Bacterial exopolysaccharides from extreme marine environments with special consideration of the southern ocean, sea ice, and deep-sea hydrothermal vents: a review
Exopolysaccharides (EPSs) are high molecular weight carbohydrate polymers that make up a substantial component of the extracellular polymers surrounding most microbial cells in the marine environment. EPSs constitute a large fraction of the reduced carbon reservoir in the ocean and enhance the survi...
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| Veröffentlicht in: | Marine biotechnology (New York, N.Y.) N.Y.), 2005-08, Vol.7 (4), p.253-271 |
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| creator | Nichols, C A Mancuso Guezennec, J Bowman, J P |
| description | Exopolysaccharides (EPSs) are high molecular weight carbohydrate polymers that make up a substantial component of the extracellular polymers surrounding most microbial cells in the marine environment. EPSs constitute a large fraction of the reduced carbon reservoir in the ocean and enhance the survival of marine bacteria by influencing the physicochemical environment around the bacterial cell. Microbial EPSs are abundant in the Antarctic marine environment, for example, in sea ice and ocean particles, where they may assist microbial communities to endure extremes of temperature, salinity, and nutrient availability. The microbial biodiversity of Antarctic ecosystems is relatively unexplored. Deep-sea hydrothermal vent environments are characterized by high pressure, extreme temperature, and heavy metals. The commercial value of microbial EPSs from these habitats has been established recently. Extreme environments offer novel microbial biodiversity that produces varied and promising EPSs. The biotechnological potential of these biopolymers from hydrothermal vent environments as well as from Antarctic marine ecosystems remains largely untapped. |
| doi_str_mv | 10.1007/s10126-004-5118-2 |
| format | Article |
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EPSs constitute a large fraction of the reduced carbon reservoir in the ocean and enhance the survival of marine bacteria by influencing the physicochemical environment around the bacterial cell. Microbial EPSs are abundant in the Antarctic marine environment, for example, in sea ice and ocean particles, where they may assist microbial communities to endure extremes of temperature, salinity, and nutrient availability. The microbial biodiversity of Antarctic ecosystems is relatively unexplored. Deep-sea hydrothermal vent environments are characterized by high pressure, extreme temperature, and heavy metals. The commercial value of microbial EPSs from these habitats has been established recently. Extreme environments offer novel microbial biodiversity that produces varied and promising EPSs. 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EPSs constitute a large fraction of the reduced carbon reservoir in the ocean and enhance the survival of marine bacteria by influencing the physicochemical environment around the bacterial cell. Microbial EPSs are abundant in the Antarctic marine environment, for example, in sea ice and ocean particles, where they may assist microbial communities to endure extremes of temperature, salinity, and nutrient availability. The microbial biodiversity of Antarctic ecosystems is relatively unexplored. Deep-sea hydrothermal vent environments are characterized by high pressure, extreme temperature, and heavy metals. The commercial value of microbial EPSs from these habitats has been established recently. Extreme environments offer novel microbial biodiversity that produces varied and promising EPSs. The biotechnological potential of these biopolymers from hydrothermal vent environments as well as from Antarctic marine ecosystems remains largely untapped.</description><subject>Antarctic Regions</subject><subject>Bacteria</subject><subject>Bacteria - chemistry</subject><subject>Bacteria - genetics</subject><subject>Biodiversity</subject><subject>Biopolymers</subject><subject>Biotechnology</subject><subject>Deep sea</subject><subject>Ecosystem</subject><subject>Heavy metals</subject><subject>High pressure</subject><subject>Ice Cover - microbiology</subject><subject>Marine</subject><subject>Marine Biology</subject><subject>Marine ecosystems</subject><subject>Marine environment</subject><subject>Microbial activity</subject><subject>Microbiology</subject><subject>Molecular weight</subject><subject>Nutrient availability</subject><subject>Oceans and Seas</subject><subject>Phylogeny</subject><subject>Polymers</subject><subject>Polysaccharides, Bacterial - 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The biotechnological potential of these biopolymers from hydrothermal vent environments as well as from Antarctic marine ecosystems remains largely untapped.</abstract><cop>United States</cop><pub>Springer Nature B.V</pub><pmid>16075348</pmid><doi>10.1007/s10126-004-5118-2</doi><tpages>19</tpages></addata></record> |
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| identifier | ISSN: 1436-2228 |
| ispartof | Marine biotechnology (New York, N.Y.), 2005-08, Vol.7 (4), p.253-271 |
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| subjects | Antarctic Regions Bacteria Bacteria - chemistry Bacteria - genetics Biodiversity Biopolymers Biotechnology Deep sea Ecosystem Heavy metals High pressure Ice Cover - microbiology Marine Marine Biology Marine ecosystems Marine environment Microbial activity Microbiology Molecular weight Nutrient availability Oceans and Seas Phylogeny Polymers Polysaccharides, Bacterial - biosynthesis Polysaccharides, Bacterial - chemistry Polysaccharides, Bacterial - isolation & purification Sea ice Seawater - microbiology Structure-Activity Relationship |
| title | Bacterial exopolysaccharides from extreme marine environments with special consideration of the southern ocean, sea ice, and deep-sea hydrothermal vents: a review |
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