Obligate phototrophy in cyanobacteria: more than a lack of sugar transport

Zhang CC.; Joset F.; Jeanjean R.

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Obligate phototrophy in cyanobacteria: more than a lack of sugar transport

机译：蓝细菌专性光养：缺乏糖转运

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DNA hybridization using the Synechocystis PCC6803 glucose transporter gene, glcP, revealed a single homologous region in two facultative photoautotrophic strains out of three tested, and none in three obligate autotrophs. In one of the latter, Synechococcus PCC7942, integration of glcP into the chromosome resulted in glucose sensitivity. A subclone isolated as glucose-tolerant had lost glcP. Integration in a replicative vector allowed glucose transport and photoheterotrophic growth, but could not be maintained. Thus lack of sugar transport could explain cyanobacterial obligate autotrophy. However, at least in Synechococcus PCC7942, acquisition of such a transport capacity created a metabolic disequilibrium barely compatible with survival. (C) 1998 Federation of European Microbiological Societies. Published by Elsevier Science B.V. [References: 19]

机译：使用集胞藻PCC6803葡萄糖转运蛋白基因glcP进行的DNA杂交显示，在三个测试的自养光合自养菌株中，有一个同源区域，而在三个专性自养菌中则没有。在后者之一，即Synechococcus PCC7942中，glcP整合入染色体导致葡萄糖敏感性。分离为耐葡萄糖的亚克隆失去了glcP。在复制载体中的整合允许葡萄糖转运和光异养生长，但不能维持。因此缺乏糖转运可以解释蓝藻专性自养。但是，至少在Synechococcus PCC7942中，这种转运能力的获得导致了与生存几乎不相容的代谢不平衡。（C）1998年欧洲微生物学会联合会。由Elsevier Science B.V.发布[参考文献：19]

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《FEMS Microbiology Letters》 |1998年第2期|共8页
作者
Zhang CC.; Joset F.; Jeanjean R.;
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正文语种 eng
中图分类微生物学;
关键词
Cyanobacteria; Glucose transport; Heterotrophy; Plectonema-boryanum; Genetic-analysis; Glucose; Fructose; System;

机译：蓝细菌;葡萄糖转运;营养失调;蕨菜;遗传分析;葡萄糖;果糖;系统;

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1. Obligate phototrophy in cyanobacteria: more than a lack of sugar transport [J] . Zhang CC., Joset F., Jeanjean R. FEMS Microbiology Letters . 1998,第2期

机译：蓝细菌专性光养：缺乏糖转运
2. Comparative cation dependency of sugar transport by crustacean hepatopancreas and intestine Comparative cation dependency of sugar transport by crustacean hepatopancreas and intestine Comparative cation dependency of sugar transport by crustacean hepatopancreas and intestine [J] . Ada Duka, Gregory A. Ahearn Biology Open . 2014,第7期

机译：甲壳动物肝胰脏和肠对糖转运的阳离子依赖性比较甲壳动物肝胰脏和肠对糖转运的阳离子依赖性比较甲壳动物肝胰脏和肠对糖转运的阳离子依赖性
3. Global distribution and vertical patterns of a prymnesiophyte-cyanobacteria obligate symbiosis [J] . Cabello Ana M., Cornejo-Castillo Francisco M., Raho Nicolas, The ISME journal emultidisciplinary journal of microbial ecology . 2016,第3期

机译：Prymnesiophyte-cyanobacteria专性共生的全球分布和垂直格局。
4. PHOTOSYNTHETIC ELECTRON TRANSPORT SUPPORTED BY METHYL VIOLOGEN IN THE OBLIGATE SHADE PLANTS PANAX GINSENG AND PAN AX QUINQUEFOLIUS [C] . Matthew Woods, Graeme Parmenter, Julie-Ann Miskell, International Congress of Photosynthesis . 2005

机译：由甲基viologen的光合电子传输在甲基viade植物panax ginseng和pan ax quinquefolius
5. Investigating cytochromes in photosynthetic electron transport in cyanobacteria. [D] . Cho, Yoon Shin. 2001

机译：研究蓝细菌光合作用中的细胞色素。
6. Integration of a Galdieria plasma membrane sugar transporter enables heterotrophic growth of the obligate photoautotrophic red alga Cynanidioschyzon merolae [O] . Takayuki Fujiwara, Shunsuke Hirooka, Mizuna Mukai, 2019

机译：Galdieria质膜糖转运蛋白的整合可实现专性光自养红藻Cynanidioschyzon merolae的异养生长
7. Obligate phototrophy in cyanobacteria: more than a lack of sugar transport [O] . C Zhang 1998

机译：在蓝藻中的光学萎缩：不仅仅是缺乏糖类运输

Obligate phototrophy in cyanobacteria: more than a lack of sugar transport

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