Wang, Yinzhao


Publications
5

Globally distributed Myxococcota with photosynthesis gene clusters illuminate the origin and evolution of a potentially chimeric lifestyle

Citation
Li et al. (2023). Nature Communications 14 (1)
Names
“Houyibacterium oceanica” “Houyibacterium” “Houyibacteriaceae” “Houyihalomonas phototrophica” “Xihehalomonas phototrophica” “Xihemonas sinensis” “Kuafubacteria” “Kuafubacterium phototrophica” “Kuafucaenimonas phototrophica” “Kuafuhalomonas phototrophica” “Xihepedomonas phototrophica” “Xihelimnomonas phototrophica” “Xihecaenimonas phototrophica” “Kuafubacteriales” “Kuafubacteriaceae” “Xihehalomonas” “Xihemonas” “Xihecaenibacterium” “Houyihalomonas” “Xihelimnobacterium phototrophica” “Xihelimnobacterium” “Xihemonas phototrophica” “Xihecaenibacterium phototrophica” “Xihebacterium phototrophica” “Xihebacterium glacialis” “Xihebacterium aquatica” “Xihemicrobium phototrophica” “Xihemicrobium aquatica” “Kuafubacterium” “Xihebacterium” “Xihemicrobium” “Xihecaenimonas” “Xihelimnomonas” “Xihepedomonas” “Kuafuhalomonas” “Kuafucaenimonas”
Abstract
AbstractPhotosynthesis is a fundamental biogeochemical process, thought to be restricted to a few bacterial and eukaryotic phyla. However, understanding the origin and evolution of phototrophic organisms can be impeded and biased by the difficulties of cultivation. Here, we analyzed metagenomic datasets and found potential photosynthetic abilities encoded in the genomes of uncultivated bacteria within the phylum Myxococcota. A putative photosynthesis gene cluster encoding a type-II reaction cent

Identification and Genomic Characterization of Two Previously Unknown Magnetotactic Nitrospirae

Citation
Zhang et al. (2021). Frontiers in Microbiology 12
Names
Ca. Magnetoacidotolerus dajiuhuensis Ca. Magnetobacterium cryptolimnobacter Ca. Magnetomicrobium cryptolimnococcus
Abstract
Magnetotactic bacteria (MTB) are a group of microbes that biomineralize membrane-bound, nanosized magnetite (Fe3O4), and/or greigite (Fe3S4) crystals in intracellular magnetic organelle magnetosomes. MTB belonging to the Nitrospirae phylum can form up to several hundreds of Fe3O4 magnetosome crystals and dozens of sulfur globules in a single cell. These MTB are widespread in aquatic environments and sometimes account for a significant proportion of microbial biomass near the oxycline, linking th

Origin of microbial biomineralization and magnetotaxis during the Archean

Citation
Lin et al. (2017). Proceedings of the National Academy of Sciences 114 (9)
Names
“Magnetominusculus”
Abstract
Significance A wide range of organisms sense Earth’s magnetic field for navigation. For some organisms, like magnetotactic bacteria, magnetic particles form inside cells and act like a compass. However, the origin of magnetotactic behavior remains a mystery. We report that magnetotaxis evolved in bacteria during the Archean, before or near the divergence between the Nitrospirae and Proteobacteria phyla, suggesting that magnet