周功克

 

(一)个人简介

周功克1970年3月生,博士,二级岗位教授,硕士和博士生导师,资源植物与环境工程创新团队负责人。获得“享受国务院政府特殊津贴专家”、中科院“百人计划”、山东省“泰山学者”、 江苏省“双创人才”、山东省中青年突出贡献专家、青岛市崂山区拔尖人才、徐州市“双创之星”、青岛市城阳区“创新创业领军人才”、科技部“十一五”和“十二五”期间生物能源领域的主题专家、青岛市优秀党员等荣誉称号。分别在中科院青岛生物能源研究所、兰州大学、中国林科院亚热带林业研究所、西华师范大学、齐鲁师范学院等科研院所兼职研究员或教授,生物质能源产业技术创新战略联盟理事,能源林产业技术创新战略联盟理事,山东省植物生理学协会常务理事,中国植物生理学协会会员,中国植物生理学和分子生物学会能源植物专业委员会副主任、挂职山东昌邑市人民政府副市长等。迄今,培养硕士研究生、博士研究生和博士后分别为12、8和13人,培养青年骨干人才5人次:3名“中科院青年促进会会员”、1名山东省“青年泰山学者”和1名山东省“杰出青年”。

1996年、1999年、2001年分别在兰州大学获得本科、硕士和博士学位;2002年至2009年分别在清华大学、美国北卡州立大学(North Carolina State University)和佐治亚大学(University of Georgia)从事博士后研究工作;2009年2月-2020年7月在中国科学院青岛生物能源与过程研究所工作,同年8月转入青岛农业大学资源与环境学院工作。

(二)研究方向

主要研究方向:资源植物选育、生态环境修复及其资源化利用。重点解析资源植物的生理和代谢关键途径,阐明资源植物高产、高品质、抗逆等优良性状形成的分子机制,优化改造资源植物代谢网络途径,培育优质新种质资源;研发资源植物边际土地高产高效种植技术体系,开发资源植物高效利用关键技术,打造资源植物高产高效种植、生态环境修复及其资源化利用的新模式并示范,为我国的绿水青山建设提供新思路、新途径。

(三)代表性科研成果

迄今分别在Nature Communications, Plant Cell, Plant Physiology, Molecular Plant, New Phytologist, Journal of Experimental Botany等期刊上发表论文120余篇,申请专利20项,参编著作5部,获省部级自然科学奖3项。近几年部分代表成果如下:

(1)Anming Ding, Xianfeng Tang, Linhe Han, Jianlu Sun, Angyan Ren, Jinhao Sun, Zongchang Xu, Ruibo Hu,Gongke Zhou, Yingzhen Kong*, Arabidopsis ERF4 and MYB52 Transcription Factors Play Antagonistic Roles in Regulating Homogalacturonan De-methylesterification in Seed Coat Mucilage. Plant Cell, 2021,33(2):381–403 【中科院1区,IF:9.6】

(2) Yamei Zhuang, Congpeng Wang, Yang Zhang, Sihui Chen, Dian Wang, Qing Liu, Gongke Zhou* and Guohua Chai*. Overexpression of PdC3H17 Confers Tolerance to Drought Stress Depending on Its CCCH Domain in Populus. Frontiers in Plant Science, 2020,10:1748 【中科院2区,IF:4.4】

(3)Yiping WangYan XuShengqiang PeiYingzhen KongGongke Zhou*, Ruibo Hu*. KNAT7 regulates xylan biosynthesis in Arabidopsis seed-coat mucilage.Journal of Experimental Botany, 2020,71(14):4125 –4139【中科院2区,IF:6.1】

(4) Yingzhen Kong, Shengqiang Pei, Yiping Wang, Yan Xu, Hua Xu, Gongke Zhou* and Ruibo Hu*. HOMEODOMAIN GLABROUS 2 (HDG2) regulates cellulose biosynthesis in Arabidopsis seed coat mucilage via activation of CELLULOSE SYNTHASE 5 (CESA5). Plant Physiology, 2021: 185: 77–93,【中科院1区,IF:7.4】

(5)Yan Xu, Yiping Wang, Xiaoyu Wang, Shengqiang Pei, Yingzhen Kong, Ruibo Hu* and Gongke Zhou*.Transcription Factors BLH2 and BLH4 Regulate De-methylesterification of Homogalacturonan in Seed Mucilage. Plant Physiology,2020,183:96–111 【中科院1区,IF:7.4】

(6)Xianfeng Tang, Dian Wang, Yu Liu, Mengzhu Lu, Yamei Zhuang, Zhi Xie, Congpeng Wang, Shumin Wang, Yingzhen Kong, Guohua Chai* and Gongke Zhou*. Dual regulation of xylem formation by an auxin-mediated PaC3H17-PaMYB199 module in Populus. New Phytologist, 2020,225:1545-1561【中科院1区,IF:8.5】

(7)Xianfeng TangCongpeng Wang, Yu Liu, Guo He, Nana MaGuohua Chai,Shengjun LiHua Xu*, Gongke Zhou*. Brassinosteroid signaling converges with auxin-mediated C3H17 to regulate xylem formation in Populus. Frontiers in plant science, 2020,11:586014【中科院2区,IF: 4.4】

(8)Yu Liu, Hua Xu, Changjiang Yu* and Gongke Zhou*.Multifaceted roles of duckweed in aquatic phytoremediation and bioproducts synthesis. GCB Bioenergy,2020,00:1–13 DOI:10.1111/gcbb.12747 【中科院1区,IF:5.4】

(9)Yu Liu, Hua Xu, Yu Wang, Xianfeng Tang, Guo He, Shumin Wang, Yubin Ma, Yingzhen Kong, Changjiang Yu* and Gongke Zhou*. A submerged duckweed mutant with abundant starch accumulation for bioethanol production. GCB Bioenergy,2020,12:1078–1091【中科院1区,IF:5.4】

(10)Congpeng Wang, Guo He, Jie Meng, Shumin Wang, Yingzhen Kong, Jianxiong Jiang, Ruibo Hu* and Gongke Zhou*.Improved lignocellulose saccharification of a Miscanthus reddish stem mutant induced by heavy-ion irradiation. GCB Bioenergy, 2020,12:1066–1077 【中科院1区,IF: 5.4】

(11)Congpeng Wang, Yingzhen Kong, Ruibo Hu* and Gongke Zhou*. Miscanthus: A fast-growing crop for environmental remediation and biofuel production. GCB Bioenergy,2021,13:58–69 【中科院1区,IF: 5.4】

(12)Dian Wang, Hua Xu, Junyan Huang, Yingzhen Kong, Synan AbuQamar, Diqiu Yu, Shengyi Liu, Gongke Zhou* and Guohua Chai*. The Arabidopsis CCCH protein C3H14 contributes to basal defense against Botrytis cinerea mainly through the WRKY33-dependent pathway.Plant Cell and Environment,2020,43:1792–1806 【中科院2区,IF: 5.4】

(13)Yu Liu, Yu Wang, Shuqing Xu, Xianfeng Tang, Jinshan Zhao, Changjiang Yu, Guo He, Hua Xu,Shumin Wang, Yali Tang, Chunxiang Fu , Yubin Ma* and Gongke Zhou*. Efficient genetic transformation and CRISPR/Cas9-mediated genome editing in Lemna aequinoctialis. Plant Biotechnology Journal,2019,17:2143–2152 【中科院1区,IF: 8.1】

(14)Jie Meng, Bo Wang, Guo He, Yu Wang,Xianfeng Tang, Shumin Wang, Yubin Ma, Chunxiang Fu, Guohua Chai* and Gongke Zhou*. Metabolomics Integrated with Transcriptomics Reveals Redirection of the Phenylpropanoids Metabolic Flux in Ginkgo biloba. J Agric Food Chem,2019, 67:3284−3291 【中科院1区,IF:3.8】

(15)Tao Ma#, Junyi Wang#Gongke Zhou#, Zhen Yue, Quanjun Hu, et al. Genomic insights into salt adaptation in a desert poplar. Nature Communications, 2013,4:2797 【中科院1区,IF:12】

(16)Li Yu, Dachuan Shi, Junling Li, Yingzhen Kong, Yanchong Yu, Guohua Chai, Ruibo Hu, Michael G. Hahn and Gongke Zhou*. CELLULOSE SYNTHASE LIKE A2, a glucomannan synthase, is involved in maintaining adherent mucilage structure in Arabidopsis seed. Plant Physiology, 2014,164:1842–1856 【中科院1区,IF:7.4】

(17)Guohua Chai, Guang Qi, Yingping Cao, Zengguang Wang, Li Yu, Xianfeng Tang, Yanchong Yu, Dian Wang, Yingzhen Kong and Gongke Zhou*. Poplar PdC3H17 and PdC3H18 are direct targets of PdMYB3 and PdMYB21, and positively regulate secondary wall formation in Arabidopsis and poplar. New Phytologist, 2014, 203:520-534 【中科院1区,IF: 7.7】

(18)Ruibo Hu, Junling Li, Xiaoyu Wang, Xun Zhao, Zhen Wang, Xuanwen Yang, Qi Tang, Guo He, Gongke Zhou*, Yingzhen Kong*. Xylan synthesized by Irregular Xylem 14 (IRX14) maintains the structure of seed coat mucilage in Arabidopsis. Journal of Experimental Botany, 2016, 67(5):1243-1257 【中科院2区,IF:6.1】

(19)Guohua Chai, Yingzhen Kong, Ming Zhu, Li Yu, Guang Qi, Xianfeng Tang, Zengguang Wang,Yingping Cao, Changjiang Yu,Gongke Zhou*. Arabidopsis C3H14 and C3H15 have overlapping roles in the regulation of secondary wall thickening and anther development. Journal of Experimental Botany, 2015, 66(9):2595-609 【中科院1区,IF:6.1】

(20)Ruibo Hu, Yan Xu, Changjiang Yu, Kang He, Qi Tang, Chunlin Jia, Guo He, Xiaoyu Wang, Yingzhen Kong, Gongke Zhou*. Transcriptome analysis of genes involved in secondary cell wall biosynthesis in developing internodes of Miscanthus lutarioriparius. Scientific Reports, 2017,7:9034 【中科院3区,IF:4.259】

(21)Xianfeng Tang, Yamei Zhuang, Guang Qi, Dian Wang, Huanhuan Liu, Kairong Wang,Guohua Chai*,Gongke Zhou*. Poplar PdMYB221 is involved in the direct and indirect regulation of secondary wall biosynthesis during wood formation. Scientific Reports, 2015, 5:12240 【中科院3区,IF:4.259】

(22)Changjiang Yu, Xiaowen Zhao, Guang Qi, Zetao Bai, Yu Wang, Shumin Wang, Yubin Ma, Qian Liu, Ruibo Hu* and Gongke Zhou*. Integrated analysis of transcriptome and metabolites reveals an essential role of metabolic flux in starch accumulation under nitrogen starvation in duckweed. Biotechnology for Biofuels,2017,10:167 【中科院1区,IF: 5.203】

(23)Dachuan Shi, Angyan Ren, Xianfeng Tang, Guang Qi, Zongchang Xu, Guohua Chai, Ruibo Hu, Gongke Zhou, and Yingzhen Kong. MYB52 Negatively Regulates Pectin Demethylesterification in Coat Mucilage. Plant Physiology, 2018,176:2737–2749  【中科院1区,IF: 7.4】

(24)Li Yu, Changjiang Yu, Ming Zhu, Yingping Cao, Haiyan Yang, Xu Zhang,Yubin Ma, Gongke Zhou*. Structural analysis of galactoarabinan from duckweed. Carbohydrate Polymers,2015,117:807–812 【中科院1区,IF: 8.1】

(25)Ruibo Hu, Changjiang Yu, Xiaoyu Wang, Chunlin Jia, Shengqiang Pei, Kang He, Guo He, Yingzhen Kong and Gongke Zhou*.De novo Transcriptome Analysis of Miscanthus lutarioriparius Identifies Candidate Genes in Rhizome Development.Frontiers in Plant Science,2017,8:492 【中科院2区,IF: 4.298】

(26)Ruibo Hu, Junling Li, Xuanwen Yang, Xun Zhao, Xiaoyu Wang, Qi Tang, Guo He,Gongke Zhou*, Yingzhen Kong*. Irregular Xylem 7 (IRX7) is required for anchoring seed coat mucilage in Arabidopsis. Plant Molecular Biology, 2016, 92:25-38 【中科院3区,IF:3.9】

(27)Xiaoyu Wang, Qi Tang, Xun Zhao, Chunlin Jia, Xuanwen Yang, Guo He, Aimin Wu, Yingzhen Kong, Ruibo Hu*, Gongke Zhou*. Functional conservation and divergence of Miscanthus lutarioriparius GT43 gene family in xylan biosynthesis.BMC Plant Biology,2016,16:102 【中科院3区,IF:3.964】

(四)科研项目情况

主持科技支撑计划(2项)、863计划、重大转基因专项、百人计划、泰山学者、中科院重点部署项目、山东省重大工程项目、山东省重点基金项目、中科院区域STS项目、中科院种质创新工程项目、国家自然科学基金面上项目(4项)以及参与973计划和中科院先导专项等20余项,主持或参与项目总经费约1.5亿元。部分主持项目如下:

(1)科技支撑计划项目首席,项目经费:8893万,项目名称:高生物量能源植物培育与生物质定向重组综合利用示范,项目编号:2015BAD15B00;项目时间:2015-2019

(2)科技支撑计划项目首席,项目经费:1861万,项目名称:纤维类新型生态能源植物选育与规模化种植及利用示范,项目编号:2013BAD22B00;项目时间:2013-2016

(3)863计划,项目主持,项目经费:378万,项目名称:生物质可高效利用的转基因能源植物新品质培育,项目编号:2009AA10Z101;项目时间:2009-2012

(4)中科院重点部署项目主持,项目经费:800万,项目名称:资源枯竭地区生态环境修复技术集成示范,项目编号:KFZD-SW-313;项目时间:2017-2019

(5)山东省重大工程计划主持,项目经费:300万,项目名称:黄河三角洲盐碱地生物高效生态共生关键技术研发与利用示范,项目编号:2017CXGC0309;项目时间:2017-2019

(6)国家自然科学基金面上项目主持,项目经费:72万,项目名称:拟南芥C3H15整合BR和THE1途径调控细胞伸长的分子机制,项目编号:31770315;项目时间:2018-2021

(7)中科院区域重点STS项目主持,项目经费:200万,项目名称:基于浮萍的畜禽养殖污水处理与资源化利用示范,项目编号:未知;项目时间:2017-2019

(8)农业部重大转基因专项,主持,项目经费:757.45万,项目名称:杨树高效、稳定、安全转基因项目,项目编号:2018ZX08020002-005;项目时间:2018-2020

(9)中科院种质创新项目主持,项目经费:200万,项目名称:速生、高产叶用银杏新种质创制与应用,项目编号:ZSZC-015;项目时间:2017-2020

(10)山东省重大基础研究项目,主持,项目经费:120万,项目名称:优质叶用银杏高效快繁及工厂化育苗体系构建,项目编号:ZR2018ZC0335;项目时间:2018-2020

(11)国家自然科学基金面上项目主持,项目经费:83.2万,项目名称:杨树PdC3H17和PdC3H18调控次生木质部形成的分子机理研究,项目编号:31570670;项目时间:2016-2019

(12)国家自然科学基金面上项目主持,项目经费:32万,项目名称:运用激光捕获显微分离系统与基因芯片鉴定参与拟南芥种子表皮细胞果胶质形成的关键基因,项目编号:31070272;项目时间:2010-2013

Baidu
sogou
Baidu
sogou