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□ The Cytochrome bd Complex Is Essential for Chromate and Sulfide Resistance and Is Regulated by a GbsR-Type Regulator, CydE, in Alishewanella Sp. WH16-1.

□ Proteins enriched in charged amino acids control the formation and stabilization of selenium nanoparticles in Comamonas testosteroni S44

 Phosphate starvation response controls genes required to synthesize the phosphate analog arsenate

□ Pedobacter mongoliensis sp. nov., isolated from grassland soil

□ Novel mechanisms of selenate and selenite reduction in the obligate aerobic bacterium Comamonas testosteroni S44

□ Lysobacter tongrenensis sp. nov., isolated from soil of a manganese factory

Adsorption Removal of Multiple Dyes Using Biogenic Selenium Nanoparticles from an Escherichia coli Strain Overexpressed Selenite Reductase CsrF

Novel bacterial selenite reductase CsrF responsible for Se(IV) and Cr(VI) reduction that produces nanoparticles in Alishewanella sp. WH16-1

Regulation of Class A b-Lactamase CzoA by CzoR and IscR in Comamonas testosteroni S44

Proteomics and genetic analyses reveal the effects of arsenite oxidation on metabolic
pathways and the roles of AioR in
Agrobacterium tumefaciens GW4

□ Effects upon metabolic pathways and energy production by Sb(III) and As(III)/Sb(III)-oxidase gene aioA in Agrobacterium tumefaciens GW4

□ An Oxidoreductase AioE is Responsible for Bacterial Arsenite Oxidation and Resistance

□ Genomic identification of rhizobia-related strains and threshold of ANI and core-genome for family, genus and species

□ Disrupting ROS-protection mechanism allows hydrogen peroxide to accumulate and oxidize Sb(III) to S(V) in Pseudomonas stutzeri TS44

□ Reduction of selenite to Se(0) nanoparticles by filamentous bacterium Streptomyces sp. ES2‑5 isolated from a selenium mining soil

□ Immobilization of Lead by Alishewanella sp. WH16-1 in Pot Experiments of Pb-Contaminated Paddy Soil

□ Draft genomic sequence of a chromateand sulfate-reducing Alishewanella strain with the ability to bioremediate Cr and Cd contamination

□ Microbial Antimony Biogeochemistry: Enzymes, Regulation, and Related Metabolic Pathways-Jingxing Li

□ Soil pH, total phosphorus, climate and distance are the major factors influencing microbial activity at a
regional spatial scale

□ Production of a microcapsule agent of chromate‑reducing Lysinibacillus fusiformis ZC1 and its application in remediation of chromate‑spiked soil-Jun Huang

□ Hymenobacter monticola sp. nov., isolated from mountain soil (Xia Fan)

□ Genome Sequence of Selenium-Solubilizing Bacterium Caulobacter vibrioides T5M6

□ Long-term fertilization of P coupled with N greatly improved microbial activities in a paddy soil ecosystem derived from infertile land (Shixue Zheng)

□ Bacillus cavernae sp. nov. isolated from cave soil (Feng liling)

□ GlobalRegulatorIscRPositivelyContributestoAntimoniteResistanceandOxidationinComamonastestosteroniS44 (Liu H)

□ Draft genome sequence of Cellulomonas carbonis T26T and comparative analysis of six Cellulomonas genomes

□ Genomic information of the arsenicresistant bacterium Lysobacter arseniciresistens type strain ZS79T and
comparison of Lysobacter draft genomes

 

□ Arenimonas metalli sp. nov., isolated from an iron mine

□ Chromate Interaction with the Chromate Reducing Actinobacterium Intrasporangium chromatireducens
Q5-1

□ Regulationofarseniteoxidationbythephosphatetwo-componentsystemPhoBRinHalomonassp.HAL1

□ Draft genomic sequence of a selenitereducing bacterium, Paenirhodobacter enshiensis DW2-9T

□ High correlation between genotypes and phenotypes of environmental bacteria Comamonas testosteroni strains

□ Removal of indigo carmine by bacterial biogenic Mn oxides

□ Arsenite Oxidase Also Functions as an Antimonite Oxidase

□ Genomic analysis of Skermanella stibiiresistens type strain SB22T

Thermomonas carbonis sp. nov., isolated from the soil of a coal mine

□ Fate of arsenate following arsenite oxidation in Agrobacterium tumefaciens GW4

□ Genomic Evidence Reveals the Extreme Diversity and Wide Distribution of the Arsenic-Related Genes in Burkholderiales

Genomic analysis of Agrobacterium radiobacter DSM 30147T and emended description of A. radiobacter (Beijerinck and van Delden 1902) Conn 1942 (Approved Lists 1980) emend. Sawada et al. 1993

Paenibacillus selenitireducens sp. nov., a selenite-reducing bacterium isolated from a selenium mineral soil

□ Long-term fertilization regimes influence FAME profiles of microbial communities in an arable sandy loam soil in Northern China

□ Removal and Recovery of Toxic Silver Ion Using Deep-Sea Bacterial Generated Biogenic Manganese Oxides

Paenirhodobacter enshiensis gen. nov., sp. nov., a non-photosynthetic bacterium isolated from soil, and emended descriptions of the genera Rhodobacter and Haematobacter

□ In silico analysis of bacterial arsenic islands reveals remarkable synteny and functional relatedness between arsenate and phosphate

□ Correlation Models between Environmental Factors and Bacterial Resistance to Antimony and Copper

□ 利用赖氨酸芽孢杆菌产生的生物锰氧化物吸附和回收金离子

□ 锰氧化菌及其生物锰氧化物在环境污染修复中的应用研究进展

□ 硒是双刃剑? ——谈微生物中的硒代谢

□ 微生物对锑的代谢机制研究进展

He Z, Xiong J, Kent AD, Deng Y, Xue K, et al. (2013) Distinct responses of soil microbial communities to elevated CO2 and O3 in a soybean agro-ecosystem. ISME J. (in press)

Li Y, Chen F, Dong K and Wang G (2013) Actinotalea ferrariae sp. nov., isolated from iron mine. International Journal of Systematic and Evolutionary Microbiology. (in press)

Liu H, Song Y, Chen F, Zheng S and Wang G (2013) Lysinibacillus manganicus sp. nov., isolated from manganese mining soil. International Journal of Systematic and Evolutionary Microbiology. (in press)

Dong K, Xu B, Zhu F and Wang G (2013) Flavobacterium hauense sp. nov., isolated from soil and emended descriptions of Flavobacterium subsaxonicum, Flavobacterium beibuense and Flavobacterium rivuli. International Journal of Systematic and Evolutionary Microbiology.(in press)

Li X, Hu Y, Gong J, Zhang L and Wang G (2013) Comparative genome characterization of Achromobacter members reveals potential genetic determinants facilitating the adaptation to a pathogenic lifestyle. Appl Microbiol Biotechnol 97: 6413-6425.

Liao S, Zhou J, Wang H, Chen X, Wang H, et al. (2012) Arsenite Oxidation Using Biogenic Manganese Oxides Produced by a Deep-Sea Manganese-Oxidizing Bacterium, Marinobacter sp. MnI7-9. Geomicrobiology Journal 30: 150-159.

Dong K, Chen F, Du Y and Wang G (2013) Flavobacterium enshiense sp. nov., isolated from soil, and emended descriptions of the genus Flavobacterium and Flavobacterium cauense, Flavobacterium saliperosum and Flavobacterium suncheonense. International Journal of Systematic and Evolutionary Microbiology 63: 886-892.

Li L, Liu H, Shi Z and Wang G (2013) Sphingobium cupriresistens sp. nov., a copper-resistant bacterium isolated from copper mine soil, and emended description of the genus Sphingobium. International Journal of Systematic and Evolutionary Microbiology 63: 604-609.

Xiong J, He Z, Van Nostrand JD, Luo G, Tu S, et al. (2012) Assessing the Microbial Community and Functional Genes in a Vertical Soil Profile with Long-Term Arsenic Contamination. PLoS ONE 7: e50507.

Li J, Wang Q, Zhang S, Qin D and Wang G (2013) Phylogenetic and genome analyses of antimony-oxidizing bacteria isolated from antimony mined soil. International Biodeterioration & Biodegradation 76: 76-80.

Wang Q, Lei Y, Xu X, Wang G and Chen L-L (2012) Theoretical Prediction and Experimental Verification of Protein-Coding Genes in Plant Pathogen Genome Agrobacterium tumefaciens Strain C58. PLoS ONE 7: e43176.

Du Y, Yu X and Wang G (2012) Massilia tieshanensis sp. nov., isolated from mining soil. International Journal of Systematic and Evolutionary Microbiology 62: 2356-2362.

Liu G, Liu M, Kim E-H, Maaty WS, Bothner B, et al. (2012) A periplasmic arsenite-binding protein involved in regulating arsenite oxidation. Environmental Microbiology 14: 1624-1634.

李洁琼, 王利兵, 刘阳, 郑世学, 喻子牛 (2011) 粘红酵母乙酰辅酶A羧化酶(ACC)基因的克隆及CT功能域基因的原核表达. 微生物学杂志: 6-11.

赵彦玲, 郑世学, 方治伟, 喻子牛 (2011) 洪湖沉积物中真菌群落结构的垂直分布. 菌物学报: 721-728.

郑慧, 祁士华, 王志勇, 刘华锋, 江雪飞, 等. (2011) 高位池养虾对土壤微生物脂肪酸和土壤酶活及其表征的土壤质量的影响. 应用与环境生物学报: 69-72.

李洁琼, 郑世学, 喻子牛, 张吉斌 (2011) 乙酰辅酶A羧化酶:脂肪酸代谢的关键酶及其基因克隆研究进展. 应用与环境生物学报: 753-758.

Sandy EH, Yao J, Zheng S, Gogra AB, Chen H, et al. (2010) A comparative cytotoxicity study of isomeric alkylphthalates to metabolically variant bacteria. Journal of Hazardous Materials 182: 631-639.

Zheng S, Hu J, Chen K, Yao J, Yu Z, et al. (2009) Soil microbial activity measured by microcalorimetry in response to long-term fertilization regimes and available phosphorous on heat evolution. Soil Biology and Biochemistry 41: 2094-2099.

Zheng S, Yao J, Zhao B and Yu Z (2007) Influence of agricultural practices on soil microbial activity measured by microcalorimetry. European Journal of Soil Biology 43: 151-157.

郑世学, 董秀丽, 喻子牛, 赵斌 (2004) 以新鲜根段进行AM真菌的分子检测及竞争性侵染研究. 菌物学报: 126-132.

郑世学, 董秀丽, 喻子牛, 赵斌 (2004) 四种AM真菌接种剂的田间效应及其分子检测研究. 土壤学报: 742-749.

Li M, Li M, Yin W, He J and Yu Z (2009) Two novel transposon delivery vectors based on mariner transposon for random mutagenesis of Bacillus thuringiensis. Journal of Microbiological Methods 78: 242-244.

Shun LM, Choi JY, Roh JY, Shim HJ, Kang JN, et al. (2007) Identification and molecular characterization of novel cryl-type toxin genes from Bacillus thuringiensis K1 isolated in Korea. Anglais 17: 6.

□ 2011 APS-IPPC Joint Meeting Abstracts of Presentations

Wu D, He J, Gong Y, Chen D, Zhu X, et al. (2011) Proteomic analysis reveals the strategies of Bacillus thuringiensis YBT-1520 for survival under long-term heat stress. PROTEOMICS 11: 2580-2591.

Cai L, Liu G, Rensing C and Wang G (2009) Genes involved in arsenic transformation and resistance associated with different levels of arsenic-contaminated soils. BMC Microbiology 9: 4.

Li M, Roh J, Tao X, Yu Z, Liu Z, et al. (2009) Cloning and molecular characterization of a novel rolling-circle replicating plasmid, pK1S-1, from Bacillus thuringiensis subsp. kurstaki K1. J Microbiol 47: 466-472.

赵凯, 黄银燕, 王倩, 王革娇 (2011) 三价砷氧化细菌Acidovorax sp.GW2中As(Ⅲ)氧化酶基因和调控序列的克隆鉴定. 华中农业大学学报: 23-29.

Gentry TJ, Wang G, Rensing C and Pepper IL (2004) Chlorobenzoate-Degrading Bacteria in Similar Pristine Soils Exhibit Different Community Structures and Population Dynamics in Response to Anthropogenic 2-, 3-, and 4-Chlorobenzoate Levels. Microb Ecol 48: 90-102.

□ Phylogenetic and genome analyses of antimony-oxidizing bacteria isolated from antimony mined soil

Sphingobium cupriresistens sp. nov., a copper-resistant bacterium isolated from copper mine soil

Liu H, Guo L, Liao S and Wang G (2012) Reutilization of immobilized fungus Rhizopus sp. LG04 to reduce toxic chromate. Journal of Applied Microbiology 112: 651-659.

□ Genome Sequence of the Facultative Anaerobic Arsenite-Oxidizing and Nitrate-Reducing Bacterium Acidovorax sp. Strain NO1

□ Arsenite oxidation using biogenic manganese oxides produced  by a deep-sea manganese-oxidizing bacterium, Marinobacter manganoxydans MnI7-9

Hao X, Lin Y, Johnstone L, Liu G, Wang G, et al. (2012) Genome Sequence of the Arsenite-Oxidizing Strain Agrobacterium tumefaciens 5A. Journal of Bacteriology 194: 903.

Lin Y, Fan H, Hao X, Johnstone L, Hu Y, et al. (2012) Draft Genome Sequence of Halomonas sp. Strain HAL1, a Moderately Halophilic Arsenite-Oxidizing Bacterium Isolated from Gold-Mine Soil. Journal of Bacteriology 194: 199-200.

Li X, Hu Y, Gong J, Lin Y, Johnstone L, et al. (2012) Genome Sequence of the Highly Efficient Arsenite-Oxidizing Bacterium Achromobacter arsenitoxydans SY8. Journal of Bacteriology 194: 1243-1244.

□ Genome Sequence of Deep-Sea Manganese-Oxidizing Bacterium Marinobacter manganoxydans MnI7-9

He M, Li X, Liu H, Miller SJ, Wang G, et al. (2011) Characterization and genomic analysis of a highly chromate resistant and reducing bacterial strain Lysinibacillus fusiformis ZC1. Journal of Hazardous Materials 185: 682-688.

Yang Q, Tu S, Wang G, Liao X and Yan X (2011) Effectiveness of Applying Arsenate Reducing Bacteria to Enhance Arsenic Removal From Polluted Soils by Pteris Vittata L. International Journal of Phytoremediation 14: 89-99.

Yu X, Du Y and Wang G (2012) Knoellia flava sp. nov., isolated from pig manure. International Journal of Systematic and Evolutionary Microbiology 62: 384-389.

Chen F, Shi Z and Wang G (2012) Arenimonas metalli sp. nov., isolated from an iron mine. International Journal of Systematic and Evolutionary Microbiology 62: 1744-1749.

Shi Z, Luo G and Wang G (2012) Cellulomonas carbonis sp. nov., isolated from coal mine soil. International Journal of Systematic and Evolutionary Microbiology 62: 2004-2010.

Luo G, Shi Z and Wang G (2012) Lysobacter arseniciresistens sp. nov., an arsenite-resistant bacterium isolated from iron-mined soil. International Journal of Systematic and Evolutionary Microbiology 62: 1659-1665.

Luo G, Shi Z, Wang H and Wang G (2012) Skermanella stibiiresistens sp. nov., a highly antimony-resistant bacterium isolated from coal-mining soil, and emended description of the genus Skermanella. International Journal of Systematic and Evolutionary Microbiology 62: 1271-1276.

Xiong J, Li D, Li H, He M, Miller SJ, et al. (2011) Genome analysis and characterization of zinc efflux systems of a highly zinc-resistant bacterium, Comamonas testosteroni S44. Research in Microbiology 162: 671-679.

Wang Q, Xiong D, Zhao P, Yu X, Tu B, et al. (2011) Effect of applying an arsenic-resistant and plant growth–promoting rhizobacterium to enhance soil arsenic phytoremediation by Populus deltoides LH05-17. Journal of Applied Microbiology 111: 1065-1074.

□ Proteomic analysis reveals the strategies of Bacillus thuringiensis YBT-1520 for survival under long-term heat stress

□ 2011 APS-IPPC Joint Meeting Abstracts of Presentations

Yang Y, Zou Z, He M and Wang G (2011) Pontibacillus yanchengensis sp. nov., a moderately halophilic bacterium isolated from salt field soil. International Journal of Systematic and Evolutionary Microbiology 61: 1906-1911.

Xiong J, Wu L, Tu S, Van Nostrand JD, He Z, et al. (2010) Microbial Communities and Functional Genes Associated with Soil Arsenic Contamination and the Rhizosphere of the Arsenic-Hyperaccumulating Plant Pteris vittata L. Applied and Environmental Microbiology 76: 7277-7284.

He M, Li X, Guo L, Miller S, Rensing C, et al. (2010) Characterization and genomic analysis of chromate resistant and reducing Bacillus cereus strain SJ1. BMC Microbiology 10: 221.

Zou Z and Wang G (2010) Kushneria sinocarnis sp. nov., a moderately halophilic bacterium isolated from a Chinese traditional cured meat. International Journal of Systematic and Evolutionary Microbiology 60: 1881-1886.

Zhou Y, Yao J, He M, Choi MMF, Feng L, et al. (2010) Reduction in toxicity of arsenic(III) to Halobacillus sp. Y35 by kaolin and their related adsorption studies. Journal of Hazardous Materials 176: 487-494.

Wang W, Shao Z, Liu Y and Wang G (2009) Removal of multi-heavy metals using biogenic manganese oxides generated by a deep-sea sedimentary bacterium – Brachybacterium sp. strain Mn32. Microbiology 155: 1989-1996.

Cai L, Rensing C, Li X and Wang G (2009) Novel gene clusters involved in arsenite oxidation and resistance in two arsenite oxidizers: Achromobacter sp. SY8 and Pseudomonas sp. TS44. Appl Microbiol Biotechnol 83: 715-725.

Yu L, Liu Y and Wang G (2009) Identification of novel denitrifying bacteria Stenotrophomonas sp. ZZ15 and Oceanimonas sp. YC13 and application for removal of nitrate from industrial wastewater. Biodegradation 20: 391-400.

Yang J, He M and Wang G (2009) Removal of toxic chromate using free and immobilized Cr(VI)-reducing bacterial cells of Intrasporangium sp. Q5-1. World J Microbiol Biotechnol 25: 1579-1587.

□ Two novel transposon delivery vectors based on mariner transposon for random mutagenesis of Bacillus thuringiensis

Fan H, Su C, Wang Y, Yao J, Zhao K, et al. (2008) Sedimentary arsenite-oxidizing and arsenate-reducing bacteria associated with high arsenic groundwater from Shanyin, Northwestern China. Journal of Applied Microbiology 105: 529-539.

□ Identification and Molecular Characterization of Novel cry1-Type Toxin Genes from Bacillus thuringiensis K1 Isolated in Korea

Qin J, Rosen BP, Zhang Y, Wang G, Franke S, et al. (2006) Arsenic detoxification and evolution of trimethylarsine gas by a microbial arsenite S-adenosylmethionine methyltransferase. PNAS 103: 2075-2080.

Li MS, Je YH, Lee IH, Chang JH, Roh JY, et al. (2002) Isolation and Characterization of a Strain of Bacillus thuringiensis ssp. kurstaki Containing a New δ-Endotoxin Gene. Curr Microbiol 45: 299-302.

王革娇, 黄银燕, 李洁 (2011) “吃”砒霜的细菌——解析微生物的砷代谢. 微生物学报: 154-160.

周静晓, 刘颜军, 冉昊, 袁媛, 王革娇 (2010) 五株产MnCO3 细菌的除锰特性. 微生物学通报: 573-579.

汪耀, 涂书新, 王革娇 (2010) 亚砷酸氧化菌Sinorhizobium sp. GW3的鉴定与亚砷酸氧化酶基因的分离. 湖北农业科学: 5-9.

刘颜军, 周静晓, 王革娇 (2009) 锰氧化菌Bacillus sp. MK3-1的Mn(Ⅱ)氧化特性和除锰能力研究. 微生物学通报: 473-478.

赵萍, 邹正中, 王革娇 (2009) 1株来自陕西盐湖的极端嗜盐古菌的分离及鉴定. 华中农业大学学报: 573-576.

杨砚, 邹正中, 田维嘉, 王革娇 (2012) 不同类型铜合金板的杀菌特性. 微生物学通报: 654-660.

何敏艳, 邹正中, 蔡林, 王革娇 (2008) 连云港台北和盐城三圩盐田土壤嗜盐菌多样性研究. 微生物学通报: 737-742.

蔡林王革娇 (2009) 抗砷性微生物及其抗砷分子机制研究进展微生物学通报: 1253-1259.

Fairley DJ, Wang G, Rensing C, Pepper IL and Larkin MJ (2006) Expression of gentisate 1,2-dioxygenase (gdoA) genes involved in aromatic degradation in two haloarchaeal genera. Appl Microbiol Biotechnol 73: 691-695.

Xiong J, Wang W, Fan H, Cai L and Wang G (2006) Arsenic resistant bacteria in mining wastes from Shangrao coal mine of China. Environmental Science and Technology (I) In Environmental Science and Technology.

□ THE BACTERIAL DIVERSITY IN A SOUTHERN ARIZONA PRISTINE FOREST ECOSYSTEM

樊昊心, Fairley DJ, Rensing C, Pepper IL, 王革娇 (2006) 中国和美国原始土壤中非高温泉古菌的发现和鉴定(英文). 生物多样性: 181-187.

Wang G, Kennedy SP, Fasiludeen S, Rensing C and DasSarma S (2004) Arsenic Resistance in Halobacterium sp. Strain NRC-1 Examined by Using an Improved Gene Knockout System. Journal of Bacteriology 186: 3187-3194.

Wang G and Skipper HD (2004) Identification of denitrifying rhizobacteria from bentgrass and bermudagrass golf greens. Journal of Applied Microbiology 97: 827-837.

 

Wang G, Gentry TJ, Grass G, Josephson K, Rensing C, et al. (2004) Real-time PCR quantification of a green fluorescent protein-labeled, genetically engineered Pseudomonas putida strain during 2-chlorobenzoate degradation in soil. FEMS microbiology letters 233: 307-314.



□ Phylogenetic and genome analyses of antimony-oxidizing bacteria isolated from antimony mined soil

Li X, Gong J, Hu Y, Cai L, Johnstone L, et al. (2012) Genome sequence of the moderately halotolerant, arsenite-oxidizing bacterium Pseudomonas stutzeri TS44.Journal of bacteriology  194: 4473-4474  . 

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