黄建勋
职称:副研究员
邮箱:huang_ch@fudan.edu.cn
研究方向:主要以系统与进化生物学,生物多样性科学,生物信息学,基因组学和分子遗传学等手段,研究基因家族进化及其和功能、基因复制及物种进化的关系。
1981年出生,博士
2000年-2004年,台湾大学,本科
2004年-2012年,台湾大学,硕/博士研究生
2012年-2013年,台湾大学,博士后
2013年-2016年,复旦大学,博士后
2016年-2018年,复旦大学,青年副研究员
2018年-至今,复旦大学,副研究员
2020年,美国宾州州立大学,访问学者
2016 复星奖教金杰出奖
2019 2019年全国高校生命科学类微课教学比赛二等奖
论文
Guo J, Xu W, Hu Y, Huang J, Zhao Y, Zhang L, Huang CH*, Ma H*. 2020. Phylotranscriptomics in Cucurbitaceae reveal multiple whole-genome duplications and key morphological and molecular innovations. Molecular Plant 13: 1117-1133. (封面文章)
Yang L, Su D, Chang X, Foster CSP, Sun L, Huang CH, Zhou X, Zeng L, Ma H, Zhong B*. 2020. Phylogenomic insights into deep phylogeny of angiosperms based on broad nuclear gene sampling. Plant Communications 1: 100027.
Zhang C, Zhang T, Luebert F, Xiang Y, Huang CH, Hu Y, Rees M, Frohlich MW, Qi J*, Weigend M*, Ma H*. 2020. Asterid phylogenomics/phylotranscriptomics uncover morphological evolutionary histories and support phylogenetic placement for numerous whole-genome duplications. Molecular Biology and Evolutionhttps://doi.org/10.1093/molbev/msaa160
Huang CH*, Qi X, Chen D, Qi J, Ma H*. 2020. Recurrent genome duplication events likely contributed to both the ancient and recent rise of ferns. Journal of Integrative Plant Biology 62: 433-455.
Qi X, Kuo L-Y, Guo C, Li H, Li Z, Qi J, Wang L, Hu Y, Xiang J, Zhang C, Guo J, Huang CH* and Ma H*. 2018. A well-resolved fern nuclear phylogeny reveals the evolution history of numerous transcription factor families. Molecular Phylogenetics and Evolution 127: 961-977.
Xiang YZ#, Huang CH#, Yi H, Wen J, Li S, Yi T, Chen H, Xiang J*, and Hong M*. 2017. Evolution of Rosaceae fruit types based on nuclear phylogeny in the context of geological times and genome duplication. Molecular Biology and Evolution 34: 262-281. (封面文章)
Huang CH, Zhang C, Liu M, Hu Y, Gao T, Qi J*, and Ma H*. 2016. Multiple polyploidization events across Asteraceae with two nested events in the early history revealed by nuclear phylogenomics. Molecular Biology and Evolution 33: 2820-2835.
Huang CH, Sun R, Hu Y, Zeng L, Zhang N, Cai L, Zhang Q, Koch MA, Al-Shehbaz I, Edger PP, Pires JC, Tan DY, Zhong Y, and Ma H*. 2016. Resolution of Brassicaceae phylogeny using nuclear genes uncovers nested radiations and supports convergent morphological evolution. Molecular Biology and Evolution 33: 394-412.
Zhang Z, Huang CH, Qi J*. 2016. Revealing deep phylogeny of Brassicaceae using composition analysis of low-copy nuclear genes. Biotechnology Bulletin 32: 86-95.
Liu M, Zhang C, Huang CH, Ma H*. 2015. Phylogenetic reconstruction of tribal relationships in Asteroideae (Asteraceae) with low-copy nuclear genes. Chinese Bulletin of Botany 50: 549-564.
Kuo WY, Huang CH, Shih C, Jinn TL*. 2013. Cellular extract preparation for superoxide dismutase (SOD) activity assay. Bio-protocol 3: e811.
Kuo WY, Huang CH, Jinn TL*. 2013. Chaperonin 20 might be an iron chaperone for superoxide dismutase in activating iron superoxide dismutase (FeSOD). Plant Signaling & Behavior 8: e23074.
Kuo WY#, Huang CH#, Liu AC, Cheng CP, Li SH, Chang WC, Weiss C, Azem A, and Jinn TL*. 2013. CHAPERONIN 20 mediates iron superoxide dismutase (FeSOD) activity independent of its co-chaperonin role in Arabidopsis chloroplasts. New Phytologist 197: 99-110.
Huang CH, Kuo WY, Jinn TL*. 2012. Models for the mechanism for activating copper-zinc superoxide dismutase in the absence of the CCS Cu chaperone in Arabidopsis. Plant Signaling & Behavior 7: 428-430.
Huang CH#, Kuo WY#, Weiss C, and Jinn TL*. 2012. Copper chaperone-dependent and -independent activation of three copper-zinc superoxide dismutase homologs localized in different cellular compartments in Arabidopsis. Plant Physiology 158: 737-746.
Wu TH#, Liao MH#, Kuo WY#, Huang CH#, Hsieh HL#, and Jinn TL*. 2011. Characterization of copper/zinc and manganese superoxide dismutase in green bamboo (Bambusa oldhamii): cloning, expression and regulation. Plant Physiology and Biochemistry 49: 195-200.
专著
Li H, Huang CH, Ma H. 2019. Whole-genome duplications in pear and apple. In: Korban S. (eds). The Pear Genome. Compendium of Plant Genomes. Springer, Cham.
基于核基因的葫芦科系统关系重建和相关进化生物学研究(31970224),国家自然科学基金面上项目,主持,2020-2023年
建构高涵盖度的十字花科系统进化关系并分析花果发育及抗逆基因在不同支系中的进化路线(31770242),国家自然科学基金面上项目,主持,2018-2019年
基于核基因的蔷薇科系统重建及相关进化生物学研究(31670209),国家自然科学基金面上项目,参加,2017-2020年
十字花科植物近缘种环境适应性的系统发育基因组学和分子遗传学研究(91531301),国家自然科学基金重大研究计划,参加,2016-2018年
利用低拷贝核基因研究十字花科族水平上的系统进化关系(2014M551316),中国博士后基金面上二等资助,主持,2014-2016年