Your search keyword '"Yang, Zamin K."' showing total 3 results

1. Hexavalent chromium reduction under fermentative conditions with lactate stimulated native microbial communities.

Author

Somenahally, Anil C, Somenahally, Anil C, Mosher, Jennifer J, Yuan, Tong, Podar, Mircea, Phelps, Tommy J, Brown, Steven D, Yang, Zamin K, Hazen, Terry C, Arkin, Adam P, Palumbo, Anthony V, Van Nostrand, Joy D, Zhou, Jizhong, Elias, Dwayne A, Somenahally, Anil C, Somenahally, Anil C, Mosher, Jennifer J, Yuan, Tong, Podar, Mircea, Phelps, Tommy J, Brown, Steven D, Yang, Zamin K, Hazen, Terry C, Arkin, Adam P, Palumbo, Anthony V, Van Nostrand, Joy D, Zhou, Jizhong, and Elias, Dwayne A

Abstract

Microbial reduction of toxic hexavalent chromium (Cr(VI)) in-situ is a plausible bioremediation strategy in electron-acceptor limited environments. However, higher [Cr(VI)] may impose stress on syntrophic communities and impact community structure and function. The study objectives were to understand the impacts of Cr(VI) concentrations on community structure and on the Cr(VI)-reduction potential of groundwater communities at Hanford, WA. Steady state continuous flow bioreactors were used to grow native communities enriched with lactate (30 mM) and continuously amended with Cr(VI) at 0.0 (No-Cr), 0.1 (Low-Cr) and 3.0 (High-Cr) mg/L. Microbial growth, metabolites, Cr(VI), 16S rRNA gene sequences and GeoChip based functional gene composition were monitored for 15 weeks. Temporal trends and differences in growth, metabolite profiles, and community composition were observed, largely between Low-Cr and High-Cr bioreactors. In both High-Cr and Low-Cr bioreactors, Cr(VI) levels were below detection from week 1 until week 15. With lactate enrichment, native bacterial diversity substantially decreased as Pelosinus spp., and Sporotalea spp., became the dominant groups, but did not significantly differ between Cr concentrations. The Archaea diversity also substantially decreased after lactate enrichment from Methanosaeta (35%), Methanosarcina (17%) and others, to mostly Methanosarcina spp. (95%). Methane production was lower in High-Cr reactors suggesting some inhibition of methanogens. Several key functional genes were distinct in Low-Cr bioreactors compared to High-Cr. Among the Cr resistant microbes, Burkholderia vietnamiensis, Comamonas testosterone and Ralstonia pickettii proliferated in Cr amended bioreactors. In-situ fermentative conditions facilitated Cr(VI) reduction, and as a result 3.0 mg/L Cr(VI) did not impact the overall bacterial community structure.

Published

2013

2. Hexavalent chromium reduction under fermentative conditions with lactate stimulated native microbial communities.

Author

Somenahally, Anil C, Moreno-Sanchez, Rafael1, Somenahally, Anil C, Mosher, Jennifer J, Yuan, Tong, Podar, Mircea, Phelps, Tommy J, Brown, Steven D, Yang, Zamin K, Hazen, Terry C, Arkin, Adam P, Palumbo, Anthony V, Van Nostrand, Joy D, Zhou, Jizhong, Elias, Dwayne A, Somenahally, Anil C, Moreno-Sanchez, Rafael1, Somenahally, Anil C, Mosher, Jennifer J, Yuan, Tong, Podar, Mircea, Phelps, Tommy J, Brown, Steven D, Yang, Zamin K, Hazen, Terry C, Arkin, Adam P, Palumbo, Anthony V, Van Nostrand, Joy D, Zhou, Jizhong, and Elias, Dwayne A

Abstract

Microbial reduction of toxic hexavalent chromium (Cr(VI)) in-situ is a plausible bioremediation strategy in electron-acceptor limited environments. However, higher [Cr(VI)] may impose stress on syntrophic communities and impact community structure and function. The study objectives were to understand the impacts of Cr(VI) concentrations on community structure and on the Cr(VI)-reduction potential of groundwater communities at Hanford, WA. Steady state continuous flow bioreactors were used to grow native communities enriched with lactate (30 mM) and continuously amended with Cr(VI) at 0.0 (No-Cr), 0.1 (Low-Cr) and 3.0 (High-Cr) mg/L. Microbial growth, metabolites, Cr(VI), 16S rRNA gene sequences and GeoChip based functional gene composition were monitored for 15 weeks. Temporal trends and differences in growth, metabolite profiles, and community composition were observed, largely between Low-Cr and High-Cr bioreactors. In both High-Cr and Low-Cr bioreactors, Cr(VI) levels were below detection from week 1 until week 15. With lactate enrichment, native bacterial diversity substantially decreased as Pelosinus spp., and Sporotalea spp., became the dominant groups, but did not significantly differ between Cr concentrations. The Archaea diversity also substantially decreased after lactate enrichment from Methanosaeta (35%), Methanosarcina (17%) and others, to mostly Methanosarcina spp. (95%). Methane production was lower in High-Cr reactors suggesting some inhibition of methanogens. Several key functional genes were distinct in Low-Cr bioreactors compared to High-Cr. Among the Cr resistant microbes, Burkholderia vietnamiensis, Comamonas testosterone and Ralstonia pickettii proliferated in Cr amended bioreactors. In-situ fermentative conditions facilitated Cr(VI) reduction, and as a result 3.0 mg/L Cr(VI) did not impact the overall bacterial community structure.

Published

2013

3. Efficiency of gene silencing in Arabidopsis : direct inverted repeats vs. transitive RNAi vectors

Author

Filichkin, Sergei A., DiFazio, Stephen P., Brunner, Amy M., Davis, John M., Yang, Zamin K., Kalluri, Udaya C., Arias, R. S., Etherington, Elizabeth, Tuskan, Gerald A., Strauss, Steven H., Filichkin, Sergei A., DiFazio, Stephen P., Brunner, Amy M., Davis, John M., Yang, Zamin K., Kalluri, Udaya C., Arias, R. S., Etherington, Elizabeth, Tuskan, Gerald A., and Strauss, Steven H.

Abstract

We investigated the efficiency of RNA interference (RNAi) in Arabidopsis using transitive and homologous inverted repeat (hIR) vectors. hIR constructs carry self-complementary intron-spliced fragments of the target gene whereas transitive vectors have the target sequence fragment adjacent to an intron-spliced, inverted repeat of heterologous origin. Both transitive and hIR constructs facilitated specific and heritable silencing in the three genes studied (AP1 , ETTIN and TTG1). Both types of vectors produced a phenotypic series that phenocopied reduction of function mutants for the respective target gene. The hIR yielded up to fourfold higher proportions of events with strongly manifested reduction of function phenotypes compared to transitive RNAi. We further investigated the efficiency and potential off-target effects of AP1 silencing by both types of vectors using genome-scale microarrays and quantitative RT-PCR. The depletion of AP1 transcripts coincided with reduction of function phenotypic changes among both hIR and transitive lines and also showed similar expression patterns among differentially regulated genes. We did not detect significant silencing directed against homologous potential off-target genes when constructs were designed with minimal sequence similarity. Both hIR and transitive methods are useful tools in plant biotechnology and genomics. The choice of vector will depend on specific objectives such as cloning throughput, number of events and degree of suppression required.

Published

2007