楚璞
博士,副教授,硕士生导师。
研究方向:油菜遗传育种、分子生物学、种质创新等
联系方式:chupu@njau.edu.cn
办公地址:理科楼A822
教育经历:
2006/9 - 2012/1,中山大学,生命科学学院植物学系,博士
2002/9 - 2006/6,湖南农业大学,生物科技学院生物技术系,学士
工作经历:
2016/1-至今,澳门十大正规老牌网赌,澳门十大正规老牌网赌,种业科学系,副教授
2012/5-2015/12,澳门十大正规老牌网赌,澳门十大正规老牌网赌,种业科学系,讲师
主要研究方向:
(1) 油菜株型相关性状的分子生物学研究。
(2) 油菜高含油量优异等位基因挖掘与育种利用研究。
(3) 油菜重要性状的高通量组学研究。
科研项目:
主持国家自然科学基金青年项目、中央高校基本科研业务费项目各1项;主持国家重点研发计划专项项目子课题任务1项,参与国家重点研发计划、973项目、国家自然科学基金等课题多项。
承担教学任务:
目前承担本科生生物统计与试验设计I,生物统计与试验设计II,试验设计,作物育种学各论等课程。
荣誉奖项:
仲英种业人才基金,2019
澳门十大正规老牌网赌优秀教师,2017
澳门十大正规老牌网赌青年教师授课比赛一等奖,2017
年度考核优秀,2015
发明专利:
一种莲膜联蛋白及其表达载体和应用,2013,排名第2
已发表论文:(标#为共同第一作者,*为通讯作者)
[1] Huhui Chen, Jiuxiao Ruan, Pu Chu*, Wei Fu, Zhenwei Liang, Yin Li, Jianhua Tong, Langtao Xiao, Jun Liu, Chenlong Li, and Shangzhi Huang *. AtPER1 enhances primary seed dormancy and reduces seed germination by suppressing the ABA catabolism and GA biosynthesis in Arabidopsis seeds. The Plant Journal, 2020, 101: 310–323.
[2] Wenjing Chen, Shubei Wan, Linkui Shen, Ying Zhou, Chengwei Huang, Pu Chu* and Rongzhan Guan* Histological, Physiological, and Comparative Proteomic Analyses Provide Insights into Leaf Rolling in Brassica napus. Journal of Proteome Research, 2018, 17(5):1761-1772
[3] Kunjiang Yu, Xiaodong Wang, Feng Chen, Qi Peng, Song Chen, Hongge Li, Wei Zhang, Sanxiong Fu, Maolong Hu, Weihua Long,Pu Chu, Rongzhan Guan, Jiefu Zhang.Quantitative Trait Transcripts Mapping Coupled with Expression Quantitative Trait Loci Mapping Reveal the Molecular Network Regulating the Apetalous Characteristic in Brassica napus L.Front Plant Sci.2018, 9:89.
[4] Huhui Chen#, Pu Chu#, Yuliang Zhou, Yu Ding, Yin Li, Jun Liu, Liwen Jiang, shangzhi Huang. Ectopic expression of NnPER1, a Nelumbo nucifera 1-cysteine peroxiredoxin antioxidant, enhances seed longevity and stress tolerance in Arabidopsis.Plant Journal 2016, 88: 608-619
[5] Yankun Wang#, Wenjing Chen#,Pu Chu#, Shubei Wan, Mao Yang, Mingming Wang, Rongzhan Guan. Mapping a major QTL responsible for dwarf architecture in Brassica napus using a single-nucleotide polymorphism marker approach. BMC Plant Biology 2016, 16:178
[6] Yankun Wang, Yongjun He, Mao Yang, Jianbo He, Pan Xu, Mingquan Shao, Pu Chu, Rongzhan Guan, Fine mapping of a dominant gene conferring chlorophyll-deficiency in Brassica napus.Sci Rep.2016; 6: 31419.
[7] Yankun Wang, Jianbo He, Li Yang, Yu Wang, Wenjing Chen, Shubei Wan, Pu Chu, Rongzhan Guan.* Fine mapping of a major locus controlling plant height using a high-density single-nucleotide polymorphism map in Brassica napus.Theoretical and Applied Genetics, 2016, 129(8): 1479-1491
[8] Kunjiang Yu, Xiaodong Wang, Feng Chen, Song Chen, Qi Peng, Hongge Li, Wei Zhang, Maolong Hu,Pu Chu, Jiefu Zhang, Rongzhan Guan.Genome-wide transcriptomic analysis uncovers the molecular basis underlying early flowering and apetalous characteristic in Brassica napus L.Sci Rep.2016; 6: 30576.
[9] Pu Chu, Guixia Yan, Qing Yang, Lina Zhai, Cheng Zhang, Fengqi Zhang, Rong Zhan Guan*. iTRAQ-based quantitative proteomics analysis of Brassica napus leaves reveals pathways associated with chlorophyll deficiency. Jounal of proteomics 2015, 113:244-259.
[10] Pu Chu, Huijuan Liu, Qing Yang, Yankun Wang, Guixia Yan, Rongzhan Guan*. An RNA-seq transcriptome analysis of floral buds of an interspecific Brassica hybrid between B. carinata and B. napus. Plant Reproduction 2014, 27:225–237.
[11] Huan Jia, Mingquan Shao, Yongjun He, Rongzhan Guan, Pu Chu*, Haidong Jiang*. Proteome Dynamics and Physiological Responses to Short-Term Salt Stress in Brassica napus Leaves. PLOS ONE, 2015 10 (12), e0144808
[12]Yankun Wang#, Pu Chu#, Qing Yang, Shengxin Chang, Jianmei Chen, Maolong Hu, Rongzhan Guan*. Complete Mitochondrial Genome of Eruca sativa Mill. (Garden Rocket). PLoS ONE 2014, 9(8): e105748.
[13]Chang S, Chen J, Wang Y, Gu B, He J, Chu P*, Guan R*, A mitochondrial genome of Raphanus sativus and gene evolution of cruciferous mitochondrial types. Journal of Genetics and Genomics 2013, 40(3):117-26.
[14]Chu P, Chen H,Zhou Y, Li Y, Tsang E, Wu K, Huang S, Proteomic and functional analyses of Nelumbo nucifera annexins involved in seed thermotolerance and germination vigor.Planta2012, 235(6):1271-88
[15]Chen H,Chu P, Zhou Y, Li Y, Liu J, Ding Y, Tsang E, Jiang L,Wu K, Huang S. Overexpression of AtOGG1, a DNA glycosylase/AP lyase, enhances seed longevity and abiotic stress tolerance in Arabidopsis. J Exp Bot., 2012, 63, 4107-4121
[16]Zhou Y,Chu P, Chen H, Li Y, Liu J, Ding Y, Tsang E, Jiang L, Wu K, Huang S. Overexpression of Nelumbo nucifera metallothioneins 2a and 3 enhances seed germination vigor in Arabidopsis. Planta, 2011, 235, 523-537.
[17]Zhou Y, Chen H, Chu P, Li Y, Tan B, Ding Y, Tsang E, Jiang L, Wu K, Huang S. NnHSP17.5, a cytosolic class II small heat shock protein gene from Nelumbo nucifera, contributes to seed germination vigor and seedling thermotolerance in transgenic Arabidopsis. Plant Cell Rep., 2011, 31, 379-389.
[18]楚璞,翟丽娜,管荣展.甘蓝型油菜固醇载体蛋白2基因BnSCP-2的克隆与表达.中国油料作物学报,2015,37(1):9~14
[19]楚璞,刘慧娟,杨力,管荣展.甘蓝型油菜BnXTH1基因的克隆与表达分析.分子植物育种,2014, 12: 432~439
[20]翟丽娜,楚璞,管荣展.甘蓝型油菜BnFLA基因的克隆及表达分析.西北植物学报, 2014, 10: 1956-1961.