Effect of Marine-Derived Ice-Binding Proteins on the Cryopreservation of Marine Microalgae

Ice-binding protein (IBPs) protect cells from cryo-injury during cryopreservation by inhibiting ice recrystallization (IR), which is a main cause of cell death. In the present study, we employed two IBPs, one, designated LeIBP from Arctic yeast, and the other, designated FfIBP from Antarctic sea ice...

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Published in:	Marine Drugs
Main Authors:	Hak Kim, Bon-Won Koo, Doa Kim, Ye Seo, Yoon Nam
Format:	Text
Language:	English
Published:	Multidisciplinary Digital Publishing Institute 2017
Subjects:	ice-binding proteins ice recrystallization inhibition cryoprotectant slow-freezing Isochrysis galbana Pavlova viridis Chlamydomonas coccoides Antarctic Arctic Pavlova Antarc* Sea ice
Online Access:	https://doi.org/10.3390/md15120372

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spelling	ftmdpi:oai:mdpi.com:/1660-3397/15/12/372/ 2023-08-20T04:00:13+02:00 Effect of Marine-Derived Ice-Binding Proteins on the Cryopreservation of Marine Microalgae Hak Kim Bon-Won Koo Doa Kim Ye Seo Yoon Nam agris 2017-12-01 application/pdf https://doi.org/10.3390/md15120372 EN eng Multidisciplinary Digital Publishing Institute https://dx.doi.org/10.3390/md15120372 https://creativecommons.org/licenses/by/4.0/ Marine Drugs; Volume 15; Issue 12; Pages: 372 ice-binding proteins ice recrystallization inhibition cryoprotectant slow-freezing Isochrysis galbana Pavlova viridis Chlamydomonas coccoides Text 2017 ftmdpi https://doi.org/10.3390/md15120372 2023-07-31T21:18:06Z Ice-binding protein (IBPs) protect cells from cryo-injury during cryopreservation by inhibiting ice recrystallization (IR), which is a main cause of cell death. In the present study, we employed two IBPs, one, designated LeIBP from Arctic yeast, and the other, designated FfIBP from Antarctic sea ice bacterium, in the cryopreservation of three economically valuable marine microalgae, Isochrysis galbana, Pavlova viridis, and Chlamydomonas coccoides. Both of the IBPs showed IR inhibition in f/2 medium containing 10% DMSO, indicating that they retain their function in freezing media. Microalgal cells were frozen in 10% DMSO with or without IBP. Post-thaw viability exhibited that the supplementation of IBPs increased the viability of all cryopreserved cells. LeIBP was effective in P. viridis and C. coccoides, while FfIBP was in I. galbana. The cryopreservative effect was more drastic with P. viridis when 0.05 mg/mL LeIBP was used. These results clearly demonstrate that IBPs could improve the viability of cryopreserved microalgal cells. Text Antarc* Antarctic Arctic Sea ice MDPI Open Access Publishing Antarctic Arctic Pavlova ENVELOPE(151.983,151.983,64.583,64.583) Marine Drugs 15 12 372
institution	Open Polar
collection	MDPI Open Access Publishing
op_collection_id	ftmdpi
language	English
topic	ice-binding proteins ice recrystallization inhibition cryoprotectant slow-freezing Isochrysis galbana Pavlova viridis Chlamydomonas coccoides
spellingShingle	ice-binding proteins ice recrystallization inhibition cryoprotectant slow-freezing Isochrysis galbana Pavlova viridis Chlamydomonas coccoides Hak Kim Bon-Won Koo Doa Kim Ye Seo Yoon Nam Effect of Marine-Derived Ice-Binding Proteins on the Cryopreservation of Marine Microalgae
topic_facet	ice-binding proteins ice recrystallization inhibition cryoprotectant slow-freezing Isochrysis galbana Pavlova viridis Chlamydomonas coccoides
description	Ice-binding protein (IBPs) protect cells from cryo-injury during cryopreservation by inhibiting ice recrystallization (IR), which is a main cause of cell death. In the present study, we employed two IBPs, one, designated LeIBP from Arctic yeast, and the other, designated FfIBP from Antarctic sea ice bacterium, in the cryopreservation of three economically valuable marine microalgae, Isochrysis galbana, Pavlova viridis, and Chlamydomonas coccoides. Both of the IBPs showed IR inhibition in f/2 medium containing 10% DMSO, indicating that they retain their function in freezing media. Microalgal cells were frozen in 10% DMSO with or without IBP. Post-thaw viability exhibited that the supplementation of IBPs increased the viability of all cryopreserved cells. LeIBP was effective in P. viridis and C. coccoides, while FfIBP was in I. galbana. The cryopreservative effect was more drastic with P. viridis when 0.05 mg/mL LeIBP was used. These results clearly demonstrate that IBPs could improve the viability of cryopreserved microalgal cells.
format	Text
author	Hak Kim Bon-Won Koo Doa Kim Ye Seo Yoon Nam
author_facet	Hak Kim Bon-Won Koo Doa Kim Ye Seo Yoon Nam
author_sort	Hak Kim
title	Effect of Marine-Derived Ice-Binding Proteins on the Cryopreservation of Marine Microalgae
title_short	Effect of Marine-Derived Ice-Binding Proteins on the Cryopreservation of Marine Microalgae
title_full	Effect of Marine-Derived Ice-Binding Proteins on the Cryopreservation of Marine Microalgae
title_fullStr	Effect of Marine-Derived Ice-Binding Proteins on the Cryopreservation of Marine Microalgae
title_full_unstemmed	Effect of Marine-Derived Ice-Binding Proteins on the Cryopreservation of Marine Microalgae
title_sort	effect of marine-derived ice-binding proteins on the cryopreservation of marine microalgae
publisher	Multidisciplinary Digital Publishing Institute
publishDate	2017
url	https://doi.org/10.3390/md15120372
op_coverage	agris
long_lat	ENVELOPE(151.983,151.983,64.583,64.583)
geographic	Antarctic Arctic Pavlova
geographic_facet	Antarctic Arctic Pavlova
genre	Antarc* Antarctic Arctic Sea ice
genre_facet	Antarc* Antarctic Arctic Sea ice
op_source	Marine Drugs; Volume 15; Issue 12; Pages: 372
op_relation	https://dx.doi.org/10.3390/md15120372
op_rights	https://creativecommons.org/licenses/by/4.0/
op_doi	https://doi.org/10.3390/md15120372
container_title	Marine Drugs
container_volume	15
container_issue	12
container_start_page	372
_version_	1774717019947532288

Effect of Marine-Derived Ice-Binding Proteins on the Cryopreservation of Marine Microalgae

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