01128nam--2200337---45--99000580323020331620130201144145.0000580323USA01000580323(ALEPH)000580323USA0100058032320130201d2005----Km-y0itay0103----baitaITy---z---oo1yy<<Il>> governo delle relazioni d'impresaVeronaCUEIM2005265 p.24 cm.Suppl. al n. 68 (settembre-dicembre 2005): Sinergie : rivista di studi e ricerche, Anno XXIII - Rapporto diricerca n. 21. - Dicembre 200500101053852001Sinergierivista di studi e ricercheLavori pubbliciAppaltiBNCF352.530945990005803230203316352.530 GOV 113713 EC.352.530 GOV00318809BKECOFIORELLA9020130201USA011436FIORELLA9020130201USA011437FIORELLA9020130201USA011441Governo delle relazioni d'impresa1089588UNISA02993nam 2200577 450 991082803490332120230803034050.01-908230-90-8(CKB)3710000000021100(EBL)1938092(SSID)ssj0001036856(PQKBManifestationID)12467744(PQKBTitleCode)TC0001036856(PQKBWorkID)11041966(PQKB)10898243(MiAaPQ)EBC1938092(MiAaPQ)EBC5897821(Au-PeEL)EBL5897821(OCoLC)1129203567(EXLCZ)99371000000002110020191011d2013 uy 0engur|n|---|||||txtccrCold-adapted microorganisms /edited by Isao YumotoNorfolk, England :Caister Academic Press,[2013]©20131 online resource (241 p.)Description based upon print version of record.1-908230-26-6 Includes bibliographical references and index.Contents; Contributors; Preface; Ch 01: Diversity of Bacteria in Permafrost; Ch 02: Ecology and Taxonomy of Psychrotolerant Bacteria in Artificial Cold Environments; Ch 03: Psychrophilic Microorganisms In Marine Environments; Ch 04: Fungi in Cryosphere: Their Adaptations to Environments; Ch 05: Energy Metabolism at Low- temperature and Frozen Conditions in Cold-adapted Microorganisms; Ch 06: Proteins Involved in Cold Adaptation; Ch 07: Heat Shock Response in Psychrophilic Microorganisms; Ch 08: Catalysis and Protein Folding in PsychrophilesCh 09: Psychrotolerant H2O2-resistant Bacteria and Environmental Adaptation of their CatalasesCh 10: Microorganisms in a Permafrost Ice Wedge and their Resuscitation-promoting Factors; Ch 11: Lipids in Cold-adapted Microorganisms; IndexEarth is dominated by low-temperature environments including 90% of oceans and 26% of terrestrial soil ecosystems. Once thought too cold for life, these environments have been shown to support diverse microbial communities. Psychrophiles use a wide variety of metabolic pathways, including photosynthesis, chemoautotrophy, and heterotrophy and form robust diverse communities. Cold-adapted microorganisms play a major role in nutrient turnover and primary biomass production in cold ecosystems and have important applications in biotechnology and in the study of food spoilage microorganisms. In thisCold adaptationMicroorganismsExtreme environmentsMicrobiologyCold adaptation.Microorganisms.Extreme environmentsMicrobiology.574.542Yumoto IsaoMiAaPQMiAaPQMiAaPQBOOK9910828034903321Cold-adapted microorganisms3987347UNINA