about
Assessing diversity and biogeography of aerobic anoxygenic phototrophic bacteria in surface waters of the Atlantic and Pacific Oceans using the Global Ocean Sampling expedition metagenomesSpherulization as a process for the exudation of chemical cues by the encrusting sponge C. crambeHigh temporal but low spatial heterogeneity of bacterioplankton in the Chesapeake Bay.Proteorhodopsin genes are distributed among divergent marine bacterial taxa.Phylogenetic screening of ribosomal RNA gene-containing clones in Bacterial Artificial Chromosome (BAC) libraries from different depths in Monterey Bay.Novel primers reveal wider diversity among marine aerobic anoxygenic phototrophsMicrobial community genomics in eastern Mediterranean Sea surface waters.Development and application of quantitative-PCR tools for subgroups of the Roseobacter clade.BchY-based degenerate primers target all types of anoxygenic photosynthetic bacteria in a single PCRComparative community genomics in the Dead Sea: an increasingly extreme environment.Characterization of N-Acyl Homoserine Lactones in Vibrio tasmaniensis LGP32 by a Biosensor-Based UHPLC-HRMS/MS Method.Diverse and unique picocyanobacteria in Chesapeake Bay, revealed by 16S-23S rRNA internal transcribed spacer sequencesA single betaproteobacterium dominates the microbial community of the crambescidine-containing sponge Crambe crambeSeasonal dynamics of active SAR11 ecotypes in the oligotrophic Northwest Mediterranean Sea.A novel clade of Prochlorococcus found in high nutrient low chlorophyll waters in the South and Equatorial Pacific Ocean.Mercury methylation by dissimilatory iron-reducing bacteria.Littoral lichens as a novel source of potentially bioactive Actinobacteria.Lichens as natural sources of biotechnologically relevant bacteria.Review - Lichen-Associated Bacteria as a Hot Spot of Chemodiversity: Focus on Uncialamycin, a Promising Compound for Future Medicinal Applications.Characterisation of the gill mucosal bacterial communities of four butterflyfish species: a reservoir of bacterial diversity in coral reef ecosystems.Light-driven increase in carbon yield is linked to maintenance in the proteorhodopsin-containing Photobacterium angustum S14.Multiple Streptomyces species with distinct secondary metabolomes have identical 16S rRNA gene sequences.Draft Genome Sequence of the Gammaproteobacterial Strain MOLA455, a Representative of a Ubiquitous Proteorhodopsin-Producing Group in the Ocean.Genome Sequence of the Sponge-Associated Ruegeria halocynthiae Strain MOLA R1/13b, a Marine Roseobacter with Two Quorum-Sensing-Based Communication Systems.Genome Sequence of Strain MOLA814, a Proteorhodopsin-Containing Representative of the Betaproteobacteria Common in the Ocean.Near real-time, autonomous detection of marine bacterioplankton on a coastal mooring in Monterey Bay, California, using rRNA-targeted DNA probes.Chemical analysis of the Alphaproteobacterium strain MOLA1416 associated with the marine lichen Lichina pygmaea.Surface properties of SAR11 bacteria facilitate grazing avoidance.Dead Sea rhodopsins revisited.In situ activity of NAC11-7 roseobacters in coastal waters off the Chesapeake Bay based on ftsZ expression.Primary production in a subtropical stratified coastal lagoon--contribution of anoxygenic phototrophic bacteria.Characterization of ecto- and endoparasite communities of wild Mediterranean teleosts by a metabarcoding approachMarine cyanolichens from different littoral zones are associated with distinct bacterial communitiesGenetic diversity and phenotypic plasticity of AHL-mediated Quorum sensing in environmental strains of Vibrio mediterranei
P50
Q28302436-14F3CD46-6549-4F18-8CEE-2805B4EC7AD2Q28831213-AB14C64C-48F7-418C-9863-3DEBFF09FBD3Q30480618-1343DD94-EE95-4F1B-B75A-2B94635A6B49Q33194028-51AD89EE-CB06-48F4-98F6-54A606E7BB6DQ33211566-A8D1BA94-E789-4D9C-92EF-A296B120E3ABQ33228735-A93E51D3-5BD6-4885-8DB9-7A63247FFE23Q33495080-92FD1CFC-E548-459F-B2EB-6AFC3BA25100Q33508394-28A84505-C6BA-45AC-9834-7D3188E33C2AQ33508401-853191A2-CD6A-4056-B8A9-E00B173A3E27Q33520676-F0A04FA3-7D24-4EB5-9E53-CA710E760E7BQ33664596-739D033A-BFC5-4A91-A4D4-7D72248C73FCQ34432173-D4009898-F1F1-4CFB-BEA0-7250E5E91BB2Q34977806-CCF4BA70-5539-4AA4-8FB2-FE9919F87C93Q35002651-C80BE6BD-E2EC-45F2-B1E1-FA5367C8294EQ35092536-A5D0EE20-D075-42B6-9D09-A371A5C4E70DQ35215814-1F8D3ABD-9F62-488C-8A76-E11C2971E7ECQ35826517-59CFA9E6-A59F-4C5A-A936-62926C209C96Q35835521-71AF385B-1CF5-4BD0-9C8D-252AABAED14FQ38843196-5D447F4C-4FA4-4523-BC1A-CEBC5AE50406Q40242251-BCF3613B-249E-4A97-9954-2D779BF23676Q41145416-917BD34B-C7CB-4D25-8944-D24C8BF034A8Q41324345-DDA2C527-176F-401B-983B-915703E285D9Q41857173-174B12C8-3EED-4367-B829-7ABE8DAAA5FBQ42151947-124E1BB8-688C-440A-8390-A6B93EB0D132Q42277321-B66B1B59-EA07-4AA9-8993-EB61FCDF6164Q46355766-3EF4380C-230C-49EA-8A89-4953FD753010Q47676623-61252D75-C40F-4806-92D7-2FD1591EC908Q47879699-E8BABEFE-25CB-4F2F-8A78-B7DD99855919Q50913474-106C9B29-E16F-4475-AAF6-41B6DC8F9FFFQ53115484-47E5F31C-7E4B-4035-8A94-CDBCA0B104AFQ53117017-ED54CF0E-216F-4309-B668-8B36D65EDC8DQ90024267-A4A61E1A-E6F5-4762-97FE-65C5846AA38FQ90431771-81C98EC7-10D0-467D-B06B-DA3BB44F0C0FQ90989526-0E51E71D-0437-4C4C-BA06-4736BFB6F68B
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Marcelino T Suzuki
@ast
Marcelino T Suzuki
@en
Marcelino T Suzuki
@es
Marcelino T Suzuki
@sl
type
label
Marcelino T Suzuki
@ast
Marcelino T Suzuki
@en
Marcelino T Suzuki
@es
Marcelino T Suzuki
@sl
prefLabel
Marcelino T Suzuki
@ast
Marcelino T Suzuki
@en
Marcelino T Suzuki
@es
Marcelino T Suzuki
@sl
P108
P1053
D-3329-2009
P106
P108
P21
P31
P3829
P496
0000-0003-3868-6362