Transcriptomic and proteomic analysis of marine nematode<i>Litoditis marina</i>acclimated to different salinities

Xie, Yusu; Zhang, Liusuo

doi:10.1101/2021.11.16.468782

2021

DOI: 10.1101/2021.11.16.468782

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Transcriptomic and proteomic analysis of marine nematodeLitoditis marinaacclimated to different salinities

Yusu Xie

Liusuo Zhang

Abstract: Salinity is a critical abiotic factor for all living organisms. The ability to adapt to different salinity environments determines an organism’s survival and ecological niches. Litoditis marina is a euryhaline marine nematode widely distributed in coastal ecosystems all over the world, although numerous genes involved in its salinity response have been reported, the adaptive mechanisms underlying its euryhalinity remain unexplored. Here, we utilized worms which have been acclimated to either low salinity or hi… Show more

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Transcriptome Analysis of the Nematode Caenorhabditis elegans and Litoditis marina in a Chemically Defined Food Environment

Sun

Cao

Zhang

2022

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Diets regulate animal development, reproduction, and lifespan. However, the underlying molecular mechanisms remain elusive. A chemically defined CeMM diet attenuates development and promotes longevity of C. elegans, but whether it impact on other nematodes is unknown. Here, we studied the effect of the CeMM diet on the development and longevity of the marine nematode Litoditis marina, which belongs to the same family as C. elegans. We further investigated genome-wide transcriptional responses to CeMM and OP50 diet for both nematodes, respectively. We observed that the CeMM diet attenuated L. marina development but did not extend its lifespan. We found that many of the FOXO DAF-16 target genes, lysosome and xenobiotic metabolism related genes were significantly increased on the CeMM, which might contribute to the lifespan extension of C. elegans. Notably, we found that the expression of lysosome and xenobiotic metabolism pathway genes was significantly down regulated in L. marina on CeMM, which might explain why the CeMM diet could not promote the lifespan of L. marina compared to bacterial feeding. Additionally, down-regulation of several RNA transcription and protein generation and related processes genes might not only be involved in extending longevity but also contribute to attenuating development of C. elegans on CeMM, while down-regulation of unsaturated fatty acids synthesis genes might contribute to slow down the growth of L. marina on CeMM. Further genetic analysis of candidate gene(s) of longevity and development in C. elegans and L. marina will provide the molecular mechanisms underlying how diets regulate animal physiology and health in the context of global climate change with variable nutritional environments.

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Transcriptome Analysis of the Nematode Caenorhabditis elegans and Litoditis marina in a Chemically Defined Food Environment

Sun

Cao

Zhang

2022

Preprint

Self Cite

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Transcriptomic and proteomic analysis of marine nematodeLitoditis marinaacclimated to different salinities

Cited by 1 publication

References 110 publications

Transcriptome Analysis of the Nematode Caenorhabditis elegans and Litoditis marina in a Chemically Defined Food Environment

Transcriptome Analysis of the Nematode Caenorhabditis elegans and Litoditis marina in a Chemically Defined Food Environment

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