DNA-Directed Cell-Free Synthesis of Biologically Active Transfer RNA: su+III Tyrosyl-tRNA

机译：DNA定向的生物活性转移RNA的无细胞合成：su + III酪氨酰-tRNA

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Biologically active su⁺III tyrosyl-tRNA has been synthesized in a DNA-directed cell-free system from Escerichia coli. Such a system should be most useful for studying the mechanism of tRNA synthesis. This tRNA is capable of suppressing amber mutations in the gene coding for β-galactosidase (EC 3.2.1.23) and, therefore, must be capable of being charged and transferring amino acids. A 4-fold stimulation in the activity of the tRNA formed de novo is obtained with isopentenyl pyrophosphate, a compound involved in the post-transcriptional acylation of an adenine base adjacent to the anticodon. It has been suggested elsewhere that formation of RNA subject to stringent control may be inhibited by guanosine tetraphosphate (ppGpp). However, guanosine tetraphosphate did not affect the synthesis of su⁺III tyrosyl-tRNA, even though the synthesis of this tRNA is subject to stringent control.

机译：具有生物活性的su ^{+ III酪氨酰-tRNA是在大肠杆菌的DNA定向无细胞系统中合成的。这样的系统对于研究tRNA合成机制应该是最有用的。该tRNA能够抑制编码β-半乳糖苷酶（EC 3.2.1.23）的基因中的琥珀色突变，因此必须能够带电并转移氨基酸。用异戊烯基焦磷酸获得了从头形成的tRNA活性的4倍刺激，焦磷酸异戊烯是一种与反密码子相邻的腺嘌呤碱基转录后酰化的化合物。在其他地方已经提出，可以通过四磷酸鸟苷（ppGpp）抑制受到严格控制的RNA的形成。然而，鸟嘌呤四磷酸并不影响su ^{+ III酪氨酰-tRNA的合成，即使该tRNA的合成受到严格控制。}}

著录项

期刊名称 Proceedings of the National Academy of Sciences of the United States of America
作者
Geoffrey Zubay; Loretta Cheong; Malcolm Gefter;
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年(卷),期 1971(68),9
年度 1971
页码 2195–2197
总页数 3
原文格式 PDF
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1. The mitochondrial tyrosyl-tRNA synthetase of Podospora anserina is a bifunctional enzyme active in protein synthesis and RNA splicing. [J] . U K?mper, U Kück, A D Cherniack, Molecular and Cellular Biology . 1992,第2期

机译：Podospora anserina的线粒体酪氨酰-tRNA合成酶是一种在蛋白质合成和RNA剪接中具有活性的双功能酶。
2. Biochemical and biological properties of 5-bromotubercidin: differential effects on cellular DNA-directed and viral RNA-directed RNA synthesis. [J] . Brdar B, Reich E Bioorganic and medicinal chemistry . 2008,第3期

机译：5-溴小球菌素的生化和生物学特性：对细胞DNA定向和病毒RNA定向的RNA合成的不同影响。
3. Metronidazole containing pyrazole derivatives potently inhibit tyrosyl-tRNA synthetase: design, synthesis, and biological evaluation [J] . Chen Long-Wang, Wang Peng-Fei, Tang Dan-Jie, Chemical biology and drug design . 2016,第4期

机译：含有吡唑衍生物的甲硝唑可有效抑制酪氨酰-tRNA合成酶：设计，合成和生物学评估
4. Towards improved applications of cell-free protein biosynthesis - the influence of mRNA structure and suppressor tRNAS on the efficiency of the system [C] . Michael Gerrits, Helmut Merk, Wolfgang Stiege, NATO advanced research workshop on RNA biochemistry and biotechnology . 1999

机译：改进细胞蛋白生物合成的应用 - mRNA结构和抑制TrNA对系统效率的影响
5. Part I. Design and synthesis of bicyclic internal beta-turn mimetics and their incorporation into biologically active ligands; Part II. Synthesis of cyclic peptides by ring closing metathesis. [D] . Min, Byoung Joon. 2010

机译：第一部分：双环内部β-转角模拟物的设计与合成及其掺入生物活性配体中；第二部分通过闭环易位合成环状肽。
6. The mitochondrial tyrosyl-tRNA synthetase of Podospora anserina is a bifunctional enzyme active in protein synthesis and RNA splicing. [O] . U Kämper, U Kück, A D Cherniack, 1992

机译：Podospora anserina的线粒体酪氨酰-tRNA合成酶是一种在蛋白质合成和RNA剪接中具有活性的双功能酶。
7. DNA-Directed Cell-Free Synthesis of Biologically Active Transfer RNA: su+III Tyrosyl-tRNA [O] . Zubay, Geoffrey, Cheong, Loretta, Gefter, Malcolm 1971

机译：DNA定向的生物活性转移RNA的无细胞合成：su + III酪氨酰-tRNA

DNA-Directed Cell-Free Synthesis of Biologically Active Transfer RNA: su+III Tyrosyl-tRNA

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