xarvie
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Date of Birth:1980-03-08
Gender:Male
Education Level:Postgraduate (Doctoral)
Alma Mater:山东大学
Paper Publications
- [51] xarvie Response on "commentary on "using resonance synchronous spectroscopy to characterize the reactivity and electrophilicity of biologically relevant sulfane sulfur". Redox Biology, 2018.
- [52] xunluying , xarvie and xiayongzhen. Escherichia coli Uses Separate Enzymes to Produce H2S and Reactive Sulfane Sulfur From L-cysteine. Frontiers in Microbiology, 2019.
- [53] xarvie , xiayongzhen , liujihua , lihuanjie Using resonance synchronous spectroscopy to characterize the reactivity and electrophilicity of biologically relevant sulfane sulfur. Redox Biology, 2019.
- [54] xarvie , likai , xiayongzhen Synthetic Gene Circuits Enable Escherichia coli To Use Endogenous H2S as a Signaling Molecule for Quorum Sensing. ACS Synthetic Biology, 2019.
- [55] xarvie Developing Polysulfide-Sensitive GFPs for Real-Time Analysis of Polysulfides in Live Cells and Subcellular Organelles. Anal Chem, 2019.
- [56] likai , xiayongzhen , xarvie , 侯宁可 OxyR senses sulfane sulfur and activates the genes for its removal in Escherichia coli. Redox Biology, 2019.
- [57] xiayongzhen , wangxia , xarvie , liuhonglei , 侯宁可 H2S biotreatment with sulfide-oxidizing heterotrophic bacteria. Biodegradation, 29, 511, 2018.
- [58] xiayongzhen , liuhonglei , xunluying , xarvie and lihuanjie. FisR activates sigma(54)-dependent transcription of sulfide-oxidizing genes in Cupriavidus pinatubonensis JMP134. Molecular Microbiology, 105, 373, 2017.
- [59] xarvie , xunluying and liujihua. Sulfur metabolism by marine heterotrophic bacteria involved in sulfur cycling in the ocean. Science China Earth Sciences, 2018.
- [60] xarvie. Everyone loves an underdog: metabolic engineering of the xylose oxidative pathway in recombinant microorganisms. Appl Microbiol Biotechnol, 2018.