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Algal exudates promote conjugation in marine Roseobacters
by
Yuda, Lilach
, Matsliyah, Dor
, Lipsman, Valeria
, Kublanov, Ilya V.
, Segev, Einat
, Duchin Rapp, Yemima
in
Adaptability
/ Algae
/ algal–bacterial interactions
/ Antibiotics
/ Aquatic Organisms - genetics
/ Aquatic Organisms - metabolism
/ Bacteria
/ Biofilms
/ Chromosomes
/ Conjugation
/ Conjugation, Genetic
/ ecophysiology
/ Evolution
/ Exudates
/ Gene transfer
/ Gene Transfer, Horizontal
/ Genetic engineering
/ Gram-positive bacteria
/ Heterotrophic bacteria
/ Horizontal transfer
/ Marine ecosystems
/ Marine environment
/ Metabolism
/ Metabolites
/ Nutrients
/ Phages
/ Physiology and Metabolism
/ Plasmids
/ Plasmids - genetics
/ Research Article
/ Roseobacter - genetics
/ Roseobacter - metabolism
/ Roseobacters
/ Seawater - microbiology
/ Secretion
/ Trace elements
/ Type IV Secretion Systems - genetics
/ Type IV Secretion Systems - metabolism
2024
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Algal exudates promote conjugation in marine Roseobacters
by
Yuda, Lilach
, Matsliyah, Dor
, Lipsman, Valeria
, Kublanov, Ilya V.
, Segev, Einat
, Duchin Rapp, Yemima
in
Adaptability
/ Algae
/ algal–bacterial interactions
/ Antibiotics
/ Aquatic Organisms - genetics
/ Aquatic Organisms - metabolism
/ Bacteria
/ Biofilms
/ Chromosomes
/ Conjugation
/ Conjugation, Genetic
/ ecophysiology
/ Evolution
/ Exudates
/ Gene transfer
/ Gene Transfer, Horizontal
/ Genetic engineering
/ Gram-positive bacteria
/ Heterotrophic bacteria
/ Horizontal transfer
/ Marine ecosystems
/ Marine environment
/ Metabolism
/ Metabolites
/ Nutrients
/ Phages
/ Physiology and Metabolism
/ Plasmids
/ Plasmids - genetics
/ Research Article
/ Roseobacter - genetics
/ Roseobacter - metabolism
/ Roseobacters
/ Seawater - microbiology
/ Secretion
/ Trace elements
/ Type IV Secretion Systems - genetics
/ Type IV Secretion Systems - metabolism
2024
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Algal exudates promote conjugation in marine Roseobacters
by
Yuda, Lilach
, Matsliyah, Dor
, Lipsman, Valeria
, Kublanov, Ilya V.
, Segev, Einat
, Duchin Rapp, Yemima
in
Adaptability
/ Algae
/ algal–bacterial interactions
/ Antibiotics
/ Aquatic Organisms - genetics
/ Aquatic Organisms - metabolism
/ Bacteria
/ Biofilms
/ Chromosomes
/ Conjugation
/ Conjugation, Genetic
/ ecophysiology
/ Evolution
/ Exudates
/ Gene transfer
/ Gene Transfer, Horizontal
/ Genetic engineering
/ Gram-positive bacteria
/ Heterotrophic bacteria
/ Horizontal transfer
/ Marine ecosystems
/ Marine environment
/ Metabolism
/ Metabolites
/ Nutrients
/ Phages
/ Physiology and Metabolism
/ Plasmids
/ Plasmids - genetics
/ Research Article
/ Roseobacter - genetics
/ Roseobacter - metabolism
/ Roseobacters
/ Seawater - microbiology
/ Secretion
/ Trace elements
/ Type IV Secretion Systems - genetics
/ Type IV Secretion Systems - metabolism
2024
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Journal Article
Algal exudates promote conjugation in marine Roseobacters
2024
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Overview
This study explores how algal–bacterial interactions influence horizontal gene transfer (HGT) among marine bacteria. HGT, a key driver of bacterial evolution, is facilitated by conjugation mediated by type IV secretion systems (T4SSs). Through investigating Roseobacters, abundant marine bacteria often found to be associated with algae, the study reveals that algal exudates enhance plasmid transfer via conjugation. This enhancement is attributed to the promotion of bacterial attachment by algal compounds, emphasizing the role of algal–bacterial interactions in shaping genetic exchange within dynamic marine ecosystems. Understanding these mechanisms is crucial for elucidating bacterial adaptability and evolution in the marine environment.
Publisher
American Society for Microbiology
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