Secretion of Quinolinic Acid, an Intermediate in the Kynurenine Pathway, for Utilization in NAD+ Biosynthesis in the Yeast Saccharomyces cerevisiae

Kazuto Ohashi; Shigeyuki Kawai; Kousaku Murata

首页> 外文期刊>Eukaryotic cell >Secretion of Quinolinic Acid, an Intermediate in the Kynurenine Pathway, for Utilization in NAD+ Biosynthesis in the Yeast Saccharomyces cerevisiae

【24h】

Secretion of Quinolinic Acid, an Intermediate in the Kynurenine Pathway, for Utilization in NAD+ Biosynthesis in the Yeast Saccharomyces cerevisiae

机译：Kynurenine途径中的中间体喹啉酸的分泌，可用于酿酒酵母中的NAD +生物合成

获取原文

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

NAD+ is synthesized from tryptophan either via the kynurenine (de novo) pathway or via the salvage pathway by reutilizing intermediates such as nicotinic acid or nicotinamide ribose. Quinolinic acid is an intermediate in the kynurenine pathway. We have discovered that the budding yeast Saccharomyces cerevisiae secretes quinolinic acid into the medium and also utilizes extracellular quinolinic acid as a novel NAD+ precursor. We provide evidence that extracellular quinolinic acid enters the cell via Tna1, a high-affinity nicotinic acid permease, and thereby helps to increase the intracellular concentration of NAD+. Transcription of genes involved in the kynurenine pathway and Tna1 was increased, responding to a low intracellular NAD+ concentration, in cells bearing mutations of these genes; this transcriptional induction was suppressed by supplementation with quinolinic acid or nicotinic acid. Our data thus shed new light on the significance of quinolinic acid, which had previously been recognized only as an intermediate in the kynurenine pathway.

机译：NAD + 可以通过色氨酸（ de novo ）途径或通过挽救途径，通过重新利用中间体（例如烟酸或烟酰胺核糖）从色氨酸合成。喹啉酸是犬尿氨酸途径的中间体。我们发现发芽的酵母啤酒酵母将喹啉酸分泌到培养基中，并且还利用细胞外喹啉酸作为新型的NAD + 前体。我们提供的证据表明，细胞外喹啉酸通过高亲和力烟酸通透酶Tna1进入细胞，从而有助于增加细胞内NAD + 的浓度。在带有这些基因突变的细胞中，响应于低细胞内NAD + 浓度，参与犬尿氨酸途径和Tna1的基因的转录增加。通过补充喹啉酸或烟酸来抑制这种转录诱导。因此，我们的数据为喹啉酸的重要性提供了新的线索，喹啉酸以前仅被认为是犬尿氨酸途径的中间体。 展开▼

著录项

来源
《Eukaryotic cell》 |2013年第5期|共6页

作者
Kazuto Ohashi; Shigeyuki Kawai; Kousaku Murata;
展开▼

作者单位

展开▼

收录信息

原文格式 PDF

正文语种

中图分类细胞生物学;

关键词

相似文献

外文文献

中文文献

专利

1. Protective role of the HOG pathway against the growth defect caused by impaired biosynthesis of complex sphingolipids in yeast Saccharomyces cerevisiae Saccharomyces cerevisiae [J] . Yamaguchi Yutaro, Katsuki Yuka, Tanaka Seiya, Molecular Microbiology . 2018,第3期

机译：Hog途径对酵母酵母菌酿酒酵母酿酒酵母酿酒酵母酿酒酵母的复合鞘脂生物合成造成的生长缺陷的保护作用

2. Quantitation of NAD+ biosynthesis from the salvage pathway in Saccharomyces cerevisiae. [J] . Sporty J, Lin SJ, Kato M, Yeast . 2009,第7期

机译：从酿酒酵母的挽救途径定量NAD +生物合成。

3. Characteristics of alanine: glyoxylate aminotransferase from Saccharomyces cerevisiae, a regulatory enzyme in the glyoxylate pathway of glycine and serine biosynthesis from tricarboxylic acid-cycle intermediates [J] . T Noguchi, Y Takada The biochemical journal . 1985,第1期

机译：丙氨酸的特征：来自酿酒酵母的乙醛酸转氨酶，一种由三羧酸循环中间体合成甘氨酸和丝氨酸的乙醛酸途径中的调节酶

4. Biosynthesis of amino acids sulfur in Saccharomyces cerevisiae is affected by fermentation conditions in beer production [C] . C.S. Leal-Guerra, E. Pérez-Ortega, L. Damas-Buenrostro, International Conference on Environmental, Industrial and Applied Microbiology . 2009

机译：酿酒酵母酿酒酵母中氨基酸硫的生物合成受到啤酒生产中发酵条件的影响

5. Regulation of Sirtuins by NAD+ Biosynthesis in Saccharomyces cerevisiae [D] . McClure, Julie Malicki 2011

机译：酿酒酵母中NAD +生物合成对Sirtuins的调控

6. Secretion of Quinolinic Acid an Intermediate in the Kynurenine Pathway for Utilization in NAD+ Biosynthesis in the Yeast Saccharomyces cerevisiae [O] . Kazuto Ohashi, Shigeyuki Kawai, Kousaku Murata 2013

机译：Kynurenine途径中的中间体喹啉酸的分泌可用于酿酒酵母中的NAD +生物合成

7. Characteristics of alanine: glyoxylate aminotransferase from Saccharomyces cerevisiae, a regulatory enzyme in the glyoxylate pathway of glycine and serine biosynthesis from tricarboxylic acid-cycle intermediates. [O] . Takada, Y, Noguchi, T 1985

机译：丙氨酸的特征：来自酿酒酵母的乙醛酸氨基转移酶，甘氨酸的乙醛酸途径中的调节酶和由三羧酸循环中间体合成丝氨酸。

1. 酿酒酵母中NAD激酶同功酶对偶数位不饱和脂肪酸β-氧化的影响 [J] . 史锋 ,李永富 . 生物工程学报 . 2006,第004期

2. 在酿酒酵母中重构棉子糖生物合成途径的基础研究 [J] . 周英彪 ,田朝玉 ,朱玥明 . 现代食品科技 . 2017,第005期

3. 乙醇发酵中酿酒酵母辅酶NAD+及NADH测定方法 [J] . 李骆冰 ,王永红 ,庄英萍 . 食品与生物技术学报 . 2011,第002期

4. NADPH代谢对氨基酸生物合成影响的研究进展 [J] . 陈进聪 ,陈雪岚 ,张斌 . 食品科学 . 2014,第019期

5. 基于吲哚酸单元的那西肽生物合成途径中酶底物容忍度研究 [J] . 范亚飞 ,张鄂 ,郭恒 . 有机化学 . 2020,第011期

6. 利用转录组测序解析云南山茶中色素生物合成、光周期诱导途径和三酰甘油生物合成代谢途径及相关基因 [C] . 姚秋阳 ,黄荟 ,佟岩 . 2016大理国际茶花大会 . 2016

7. 酿酒酵母超长链单不饱和脂肪酸生物合成途径的构建 [A] . 蒋宜勋 . 2018

1. 通过改善酵母中NADPH相关的生物合成途径增加人参皂苷的生产 [P] . 中国专利： CN110499258A . 2019-11-26

2. 提高芳香族氨基酸生物合成途径中的化合物及其衍生物产量的方法 [P] . 中国专利： CN109423468A . 2019-03-05

3. Scion of yeast Saccharomyces cerevisiae AM1-d, application of the scion of yeast Saccharomyces cerevisiae AM1-d for production of 2-phenylethyl alcohol and application of the substrate for producing of 2-phenylethyl alcohol by the scion of yeast Saccharomyces cerevisiae AM1-d, [P] . 外国专利： PL226680B1 . 2017-08-31

机译：酵母Saccharomyces AM1-d的接穗，酵母Saccharomyces AM1-d的接穗在酿酒酵母AM1-d的接穗中的应用，用于生产2-苯乙醇，以及用于生产2-苯基乙醇的底物，

4. Scion of yeast Saccharomyces cerevisiae AM1-d, application of the scion of yeast Saccharomyces cerevisiae AM1-d for production of 2-phenylethyl alcohol and application of the substrate for producing of 2-phenylethyl alcohol by the scion of yeast Saccharomyces cerevisiae AM1-d, [P] . 外国专利： PL408170A1 . 2015-11-23

机译：酵母Saccharomyces AM1-d的接穗，酵母Saccharomyces AM1-d的接穗在酿酒酵母AM1-d的接穗中的应用，用于生产2-苯乙醇，以及用于生产2-苯基乙醇的底物，

5. USE OF SACCHAROMYCES CEREVISIAE VAR Yeast. BOULARDII ISOLATED OR THE COMBINED USE OF SACCHAROMYCES CHEVALIERI Yeast WITH SACCHAROMYCES CEREVISIAE VAR.BOULARDII Yeast, COMPOSITION OF BAKING PASTA, AND METHOD FOR PREPARING A FRIED OR BAKED PRODUCT OF PARTIRIDAS [P] . 外国专利： BR112012003361B1 . 2019-07-09

机译：酵母糖酵母VAR酵母的使用。分离的BOULARDII奶酪或白蜡糖酵母与酿酒酵母VAR.BOULARDII酵母，烘焙面团的组成和制备方法的制备

相关主题

Secretion of Quinolinic Acid, an Intermediate in the Kynurenine Pathway, for Utilization in NAD+ Biosynthesis in the Yeast Saccharomyces cerevisiae

摘要

著录项

相似文献

相关主题

期刊订阅