- 學位論文
酵母菌核醣核酸蛋白Rbp1p絲胺酸-脯胺酸及核醣核酸辨識區域突變株之功能探討
Functional characterization of Ser-428-Pro and RRMs mutations in Rbp1p
若您是本文的作者,可授權文章由華藝線上圖書館中協助推廣。
摘要
真核細胞中,基因的調控需要核醣核酸結合蛋白與核醣核酸形成複合體,稱為核醣核蛋白。核醣核酸結合蛋白(Rbp1p)轉譯成一個六百七十二個胺基酸組成,約八十kD的蛋白質;包含三個核醣核酸識別基序 (RRM)及兩個富含麩氨酸區域。核醣核酸結合蛋白(Rbp1p)在發現時,被定義為一個負調控生長的因子。在我們實驗室中,已經發現在細胞內大量表現核醣核酸結合蛋白(Rbp1p) 能夠抑制酵母菌生長、促進粒腺體外模孔蛋白(porin)訊息核醣核酸降解、並抑制蛋白質的轉譯。核醣核酸結合蛋白(Rbp1p)在細胞中會座落到細胞質中特殊的聚集顆粒,稱為P-bodies。本實驗中,我們發現在第四百二十八個胺基酸由絲胺酸變成脯胺酸的突變株,會部份或完全喪失上述已知三項核醣核酸結合蛋白(Rbp1p)的功能。但這樣的核醣核酸結合蛋白(Rbp1p)突變株依然能夠座落到P-bodies。我們也發現:核醣核酸結合蛋白(Rbp1p)的絲胺酸-脯胺酸突變株及三個核醣核酸識別基序(RRM) 突變株均能夠引發絮凝現象(flocculation) 及洋菜入侵生長現象(invasive growth)這兩種附著現象。絮凝基因(Flo1p)和(Flo11p)是細胞膜上能夠進行附著的糖化蛋白。絮凝基因(Flo1p)剔除細胞株表現核醣核酸結合蛋白絲胺酸-脯胺酸突變株時不能夠引發絮凝現象;絮凝基因(Flo11p)剔除細胞株表現核醣核酸結合蛋白絲胺酸-脯胺酸突變株時則會降低洋菜入侵生長現象。絮凝基因(Flo1p)和(Flo11p)共同的轉錄因子(Mss11p)對於絲胺酸-脯胺酸突變株引發的附著現象也是必需的,推測核醣核酸結合蛋白(Rbp1p)的絲胺酸-脯胺酸突變株透過調控轉錄因子MSS11引發絮凝現象及洋菜入侵生長現象。與核醣核酸結合蛋白(Rbp1p)有交互作用的蛋白質中,Dhh1p、Xrn1p和Kre6p是可能的目標蛋白,藉由與絲胺酸-脯胺酸突變株及三個核醣核酸識別基序(RRM) 突變株的交互作用,調控附著現象。
並列摘要
RNA-binding proteins forming dynamic messenger ribonucleoproteins with the transcript are required for the regulation of eukaryotic gene expression. The RNA-binding protein RBP1 encodes a 672-amino acid, ~80-kD protein containing three RNA recognition motifs (RRM) and two glutamine-rich stretches. It is first identified as a negative growth regulator. Our lab has demonstrated overexpression of Rbp1p shows a slow-growth phenotype, decreases the porin mRNA level by enhancing degradation, and suppresses the translation. Rbp1p localized to cytoplasm foci, named P-bodies. Here we showed that serine-428-Proline mutation loses the function of Rbp1p in slow-growth, translation repression and decreasing the stability of POR1 mRNA, but it still can localize to P-bodies. Rbp1p-S428P and Rbp1p RRM motif mutants induce flocculation and invasive growth. Flocculins, FLO1 and FLO11, are membrane surface glycoproteins for adhesion. FLO1 deletion suppresses flocculation; however FLO11 deletion decreases the invasive-growth level. It is also demonstrated that MSS11, transcription factor of FLO1 and FLO11 is required for both adhesion phenotypes, suggesting RNA-binding proteins mutation might regulate flocculation and invasive growth through MSS11. Rbp1p interacting proteins, DHH1, XRN1 and KRE6 might be possible candidates interacting with Rbp1p-S428P and Rbp1p RRM motif mutants to regulate adhesion phenotypes.
參考文獻
Anderson, P. & N. Kedersha, (2006) RNA granules. J Cell Biol 172: 803-808.
Bardwell, L., J. G. Cook, D. Voora, D. M. Baggott, A. R. Martinez & J. Thorner, (1998) Repression of yeast Ste12 transcription factor by direct binding of unphosphorylated Kss1 MAPK and its regulation by the Ste7 MEK. Genes Dev 12: 2887-2898.
Bester, M. C., I. S. Pretorius & F. F. Bauer, (2006) The regulation of Saccharomyces cerevisiae FLO gene expression and Ca2+ -dependent flocculation by Flo8p and Mss11p. Curr Genet 49: 375-383.
Brengues, M., D. Teixeira & R. Parker, (2005) Movement of eukaryotic mRNAs between polysomes and cytoplasmic processing bodies. Science 310: 486-489.
Broach, J. R., (1991) RAS genes in Saccharomyces cerevisiae: signal transduction in search of a pathway. Trends Genet 7: 28-33.
延伸閱讀
- Cheng, H. S. (2008). 探討酵母菌核醣核酸蛋白Rbp1p之轉譯後修飾 [master's thesis, National Taiwan University]. Airiti Library. https://doi.org/10.6342/NTU.2008.02985
- Chen, W. H. (2015). 酵母菌第一腺嘌呤核苷二磷酸核醣化因子相似蛋白和高爾基體蛋白Imh1p於高爾基氏體成熟面網上的功能性探討 [master's thesis, National Taiwan University]. Airiti Library. https://doi.org/10.6342/NTU.2015.10528
- Hu, J. H. (2017). 酵母菌第一腺嘌呤核苷二磷酸核醣化因子相似蛋白與Ypt6p相關路徑之功能性探討 [master's thesis, National Taiwan University]. Airiti Library. https://doi.org/10.6342/NTU201703859
- Chen, Y. J. (2016). Functional Characterization of ARF-like proteinArl1p and Arl3p [master's thesis, National Taiwan University]. Airiti Library. https://doi.org/10.6342/NTU201602957
- Hsu, C. C. (2015). Purification and functional characterization of S. pombe Rec12 protein complex [master's thesis, National Taiwan University]. Airiti Library. https://doi.org/10.6342/NTU.2015.11380