绿踝蜥(Anolis carolinensis)尾部再生的比较蛋白质组分析。

IF 0.9 1区 历史学 0 ARCHAEOLOGY
American Journal of Archaeology Pub Date : 2024-01-01 Epub Date: 2023-08-17 DOI:10.1002/ntls.20210421
Cindy Xu, Elizabeth D Hutchins, Walter Eckalbar, Ken Pendarvis, Derek M Benson, Douglas F Lake, Fiona M McCarthy, Kenro Kusumi
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引用次数: 0

摘要

作为羊膜脊椎动物,蜥蜴是与人类关系最密切的能够进行附肢再生的生物。蜥蜴可以自动切除或释放尾巴,作为躲避捕食者的一种手段,然后再生出具有功能的替代品。绿鼹鼠(Anolis carolinensis)可以通过涉及数百个基因差异表达的过程使尾巴再生,以前曾通过转录组和 microRNA 分析对这一过程进行过分析。为了研究再生组织中的蛋白质表达,我们对再生尾尖和基部进行了全蛋白质组分析。这是第一套针对无尾蜥的蛋白质组数据。我们共鉴定出 2646 个蛋白质,其中 976 个只存在于再生尾基部,796 个只存在于尾尖,874 个同时存在于尾尖和基部。对于这些组织中超过 90% 的蛋白质,我们都能在 Ensembl 或 NCBI 数据库中找到明确的同源基因模型。对于尾基中的 13 个蛋白质、尾尖中的 9 个蛋白质以及两个区域中的 10 个蛋白质,Ensembl 和 NCBI 中的基因模型与未表征的蛋白质相匹配,证实了这些预测存在于蛋白质组中。对再生尾基部表达的蛋白质进行的本体和通路分析确定了包括基于肌动蛋白丝过程、ncRNA 代谢、磷酸酶活性调控、小 GTP 酶介导的信号转导和细胞成分组织或生物生成等类别。对尾端表达的蛋白质进行分析后发现,其类别包括细胞器组织调控、蛋白质定位调控、泛素依赖性蛋白质分解、小 GTP 酶介导的信号转导、上皮细胞形态发生和生物质量调控。这些蛋白质组学发现证实了绿鬣蜥尾部再生过程中激活的通路和基因家族,同时也发现了一些尚未定性的蛋白质,它们在再生过程中的作用仍有待揭示。这项研究展示了蛋白质组和转录组数据在绿鼹鼠尾部再生过程中的整合可能带来的启示,并有可能更广泛地应用于其他再生模型的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Comparative proteomic analysis of tail regeneration in the green anole lizard, <i>Anolis carolinensis</i>.

Comparative proteomic analysis of tail regeneration in the green anole lizard, Anolis carolinensis.

As amniote vertebrates, lizards are the most closely related organisms to humans capable of appendage regeneration. Lizards can autotomize, or release their tails as a means of predator evasion, and subsequently regenerate a functional replacement. Green anoles (Anolis carolinensis) can regenerate their tails through a process that involves differential expression of hundreds of genes, which has previously been analyzed by transcriptomic and microRNA analysis. To investigate protein expression in regenerating tissue, we performed whole proteomic analysis of regenerating tail tip and base. This is the first proteomic data set available for any anole lizard. We identified a total of 2,646 proteins - 976 proteins only in the regenerating tail base, 796 only in the tail tip, and 874 in both tip and base. For over 90% of these proteins in these tissues, we were able to assign a clear orthology to gene models in either the Ensembl or NCBI databases. For 13 proteins in the tail base, 9 proteins in the tail tip, and 10 proteins in both regions, the gene model in Ensembl and NCBI matched an uncharacterized protein, confirming that these predictions are present in the proteome. Ontology and pathways analysis of proteins expressed in the regenerating tail base identified categories including actin filament-based process, ncRNA metabolism, regulation of phosphatase activity, small GTPase mediated signal transduction, and cellular component organization or biogenesis. Analysis of proteins expressed in the tail tip identified categories including regulation of organelle organization, regulation of protein localization, ubiquitin-dependent protein catabolism, small GTPase mediated signal transduction, morphogenesis of epithelium, and regulation of biological quality. These proteomic findings confirm pathways and gene families activated in tail regeneration in the green anole as well as identify uncharacterized proteins whose role in regrowth remains to be revealed. This study demonstrates the insights that are possible from the integration of proteomic and transcriptomic data in tail regrowth in the green anole, with potentially broader application to studies in other regenerative models.

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CiteScore
2.00
自引率
8.30%
发文量
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