about
Gene sets for utilization of primary and secondary nutrition supplies in the distal gut of endangered Iberian lynxThe COMBREX project: design, methodology, and initial results.Genome sequence and functional genomic analysis of the oil-degrading bacterium Oleispira antarcticaSingle residues dictate the co-evolution of dual esterases: MCP hydrolases from the α/β hydrolase familyPressure adaptation is linked to thermal adaptation in salt-saturated marine habitatsBiochemical Characterization of Hypothetical Proteins from Helicobacter pyloriBiochemical diversity of carboxyl esterases and lipases from Lake Arreo (Spain): a metagenomic approachNovel polyphenol oxidase mined from a metagenome expression library of bovine rumen: biochemical properties, structural analysis, and phylogenetic relationships.Context-specific metabolic network reconstruction of a naphthalene-degrading bacterial community guided by metaproteomic data.Proteome reference map of Pseudomonas putida strain KT2440 for genome expression profiling: distinct responses of KT2440 and Pseudomonas aeruginosa strain PAO1 to iron deprivation and a new form of superoxide dismutase.Insights into the degradation capacities of Amycolatopsis tucumanensis DSM 45259 guided by microarray data.Microbial enzymes mined from the Urania deep-sea hypersaline anoxic basin.Mining genomes and 'metagenomes' for novel catalysts.Low temperature-induced systems failure in Escherichia coli: insights from rescue by cold-adapted chaperones.Novel hydrolase diversity retrieved from a metagenome library of bovine rumen microflora.Recent trends in industrial microbiology.Metagenomics for mining new genetic resources of microbial communities.Metagenomics approaches in systems microbiology.Acidiplasma aeolicum gen. nov., sp. nov., a euryarchaeon of the family Ferroplasmaceae isolated from a hydrothermal pool, and transfer of Ferroplasma cupricumulans to Acidiplasma cupricumulans comb. nov.Interplay of metagenomics and in vitro compartmentalization.The microbial reactome.Unveiling microbial life in new deep-sea hypersaline Lake Thetis. Part I: Prokaryotes and environmental settings.Taxonomic and functional metagenomic profiling of the microbial community in the anoxic sediment of a sub-saline shallow lake (Laguna de Carrizo, Central Spain).Functional metagenomics unveils a multifunctional glycosyl hydrolase from the family 43 catalysing the breakdown of plant polymers in the calf rumen.Metaproteogenomic insights beyond bacterial response to naphthalene exposure and bio-stimulation.Genome sequence of the ubiquitous hydrocarbon-degrading marine bacterium Alcanivorax borkumensis.The cellular machinery of Ferroplasma acidiphilum is iron-protein-dominated.Halorhabdus tiamatea: proteogenomics and glycosidase activity measurements identify the first cultivated euryarchaeon from a deep-sea anoxic brine lake as potential polysaccharide degraderBioinformatic progress and applications in metaproteogenomics for bridging the gap between genomic sequences and metabolic functions in microbial communities.Enzymatic acylation of di- and trisaccharides with fatty acids: choosing the appropriate enzyme, support and solvent.Functional consequences of microbial shifts in the human gastrointestinal tract linked to antibiotic treatment and obesity.Microbial life in the Lake Medee, the largest deep-sea salt-saturated formation.Effects of β-lactam antibiotics and fluoroquinolones on human gut microbiota in relation to Clostridium difficile associated diarrhea.Identification and characterization of carboxyl esterases of gill chamber-associated microbiota in the deep-sea shrimp Rimicaris exoculata by using functional metagenomics.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.Genome sequence completed of Alcanivorax borkumensis, a hydrocarbon-degrading bacterium that plays a global role in oil removal from marine systems.Conversion of Uric Acid into Ammonium in Oil-Degrading Marine Microbial Communities: a Possible Role of Halomonads.Clostridium difficile heterogeneously impacts intestinal community architecture but drives stable metabolome responses.A purple acidophilic di-ferric DNA ligase from FerroplasmaMining enzymes from extreme environments.
P50
Q21133799-2152DC91-4B89-420B-851A-DA0DFD0DFE58Q21145722-3605E0CC-88AD-4CF9-A661-0FD069645F44Q27679170-B883FECC-6C7D-40F8-888D-5D884F872F7EQ27684798-6296D168-57B5-4FEA-830A-F655E3739854Q27695721-24BCF661-88A3-415D-ACA2-5F322EE4EA05Q28534122-C44AD30D-B7B0-41BA-9522-3ADCA5AE99DFQ28681778-FC89C4E9-250A-4D28-9E27-C114EDFDFC55Q29976873-5C9AAEEB-358B-42F7-8E91-3DCB19D35A57Q30885879-600C0E1F-FDD8-43A3-B6D3-D37CFF07A34EQ31029101-64923D62-7804-434A-ADDA-2E8567C0A3CEQ31139299-1685CFCB-944C-497D-A82D-92AD926DBCB4Q33222351-BE6538BC-419D-438B-9AF3-70F48F1B297BQ33223597-4D246C14-8940-41FD-9EE3-7FF1EA41F9BAQ33227626-7BDECB86-172E-4EBE-8094-BDD5AEEAC174Q33227863-D25C2EDE-77B9-4569-BB0E-5DB5FC03897BQ33343800-8F50E355-D143-4DAC-896F-7FB19D597F17Q33380038-D09F4A35-EA91-4CF4-8BF3-816A3CCB81A2Q33389336-6933779C-3182-482D-96A0-112B41767BEEQ33486389-5B57E50C-D9AC-48F4-A72D-F6DFDFC98513Q33801589-74CFFF9B-6864-4105-949C-72F7D7D5E31CQ33801595-FC12410C-25D3-45D6-970D-D9F6F3C80ECFQ33881530-B8F6A574-CB96-4EDA-88C8-C6E326C61F9EQ33953483-1CA3EA7D-9548-4B32-9F01-C9CE0D966918Q34325656-F60AF884-EA74-4477-90C7-B02F54923A2DQ34351775-71FFFC9D-A20A-4D2A-963F-0119E5CA3FC9Q34569476-5351D892-2230-4199-9626-C39F8EA09DE8Q34597719-FA87CF6C-BAA7-4E8B-B77E-4B6A6A11FDC7Q34639633-446500C9-4339-4196-AA28-4C002A873A2BQ34691984-07DFA31C-09FF-47FB-8AD0-1E908761981DQ34762228-7F8A51BB-719C-42E4-89F9-675BB4EB6351Q34778080-996C6CB1-E25A-4B7C-9433-3DF7C3EE63F5Q35071569-437650A3-46B1-4469-821D-1075E033E28AQ35107269-3D85731E-571F-40E3-AD6F-6F8D40B043C3Q35134168-19DC3340-FEA4-4512-BE7D-3D06EAF7D4BBQ35549439-F3355F38-EB67-4025-B2E4-B1BB2024B0C0Q35598891-BA10551B-AF61-456A-91C3-7721D723EAC9Q35615801-E2EEFFCF-E606-416B-A8FA-486915084766Q36084621-3C7139AD-E9E7-4CF2-984C-095EED7AA3E8Q36734822-78C0D5A1-597F-42EB-8024-64857265C77BQ36840330-BC1E0008-4564-4E14-A679-8B3E7389FFCB
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Manuel Ferrer
@ast
Manuel Ferrer
@en
Manuel Ferrer
@es
Manuel Ferrer
@nl
Manuel Ferrer
@sl
type
label
Manuel Ferrer
@ast
Manuel Ferrer
@en
Manuel Ferrer
@es
Manuel Ferrer
@nl
Manuel Ferrer
@sl
prefLabel
Manuel Ferrer
@ast
Manuel Ferrer
@en
Manuel Ferrer
@es
Manuel Ferrer
@nl
Manuel Ferrer
@sl
P108
P1053
K-4535-2014
P106
P108
P1153
7202504171
P21
P31
P3829
P496
0000-0003-4962-4714