about
Pressure adaptation is linked to thermal adaptation in salt-saturated marine habitatsHydrostatic pressure affects membrane and storage lipid compositions of the piezotolerant hydrocarbon-degrading Marinobacter hydrocarbonoclasticus strain #5.Unveiling microbial life in new deep-sea hypersaline Lake Thetis. Part I: Prokaryotes and environmental settings.Natrinema salaciae sp. nov., a halophilic archaeon isolated from the deep, hypersaline anoxic Lake Medee in the Eastern Mediterranean Sea.Metagenomic analysis of hadopelagic microbial assemblages thriving at the deepest part of Mediterranean Sea, Matapan-Vavilov Deep.Partaking of Archaea to biogeochemical cycling in oxygen-deficient zones of meromictic saline Lake Faro (Messina, Italy).Halorhabdus tiamatea: proteogenomics and glycosidase activity measurements identify the first cultivated euryarchaeon from a deep-sea anoxic brine lake as potential polysaccharide degraderPrimary producing prokaryotic communities of brine, interface and seawater above the halocline of deep anoxic lake L'Atalante, Eastern Mediterranean Sea.Microbial life in the Lake Medee, the largest deep-sea salt-saturated formation.Palleronia abyssalis sp. nov., isolated from the deep Mediterranean Sea and the emended description of the genus Palleronia and of the species Palleronia marisminoris.Microbial community of the deep-sea brine Lake Kryos seawater-brine interface is active below the chaotropicity limit of life as revealed by recovery of mRNA.Shifts in the meso- and bathypelagic archaea communities composition during recovery and short-term handling of decompressed deep-sea samples.Comparative analysis of deep-sea bacterioplankton OMICS revealed the occurrence of habitat-specific genomic attributes.Elemental sulfur and acetate can support life of a novel strictly anaerobic haloarchaeonReactome array: forging a link between metabolome and genome.Unveiling microbial life in the new deep-sea hypersaline Lake Thetis. Part II: a metagenomic study.Heterotrophic bicarbonate assimilation is the main process of de novo organic carbon synthesis in hadal zone of the Hellenic Trench, the deepest part of Mediterranean Sea.Limits of life in MgCl2-containing environments: chaotropicity defines the window.Design and application of two oligonucleotide probes for the identification of Geodermatophilaceae strains using fluorescence in situ hybridization (FISH)
P50
Q27695721-6E215979-F2AD-4BEE-B3C0-EA1741F3B9A3Q33446121-3C194655-6673-4357-A909-D3F4C9A703AEQ33881530-55703CB2-A43A-400E-B54B-5077F3AE2050Q34346472-36F756A0-B2EB-4D98-BA02-FCDDF7C100ABQ34349628-0C6C02AC-93D8-488E-ABB4-2BD80F92A25EQ34518017-2105990F-AC46-4F83-8519-70BA2531C4BAQ34639633-AC673B5C-5BDA-4017-BA03-BEA91E7C6CD4Q34722099-AAF93E58-A601-46C0-8651-AAA16523DDC6Q35071569-2C72CB64-5A48-45B6-81E7-08CA078743B8Q35530417-20D17E99-2772-4D27-AEB4-80DFC46E4A1AQ35549439-34234375-D5C7-416C-9C25-36D58C04B1D3Q35561569-E8DA6943-0817-47C7-8449-FABA56EBED56Q38220935-E17016B4-E474-4BFF-BA71-446EA2345CADQ40935473-4D79173D-36FB-4477-9F7F-97193594231CQ41993636-BB75BA0E-B4C9-4CF4-9BA6-9B70DA736020Q43033180-9B144434-9F86-46EE-915E-E414B5A2C363Q46761976-18D5F858-F2EA-4A0E-BD7B-55B28B557984Q48081574-DDF175B0-52B1-408E-BA2D-A662BA28A080Q57558151-7352C3E9-5BC5-4A97-BFF0-909397C06DF6
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Violetta La Cono
@ast
Violetta La Cono
@en
Violetta La Cono
@es
Violetta La Cono
@nl
Violetta La Cono
@sl
type
label
Violetta La Cono
@ast
Violetta La Cono
@en
Violetta La Cono
@es
Violetta La Cono
@nl
Violetta La Cono
@sl
prefLabel
Violetta La Cono
@ast
Violetta La Cono
@en
Violetta La Cono
@es
Violetta La Cono
@nl
Violetta La Cono
@sl
P1053
S-9890-2017
P106
P1153
6507507411
P21
P31
P3829
P496
0000-0002-3306-4938