Effect of Gene SFU1 on Riboflavin Synthesis in Flavinogenic Yeast Candida famata

Petrovska Y.; Lyzak O.; Dmytruk K.; Sibirny A.

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Effect of Gene SFU1 on Riboflavin Synthesis in Flavinogenic Yeast Candida famata

机译：基因SFU1对黄色根草酵母念珠菌核糖蛋白合成的影响

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Riboflavin or vitamin B-2 is a necessary component for all living organisms since it is the precursor of flavin coenzymes FMN (flavin mononucleotide) and FAD (flavin adenine dinucleotide), which are involved in numerous enzymatic reactions. Flavinogenic yeastCandida famataoverproduces riboflavin under iron starvation; however, regulation of this process is poorly understood. Regulatory gene SEF1 encoding the transcription activator has been identified. Its deletion blocks yeast's ability to overproduce riboflavin under iron starvation. It is known that, in the pathogenic flavinogenic yeastC. albicans, Sfu1 (GATA-type transcription factor) represses SEF1. It is demonstrated in this study that deletion of the SEF1 gene in wild typeC. famataleads to overproduction of riboflavin.

机译：核黄素或维生素B-2是所有生物体的必要组分，因为它是黄素辅酶FMN（Flavin单核苷酸）和FAD（Flavin腺嘌呤二核苷酸）的前体，其参与了许多酶促反应。黄素生成的yeastcandida famataover使核黄素在铁饥饿下;然而，这种过程的调节理解得很差。已经鉴定了编码转录激活剂的调节基因SEF1。它的缺失阻断了酵母在铁饥饿下过量核糖蛋白的能力。众所周知，在致病性黄色植物酵母中。 albicans，SFU1（GATA型转录因子）抑制SEF1。在这项研究中证明了，缺失在野外类型中的SEF1基因。 Famataleads对核黄素过量生产。

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来源
《Cytology and genetics》 |2020年第5期|408-412|共5页
作者
Petrovska Y.; Lyzak O.; Dmytruk K.; Sibirny A.;
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作者单位

Natl Acad Sci Ukraine Inst Cell Biol UA-79005 Lvov Ukraine;

Max Planck Inst Biochem D-82152 Martinsried Germany;

Natl Acad Sci Ukraine Inst Cell Biol UA-79005 Lvov Ukraine;

Natl Acad Sci Ukraine Inst Cell Biol UA-79005 Lvov Ukraine|Univ Rzeszow PL-35601 Rzeszow Poland;

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正文语种 eng
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关键词
riboflavin; Candida famata; SFU1; yeast;

机译：riboflavin;Candada Candata;SFU1;酵母;

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1. SEF1 and VMA1 Genes Regulate Riboflavin Biosynthesis in the Flavinogenic Yeast Candida famata [J] . Andreieva Y., Lyzak O., Liu Wen, Cytology and genetics . 2020,第5期

机译：SEF1和vma1基因调节核苷酸酵母念珠菌生物中的核黄素生物合成
2. CLONING OF STRUCTURAL GENES INVOLVED IN RIBOFLAVIN SYNTHESIS OF THE YEAST Candida famata [J] . K. V. Dmytruk, C. A. Abbas, A. Y. Voronovsky, Украинский биохимический журнал: Науч.-теорет. журн. . 2004,第1期

机译：涉及核黄素合成酵母念珠菌 famata 结构基因的克隆
3. Development of a promoter assay system for the flavinogenic yeast Candida famata based on the Kluyveromyces lactis P-galactosidase LAC4 reporter gene [J] . Olena P.Ishchuk, Kostyantyn V.Dmytrak, Olga V.Rohulya Enzyme and Microbial Technology . 2008,第3期

机译：基于乳酸克鲁维酵母P-半乳糖苷酶LAC4报告基因的产黄酵母假丝酵母念珠菌启动子检测系统的开发
4. Combined effect of proteins and AgNPs on the adhesion of yeast Candida albicans on solid silica surfaces [C] . M. Soumbo, A. Scarangella, C. Villeneuve-Faure, IEEE International Conference on Nanotechnology . 2020

机译：蛋白质和AgNP对酵母白色念珠菌在固体二氧化硅表面上的黏附作用
5. Riboflavin production by encapsulated Candida flareri [D] . Alosta, Houssam Aref 2007

机译：封装的念珠菌生产核黄素
6. Identification of the genes affecting the regulation of riboflavin synthesis in the flavinogenic yeast Pichia guilliermondii using insertion mutagenesis [O] . Yuriy R. Boretsky, Yuriy V. Pynyaha, Volodymyr Y. Boretsky, -1

机译：利用插入诱变鉴定影响黄素生成酵母圭亚那毕赤酵母中核黄素合成的调控基因
7. Positive selection of mutants defective in transcriptional repression of riboflavin synthesis by iron in the flavinogenic yeast [O] . Y BORETSKY, K KAPUSTYAK, L FAYURA, 2005

机译：在黄色原酵母中铁核糖蛋白合成的转录抑制突变体的阳性选择

Effect of Gene SFU1 on Riboflavin Synthesis in Flavinogenic Yeast Candida famata

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