DC 欄位 值 語言 DC.contributor 生命科學系 zh_TW DC.creator 娜其菈 zh_TW DC.creator KUN ROHMATAN NAZILAH en_US dc.date.accessioned 2022-7-19T07:39:07Z dc.date.available 2022-7-19T07:39:07Z dc.date.issued 2022 dc.identifier.uri http://ir.lib.ncu.edu.tw:88/thesis/view_etd.asp?URN=108821611 dc.contributor.department 生命科學系 zh_TW DC.description 國立中央大學 zh_TW DC.description National Central University en_US dc.description.abstract alanyl-tRNA synthetase(丙胺酸-tRNA合成酶)是至今唯一仍保留其 原型結構的胺基酸-tRNA合成酶 (aminoacyl-tRNA synthetase)。AlaRS 原型結 構由催化、tRNA辨認、編輯和 C-Ala 結構區域共同組成。在 AlaRS 的四個 結構區域中,C-Ala 的蛋白質序列變異最大,因此在演化過程中,伴隨著功 能上的轉變。大腸桿菌C-Ala 強力結合 tRNA ,且在胺醯化扮演重要功能, 人類C-Ala 強力結合DNA,但是在胺醯化反應中卻是可有可無。為了進一步 了解C-Ala的功能及演化,我們研究及分析二個演化上疏離的低等真核生物 C-Ala的核酸結合能力。我們發現酵母菌Saccharomyces cerevisiae的 C-Ala與 tRNAAla 有很強的結合能力,但是不與 DNA 結合,在胺醯化反應中扮演重要 角色,這個特性與大腸桿菌 C-Ala 相似;然而黏菌Dictyostelium discoideum C-Ala 則可以同時結合tRNAAla與DNA,且在胺醯化反應中扮演重要功能, 這個特性與線蟲 C-Ala 相似。這些結果顯示,C-Ala由原核演化到真核過程 中,它的功能也由tRNA結合逐漸演變成DNA結合,而一些真核細胞的C-Ala 可能可以同時結合tRNAAla及DNA zh_TW dc.description.abstract AlaRS is the only aminoacyl-tRNA synthetase (aaRS) that still retains a conserved prototype structure. AlaRS consists of catalytic, tRNA-recognition, editing, and C-Ala domains. Among these four domains, C-Ala is highly diverged in sequence. E. coli C-Ala robustly binds tRNA and plays an important role in dimerization and aminoacylation, while human C-Ala robustly binds DNA and is dispensable for aminoacylation. Paradoxically, C. elegans (nematode) C-Ala robustly binds both tRNA and DNA and plays an important role in aminoacylation. To gain further insight into the evolution of C-Ala, we explored the nucleic acidbinding properties of C-Ala domains obtained from distantly-related lower eukaryotes. Our data showed that Saccharomyces cerevisiae C-Ala binds tRNAAla but not DNA and plays an important role in aminoacylation, a feature similar to E. coli C-Ala, whereas Dictyostelium discoideum (slime mold) C-Ala binds both tRNAAla and DNA and plays an important role in aminoacylation, a feature similar to C. elegans C-Ala. It thus appears that as prokaryotes evolved to eukaryotes, CAla has been repurposed from mediating tRNAAla binding to DNA binding, with certain eukaryotes binding to both ligands. en_US DC.subject alanyl-tRNA synthetase zh_TW DC.subject C-Ala zh_TW DC.subject 演化 zh_TW DC.subject 蛋白質合成 zh_TW DC.subject 轉譯 zh_TW DC.subject alanyl-tRNA synthetase en_US DC.subject C-Ala en_US DC.subject evolution en_US DC.subject protein synthesis en_US DC.subject translation en_US DC.title Functional Repurposing of C-Ala Domains en_US dc.language.iso en_US en_US DC.type 博碩士論文 zh_TW DC.type thesis en_US DC.publisher National Central University en_US