2024
DOI: 10.1128/msystems.01085-23
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Insight into the adaptation mechanisms of high hydrostatic pressure in physiology and metabolism of hadal fungi from the deepest ocean sediment

Maosheng Zhong,
Yongqi Li,
Ludan Deng
et al.

Abstract: High hydrostatic pressure (HHP) influences the life processes of organisms living at depth in the oceans. While filamentous fungi are one of the essential members of deep-sea microorganisms, few works have explored their piezotolerance to HHP. Here, we obtained three homogeneous Aspergillus sydowii from terrestrial, shallow, and hadal areas, respectively, to compare their pressure resistance. A set of all-around evaluation methods including determination of growth rate, metabolic activi… Show more

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“…HHP and cold temperatures disrupt cellular processes and lead to DNA damage (Hu et al, 2016;Yancey, 2020;Zhong et al, 2023). In the hadal snailfish, some DNA damage checkpoint and DNA repairrelated genes were significantly more highly expressed in all organs (Xu et al, 2023), in response to DNA damage caused by HHP or cold.…”
Section: Genome Sizes and Evolution Rates In Deep-sea Speciesmentioning
confidence: 99%
“…HHP and cold temperatures disrupt cellular processes and lead to DNA damage (Hu et al, 2016;Yancey, 2020;Zhong et al, 2023). In the hadal snailfish, some DNA damage checkpoint and DNA repairrelated genes were significantly more highly expressed in all organs (Xu et al, 2023), in response to DNA damage caused by HHP or cold.…”
Section: Genome Sizes and Evolution Rates In Deep-sea Speciesmentioning
confidence: 99%