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  4. Phosphoproteomic analysis of rhodopseudomonas palustris reveals the role of pyruvate phosphate dikinase phosphorylation in lipid production
 
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Phosphoproteomic analysis of rhodopseudomonas palustris reveals the role of pyruvate phosphate dikinase phosphorylation in lipid production

Journal
Journal of Proteome Research
Journal Volume
11
Journal Issue
11
Pages
5362-5375
Date Issued
2012
Author(s)
Hu C.-W
MIAO-HSIA LIN  
Huang H.-C
Ku W.-C
Yi T.-H
Tsai C.-F
Chen Y.-J
Sugiyama N
Ishihama Y
HSUEH-FEN JUAN  
Wu S.-H.
DOI
10.1021/pr300582p
URI
https://www.scopus.com/inward/record.uri?eid=2-s2.0-84868320346&doi=10.1021%2fpr300582p&partnerID=40&md5=4b3a88a50eabec8b4ed35ba973aa895f
https://scholars.lib.ntu.edu.tw/handle/123456789/494442
Abstract
Rhodopseudomonas palustris (R. palustris) is a purple nonsulfur anoxygenic phototrophic bacterium with metabolic versatility and is able to grow under photoheterotrophic and chemoheterotrophic states. It has uses in carbon management, carbon recycling, hydrogen generation, and lipid production; therefore, it has the potential for bioenergy production and biodegradation. This study is the first to identify the phosphoproteome of R. palustris including 100 phosphopeptides from 54 phosphoproteins and 74 phosphopeptides from 42 phosphoproteins in chemoheterotrophic and photoheterotrophic growth conditions, respectively. In the identified phosphoproteome, phosphorylation at the threonine residue, Thr487, of pyruvate phosphate dikinase (PPDK, RPA1051) was found to participate in the regulation of carbon metabolism. Here, we show that PPDK enzyme activity is higher in photoheterotrophic growth, with Thr487 phosphorylation as a possible mediator. Under the same photoheterotrophic conditions, R. palustris with overexpressed wild-type PPDK showed an enhanced accumulation of total lipids than those with mutant PPDK (T487V) form. This study reveals the role of the PPDK in the production of biodiesel material, lipid content, with threonyl-phosphorylation as one of the possible regulatory events during photoheterotrophic growth in R. palustris.
SDGs

[SDGs]SDG12

Publisher
American Chemical Society
Type
journal article

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