1980.09-1984.06 华中农业大学，作物遗传育种，获学士学位

1984.09-1987.06 华中农业大学，作物遗传育种 获硕士学位

1987.09-1990.06 华中农业大学，作物遗传育种 获博士学位

1990.07-1992.12 华中农业大学，讲师 1993.01-1996.12 华中农业大学，副教授 1997.01-2002.05 华中农业大学，教授 2002.06-2008.02 华中农业大学，植物科技学院院长，教授 2008.03-2018.08 华中农业大学，副校长，教授 2018.09-至今 华中农业大学，教授 1993.10-1994.10 加拿大曼尼托巴大学农学院植物科学技术系访问学者 1998.11-1999.04 美国阿拉巴马农工大学植物科学系访问学者 2001.11-2002.02 英国杜伦大学生物系访问学者

国家自然科学基金重点项目：棉花优质纤维基因关联位点的高通量验证及基因调控网络构建，2019-2023

国家自然科学基金联合基金重点项目：棉花抗枯黄萎病关键遗传位点解析与基因功能鉴定， 2018-2021

国家棉花产业技术体系：多抗材料创新岗位科学家， 2016-2020

转基因重大专项子课题：长江中游棉区高产高效转基因棉花新品种培育，2016-2020

（一）棉花进化及基因组研究

1) Wang M, Tu L, Yuan D, Zhu, Shen C, Li J, Liu F, Pei L, Wang P, Zhao G, Ye Z, Huang H, Yan F, Ma Y, Zhang L, Liu M, You J, Yang Y, Liu Z, Huang F, Li B, Qiu P, Zhang Q, Zhu L, Jin S, Yang X, Min L, Li G, Chen LL, Zheng H, Lindsey K*, Lin Z*, Udall JA*, Zhang X*. Reference genome sequences of two cultivated allotetraploid cottons, Gossypium hirsutum and Gossypium barbadense. Nat Genet. 2019 Feb;51(2):224-229

2) Wang PC, Zhang J, Sun L, Ma YZ, Xu J, Liang SJ, Deng JW, Tan JF, Zhang Q, Tu LL, Daniell Henry, Jin SX*, Zhang XL*. High efficient multisites genome editing in allotetraploid cotton (Gossypium hirsutum) using CRISPR/Cas9 system. Plant Biotechnol J, 2018, 16(1):137-150

3) Wang M, Tu L, Lin M, Lin Z, Wang P, Yang Q, Ye Z, Shen C, Li J, Zhang L, Zhou X, Nie X, Li Z, Guo K, Ma Y, Huang C, Jin S, Zhu L, Yang X, Min L, Yuan D, Zhang Q, Lindsey K* , Zhang X*. Asymmetric subgenome selection and cis-regulatory divergence during cotton domestication. Nature Genetics, 2017, 49(4): 579-587

4) Wang M, Wang P, Tu L, Zhu S, Zhang L, Li Z, Zhang Q, Yuan D and Zhang X*. Multi-omics maps of cotton fibre reveal epigenetic basis for staged single-cell differentiation. Nucleic Acids Res, 2016, 44(9):4067-4079

5) Wang M, Yuan D, Tu L, Gao W, He Y, Hu H, Wang P, Liu N, Lindsey K, Zhang X*. Long noncoding RNAs and their proposed functions in fibre development of cotton (Gossypium spp.). New Phytol, 2015, 207(4):1181-1197

6) Yuan D, Tang Z, Wang M, Gao W, Tu L, Jin X, Chen L, He Y, Zhang L, Zhu L, Li Y, Liang Q, Lin Z, Yang X, Liu N, Jin S, Lei Y, Ding Y, Li G, Ruan X, Ruan Y*, Zhang X*. The genome sequence of Sea-Island cotton (Gossypium barbadense) provides insights into the allopolyploidization and development of superior spinnable fibres. Sci Rep, 2015, 5: 17662, doi: 10.1038/srep17662



（二）棉花纤维发育研究

1) Wang M, Wang P, Liang F, Ye Z, Li J, Shen C, Pei L, Wang F, Hu J, Tu L, Lindsey K, He D*, Zhang X*. A global survey of alternative splicing in allopolyploid cotton: landscape, complexity and regulation, New Phytol, 2018, 217(1):163-178

2) Hu H, Wang M, Ding Y, Zhu S, Zhao G, Tu L*, Zhang X. Transcriptomic repertoires depict the initiation of lint and fuzz fibers in cotton (Gossypium hirsutum L.), Plant Biotechnol J, 2018, 16(5):1002-1012

3) Wang M, Wang P, Lin M*, Ye Z, Li G, Tu L, Shen C, Li J, Yang Q*, Zhang X*. Evolutionary dynamics of 3D genome architecture following polyploidization in cotton, Nat Plants, 2018, 4(2):90-97

4) Hu H, He X, Tu L, Zhu L, Zhu S, Ge Z, Zhang X*. GhJAZ2 negatively regulates cotton fiber initiation by interacting with the R2R3-MYB transcription factor GhMYB25-like. Plant J, 2016, 88(6):921-935

5) Guo K, Du X, Tu L, Tang W, Wang P, Wang M, Liu Z, Zhang X. Fibre elongation requires normal redox homeostasis modulated by cytosolic ascorbate peroxidase in cotton (Gossypium hirsutum). J Exp Bot, 2016, 67(11):3289-3301

6) Li Y, Tu L, Pettolino FA, Ji S, Hao J, Yuan D, Deng F, Tan J, Hu H, Wang Q, Llewellyn DJ, Zhang X. GbEXPATR, a species-specific expansin, enhances cotton fibre elongation through cell wall restructuring. Plant Biotechnol J, 2016, 14(3):951-963

7) Liu N, Tu L, Tang W, Gao W, Lindsey K, Zhang X*. Small RNA and degradome profiling reveals a role for miRNAs and their targets in the developing fibers of Gossypium barbadense. Plant J, 2014, 80(2):331-344

8) Tang W, Tu L, Yang X, Tan J, Deng F, Hao J, Guo K, Lindsey K, Zhang X*. The calcium sensor GhCaM7 promotes cotton fiber elongation by modulating reactive oxygen species (ROS) production. New Phytol, 2014, 202(2):509-520

9) Han J, Tan J, Tu L, Zhang X. Peptide hormone gene, GhPSK promotes fibre elongation and contributes to longer and finer cotton fibre. Plant Biotechnol J, 2014, 12(7):861-871

10) Tan J, Tu L, Deng F, Hu H, Nie Y, Zhang X*. A genetic and metabolic analysis revealed that cotton fiber cell development was retarded by flavonoid naringenin. Plant Physiol, 2013, 162(1):86-95

11) Hao J, Tu L, Hu H, Tan J, Deng F, Tang W, Nie Y, Zhang X*. GbTCP, a cotton TCP transcription factor, confers fibre elongation and root hair development by a complex regulating system. J Exp Bot, 2012, 63(17):6267-6281

12) Deng F, Tu L, Tan J, Li Y, Nie Y, Zhang X*. GbPDF1 is involved in cotton fiber initiation via the core cis-element HDZIP2ATATHB2. Plant Physiol, 2012, 158(2):890-904




（三）棉花抗逆机制研究

1) Ma Y, Min L, Wang M, Wang C, Zhao Y, Li Y, Fang Q, Wu Y, Xie S, Ding Y, Su X, Hu Q, Zhang Q, Li X, Zhang X. Disrupted genome methylation in response to high temperature has distinct affects on microspore abortion and anther indehiscence. Plant Cell. 2018, 30(7):1387-1403.

2) Hu Q, Min L, Yang X, Jin S, Zhang L, Li Y, Ma Y, Qi X, Li D, Liu H, Lindsey K, Zhu L, Zhang X. Laccase GhLac1 modulates broad-spectrum biotic stress tolerance via DAMP-triggered immunity. Plant Physiol, 2018, 176(2):1808-1823

3) Zhang L, Wang M, Li N, Wang H, Qiu P, Pei L, Xu Z, Wang T, Gao E, Liu J, Liu S, Hu Q, Miao Y, Lindsey K, Tu L, Zhu L, Zhang X*. Long non-coding RNAs involve in resistance to Verticillium dahliae, a fungal disease in cotton. Plant Biotechnol J, 2018, DOI: 10.1111/pbi.12861

4) Wu Y, Min L, Wu Z, Yang L, Zhu L, Yang X, Yuan D, Guo X, Zhang X*. Defective pollen wall contributes to male sterility in the male sterile line 1355A of cotton. Sci Rep, 2015, 5:9608. doi: 10.1038/srep09608

5) Xu L, Zhang W, He X, Liu M, Zhang K, Shaban M, Sun L, Zhu J, Luo Y, Yuan D, Zhang X, Zhu L. Functional characterization of cotton genes responsive to Verticillium dahliae through bioinformatics and reverse genetics strategies. J Exp Bot, 2014, 65(22):6679-6692

6) Sun L, Zhu L, Xu L, Yuan D, Min L, Zhang X*. Cotton cytochrome P450 CYP82D regulates systemic cell death by modulating the octadecanoid pathway. Nat Commun, 2014, 5:5372. doi: 10.1038/ncomms6372

7) Li C, He X, Luo X, Xu L, Liu L, Min L, Jin L, Zhu L, Zhang X. GbWRKY1 mediates plant defense-to-development transition during infection of cotton by Verticillium dahliae by activating JAZ1 expression. Plant Physiol, 2014, 166(4):2179-2194

8) Min L, Li Y, Hu Q, Zhu L, Gao W, Wu Y, Ding Y, Liu S, Yang X, Zhang X*. Sugar and auxin signaling pathways respond to high temperature stress during anther development as revealed by transcript profiling analysis in cotton. Plant Physiol, 2014, 164(3):1293-1308

9) Gao W, Long L*, Zhu L, Xu L, Gao W, Sun L, Liu L, Zhang X*. Proteomic and virus-induced gene silencing (VIGS) analyses reveal that Gossypol, Brassinosteroids and Jasmonic acid contribute to the resistance of cotton to Verticillium dahliae. Mol Cell Proteomics, 2013, 12(12):3690-3703

10) Min L, Zhu L, Tu L, Deng F, Yuan D, Zhang X*.Cotton GhCKI disrupts normal male reproduction by delaying tapetum programmed cell death via inactivating starch synthase. Plant J, 2013, 75(5):823-835

11) Jin S, Zhang X, Daniell H. Pinelliaternata agglutinin expression in chloroplasts confers broad spectrum resistance against aphid, whitefly, Lepidopteran insects, bacterial and viral pathogens. Plant Biotechnol J, 2012, 10(3):313-327

12) Xu L, Zhu L, Tu L, Liu L, Yuan D, Jin L, Long L and Zhang X*. Lignin metabolism has a central role in the resistance of cotton to the wilt fungus Verticillium dahliae as revealed by RNA-Seq-dependent transcriptional analysis and histochemistry. J Exp Bot, 2011, 62(15):5607-5621




（四）棉花体细胞胚发育机制研究

1) Zhou T, Yang X, Guo K, Deng J, Xu J, Gao W, Lindsey K, Zhang X*. ROS homeostasis regulates somatic embryogenesis via the regulation of auxin signaling in cotton. Mol Cell Proteomics, 2016, 15(6):2108-2124

2) Min L, Hu Q, Li Y, Xu J, Ma Y, Zhu L, Yang X, Zhang X*. LEAFY COTYLEDON1-CASEIN KINASE I-TCP15-PHYTOCHROME INTERACTING FACTOR4 network regulates somatic embryogenesis by regulating auxin homeostasis. Plant Physiol, 2015, 169(4):2805-2821

3) Jin F, Hu L, Yuan D, Xu J, Gao W, He L, Yang X, Zhang X*. Comparative transcriptome analysis between somatic embryos and zygotic embryos in cotton: evidence for stress response functions in somatic embryo development. Plant Biotechol J, 2013, 12(2):161-173

4) Yang X, Wang L, Yuan D, Lindsey K and Zhang X*. Small RNA and degradome sequencing reveal complex miRNA regulation during cotton somatic embryogenesis. J Exp Bot, 2013, 64(6):1521-1536

5) Hu L, Yang X, Yuan D, Zeng F, Zhang X*. GhHmgB3 deficiency deregulates proliferation and differentiation of cells during somatic embryogenesis in cotton. Plant Biotechnol J, 2011, 9: 1038-1048

6) Yang X, Zhang X*. Regulation of somatic embryogenesis in higher plants. Crit Rev Plant Sci, 2010, 29(1):36-57

7) Yang X, Tu L, Zhu L, Fu L, Min L, Zhang X*. Expression profile analysis of genes involved in cell wall regeneration during protoplast culture in cotton by suppression subtractive hybridization and macroarray. J Exp Bot, 2008, 59(13):3661-3674

8) Sun Y, Zhang X*, Nie Y, Guo X, Jin S, Liang S. Production and characterization of somatic hybrids between upland cotton (Gossypium hirsutum) and wild cotton (G. klotzschianum Anderss) via electrofusion. Theor Appl Genet, 2004, 109(3):472-479

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