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2019/09 广西大学，农学院，教师2012/11-2013/11 密西根州立大学，GLBRC PRL国家公派访问****2007/09-2019/09 华中农业大学，植物科学技术学院，教师2007/06 华中农业大学，生命科学技术学院，获得生化与分子生物学博士学位
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国家能源局国家能源非粮生物质原料研发中心专家库成员，参与筹建国家生物质能二级交叉学科。BMC Research Note, Biotechnology for Biofuel 审稿人。广西大学农学院作物学博士后流动站站长。武汉华中农业大学兼职教授、博导。亚热带农业生物资源保护和利用国家实验室研究人员。
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本科生：《现代植物生理学》、《生理学实验》、《生化实验》、《生物技术导论》（全英文）、生产实习研究生：《生物质能》、《高级能源植物育种学》、《生物质能学研究进展》、《生物技术》
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主要研究方向：（1）植物细胞壁功能基因组学。通过突变体和生物信息学筛选克隆重要基因，揭示细胞壁合成调控的分子机理。重点研究相关基因在植物生长发育和逆境反应中的功能和调控网络。研究细胞壁在原生质体再生、植物和微生物互作中的动态变化，以及寡糖信号分子和细胞壁蛋白的功能。研究作物秸秆理化性质、抗倒伏遗传规律、维管束 “流”系统形成机理、微观表型组和碳源分配规律。（2）秸秆木质纤维生物质综合利用。农林废弃物、果蔬废弃物的能源化、材料化、生物基肥、饲料化等生物质综合利用和环境治理。（3）甘蔗等作物重要基因利用。开展基因功能挖掘、克隆及其原生质体和组织培养遗传转化体系建立和优化。（4）微生物和植物互相作用机理，菌株和作物的协同遗传改良。（5）亚热带植物资源保护创新、生物信息资源数据库建设和生物安全。研究涉及转录组学、代谢组学、基因编辑、生化与分子生物学、生物信息学、数量遗传学、生物质能等技术和知识。欢迎做事认真、热爱科学的学生报考，欢迎学生跨学科报考。每年招生作物学、农艺和种业方向的硕士研究生若干名，作物学方向的博士生1-2名；长期招收博士后。
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1.国家自然科学基金面上项目，**,“小麦脆秆基因的图位克隆和功能解析”，2018/01-2021/12，59万，在研，主持。2.国家重点研发计划课题任务，湖北单双季稻混作区周年机械化丰产增效技术集成与示范，2019.01-2020.12，50万，在研，主持。3.中央高校科研基金（国际合作前期培育），**PY009，“小麦秸秆细胞壁组成和酶解产糖效率的遗传关联分析”，2015/01-2016/12，15万，结题，主持。4.中央高校科研基金（高水平科研论文培育），**PY207，“MYB转录因子在水稻细胞壁合成调控中的分子机制”，2015/01-2017/12，10万，结题，主持。5.国家自然科学基金面上项目，**，“水稻次生细胞壁合成调控网络及其关键因子功能分析”，2012/01-2015/12，66万，结题，主持。6.中央高校科研基金（新兴研究和学科交叉），2011PY047，“水稻次生细胞壁合成调控网络关键基因的筛选和功能研究”，2011/01-2012/12，15万，结题，主持。7.国家自然科学基金青年项目，**，“水稻显性脆杆基因nbc(t)的克隆和功能分析”，2010/01-2012/12，20万，结题，主持。8.湖北省自然科学基金，2009CDB324，“水稻显性脆秆基因nbc(t)的精细定位和克隆”，2010/01-2011/12，3万，结题，主持。9.全国博士后基金，52201-12925，“植物纤维素合酶相似蛋白D基因家族(CslD)功能和对环境胁迫反应的研究”，2008/01-2009/12，2万，结题，主持。10.2010年国家973计划前期研究专项“新型能源作物细胞壁生物合成分子机理研究”（2010CB134401）（总经费70万元，2010.4-2012.8）参加。11.2009年国家转基因生物新品种培育科技重大专项“棉花纤维品质和水稻抗逆相关的纤维素合成关键基因的克隆与功能验证”（2009ZX08009-119B）（总经费274万元，2009-2010）参加。12． 广西大学高层次人才-教授-王令强，2019-09至2022-09，50万。
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论文、著作及专利 发表和接收的文章：1.Zhen Hu; Youmei Wang; Jingyuan Liu; Yuqi Li; Yanting Wang; Jiangfeng Huang; Yuanhang Ai; Peng Chen; Yuqing He; Muhammad Nauman Aftab; Lingqiang Wang*; Liangcai Peng*. Integrated NIRS and QTL assays reveal minor mannose and galactose as contrast lignocellulose factors for biomass enzymatic saccharification in rice. Biotechnology for Biofuels, 2021 (一区，共同通讯作者，接收)2.Min Li, Li Chen, Aziz Khan, Xiangjun Kong, Muhammad Rabnawaz Khan, Muhammad Junaid Rao, Jinbin Wang, Lingqiang Wang*, Ruiyang Zhou*. Transcriptome and MiRNA omics Analysis Identifies Key Genes Associated with Cytoplasmic Male Sterility in Cotton (Gossypium hirsutum L.). Int. J. Mol. Sci. 2021 （*共同通讯作者）3.薛亚莉,魏晓双,周海连,李朝阳,胡利华,王令强,张翠翠*.水稻LEA_2家族的鉴定与表达谱分析[J].华中农业大学学报,2021,40(02):93-102. （导师）4.Fangxi Wu, Xi Luo, Lingqiang Wang, Yidong Wei, Jianguo Li, Huaan Xie, Jianfu Zhang *, Guosheng Xie * Genome-Wide Association Study Reveals the QTLs for Seed Storability in World Rice Core Collections. Plants, 20215.Ali Muhammad, Jianguo Li, Weichen Hu, Jinsheng Yu, Shahid Ullah Khan, Muhammad Hafeez Ullah Khan, Guosheng Xie, Jibin Wang and Lingqiang Wang* Uncovering genomic regions controlling plant architectural traits in hexaploid wheat using different GWAS models. Scientific report, 2021 (*通讯作者)6.Muhammad Junaid Rao, Umair Ahmed, Muhammad Husnain Ahmed, Mingzhen Duan, Jibin Wang, Yanting Wang and Lingqiang Wang*. Comparison and quantification of metabolites and their antioxidant activities in young and mature leaf of Sugarcane. ACS food science and technology, 2021 (*通讯作者)7.Zhang GF, Wang LQ*, Li XK, Bai SM, Xue YL, Li ZH, Tang SW, Wang YT, Wang YM, Hu Z, Li P, Peng LC*. Distinctively altered lignin biosynthesis by site-modification of OsCAD2 for enhanced biomass saccharification in rice. GCB Bioenergy. 2020, (1区，IF=5.3,*共同通讯作者)8.Muhammad, A.; Hu, W.; Li, Z.; Li, J.; Xie, G.; Wang, J.*; Wang, L*. Appraising the Genetic Architecture of Kernel Traits in Hexaploid Wheat Using GWAS. Int. J. Mol. Sci. 2020, 21, 5649. （2区，*通讯作者）9.Muhammad, Ali; Hao, Huanhuan; Xue, Yali; Alam, Aftab; Bai, Shuming; Hu, Weicheng; Muhammad, Sajid; Hu, Zhen; Samad, Rana Abdul; Li, Zihui; Liu, Peiyao; Gong, Zhiqiang; Wang, Lingqiang*. Survey of wheat straw stem characteristics for enhanced resistance to lodging. Cellulose, 2020, 1-16. （SCI，JCR分区：材料科学1区，IF=3.92，*通讯作者）10.Cheng LL#, Wang LQ#, Wei LY, Wu Y, Aftab Alam, Xu CB, Wang YT, Tu YY, Peng LC, Xia T* (2019). Employing wheat mutant straw distinctive for Cd phytoremediation and cellulosic ethanol coproduction under combined mild chemical pretreatments. Green Chemistry. 2019 （(IF: 9.4、1区SCI，#共同第一作者）11.Huang JF, Xia T, Li GH, Li XL, Li Y, Wang YT, Wang YM, Chen YY, Xie GS, Bai FW, Peng LC, Wang LQ* (2019). Overproduction of native endo-β-1,4-glucanases leads to largely enhanced biomass saccharification and bioethanol production by specific modification of cellulose features in transgenic rice. Biotechnology for Biofuels. 2019,12:11（IF 6.3、1区SCI，*通讯作者）12.Hu Z, Zhang GF, Ali Muhammad, Rana Abdul Samad, Wang YM, Jonathan D. Walton, He YQ, Peng LC, Wang LQ * (2018). Genetic loci simultaneously controlling lignin monomers and biomass digestibility of rice straw. Scientific Reports. DOI:10.1038/s41598-018-21741-y （*通讯作者）13.Hu Z, Zhang GF, Chen YY, Wang YM, He YQ, Peng LC, Wang LQ *. (2018). Determination of lignin monomer contents in rice straw using visible and near-infrared reflectance spectroscopy. Bioresources. DOI:10.15376/biores.13.2.3284-3299（*通讯作者）14.Li Y, Liu P, Huang JF, Zhang R, Hu Z, Feng SQ, Wang YQ, Wang LQ, Xia T*, Peng LC*. (2018). Mild chemical pretreatments are sufficient for bioethanol production in the transgenic rice straws overproducing glucosidase. Green Chemistry. DOI:10.1039/C8GC00694F (IF: 9.125)15.Fan CF，Feng SQ, Huang JF, Wang YQ, Wu LM, Li XK, Wang LQ, Xia T, Li JY, Cai XW, Peng LC *. (2017). AtCesA8-driven OsSUS3 expression leads to largely enhanced biomass saccharifcation and lodging resistance by distinctively altering lignocellulose features in rice. Biotechnology for Biofuels. DOI:10.1186/s13068-017-0911-016.Zahoor, Sun D, Li Y, Wang J, Tu YY, Wang YQ, Hu Z, Zhou SG, Wang LQ, Xie GS, Huang JJ, Aftab Alam, Peng LC*. (2017). Biomass saccharification is largely enhanced by altering wall polymer features and reducing silicon accumulation in rice cultivars harvested from nitrogen fertilizer supply. Bioresource Technology. 243 957–965.17.Zahoor, Tu YY, Wang LQ, Xia T, Sun D, Zhou SG, Wang YQ, Zhang HP, Zhang T, Meysam Madadi, Peng LC*. (2017). Mild chemical pretreatments are sufficient for complete saccharification of steam-exploded residues and high ethanol production in desirable wheat accessions. Bioresource Technology. 243 319–326. 18.Li XK#, Guo K#, Zhu XB, Chen P, Li Y, Xie GS, Wang LQ, Wang YT, Persson S* and Peng LC*. Domestication of rice has reduced the occurrence of transposable elements within gene coding regions. BMC Genomics, 2017, 18:55 DOI 10.1186/s12864-016-3454-z.19.Zhang ML, Wei F, Guo K, Hu Z, Li YY, Xie GS, Wang YT, Cai XW, Peng LC and Wang LQ*. A Novel FC116/BC10 Mutation Distinctively Causes Alteration in the Expression of the Genes for Cell Wall Polymer Synthesis in Rice. Frontiers in Plant Science. 2016, 7:1366.doi: 10.3389/fpls.2016.01366（*通讯作者）20.Wu ZL, Hao HH, Zahoor, Tu YY, Hu Z, Wei F, Liu YY, Zhou YX, Wang YT, Xie GS, Gao CB, Cai XW, Peng LC and Wang LQ*. Diverse Cell Wall Composition and Varied Biomass Digestibility in Wheat Straw for Bioenergy Feedstock. Biomass and Bioengery, 2014 (5-Year Impact Factor: 4.164) （*通讯作者）21.Guo K, Zou WH, Feng YQ, Zhang ML, Zhang J, Tu F, Xie GS, Wang LQ, Wang YT, Sebastian Klie, Staffan Persson and Peng LC*. An integrated genomic and metabolomic framework for cell wall biology in rice. BMC Genomics, 15: 596, 2014 (5-year IF: 4.5)22.Peng B, Wang LQ*, Fan CC, Jiang GH, Luo LJ, Li YB and He YQ*. Comparative mapping of chalkiness components in rice using five populations across two environments. BMC Genetics, 15:49, 2014 （IF:2.49, *共同通讯作者）23.Peng B#, Kong HL#, Li YB, Wang LQ, Zhong M, Sun L, Gao GJ, Zhang QL, Luo LJ, Wang GW, Xie WB, Chen JX,Yao W, Peng Y, Lei L, Lian XM, Xiao JH, Xu CG,, Li XH and He YQ*.OsAAP6 functions as an important regulator of grain protein content and nutritional quality in rice. NATURE COMMUNICATIONS, 2014 (IF :10.742)24.Wu ZL, Zhang ML, Wang LQ*, Tu YY, Zhang J, Xie GS, Zou WH, Li FC, Guo K, Li Q, Gao CB, Peng LC*. Biomass digestibility is predominantly affected by three factors of wall polymer features distinctive in wheat accessions and rice mutants. Biotechnology for Biofuels, 6:183, 2013（IF 6.5,*共同通讯作者）25.Xie G, Yang B, Xu Z, Li F, Guo K, Xu Z, Li FC, Guo K, Zhang ML, Wang LQ, Zou WF, Wang YT, Peng LC*. Global Identification of Multiple OsGH9 Family Members and Their Involvement in Cellulose Crystallinity Modification in Rice. PLoS ONE 8(1): e50171. doi:10.1371/journal.pone.**, 201326.Wang L Q#,Guo K#, Li Y, Tu Y Y, Hu H Z, Wang B R, Cui X C, Peng L C. Expression profiling and integrative analysis of the CESA/CSL superfamily in rice. BMC plant biology, 2010,10:282(IF:4.09 #同等贡献第一作者)27.Wang L Q, Zhong M, Li X H, Yuan D J, Xu Y B, Liu H F, He Y Q, Luo L J, Zhang Q F. The QTL controlling amino acid content in grains of rice (Oryza sativa) are co-localized with the regions involved in the amino acid metabolism pathway. Molecular breeding, 2008, 21: 127-137(第一作者)28.Wang L Q, Liu W J, Xu Y B, He Y Q, Luo L J, Zhang Q F. Genetic basis of 17 traits and viscosity parameters characterizing the eating and cooking quality of the rice grain. Theor Appl Genet, 2007, 115: 463-476（第一作者）29.Zhong M#, Wang L Q#, Yuan D J, Luo L J, He Y Q. Identification of QTL Affecting Protein and Amino Acid Content in Rice. Rice Science, 2011, 18(3) (#同等贡献第一作者)30.Li Y B, Wu C J, Jiang G H, Wang L Q, He Y Q. Dynamic analyses of rice blast resistance for the assessment of genetic and environmental effects. Plant breeding, 2007, 126: 541-54731.Tian R, Jiang G H, Shen L H, Wang L Q, He Y Q. Mapping quantitative trait loci underlying the cooking and eating quality of rice using a DH population. Molecular breeding, 2005, 15: 117-12432.Zhu XB, Zhang GF, Wang YM, Staffan persson，Xie GS, Wang LQ. Rapid, T-vector Mediated, Directional Cloning of Short Core-attL Attached PCR Products into Gateway System. Chinese Journal of Biochemistry and Molecular Biology，2018( 中国生物化学与分子生物学报，*通讯作者）33.胡炜晨, 张同, 胡振, 王令强*.禾本科植物细胞壁合成调控研究进展[Ｊ].江苏农业学报,2017(*通讯作者）34.李旭凯, 彭良才, 王令强*. pep_pattern.pl,搜索蛋白质序列模体的perl脚本. 华中农业大学学报,4:1-6, 2014（*通讯作者）35.刘扬洋, 马 丽, 周玉霞, 刘雪琴, 王令强*. 2,4-D, Dicamba和KT对小麦成熟胚离体培养的影响. 麦类作物学报，34（8）：1044-1048，2014（*通讯作者）36.李旭凯, 郭凯, 彭良才, 王令强*. ChooseMaterials.pl，控制变量挑选实验材料的perl脚本. 生物信息学,2013,11(3):186-191 （*通讯作者）37.王川丽, 王令强, 牟同敏*. 水稻脆性突变体nbc(t)的主要特性和脆性基因的初步定位. 华中农业大学学报, 31:159-164, 201238.孔会利, 刘文俊, 王令强, 高冠军, 何予卿*. 水稻株高QTLQph1的精细定位. 华中农业大学学报, 31: 265-269, 201239.刘文俊, 王令强, 何予卿. 利用两个相关群体定位和比较水稻株高和抽穗期QTL. 华中农业大学学报, 2007, 26: 161-16640.钟明, 王令强, 罗利军，何予卿. 利用RIL群体比较定位糙米和精米蛋白质含量的QTL. 分子植物育种, 2007, 5: 631-63841.黄天带, 吴江生, 王令强, 华玉伟. 甘蓝型油菜矮秆突变体的遗传及其矮秆基因的RAPD标记. 农业生物技术学报, 2006, 14: 942-94542.彭良才, 王炳锐, 夏涛, 王令强. 植物细胞壁功能基因组学与生物能源作物选育. 遗传, 2007, 29(10)参编的著作：1、何予卿, 王令强, 刘文俊. 稻米品质性状和遗传改良. 见: 张启发主编, 绿色超级稻的构想与实践. 北京:科学出版社, 2009, pp: 107-135.国际会议报告：1、Wang LQ. Diversity in the cell wall composition of chinese wheat relation to their use as biomass and bioenergy feedstock. The Third International Symposium On Bioenergy And Biotechnology, 2012. 10.14-20, China, Wuhan, Oral Report申请的专利：1.王令强，彭良才，谢国生，朱晓博，胡慧贞，一种LR酶可识别和作用的位点对和引物对及质粒构建方法，专利号3.2，2017.3.14。（已授权）2.彭良才，范春芬，丰胜求，李英，夏涛，王令强，利用伸展蛋白提高水稻抗倒伏能力的方法，Manipulation of transgenic rice plant that expressed extensin-like gene for high lodging resistance专利号3.5，2017.01.18。（已授权）3.彭良才，丰胜求，谢国生，王令强，王艳婷，李英，范春芬，孙海燕，胡慧贞，利用外切葡聚糖酶提高水稻秸秆降解转化效率的方法- Manipulation of the transgenic rice plant that expressed exo-beat-1,4-gluconase gene for high biomass enzymatic digestibility，专利号20**，2016.11.30。（已授权）
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