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脊椎动物血小板反应蛋白的系统基因组分析揭示了鱼类特有的旁系同源物、祖先基因关系以及四足动物的创新。

Phylogenomic analysis of vertebrate thrombospondins reveals fish-specific paralogues, ancestral gene relationships and a tetrapod innovation.

作者信息

McKenzie Patrick, Chadalavada Seetharam C, Bohrer Justin, Adams Josephine C

机构信息

Lerner College of Medicine, Case Western Reserve University, Cleveland Clinic Foundation, Cleveland, OH 44195, USA.

出版信息

BMC Evol Biol. 2006 Apr 18;6:33. doi: 10.1186/1471-2148-6-33.

DOI:10.1186/1471-2148-6-33
PMID:16620379
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1464143/
Abstract

BACKGROUND

Thrombospondins (TSPs) are evolutionarily-conserved, extracellular, calcium-binding glycoproteins with important roles in cell-extracellular matrix interactions, angiogenesis, synaptogenesis and connective tissue organisation. Five TSPs, designated TSP-1 through TSP-5, are encoded in the human genome. All but one have known roles in acquired or inherited human diseases. To further understand the roles of TSPs in human physiology and pathology, it would be advantageous to extend the repertoire of relevant vertebrate models. In general the zebrafish is proving an excellent model organism for vertebrate biology, therefore we set out to evaluate the status of TSPs in zebrafish and two species of pufferfish.

RESULTS

We identified by bioinformatics that three fish species encode larger numbers of TSPs than vertebrates, yet all these sequences group as homologues of TSP-1 to -4. By phylogenomic analysis of neighboring genes, we uncovered that, in fish, a TSP-4-like sequence is encoded from the gene corresponding to the tetrapod TSP-5 gene. Thus, all TSP genes show conservation of synteny between fish and tetrapods. In the human genome, the TSP-1, TSP-3, TSP-4 and TSP-5 genes lie within paralogous regions that provide insight into the ancestral genomic context of vertebrate TSPs.

CONCLUSION

A new model for TSP evolution in vertebrates is presented. The TSP-5 protein sequence has evolved rapidly from a TSP-4-like sequence as an innovation in the tetrapod lineage. TSP biology in fish is complicated by the presence of additional lineage- and species-specific TSP paralogues. These novel results give deeper insight into the evolution of TSPs in vertebrates and open new directions for understanding the physiological and pathological roles of TSP-4 and TSP-5 in humans.

摘要

背景

血小板反应蛋白(TSPs)是进化上保守的细胞外钙结合糖蛋白,在细胞与细胞外基质相互作用、血管生成、突触形成和结缔组织组织化中发挥重要作用。人类基因组中编码了五种TSPs,命名为TSP-1至TSP-5。除一种外,其他在人类获得性或遗传性疾病中均有已知作用。为进一步了解TSPs在人类生理和病理中的作用,扩展相关脊椎动物模型的种类将是有益的。总体而言,斑马鱼已被证明是脊椎动物生物学的优秀模式生物,因此我们着手评估斑马鱼和两种河豚中TSPs的情况。

结果

我们通过生物信息学鉴定出,三种鱼类编码的TSPs数量比脊椎动物多,但所有这些序列均归类为TSP-1至-4的同源物。通过对相邻基因的系统基因组分析,我们发现,在鱼类中,与四足动物TSP-5基因相对应的基因编码了一个类似TSP-4的序列。因此,所有TSP基因在鱼类和四足动物之间显示出同线性的保守性。在人类基因组中,TSP-1、TSP-3、TSP-4和TSP-5基因位于旁系同源区域内,这些区域为了解脊椎动物TSPs的祖先基因组背景提供了线索。

结论

提出了脊椎动物中TSP进化的新模型。TSP-5蛋白序列已从类似TSP-4的序列迅速进化而来,这是四足动物谱系中的一项创新。鱼类中TSP生物学因存在额外的谱系和物种特异性TSP旁系同源物而变得复杂。这些新结果为深入了解脊椎动物中TSPs的进化提供了见解,并为理解TSP-4和TSP-5在人类中的生理和病理作用开辟了新方向。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a949/1464143/87bd6077af02/1471-2148-6-33-8.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a949/1464143/87bd6077af02/1471-2148-6-33-8.jpg
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