Xiaolei Wang
Ocean University of China
46 Papers
48 Citations
Xiaolei Wang is an academic researcher from Ocean University of China. The author has contributed to research in topics: Vibrio & Biology. The author has an hindex of 9, co-authored 23 publications. Previous affiliations of Xiaolei Wang include Ontario Ministry of Natural Resources.
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Papers
Significance of Vibrio species in the marine organic carbon cycle—A review
TL;DR: Genomics and related areas of investigation will reveal more about the molecular components and mechanisms involved in Vibrio-mediated biotransformation and remineralization processes, particularly on marine organic carbon cycling especially in marginal seas.
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Comparative genomic analysis reveals the evolution and environmental adaptation strategies of vibrios.
TL;DR: Vibrios have experienced extremely genome expansion events during their evolutionary history, allowing them to develop various functions to spread globally and provide a better knowledge of how the evolutionary process has forged Vibrio genomes to occupy various niches.
Spatiotemporal Dynamics of Free-Living and Particle-Associated Vibrio Communities in the Northern Chinese Marginal Seas.
TL;DR: The spatiotemporal dynamics of Vibrio diversity and in relation to environmental factors in the northern Chinese marginal seas are elucidated, showing that the abundances of the VIBrio population in the present study were higher than those in most previously studied areas and that Vibri species are more likely to adopt a free-living lifestyle.
47
Spatiotemporal dynamics of the total and active Vibrio spp. populations throughout the Changjiang estuary in China
TL;DR: The spatiotemporal dynamics of total and active Vibrio spp.
44
Genomic analysis of Luteimonas abyssi XH031(T): insights into its adaption to the subseafloor environment of South Pacific Gyre and ecological role in biogeochemical cycle.
TL;DR: The genome analysis showed that XH031T had genetic advantages to adapt to subseafloor environment, and the material metabolism manifests that the strain may play an important ecological role in the biogeochemical cycle of the SPG, and various cold-adapted extracelluar enzymes produced by the strain might have significant value in application.