Bacterial lipoteichoic acid enhances cryosurvival

Antifreeze proteins in fish, plants, and insects provide protection to a few degrees below freezing. Microbes have been found to survive at even lower temperatures, and with a few exceptions, antifreeze proteins are missing. We show that lipoteichoic acid (LTA), a biopolymer in the cell wall of Gram...

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Veröffentlicht in:	Extremophiles : life under extreme conditions 2015-03, Vol.19 (2), p.297-305
Hauptverfasser:	Rice, Charles V., Middaugh, Amy, Wickham, Jason R., Friedline, Anthony, Thomas, Kieth J., Scull, Erin, Johnson, Karen, Zachariah, Malcolm, Garimella, Ravindranth
Format:	Artikel
Sprache:	eng
Schlagworte:	Acids Bacillus subtilis - drug effects Bacillus subtilis - physiology Bacteria Biochemistry Biofilms Biomedical and Life Sciences Biopolymers Biotechnology Brines Cell Wall - drug effects Cryoprotective Agents - pharmacology Crystals Freezing Ice Life Sciences Lipopolysaccharides - pharmacology Low temperature Metabolism Microbial Ecology Microbiology Mode of action Original Paper Proteins Space life sciences Studies Survival Teichoic Acids - pharmacology
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container_title	Extremophiles : life under extreme conditions
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creator	Rice, Charles V. Middaugh, Amy Wickham, Jason R. Friedline, Anthony Thomas, Kieth J. Scull, Erin Johnson, Karen Zachariah, Malcolm Garimella, Ravindranth
description	Antifreeze proteins in fish, plants, and insects provide protection to a few degrees below freezing. Microbes have been found to survive at even lower temperatures, and with a few exceptions, antifreeze proteins are missing. We show that lipoteichoic acid (LTA), a biopolymer in the cell wall of Gram-positive bacteria, can be added to B. subtilis cultures and increase freeze tolerance. At 1 % w/v, LTA enables a 50 % survival rate, similar to the results obtained with 1 % w/v glycerol as measured with the resazurin cell viability assay. In the absence of added LTA or glycerol, a very small number of B. subtilis cells survive freezing. This suggests that an innate freeze tolerance mechanism exists. While cryoprotection can be provided by extracellular polymeric substances, our data demonstrate a role for LTA in cryoprotection. Currently, the exact mode of action for LTA cryoprotection is unknown. With a molecular weight of 3–5 kDa, it is unlikely to enter the cell cytoplasm. However, low temperature microscopy data show small ice crystals aligned along channels of liquid water. Our observations suggest that teichoic acids could protect liquid water within biofilms and planktonic bacteria, augmenting the role of brine while also raising the possibility for survival without brine present.
doi_str_mv	10.1007/s00792-014-0714-1
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Microbes have been found to survive at even lower temperatures, and with a few exceptions, antifreeze proteins are missing. We show that lipoteichoic acid (LTA), a biopolymer in the cell wall of Gram-positive bacteria, can be added to B. subtilis cultures and increase freeze tolerance. At 1 % w/v, LTA enables a 50 % survival rate, similar to the results obtained with 1 % w/v glycerol as measured with the resazurin cell viability assay. In the absence of added LTA or glycerol, a very small number of B. subtilis cells survive freezing. This suggests that an innate freeze tolerance mechanism exists. While cryoprotection can be provided by extracellular polymeric substances, our data demonstrate a role for LTA in cryoprotection. Currently, the exact mode of action for LTA cryoprotection is unknown. With a molecular weight of 3–5 kDa, it is unlikely to enter the cell cytoplasm. However, low temperature microscopy data show small ice crystals aligned along channels of liquid water. 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subjects	Acids Bacillus subtilis - drug effects Bacillus subtilis - physiology Bacteria Biochemistry Biofilms Biomedical and Life Sciences Biopolymers Biotechnology Brines Cell Wall - drug effects Cryoprotective Agents - pharmacology Crystals Freezing Ice Life Sciences Lipopolysaccharides - pharmacology Low temperature Metabolism Microbial Ecology Microbiology Mode of action Original Paper Proteins Space life sciences Studies Survival Teichoic Acids - pharmacology
title	Bacterial lipoteichoic acid enhances cryosurvival
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