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Autori principali: Chen, Yen-Po, Huang, Tzu-Fei, Lo, Ester, Tsai, Sujune, Wen, Zhi-Hong, Chen, Hung-Kai, Lin, Chiahsin
Natura: Artículo científico
Lingua:en
Pubblicazione: PloS one 2026
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/41712628/
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author Chen, Yen-Po
Huang, Tzu-Fei
Lo, Ester
Tsai, Sujune
Wen, Zhi-Hong
Chen, Hung-Kai
Lin, Chiahsin
author_facet Chen, Yen-Po
Huang, Tzu-Fei
Lo, Ester
Tsai, Sujune
Wen, Zhi-Hong
Chen, Hung-Kai
Lin, Chiahsin
Chen, Yen-Po
Huang, Tzu-Fei
Lo, Ester
Tsai, Sujune
Wen, Zhi-Hong
Chen, Hung-Kai
Lin, Chiahsin
collection PubMed - marine biology
contents Incorporation of lipids improves cryo-tolerance of vitrified gorgonian coral oocytes. Chen, Yen-Po Huang, Tzu-Fei Lo, Ester Tsai, Sujune Wen, Zhi-Hong Chen, Hung-Kai Lin, Chiahsin Animals Anthozoa Oocytes Cryopreservation Vitrification Lipids Liposomes Cryoprotective Agents Cell Survival Coral reefs, which are crucial to the health and diversity of the global marine ecosystem, have experienced substantial declines due to climate change and human activities. Cryopreservation, the long-term storage of biological material at ultra-low temperatures, represents a novel strategy for coral conservation. The current study investigated the effects of integrating specific liposomes into vitrification solutions (VS) on the viability of oocytes from two coral species, oocytes were vitrified using a VS containing one of eight lipids. The study results indicate that incorporating PE and erucic acid considerably enhances the viability of J. juncea oocytes, whereas incorporating PC reduces their viability. However, incorporating palmitoleic acid, docosahexaenoic acid, linoleic acid, and eicosatrienoic acid did not substantially affect the viability of J. juncea oocytes. In J. fragilis, erucic acid yielded the highest viability (54.12% ± 2.99%), with oleic acid and docosahexaenoic acid also showing positive effects. Among the tested liposomes, erucic acid led to the highest overall viability in both species. Lipid-enhanced vitrification can assist coral conservation by facilitating cryobanking of coral gametes and supporting their postthaw development, which can assist with coral reef restoration.
format Artículo científico
id pubmed_41712628
institution PubMed
language en
publishDate 2026
publisher PloS one
record_format pubmed
spellingShingle Incorporation of lipids improves cryo-tolerance of vitrified gorgonian coral oocytes.
Chen, Yen-Po
Huang, Tzu-Fei
Lo, Ester
Tsai, Sujune
Wen, Zhi-Hong
Chen, Hung-Kai
Lin, Chiahsin
Animals
Anthozoa
Oocytes
Cryopreservation
Vitrification
Lipids
Liposomes
Cryoprotective Agents
Cell Survival
Incorporation of lipids improves cryo-tolerance of vitrified gorgonian coral oocytes. Chen, Yen-Po Huang, Tzu-Fei Lo, Ester Tsai, Sujune Wen, Zhi-Hong Chen, Hung-Kai Lin, Chiahsin Animals Anthozoa Oocytes Cryopreservation Vitrification Lipids Liposomes Cryoprotective Agents Cell Survival Coral reefs, which are crucial to the health and diversity of the global marine ecosystem, have experienced substantial declines due to climate change and human activities. Cryopreservation, the long-term storage of biological material at ultra-low temperatures, represents a novel strategy for coral conservation. The current study investigated the effects of integrating specific liposomes into vitrification solutions (VS) on the viability of oocytes from two coral species, oocytes were vitrified using a VS containing one of eight lipids. The study results indicate that incorporating PE and erucic acid considerably enhances the viability of J. juncea oocytes, whereas incorporating PC reduces their viability. However, incorporating palmitoleic acid, docosahexaenoic acid, linoleic acid, and eicosatrienoic acid did not substantially affect the viability of J. juncea oocytes. In J. fragilis, erucic acid yielded the highest viability (54.12% ± 2.99%), with oleic acid and docosahexaenoic acid also showing positive effects. Among the tested liposomes, erucic acid led to the highest overall viability in both species. Lipid-enhanced vitrification can assist coral conservation by facilitating cryobanking of coral gametes and supporting their postthaw development, which can assist with coral reef restoration.
title Incorporation of lipids improves cryo-tolerance of vitrified gorgonian coral oocytes.
topic Animals
Anthozoa
Oocytes
Cryopreservation
Vitrification
Lipids
Liposomes
Cryoprotective Agents
Cell Survival
url https://pubmed.ncbi.nlm.nih.gov/41712628/