The genome sequence of Psychrobacter arcticus 273-4, a psychroactive Siberian permafrost bacterium, reveals mechanisms for adaptation to low-temperature growth
about
Some like it cold: understanding the survival strategies of psychrophilesFunctional expression and characterization of five wax ester synthases in Saccharomyces cerevisiae and their utility for biodiesel productionDNA double-strand break repair at--15{degrees}CDiversity of retrievable heterotrophic bacteria in Kongsfjorden, an Arctic fjordGenomic and phenotypic insights into the ecology of Arthrobacter from Antarctic soils.Molecular characterization of bacteria from permafrost of the Taylor Valley, Antarctica.A Proteomic Perspective on the Bacterial Adaptation to Cold: Integrating OMICs Data of the Psychrotrophic Bacterium Exiguobacterium antarcticum B7.Brine assemblages of ultrasmall microbial cells within the ice cover of Lake Vida, AntarcticaGenomic and transcriptomic analyses reveal distinct biological functions for cold shock proteins (VpaCspA and VpaCspD) in Vibrio parahaemolyticus CHN25 during low-temperature survival.Metagenomic analysis of stress genes in microbial mat communities from Antarctica and the High Arctic.Microbial diversity and activity in hypersaline high Arctic spring channels.Amino acid substitutions in cold-adapted proteins from Halorubrum lacusprofundi, an extremely halophilic microbe from antarcticaThe Microbial OlympicsOmics profiles used to evaluate the gene expression of Exiguobacterium antarcticum B7 during cold adaptation.Humpback whale populations share a core skin bacterial community: towards a health index for marine mammals?Characterization of single-stranded DNA-binding proteins from the psychrophilic bacteria Desulfotalea psychrophila, Flavobacterium psychrophilum, Psychrobacter arcticus, Psychrobacter cryohalolentis, Psychromonas ingrahamii, Psychroflexus torquis, aThe transcriptional response of microbial communities in thawing Alaskan permafrost soils.Genome-based comparative analyses of Antarctic and temperate species of Paenibacillus.Distinct summer and winter bacterial communities in the active layer of Svalbard permafrost revealed by DNA- and RNA-based analyses.Expression and characterization of a new esterase with GCSAG motif from a permafrost metagenomic library.Characterization of the prokaryotic diversity through a stratigraphic permafrost core profile from the Qinghai-Tibet Plateau.The subzero microbiome: microbial activity in frozen and thawing soils.Genomic mechanisms for cold tolerance and production of exopolysaccharides in the Arctic cyanobacterium Phormidesmis priestleyi BC1401.Low Temperature Adaptation Is Not the Opposite Process of High Temperature Adaptation in Terms of Changes in Amino Acid CompositionDraft genome sequence of Psychrobacter sp. ENNN9_III, a strain isolated from water in a polluted temperate estuarine system (Ria de Aveiro, Portugal)Biofilm formation by Psychrobacter arcticus and the role of a large adhesin in attachment to surfaces.Psychrophilic enzymes: from folding to function and biotechnology.Draft Genome Sequences of Psychrobacter Strains JCM 18900, JCM 18901, JCM 18902, and JCM 18903, Isolated Preferentially from Frozen Aquatic Organisms.The protein folding challenge in psychrophiles: facts and current issues.The bacterial protein Hfq: much more than a mere RNA-binding factor.Plasmid diversity in arctic strains of Psychrobacter spp.Probiotic Activity of a Bacterial Strain Isolated from Ancient Permafrost Against Salmonella Infection in Mice.Bacterial growth at -15 °C; molecular insights from the permafrost bacterium Planococcus halocryophilus Or1Characterizing the surface-exposed proteome of Planococcus halocryophilus during cryophilic growth.Epifluorescence, SEM, TEM and nanoSIMS image analysis of the cold phenotype of Clostridium psychrophilum at subzero temperatures.Microbial survival strategies in ancient permafrost: insights from metagenomicsDraft Genome Sequences of Acinetobacter harbinensis Strain HITLi 7T, Isolated from River Water.Genome sequence of temperate bacteriophage Psymv2 from Antarctic Dry Valley soil isolate Psychrobacter sp. MV2.Genomic analysis of cold-active Colwelliaphage 9A and psychrophilic phage-host interactions.Psychrotolerant antifungal Streptomyces isolated from Tawang, India and the shift in chitinase gene family.
P2860
Q27021642-25615253-81C6-46B8-AB43-B451BC5F333CQ27499119-5B0C07D0-5E98-4755-9BD2-8AF7DB33026EQ28661488-5BCE4CFC-D422-4CA3-BCFF-10022401F3ADQ28817733-C642A004-4EE4-4BDF-BBE0-1760F6D761FCQ30620331-2A26E70D-93C9-460F-AEB5-D933E1D4E21AQ31152358-CE00B89E-1719-4AB6-A26D-093F40E10EF4Q31168510-D7A27BE4-1EC2-4F0F-82EA-D84248FB0823Q33743153-AF0E102C-EE6A-44B5-A414-9FB031BD768AQ33768509-740E810D-EEF7-466A-99B0-322AAC5E262BQ34073912-A675CB47-C323-4B84-8C98-07F6CA0BB5ADQ34127890-744219D1-6ED2-45BB-A492-24E150C2609CQ34335706-DD76F54F-53EC-4806-A7FD-45E901FCCD62Q34337835-E9F60CC3-1F60-4BD9-AF1E-31655C5EB665Q34586525-1D0F88ED-79DC-47CD-B8EE-5B7A95C00B50Q35132175-95BC2236-69E7-4783-ACA3-A08C6B05892BQ35146048-D45BB7FD-C792-4395-8649-866201DC6F02Q35179745-05A35589-DCAE-42A1-BFBF-AEBF1DBAE663Q35304665-0FC10E69-B5BA-44FA-9BCA-580C75932A02Q35556436-D00B550E-1EFF-45D6-93C9-BF166DE20495Q35940512-020A74B9-01D2-410C-8E21-13FEE1423E12Q35975970-99E4972E-5255-4D6D-9177-3E90AA0E24B3Q35997224-19132E96-E8A3-4FC0-BCF1-C2ADF68C21DEQ36093314-771DAF56-C6BF-464E-B69A-935581993DB1Q36429454-D8CF79EA-421F-49D7-B230-C883DB316CFBQ36799094-527F1551-2BDE-4458-9905-4E642FC44BB9Q36970709-E08E38F5-28C5-4793-8D2C-74F9B41D6BCCQ37287783-50B27680-4F8A-4E05-A229-A92CE2770D90Q37683246-4733B7C0-27A3-49D4-BB89-D0498BEF04A7Q37848917-2AA512A3-F011-422E-9853-775193BDE05EQ37995707-EAF87A8B-4BC5-4B20-9ADD-81AF761778BDQ39999531-C62B0B0B-D589-4790-9918-341AE6C7B637Q40092385-3AF2474B-B0C8-4971-A2F8-96703BFDCD62Q40913942-495D5358-507D-46E3-B1E9-097C201F8F4DQ41127016-3842DD4D-8BC4-462F-8273-0C26B1384E61Q41607191-C2C144D4-FA4F-401B-AA5F-152EBDD72233Q41644759-5BB2FA9F-EB8C-4D45-8EBF-A831E05D07CDQ42266192-009A6ADF-7683-4A30-8C11-D590094158A2Q42657054-0FE5E259-0DC1-454D-A2D1-44149BAAEDB8Q43017217-BE6BC782-CEEA-492E-8894-76C1355A0378Q43019594-4F6448B9-0A55-4646-882C-C9C0992F26D5
P2860
The genome sequence of Psychrobacter arcticus 273-4, a psychroactive Siberian permafrost bacterium, reveals mechanisms for adaptation to low-temperature growth
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
The genome sequence of Psychro ...... tion to low-temperature growth
@ast
The genome sequence of Psychro ...... tion to low-temperature growth
@en
type
label
The genome sequence of Psychro ...... tion to low-temperature growth
@ast
The genome sequence of Psychro ...... tion to low-temperature growth
@en
prefLabel
The genome sequence of Psychro ...... tion to low-temperature growth
@ast
The genome sequence of Psychro ...... tion to low-temperature growth
@en
P2093
P2860
P50
P356
P1476
The genome sequence of Psychro ...... tion to low-temperature growth
@en
P2093
Alison Murray
Debora Rodrigues
Frank Larimer
Genevive Di Bartolo
Héctor L Ayala-del-Río
Joel Klappenbach
Joseph J Grzymski
Michael Thomashow
Monica A Ponder
P2860
P304
P356
10.1128/AEM.02101-09
P407
P577
2010-02-12T00:00:00Z