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徐彬


发布时间:2015-12-21 文章作者 : 浏览次数:

徐彬 副教授

研究方向:

目前主要以优质饲草黑麦草和能源草柳枝稷为材料,开展种质创新和育种工作,同时以饲草衰老的代谢网络为研究出发点,研究影响饲草衰老和品质的重要分子机理,为系统开展育种工作奠定理论基础。

教学:

目前担任本科生"学科导论(双语)""分子生物学导论(双语)"和研究生"草类植物分子生物学进展(全英文)"课程教学的教学工作,承担校级教改项目一项,校级精品资源共享课程建设一项。欢迎本科生和研究生参与到我的科研小组,一起成长!

个人简历:

(1)学习简历

2007.82011.6,美国弗吉尼亚理工大学,园艺学,博士

2005.82007.8,美国北达科他州立大学,植物科学,硕士

2002.92005.7,南京农业大学,园林植物与观赏园艺学,硕士

1998.92002.7,山东农业大学,园艺学,学士

(2)研究工作经历

2015.7-至今,南京农业大学,副院长

2013.7-至今,南京农业大学,副教授,

2017.08-2018.08,美国诺贝尔研究所,访问学者

2012.82013.6,龙灯环球农业科技,工作

2011.72012.8,金斯瑞生物科技公司,工作

学术兼职:

Grass and Forage Science》副主编 2018-至今)

中国草学会草坪专业委员会理事、副秘书长(2016-至今)

中国草学会草业专业教育专业委员会理事(2017-至今)

中国草学会草业生物技术专业委员会理事(2014-至今)

荣誉:

弗吉尼亚理工大学杰出近期研究生校友(Outstanding Recent Graduate Alumnus(2018)

江苏省"青蓝工程"优秀青年骨干教师(2017

江苏省双创团队核心成员(2014

南京农业大学钟山学者学术新秀(2013

P.Howard & Betsy Massey研究生奖(2009);

弗吉尼亚理工大学研究生院旅行奖(2009);

弗吉尼亚理工大学植物科学杰出研究生(2009);

Phi Sigma Biology Honor Society会员(协会成员为前10%的生物专业学生);

Gamma Sigma Delta会员(协会成员为前10%农学专业学生)

参与的科研项目:

1.多年生黑麦草转录因子LpNAL的互作蛋白鉴定及协同调控逆境诱导叶片衰老的作用机制(2018/01-2022/12)国家自然科学基金面上项目(31772659)主持60

2.黑麦草叶片衰老过程中LpSGR调控叶绿素降解的上游通路探析2016/01-2019/12)国家自然科学基金面上项目(31572455)主持60

3.细胞分裂素抑制黑麦草叶片衰老及叶绿素降解的机制研究(2015/01-2017/12)(KYZ201552)中央高校基本科研业务费主持10

4.多年生黑麦草叶绿素降解调控基因的克隆与应用研究(2014/07-2016/06)江苏省自然科学基金(BK20140693)主持20

5.江苏省双创团队(2014)参加500

6.特异抗逆优质草种质资源的引进与利用(2014/01-2014/12)农业部948项目(2014-Z25)参加70

学术论文:

Xu B,Li H,Li Y,Yu G,Zhang J,Huang B (2018) Characterization and transcriptional regulation of chlorophyll b reductase gene NON-YELLOW COLORING 1 associated with leaf senescence in perennial ryegrass (Lolium perenneL.).Environmental and Experimental Botany (Online first)

Zhang J,Shi Y,Zhang X,Du H,Xu B*,Huang B*(2017) Melatonin suppression of heat-induced leaf senescence involves crosstalk with abscisic acid and cytokinin biosynthesis and signaling pathways in perennial ryegrass (Lolium perenneL.) Environmental and Experimental Botany 138:36-45(*Corresponding author)

Yu G,Cheng Q,Xie Z,Xu B*,Huang B*,Zhao B (2017) An efficient protocol for perennial ryegrass mesophyll protoplast isolation and transformation,and its application on interaction study between LpNOL and LpNYC1.Plant Methods 13 (1):46(*Corresponding author)

Yan H,Zhang A,Ye Y,Xu B*,Chen J,He X,Wang C,Zhou S,Zhang X,Peng Y,Ma X,Yan Y,Huang L*(2017) Genome-wide survey of switchgrass NACs family provides new insights into motif and structure arrangements and reveals stress-related and tissue-specific NACs.Scientific Reports 7 (1):3056.(*Corresponding author)

Yan H,Zhang A,Chen J,He X,Xu B*,Xie G,Miao Z,Zhang X,Huang L*(2017) Genome-Wide Analysis of the PvHsp20 Family in Switchgrass: Motif,Genomic Organization,and Identification of Stress or Developmental-Related Hsp20s.Frontiers in Plant Science 8 (1024).(*Corresponding author)

Wen W,Xie Z,Yu G,Zhao C,Zhang J,Huang L,Xu B*,Huang B (2017) Switchgrass PvDREB1C plays opposite roles in plant cold and salt tolerance in transgenic tobacco.Hereditas 155 (1):15(*Corresponding author)

Zhang L,Xu B,Wu T,Yang Y,Fan L,Wen M,Sui J (2017) Transcriptomic profiling of two Pak Choi varieties with contrasting anthocyanin contents provides an insight into structural and regulatory genes in anthocyanin biosynthetic pathway.BMC Genomics 18 (1):288.

Zhang L,Xu B,Wu T,Wen M-x,Fan L-x,Feng Z-z,Paoletti E (2017) Transcriptomic analysis of Pak Choi under acute ozone exposure revealed regulatory mechanism against ozone stress.BMC Plant Biology 17 (1):236.

Zhang J,Yu G,Wen W,Ma X,Xu B*,Huang B*(2016) Functional characterization and hormonal regulation of thePHEOPHYTINASEgene LpPPH controlling leaf senescence in perennial ryegrass.Journal of Experimental Botany 67:935-945.(*Corresponding author)

Yu Z,Yan H,Jiang X,Wang X,Huang L,Xu B,Zhang X,Zhang L (2016) Genetic variation,population structure and linkage disequilibrium in Switchgrass with ISSR,SCoT and EST-SSR markers.Hereditas 153:4.

Zhang J,Li H,Xu B,Li J,Huang B (2016) Exogenous Melatonin Suppresses Dark-Induced Leaf Senescence by Activating the Superoxide Dismutase-Catalase Antioxidant Pathway and Down-Regulating Chlorophyll Degradation in Excised Leaves of Perennial Ryegrass (Lolium perenneL.).Frontiers in Plant Science 7:1500.

Chen Y,Huang L,Yan H,Zhang X,Xu B,Ma X (2016) Cloning and characterization of an ABA-independent DREB transcription factor gene,HcDREB2,inHemarthria compressa.Hereditas 153:1-7.

Yuan S,Xu B*,Zhang J,Xie Z,Cheng Q,Yang Z,Cai Q*,Huang B (2015) Comprehensive analysis of CCCH-type zinc finger family genes facilitates functional gene discovery and reflects recent allopolyploidization event in tetraploid switchgrass.BMC Genomics 16:129.(*Corresponding author)

Zhuang L,Yuan X,Chen Y,Xu B,Yang Z,Huang B (2015) PpCBF3 from Cold-Tolerant Kentucky Bluegrass Involved in Freezing Tolerance Associated with Up-Regulation of Cold-Related Genes in TransgenicArabidopsis thaliana.PloS one 10:e0132928.

Yang Y,Chen X,Xu B,Li Y,Ma Y,Wang G (2015) Phenotype and transcriptome analysis reveals chloroplast development and pigment biosynthesis together influenced the leaf color formation in mutants of Anthurium andraeanum 'Sonate'.Frontiers in Plant Science 6:139.

Chen Y,Tan Z,Hu B,Yang Z,Xu B,Zhuang L,Huang B (2015) Selection and validation of reference genes for target gene analysis with quantitative RT-PCR in leaves and roots of bermudagrass under four different abiotic stresses.Physiologia Plantarum 155:138-148.

Huang L,Yan H,Jiang X,Zhang Y,Zhang X,Ji Y,Zeng B,Xu B,Yin G,Lee S (2014) Reference gene selection for quantitative real-time reverse-transcriptase PCR in orchardgrass subjected to various abiotic stresses.Gene 15:158-165.

Huang L,Yan H,Jiang X,Zhang X,Zhang Y,Huang X,Zhang Y,Miao J,Xu B,Frazier T (2014) Evaluation of candidate reference genes for normalization of quantitative RT-PCR in switchgrass under various abiotic stress conditions.BioEnerg Res 7:1201-1211.

Cheng Q,Wang H,Xu B,Zhu S,Hu L,Huang M (2014) Discovery of a novel small secreted protein family with conserved N-terminal IGY motif in Dikarya fungi.BMC Genomics 15:1151.

Sathitsuksanoh N,Xu B,Zhao B,Zhang Y-HP (2013) Overcoming biomass recalcitrance by combining genetically modified switchgrass and cellulose solvent-based lignocellulose pretreatment.PloS one 8:e73523.(co-first author)

Xu B,Escamilla-Treviño LL,Sathitsuksanoh N,Shen Z,Shen H,Zhang PYH,Dixon RA,Zhao B (2011) Silencing of 4-coumarate: coenzyme A ligase in switchgrass leads to reduced lignin content and improved fermentable sugar yields for biofuel production.New Phytologist 192:611-625.

Xu B,Sathitsuksanoh N,Tang Y,Udvardi MK,Zhang J-Y,Shen Z,Balota M,Harich K,Zhang PY-H,Zhao B (2012) Overexpression of AtLOV1 in switchgrass alters plant architecture,lignin content,and flowering time.PloS one 7:e47399.

Xu B,Huang L,Shen Z,Welbaum GE,Zhang X,Zhao B (2011) Selection and characterization of a new switchgrass (Panicum virgatumL.) line with high somatic embryogenic capacity for genetic transformation.Scientia Horticulturae 129:854-861.

Huang L,Bughrara S,Zhang XQ,Bales-Arcelo C,Xu B(2011) Genetic diversity of switchgrass and its relative species inPanicumgenus using molecular markers.Biochemical Systematics and Ecology 39:685-693.

徐彬,陈海钟,郭维明,王广东,文方德,金剑平(2007)花烛无菌苗液体增殖培养的影响因子.热带亚热带植物学报15 (4):338-342

徐彬,王广东,郭维明,文方德(2007)花烛苞片离体培养及植株再生(简报).亚热带植物科学36 (4):55-55

徐彬,辛伟杰,王广东,郭维明,文方德,金剑平(2006)花烛离体培养叶色变异株系的相关性状.植物学通报23 (6):698-702

辛伟杰,徐彬,王广东,郭维明,文方德,金剑平(2006)花烛体细胞胚胎发生及植株再生研究.园艺学报33 (6):1281-1286

参编书籍:

Bingyu Zhao,Rongda Qu,Ruyu Li,Bin Xu,and Taylor Frazier (2013).Tissue Culture,Genetic Transformation,and Improvement of Switchgrass through Genetic Engineering.Hong Luo (editors).Compendium of Bioenergy Plants: Switchgrass.SCIENCE PUBLISHERS/Taylor & Francis/CRC PRESS,Boca Raton,FL,USA.

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