Minor structural consequences of alternative CUG codon usage (Ser for Leu) in Candida albicans exoglucanase.

Cutfield JF; Sullivan PA; Cutfield SM

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Minor structural consequences of alternative CUG codon usage (Ser for Leu) in Candida albicans exoglucanase.

机译：在白色念珠菌外切葡聚糖酶中使用替代CUG密码子使用的轻微结构后果（Ser为Leu）。

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In some species of Candida the CUG codon is encoded as serine and not leucine. In the case of the exo-beta-1,3-glucanase from the pathogenic fungus C. albicans there are two such translational events, one in the prepro-leader sequence and the other at residue 64. Overexpression of active mature enzyme in a yeast host indicated that these two positions are tolerant to substitution. By comparing the crystal structure of the recombinant protein with that of the native (presented here), it is seen how either serine or leucine can be accommodated at position 64. Examination of the relatively few solved protein structures from C. albicans indicates that other CUG encoded serines are also found at non-essential surface sites. However such codon usage is rare in C. albicans, in contrast to C. rugosa, with direct implications for respective recombinant protein production.

机译：在某些念珠菌中，CUG密码子编码为丝氨酸而不是亮氨酸。对于来自致病性真菌白色念珠菌的exo-beta-1,3-葡聚糖酶，有两个这样的翻译事件，一个在前原先导序列中，另一个在残基64中。酵母中活性成熟酶的过表达主持人指出，这两个位置都可以替代。通过将重组蛋白的晶体结构与天然蛋白的晶体结构进行比较（此处显示），可以看出丝氨酸或亮氨酸如何能容纳在第64位。检查来自白色念珠菌的相对较少的已解决蛋白结构表明，其他CUG在非必需的表面位点也发现了编码的丝氨酸。然而，与皱纹念珠菌相比，这种密码子在白色念珠菌中很少见，直接影响各自的重组蛋白生产。

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《Protein Engineering 》 |2000年第10期| 共4页
作者
Cutfield JF; Sullivan PA; Cutfield SM;
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正文语种 eng
中图分类蛋白质 ;
关键词
Candida albicans; Codon; Translation; Genetic; beta-Glucosidase; DNA; Fungal; 念珠菌; 白色; 密码子; 翻译; 遗传; β葡糖苷酶类;

机译：Candida albicans;Codon;Translation;Genetic;beta-Glucosidase;DNA;Fungal;念珠菌;白色;密码子;翻译;遗传;β葡糖苷酶类;

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1. Minor structural consequences of alternative CUG codon usage (Ser for Leu) in Candida albicans exoglucanase. [J] . Cutfield JF, Sullivan PA, Cutfield SM Protein Engineering . 2000 ,第10期

机译：在白色念珠菌外切葡聚糖酶中使用替代CUG密码子使用的轻微结构后果（Ser为Leu）。
2. Ambiguous decoding of the CUG codon alters the functionality of the Candida albicans translation initiation factor 4E [J] . FeketovcL Zuzana, MaLek TomcLL, VopcLlenskcu VcLclav, FEMS Yeast Research . 2010 ,第5期

机译：CUG密码子的歧义解码会改变白色念珠菌翻译起始因子4E的功能
3. A CUG codon adapted two-hybrid system for the pathogenic fungus Candida albicans [J] . Bram Stynen, Hélène Tournu, Patrick Van Dijck Nucleic acids research . 2010 ,第19期

机译：一个CUG密码子适用于病原真菌白色念珠菌的两杂交系统
4. Influence of the Growth of Candida albicans on Several Alternative Medium [C] . Khusnul, Gita Nafisa, Rudy Hidana, Bakti Tunas Husada-Health Science International Conference . 2020

机译：Candida albicans在几种替代媒体上的影响
5. Candida albicans Hyphal Mannan is Structurally Distinct from Yeast Mannan [D] . Kwofie, Francis. 2015

机译：白色念珠菌菌丝甘露聚糖在结构上与酵母甘露聚糖不同
6. Transfer RNA structural change is a key element in the reassignment of the CUG codon in Candida albicans. [O] . M A Santos, V M Perreau, M F Tuite 1996

机译：转移RNA结构变化是白色念珠菌中CUG密码子重新分配的关键因素。
7. Alternative CUG codon usage (Ser for Leu) in Pichia farinosa and the effect of a mutated killer gene in Saccharomyces cerevisiae [O] . C. Suzuki, T. Kashiwagi, K. Hirayama 2002

机译：Pichia Farinosa的替代CoGon Codon使用（Ser for Leu）以及突变杀手基因在酿酒酵母中的效果
8. 'Candida albicans' as an Alternative Sanitary-Indicator Organism for Waters Containing Acid Mine Drainage [R] . De Pasquale, D. A. , Law, C. B. , Bissonnette, G. K. 1983

机译：'白色念珠菌'作为含酸性水排水的替代卫生指示生物

Minor structural consequences of alternative CUG codon usage (Ser for Leu) in Candida albicans exoglucanase.

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