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Identification of a bifunctional enzyme MnmC involved in the biosynthesis of a hypermodified uridine in the wobble position of tRNA

机译：鉴定参与tRNA摆动位置中超修饰尿苷生物合成的双功能酶MnmC

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The gene encoding the bifunctional enzyme MnmC that catalyzes the two last steps in the biosynthesis of 5-methylaminomethyl-2-thiouridine (mnm5s2U) in tRNA has been previously mapped at about 50 min on the Escherichia coli K12 chromosome, but to date the identity of the corresponding enzyme has not been correlated with any of the known open reading frames (ORFs). Using the protein fold-recognition approach, we predicted that the 74-kDa product of the yfcK ORF located at 52.6 min and annotated as “putative peptidase” comprises a methyltransferase domain and a FAD-dependent oxidoreductase domain. We have cloned, expressed, and purified the YfcK protein and demonstrated that it catalyzes the formation of mnm5s2U in tRNA. Thus, we suggest to rename YfcK as MnmC.

机译：编码双功能酶MnmC的基因可催化tRNA中5-甲基氨基甲基-2-硫尿苷（mnm5s2U）的生物合成中的最后两个步骤，先前已在大约50分钟时将其定位在大肠杆菌K12染色体上，但迄今为止相应的酶尚未与任何已知的开放阅读框（ORF）相关。使用蛋白质折叠识别方法，我们预测位于52.6分钟的yfcK ORF的74 kDa产物被标注为“假定肽酶”，包含一个甲基转移酶结构域和一个FAD依赖性氧化还原酶结构域。我们已经克隆，表达和纯化YfcK蛋白，并证明它催化tRNA中mnm5s2U的形成。因此，我们建议将YfcK重命名为MnmC。

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BUJNICKI, JANUSZ M.; OUDJAMA, YAMINA; ROOVERS, MARTINE; OWCZAREK, SYLWIA; CAILLET, JOËL; DROOGMANS, LOUIS;
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年度 2004
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1. Identification of a bifunctional enzyme MnmC involved in the biosynthesis of a hypermodified uridine in the wobble position of tRNA. [J] . Bujnicki JM, Oudjama Y, Roovers M, RNA . 2004,第8期

机译：鉴定双功能酶MnmC参与tRNA摆动位置中超修饰尿苷的生物合成。
2. Sequence-structure-function analysis of the bifunctional enzyme MnmC that catalyses the last two steps in the biosynthesis of hypermodified nucleoside mnm5s2U in tRNA. [J] . Roovers M, Oudjama Y, Kaminska KH, Proteins: Structure, Function, and Genetics . 2008,第4期

机译：双功能酶MnmC的序列结构功能分析，可催化tRNA中超修饰核苷mnm5s2U生物合成的最后两个步骤。
3. Structural basis for hypermodification of the wobble uridine in tRNA by bifunctional enzyme MnmC [J] . Jungwook Kim, Steven C Almo BMC Structural Biology . 2013,第1期

机译：双功能酶MnmC对tRNA中的摆动尿苷进行超修饰的结构基础
4. Direct incorporation of taurine into novel modified uridines at anticodon wobble position of human mitochondrial tRNAs [C] . 19th tRNA workshop tRNA 2002"" . 2002

机译：在人线粒体tRNA的反密码子摆动位置将牛磺酸直接掺入新型修饰的尿苷中
5. Discovery of Novel Amidotransferase Activity Involved In Archaeosine Biosynthesis and Structural and Kinetic Investigation of QueF, an Enzyme Involved in Queuosine Biosynthesis. [D] . Chikwana, Vimbai Masiyanise. 2011

机译：涉及古生物合成的新型酰胺转移酶活性的发现以及涉及QueuFine生物合成的酶QueF的结构和动力学研究。
6. Identification of a bifunctional enzyme MnmC involved in the biosynthesis of a hypermodified uridine in the wobble position of tRNA [O] . JANUSZ M. BUJNICKI, YAMINA OUDJAMA, MARTINE ROOVERS, 2004

机译：鉴定参与tRNA摆动位置中超修饰尿苷生物合成的双功能酶MnmC
7. Identification of a bifunctional enzyme MnmC involved in the biosynthesis of a hypermodified uridine in the wobble position of tRNA. [O] . Bujnicki, Janusz Marek, Oudjama, Yamina, Roovers, Martine, 2004

机译：鉴定双功能酶MnmC参与tRNA摆动位置中超修饰尿苷的生物合成。

Identification of a bifunctional enzyme MnmC involved in the biosynthesis of a hypermodified uridine in the wobble position of tRNA

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