SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2000738081> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W2000738081 endingPage "4737" @default.
W2000738081 startingPage "4725" @default.
W2000738081 abstract "Since genome analysis did not allow unambiguous reconstruction of transport, catabolism, and substrate-specific regulation for several important carbohydrates in Phaeobacter inhibens DSM 17395, proteomic and metabolomic analyses of N-acetylglucosamine-, mannitol-, sucrose-, glucose-, and xylose-grown cells were carried out to close this knowledge gap. These carbohydrates can pass through the outer membrane via porins identified in the outer membrane fraction. For transport across the cytoplasmic membrane, carbohydrate-specific ABC transport systems were identified. Their coding genes mostly colocalize with the respective catabolic and regulatory genes. The degradation of N-acetylglucosamine proceeds via N-acetylglucosamine-6-phosphate and glucosamine-6-phosphate directly to fructose-6-phosphate; two of the three enzymes involved were newly predicted and identified. Mannitol is catabolized via fructose, sucrose via fructose and glucose, glucose via glucose-6-phosphate, and xylose via xylulose-5-phosphate. Of the 30 proteins predicted to be involved in uptake, regulation, and degradation, 28 were identified by proteomics and 19 were assigned to their respective functions for the first time. The peripheral degradation pathways feed into the Entner-Doudoroff (ED) pathway, which is connected to the lower branch of the Embden-Meyerhof-Parnas (EMP) pathway. The enzyme constituents of these pathways displayed higher abundances in P. inhibens DSM 17395 cells grown with any of the five carbohydrates tested than in succinate-grown cells. Conversely, gluconeogenesis is turned on during succinate utilization. While tricarboxylic acid (TCA) cycle proteins remained mainly unchanged, the abundance profiles of their metabolites reflected the differing growth rates achieved with the different substrates tested. Homologs of the 74 genes involved in the reconstructed catabolic pathways and central metabolism are present in various Roseobacter clade members." @default.
W2000738081 created "2016-06-24" @default.
W2000738081 creator A5036518352 @default.
W2000738081 creator A5036789626 @default.
W2000738081 creator A5042448807 @default.
W2000738081 creator A5043042218 @default.
W2000738081 creator A5048309367 @default.
W2000738081 creator A5091466580 @default.
W2000738081 date "2014-08-01" @default.
W2000738081 modified "2023-10-17" @default.
W2000738081 title "Carbohydrate Catabolism in Phaeobacter inhibens DSM 17395, a Member of the Marine Roseobacter Clade" @default.
W2000738081 cites W1498884303 @default.
W2000738081 cites W1551519167 @default.
W2000738081 cites W1607918644 @default.
W2000738081 cites W1771671623 @default.
W2000738081 cites W1849372607 @default.
W2000738081 cites W1858740326 @default.
W2000738081 cites W1898768752 @default.
W2000738081 cites W1966522475 @default.
W2000738081 cites W1972863608 @default.
W2000738081 cites W1973954667 @default.
W2000738081 cites W1976656799 @default.
W2000738081 cites W1976924054 @default.
W2000738081 cites W1981442415 @default.
W2000738081 cites W1985077453 @default.
W2000738081 cites W1994932913 @default.
W2000738081 cites W1995193749 @default.
W2000738081 cites W1997196518 @default.
W2000738081 cites W1998767819 @default.
W2000738081 cites W2008856488 @default.
W2000738081 cites W2009918551 @default.
W2000738081 cites W2023794609 @default.
W2000738081 cites W2025150213 @default.
W2000738081 cites W2036455678 @default.
W2000738081 cites W2040932950 @default.
W2000738081 cites W2054403143 @default.
W2000738081 cites W2055043387 @default.
W2000738081 cites W2055823541 @default.
W2000738081 cites W2057525961 @default.
W2000738081 cites W2068459598 @default.
W2000738081 cites W2069458148 @default.
W2000738081 cites W2070042497 @default.
W2000738081 cites W2074744620 @default.
W2000738081 cites W2081007504 @default.
W2000738081 cites W2081159321 @default.
W2000738081 cites W2088664263 @default.
W2000738081 cites W2097107919 @default.
W2000738081 cites W2098607600 @default.
W2000738081 cites W2104896732 @default.
W2000738081 cites W2106055127 @default.
W2000738081 cites W2108394990 @default.
W2000738081 cites W2110999090 @default.
W2000738081 cites W2115458990 @default.
W2000738081 cites W2116643046 @default.
W2000738081 cites W2119550888 @default.
W2000738081 cites W2124549931 @default.
W2000738081 cites W2127322768 @default.
W2000738081 cites W2136830329 @default.
W2000738081 cites W2137919888 @default.
W2000738081 cites W2138956739 @default.
W2000738081 cites W2139013095 @default.
W2000738081 cites W2139518609 @default.
W2000738081 cites W2148975906 @default.
W2000738081 cites W2149411423 @default.
W2000738081 cites W2150438716 @default.
W2000738081 cites W2154600820 @default.
W2000738081 cites W2156171938 @default.
W2000738081 cites W2158752477 @default.
W2000738081 cites W2159113839 @default.
W2000738081 cites W2160916467 @default.
W2000738081 cites W2162097287 @default.
W2000738081 cites W2163627911 @default.
W2000738081 cites W2169150541 @default.
W2000738081 cites W2169563465 @default.
W2000738081 cites W2170488656 @default.
W2000738081 cites W4230784961 @default.
W2000738081 cites W4233334497 @default.
W2000738081 cites W4234796994 @default.
W2000738081 cites W4237293127 @default.
W2000738081 cites W4293247451 @default.
W2000738081 cites W4298248035 @default.
W2000738081 doi "https://doi.org/10.1128/aem.00719-14" @default.
W2000738081 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4148808" @default.
W2000738081 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24858085" @default.
W2000738081 hasPublicationYear "2014" @default.
W2000738081 type Work @default.
W2000738081 sameAs 2000738081 @default.
W2000738081 citedByCount "35" @default.
W2000738081 countsByYear W20007380812014 @default.
W2000738081 countsByYear W20007380812015 @default.
W2000738081 countsByYear W20007380812016 @default.
W2000738081 countsByYear W20007380812017 @default.
W2000738081 countsByYear W20007380812018 @default.
W2000738081 countsByYear W20007380812019 @default.
W2000738081 countsByYear W20007380812020 @default.
W2000738081 countsByYear W20007380812021 @default.
W2000738081 countsByYear W20007380812022 @default.
W2000738081 countsByYear W20007380812023 @default.