Dimethylsulfoniopropionate (DMSP): From Biochemistry to Global Ecological Significance
CY Li, HY Cao, RD Payet, JD Todd… - Annual Review of …, 2024 - annualreviews.org
Dimethylsulfoniopropionate (DMSP) is one of Earth's most abundant organosulfur
compounds with important roles in stress tolerance, chemotaxis, global carbon and sulfur …
compounds with important roles in stress tolerance, chemotaxis, global carbon and sulfur …
Quorum sensing: unravelling the intricacies of microbial communication for biofilm formation, biogeochemical cycling, and biotechnological applications
The marine environment possesses diverse and complex characteristics, representing a
significant challenge for microbial survival. Therefore, bacteria must develop adaptive …
significant challenge for microbial survival. Therefore, bacteria must develop adaptive …
Bacterial catabolism of membrane phospholipids links marine biogeochemical cycles
LM Westermann, IDEA Lidbury, CY Li, N Wang… - Science …, 2023 - science.org
In marine systems, the availability of inorganic phosphate can limit primary production
leading to bacterial and phytoplankton utilization of the plethora of organic forms available …
leading to bacterial and phytoplankton utilization of the plethora of organic forms available …
Developing a Base Editing System for Marine Roseobacter Clade Bacteria
The Roseobacter clade bacteria are of great significance in marine ecology and
biogeochemical cycles, and they are potential microbial chassis for marine synthetic biology …
biogeochemical cycles, and they are potential microbial chassis for marine synthetic biology …
A new dimethylsulfoniopropionate lyase of the cupin superfamily in marine bacteria
SY Wang, N Zhang, ZJ Teng, XD Wang… - Environmental …, 2023 - Wiley Online Library
Dimethylsulfoniopropionate (DMSP) is a marine organosulfur compound with important
roles in stress protection, marine biogeochemical cycling, chemical signalling and …
roles in stress protection, marine biogeochemical cycling, chemical signalling and …
The ultra-high affinity transport proteins of ubiquitous marine bacteria
SAR11 bacteria are the most abundant microorganisms in the surface ocean and have
global biogeochemical importance,–. To thrive in their competitive oligotrophic environment …
global biogeochemical importance,–. To thrive in their competitive oligotrophic environment …
Blue valorization of lignin-derived monomers via reprogramming marine bacterium Roseovarius nubinhibens
Y Wei, SG Wang, PF Xia - Applied and Environmental …, 2024 - journals.asm.org
Biological valorization of lignin, the second most abundant biopolymer on Earth, is an
indispensable sector to build a circular economy and net-zero future. However, lignin is …
indispensable sector to build a circular economy and net-zero future. However, lignin is …
Microbially driven sulfur cycling in the river–wetland–ocean continuum
Sulfur (S) is an essential biological element, and S cycling is mainly driven by metabolically
versatile microorganisms. The river–wetland–ocean (RWO) continuum here is defined as …
versatile microorganisms. The river–wetland–ocean (RWO) continuum here is defined as …
Beyond Meta-Omics: Functional Genomics in Future Marine Microbiome Research
Y Chen - Annual Review of Marine Science, 2025 - annualreviews.org
When President Bill Clinton and Francis Collins, then the director of the National Human
Genome Research Institute, celebrated the near completion of the human genome …
Genome Research Institute, celebrated the near completion of the human genome …
Functional annotation and importance of marine bacterial transporters of plankton exometabolites
WF Schroer, HE Kepner, M Uchimiya… - ISME …, 2023 - academic.oup.com
Metabolite exchange within marine microbial communities transfers carbon and other major
elements through global cycles and forms the basis of microbial interactions. Yet lack of …
elements through global cycles and forms the basis of microbial interactions. Yet lack of …