnova I, Poltorak A, Chan E K, McBride C, Beutler B

机构信息

The University of Texas Southwestern Medical Center and the Howard Hughes Medical Institute, 5323 Harry Hines Boulevard, Dallas, Texas 75235-9050, USA.