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彭良才

发布人:唐景峰    发布时间:2022-10-18     点击:

职  称:长江学者特聘教授、博士生导师

学  历:博士

E-maillpeng@mail.hzau.edu.cn

研究方向

植物纤维素生物合成和纳米纤维解构与改性,细胞壁代谢调控网络与生物质纳米原料选育,生物质绿色预处理与酶工程,纤维素燃料乙醇与生物质液体燃油,生物质纳米增强复合材料和元件,生物质纳米电化学储存与催化材料和元件,生物碳与纳米碳纤维等。此外,利用现代生物技术和分子育种途径,选育抗逆性强、生物质产量高和品质优良的农作物和能源植物,并设计生物质乙醇和副产品(饲料、造纸、膳食纤维、重金属吸附等)加工工艺与大规模生产工艺流程。

基本情况

1979-1983年 华中农业大学农学学士

1983-1984年 中南民族大学任教

1984-1987年 中国农业科学院植物生物化学硕士

1987-1992年 中国农业科学院油料作物研究所助理研究员

1992-1993年 澳大利亚国立大学医学科学研究院IFS访问学者

1993-1994年 澳大利亚国立大学生物科学研究院特邀访问学者

1994-1997年 澳大利亚国立大学生物化学与分子生物学博士

1997-2000年 美国加州大学戴维斯分校植物生物系博士后研究员

2000-2004年 美国农业部植物基因表达中心/加州大学柏克莱分校遗传学研究员

2004-2006年 美国加州大学戴维斯分校微生物系研究员

2006-2022年 华中农业大学生物质与生物能源研究中心主任,植物科学技术学院

教授,作物遗传改良国家重点实验室研究员

2022年至今 湖北工业大学生物工程与食品学院教授、生物质与生物能源团队PI

研究课题

1. 国家自然科学基金,32170268,OsCESA4、7、9参与水稻次生壁纤维素超微结构形成机理的研究,76万,2022-2025;

2. 国家高等学校学科创新引智计划,BP0820035,作物生物能源物质高效合成和转化分子机理创新引智基地2.0,500万,2020-2024;

3. 国家自然科学基金,31670296,OsCESA4、7、9蛋白P-CR区域在水稻茎秆纤维素合成中的功能研究,74万,2017-2020;

4. 国家重点研发计划,2016YFD0800804,萃取植物收获物无害化资源化利用关键技术与设备研制,352万,2016-2020;

5. 国家转基因重大专项,2009ZX08009-119B,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,270万,2009-2012;

6. 国家973前期计划,2010CB134401,新型能源作物细胞壁生物合成分子机理研究,70万,2009-2012;

7. 高等学校学科创新引智计划,B08032,作物生物能源物质高效合成和转化分子机理创新引智基地,900万,2008-2017;

研究成果

发表SCI论文100余篇,其中ESI高被引4篇,被引6000余次,H指数40。发表期刊涵盖多个学科领域,包括综合期刊Science、Nature Communications,生物能源领域期刊Renewable & Sustainable Energy Reviews、Applied Energy、Biotechnology for Biofuels、Renewable Energy、GCB Bioenergy、Sustainable Energy & Fuels等,植物学/农学领域期刊Plant Biotechnology Journal、Journal of Experimental Botany、Journal of Integrative Plant Biology、Plant PhysiologyPlant & Cell Physiology、Industrial Crops & Products、Journal of Integrative Agriculture等,工程领域期刊Biotechnology Advances、Bioresource Technology、Biochemical Engineering Journal等,化学与材料领域期刊Green Chemistry、Carbohydrate Polymers、Talanta、Food Hydrocolloids、Cellulose等,环境科学领域期刊Journal of Hazardous Materials、Science of the Total Environment、Waste and Biomass Valorization等。

代表性论文(*为通讯作者,更多成果请见http://bbrc.hzau.edu.cn/lwcg.htm)

1. Peng, L., Kawagoe, Y., Hogan, P., Delmer, D.* Sitosterolb -1, 4-glucoside as primer for cellulose synthesis in plants.Science. 295: 147-150,2002 (IF: 63.714; Times Cited: 757).

2. Arioli, T., Peng L., Betzner, A. S., Burn, J., Wittke, W., Herth, W., Camilleri, C., Hofte, H., Plazinski, J., Birch, R., Cork, A., Glover, J., Redmond, J., Williamson, R. E.* Molecular analysis of cellulose biosynthesis inArabidopsis. Science. 279: 717-720,1998 (IF: 63.714; Times Cited: 1545).

3. Zhang, R.#, Hu, Z. #, Wang, Y., Hu, H., Li, F., Li, M., Ragauska, A., Xia, T., Ha, H., Tang, J., Yu, H. *, Xu, B. *,Peng, L.* Single-molecular insights into the breakpoint of cellulose nanofibers assembly during saccharification.Nature Communications. 14: 1100,2023(IF: 17.694)

4. Wang, Y. #, Fan, C.#, Hu, H., Li, Y., Sun, D., Wang, Y.,Peng L.* Genetic modification of plant cell walls to enhance biomass yield and biofuel production in bioenergy crops. Biotechnology Advances. 34(5): 997-1017,2016 (IF: 17.681; Times Cited: 136).

5. Hu, Z.#, Li, Q.#, Chen, Y., Li, T., Wang, Y., Zhang, R., Peng, H., Wang, H., Wang, Y., Tang, J., Aftab, M.,Peng, L.*Intermitten ultrasound retains cellulases unlock for enhanced cellulosic ethanol with high-porosity biochar for dye adsorption using desirable rice mutant straw.Bioresource Technology.369: 128437,2023. (IF: 11.889)

6. Xu, C., Xia, T., Peng, H., Liu, P., Wang, Y., Wang, Y., Kang, H., Tang, J., Aftab, M.,Peng, L.* BsEXLX of engineered Trichoderma reesei strain as dual-active expansin to boost cellulases secretion for synergistic enhancement of biomass enzymatic saccharification in corn and Miscanthus straws.Bioresource Technology.376: 128844,2023. (IF: 11.889)

7. Zhang, W., Yi Z., Huang, J., Li, F., Hao, B., Li, M., Hong, S., Lv, Y., Sun, W., Ragauskas, A., Hu, F., Peng, J.,Peng L.* Three lignocellulose features that distinctively affect biomass enzymatic digestibility under NaOH and H2SO4 pretreatments inMiscanthus.Bioresource Technology. 130: 30-37, 2013 (IF: 11.889; Times Cited: 112).

8. Wu, L.,# Feng, S.,# Deng, J., Yu, B., Wang, Y., He, B., Peng, H., Li, Q.,Hu, R.,* Peng, L.*Altered carbon assimilation and cellulose accessibility to maximize bioethanol yield under low-cost biomass processing in corn brittle stalk. Green Chemistry.21: 4388–4399,2019 (IF: 11.034; Times Cited: 23).

9. Li, Y., Liu, P., Huang, J., Zhang, R., Hu, Z., Feng, S., Wang, Y., Wang, L., Xia, T.,*Peng, L.* Mild chemical pretreatments are sufficient for bioethanol production in the transgenic glucosidase-overproduced rice straw.Green Chemistry.20: 2047-2056,2018 (IF: 11.034; Times Cited: 55).

10. Jin, W., Chen, L., Hu, M., Sun, D., Li, A., Li, Y., Hu, Z., Zhou, S., Tu, Y., Xia, T., Wang, Y., Xie, G., Li, Y., Bai, B., Peng L.*Tween-80 is effective for enhancing steam-exploded biomass enzymatic saccharification and ethanol production by specifically lessening cellulase absorption with lignin in common reed. Applied Energy.175: 82-90,2016 (IF: 11.446; Times Cited: 132).

11. Madadi, M. Wang, Y., Xu, C., Liu, P., Wang, Y., Xia, T.,Tu, Y., Lin, X., Song, B., Yang, X., Zhu, W., Duanmu, D., Tang, S.*, Peng, L.* Using Amaranthus green proteins as universal biosurfactant and biosorbent for effective enzymatic degradation of diverse lignocellulose residues and efficient multiple trace metals remediation of farming lands. Journal of Hazardous Materials. 406:124727,2021(IF: 14.224; Times cited: 24).

12. Li, F.#, Xie, G.#, Huang, J., Zhang, R., Li, Y., Zhang, M., Wang, Y., Li, A., Li, X., Xia ,T., Qu, C., Hu, F., Ragauskas, A.,Peng, L.* OsCESA9 conserved-site mutation leads to largely enhanced plant lodging resistance and biomass enzymatic saccharification by reducing cellulose DP and crystallinity in rice.Plant Biotechnology Journal. 15: 1093-1104,2017 (IF: 13.263; Times cited: 71).

13. Li, F. #, Zhang, M. #, Guo, K., Hu, Z., Zhang, R., Feng, Y., Yi, X., Zou, W., Wang, L., Wu, C., Tian, J., Lu, T., Xie, G.*,Peng L.* High-level arabinose predominately affects cellulose crystallinity for genetic enhancing both plant lodging resistance and biomass enzymatic digestibility in rice mutants.Plant Biotechnology Journal. 13: 514-525,2015 (IF: 13.263, Times Cited: 114).

14. Liu, P., Li, A., Wang, Y., Cai, Q., Yu, H., Li, Y., Peng, H., Li, Q., Wang, Y., Wei, X., Zhang, R., Tu, Y., Xia, T.,Peng, L.*Distinct Miscanthus lignocellulose improves fungus secretingcellulases and xylanases for consistently enhanced biomass saccharification of diverse bioenergy crops. Renewable Energy.174:799-809,2021(IF: 8.634, Times cited: 8)

15. Zhang, R., Hu, H., Wang, Y., Hu, Z., Ren, S., Li, J., He, B., Wang, Y., Xia, T., Chen, P., Xie, G.,Peng, L.* A novel ricefragile culm 24 mutant encodes a UDP-glucose epimerase that affects cell wall properties and photosynthesis. Journal of Experimental Botany.71: 2956-2969,2020 (IF: 7.298; Times cited: 14).

16. Hu, H., Zhang, R., Dong, S., Li, Y., Fan, C., Wang, Y., Xia, T., Chen, P., Feng, S., Persson, S.,Peng, L.* AtCSLD3 and GhCSLD3 mediate root growth and cell elongation downstream of the ethylene response pathway in Arabidopsis. Journal of Experimental Botany. 69: 1065-1080,2018 (IF: 7.298; Times cited: 15).

17. Fan, C., Feng, S., Huang, J., Wang, Y., Wu, L., Li, X., Wang, L., Xia, T., Li, J., Cai, X.,Peng, L.* AtCesA8-drivenOsSUS3 expression leads to largely enhanced biomass saccharifcation and lodging resistance by distinctively altering lignocellulose features in rice. Biotechnology for Biofuels. 10: 221,2017 (IF: 7.67; Times cited: 49).

18. Xu, N., Zhang, W., Ren, S., Liu, F., Zhao, C., Liao, H., Xu, Z., Li, Q., Tu, Y., Yu, B., Wang, Y., Jiang, J., Qin, J.,Peng L.* Hemicelluloses negatively affect lignocellulose crystallinity for high biomass digestibility under NaOH and H2SO4 pretreatments in Miscanthus.Biotechnology for Biofuels. 5(1): 58,2012 (IF: 7.67; Times cited: 252).

19. 王艳婷,徐正丹, 彭良才*.植物细胞壁沟槽结构与生物质利用研究展望. 中国科学:生命科学. 44(8): 766-774,2014. (被引次数: 7).

20. 彭良才.论中国生物能源发展的根本出路[J]. 华中农业大学学报(社科). (2): 1-6,2011. (被引次数: 68).

授权发明专利

1. Arioli, T., Williamson, R. E., Betzner, A. S.,Peng, L. Manipulation of cellulose and/or beta–1,4-glucan. International Patent Application No. PCT/AU97/ 00402, ANU and CSIRO, Australia

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,授权专利号:ZL201710034163.5,授权日期:2019.11.5

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,授权专利号:ZL201611079476.4,授权日期:2020.4.10

4. 彭良才,郝勃,夏涛,涂媛苑,王艳婷,涂芬,熊科,魏小洋,一株利用木糖高效发酵乙醇的转基因工程酿酒酵母SF4,授权专利号:ZL201611019716.1,授权日期:2020.1.24

5. 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,授权专利号:ZL201710150563.2,授权日期:2020.1.14

6. 王令强,彭良才,谢国生,胡慧贞,朱晓博,张贵粉,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,授权专利号:ZL201710150895.0,授权日期:2020.3.3

7. 何博洋,何艺涛,赖炎楠,隋宪鑫,丰胜求,彭良才一种高通量检测小样微生物发酵乙醇浓度装置.授权专利号:ZL201921107812.0,授权日期:2020.4.17

8. 何博洋,汪哲,徐梓瑄,赖焱楠,隋宪鑫,高海荣,康恒,王艳婷,夏涛,彭良才一种新型基于纳米气泡石分离和检测乙醇浓度的装置,授权专利号:ZL 202021958979.0,授权日期:2021.5.18

9. 彭良才,王友梅,王艳婷,涂媛苑,夏涛,汤尚文,丰胜求,山姆,徐成宝,余华,一种促进生物质材料产醇的方法,授权专利号:ZL202010267807.7,授权日期:2021.9.24

10. 彭良才,夏涛,王艳婷,余海忠,郝勃,何博洋,魏小洋,涂芬,熊科,一株高效代谢木糖的转基因酿酒酵母工程菌E4及其应用,授权申请号:202110149633.9,授权日期:2022.10.18

教材与著作:

1. Chen, P., andPeng, L*. The diversity of lignocellulosic biomass resources and their evaluations for use as biofuels and chemicals. In: Sun J Z, Ding S Y, Peterson J D, eds. Biological Conversion of Biomass for Fuels and Chemicals: Explorations from Natural Biomass Utilization Systems. Royal Society of Chemistry, 2013, 83-109. ISBN: 978-1-84973-424-0

2. Xie, G., andPeng, L*.Book Chapter entitled “Genetic Engineering of Bioenergy Crops.” In: Wang L J, ed. Sustainable Bioenergy Production. Taylor and Francis. 2014. DOI: 10.1201/b16764-3

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