SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4224059933> ?p ?o ?g. }

Showing items 1 to 100 of ±159 with 100 items per page.

W4224059933 endingPage "105423" @default.
W4224059933 startingPage "105423" @default.
W4224059933 abstract "Production of microbial biomass, microbial cell properties, and biological function significantly vary with hydrophobic organic compound (HOC) types used by microorganisms. However, metabolic responses underlying such variations are unclear. Herein, we identified and selected a biodemulsifier, Dietzia natronolimnaea S-XJ-1, as a model bacterium utilizing different HOCs, and performed comparative transcriptomic analyses to investigate metabolic responses induced by alkanes and fatty acid esters. As compared to the rapeseed oil-cultured S-XJ-1, the liquid paraffin-cultured S-XJ-1 possessed lower biomass production and higher cell-surface hydrophobicity. For the latter, transcriptomic data revealed the upregulation of ATP-binding cassette transporters, the downregulation of transporters for hydrophilic nutrients and cell division genes such as ftsZ and ftsE, indicating higher energy consumption, lower nutrient availability, and limited cell division, respectively. These metabolic responses can be responsible for lower biomass production in liquid paraffin-cultured S-XJ-1. Moreover, the upregulation of genes involved in the biosynthesis of surface proteins, poly-L-glutamine layer, and mycolic acids, such as secD, glnA, pks13, and fadD32, enhanced cell-surface hydrophobicity and the biodemulsifying activity of liquid paraffin-cultured S-XJ-1. The key genes and metabolic pathways identified in this study can direct research toward a more effective biodemulsifier design and understanding complex metabolic response profiles induced by different HOCs." @default.
W4224059933 created "2022-04-19" @default.
W4224059933 creator A5021978382 @default.
W4224059933 creator A5024074423 @default.
W4224059933 creator A5024936467 @default.
W4224059933 creator A5042976402 @default.
W4224059933 creator A5045821569 @default.
W4224059933 creator A5057117256 @default.
W4224059933 creator A5069603686 @default.
W4224059933 creator A5090923159 @default.
W4224059933 date "2022-07-01" @default.
W4224059933 modified "2023-09-23" @default.
W4224059933 title "Transcriptomic insights into lower biomass and higher cell-surface hydrophobicity of Dietzia natronolimnaea S-XJ-1 grown on alkanes compared to fatty acid esters" @default.
W4224059933 cites W1586135266 @default.
W4224059933 cites W1944899682 @default.
W4224059933 cites W1951376894 @default.
W4224059933 cites W1972086892 @default.
W4224059933 cites W1986515941 @default.
W4224059933 cites W1999574084 @default.
W4224059933 cites W2001339596 @default.
W4224059933 cites W2005893579 @default.
W4224059933 cites W2008442219 @default.
W4224059933 cites W2010400755 @default.
W4224059933 cites W2010401411 @default.
W4224059933 cites W2027794504 @default.
W4224059933 cites W2035791620 @default.
W4224059933 cites W2038523558 @default.
W4224059933 cites W2039680623 @default.
W4224059933 cites W2046928094 @default.
W4224059933 cites W2059212032 @default.
W4224059933 cites W2067315081 @default.
W4224059933 cites W2069283211 @default.
W4224059933 cites W2079308952 @default.
W4224059933 cites W2083907880 @default.
W4224059933 cites W2087431163 @default.
W4224059933 cites W2092435069 @default.
W4224059933 cites W2094835338 @default.
W4224059933 cites W2105199251 @default.
W4224059933 cites W2114104545 @default.
W4224059933 cites W2115636134 @default.
W4224059933 cites W2117131533 @default.
W4224059933 cites W2130755410 @default.
W4224059933 cites W2142449739 @default.
W4224059933 cites W2150610030 @default.
W4224059933 cites W2168678365 @default.
W4224059933 cites W2224063171 @default.
W4224059933 cites W2225187452 @default.
W4224059933 cites W2313001195 @default.
W4224059933 cites W2327267629 @default.
W4224059933 cites W2332297986 @default.
W4224059933 cites W2343534596 @default.
W4224059933 cites W2399832929 @default.
W4224059933 cites W2417724393 @default.
W4224059933 cites W2576630180 @default.
W4224059933 cites W2597211767 @default.
W4224059933 cites W2608318063 @default.
W4224059933 cites W2619167181 @default.
W4224059933 cites W2752273209 @default.
W4224059933 cites W2773306624 @default.
W4224059933 cites W2790440912 @default.
W4224059933 cites W2801001030 @default.
W4224059933 cites W2802451127 @default.
W4224059933 cites W2808040659 @default.
W4224059933 cites W2887545761 @default.
W4224059933 cites W2901892507 @default.
W4224059933 cites W2904141640 @default.
W4224059933 cites W2912238261 @default.
W4224059933 cites W2938629106 @default.
W4224059933 cites W2944868525 @default.
W4224059933 cites W2949214743 @default.
W4224059933 cites W2950354111 @default.
W4224059933 cites W2965630045 @default.
W4224059933 cites W2999920195 @default.
W4224059933 cites W3005246154 @default.
W4224059933 cites W3011580798 @default.
W4224059933 cites W3023494905 @default.
W4224059933 cites W3038521967 @default.
W4224059933 cites W3044407339 @default.
W4224059933 cites W3046854255 @default.
W4224059933 cites W3047148796 @default.
W4224059933 cites W3048356780 @default.
W4224059933 cites W3082935092 @default.
W4224059933 cites W3083972447 @default.
W4224059933 cites W3106930280 @default.
W4224059933 cites W3112904160 @default.
W4224059933 cites W3121175007 @default.
W4224059933 cites W3127061676 @default.
W4224059933 cites W3157576727 @default.
W4224059933 cites W3160906519 @default.
W4224059933 cites W3163675482 @default.
W4224059933 cites W3171777354 @default.
W4224059933 cites W3173815955 @default.
W4224059933 cites W3193364220 @default.
W4224059933 cites W3194056600 @default.
W4224059933 cites W4213241956 @default.
W4224059933 cites W570521426 @default.
W4224059933 doi "https://doi.org/10.1016/j.ibiod.2022.105423" @default.
W4224059933 hasPublicationYear "2022" @default.