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个人信息

博士生导师
研究员

Email: zhangpeng@sibs.ac.cn
个人网页: http://www.cassavabiotech.org

研究方向

木薯和甘薯生物技术

张鹏

个人简介

2005.07-今,中科院上海生科院植物生理生态研究所,课题组长,研究员
2010.01-2015.12,中科院上海辰山植物科学研究中心,课题组长,兼职研究员
2001.02-2005.12,瑞士苏黎世联邦理工大学,博士后及高级研究助理Oberassistant
1998.05-2001.01, 瑞士苏黎世联邦理工大学,植物生物技术,博士
1992.09-1995.07,中国科学院华南植物研究所,植物遗传,硕士
1988.09-1992.06,山东师范大学,生物学,学士

研究工作

木薯和甘薯分子育种。针对薯类重要农艺性状和特有的生物学问题开展研究,发掘与库源分配、淀粉富集及逆境响应相关的分子调控机制,培育新品种。

主要成果

依托上海木薯生物技术中心为平台,以保障薯类稳产和改良品质为目标,近年来在多倍体复杂基因组分析、薯类特有农艺性状形成和调控机制、源库关系及新型种质培育方面取得突破性进展:开创了多倍体复杂基因组分析的先河,揭示甘薯起源;解析了薯类特有采后生理性衰变和对环境响应的分子调控机制;构建薯类特有的源库关系,解析储藏根发育的调控机制;揭示直链淀粉对产量及淀粉理化特性的影响,培育了系列优质薯类新种质和新品种。这些研究不仅为系统揭示薯类特有的生物学特性建立了理论和技术,也为其他作物面临的共性问题和库源调控研究提供了参考,培育的千百余份木薯和甘薯新种质及品种也为当前薯类基础研究和产业化发展提供了新材料和技术。

    1、Yang J, Moeinzadeh M-H, Kuhl H, Helmuth J, Xiao P, Haas S, Liu G, Zheng J, Sun Z, Fan W, Deng G, Wang H, Hu F, Zhao S, Fernie AR, Boerno S, Timmermann B, Zhang P*, Vingron M* (2017) Haplotype-resolved sweet potato genome traces back its hexaploidization history. Nature Plants 3: 696-703.

    2、Zhou W, He S, Naconsie M, Ma Q, Zeeman SC, Gruissem W, Zhang P* (2017) Alpha-glucan, water dikinase 1 affects starch metabolism and storage root growth in cassava (Manihot esculenta Crantz). Scientific Reports 7: 9863.

    3、An D, Ma Q, Wang H, Yang J, Zhou W, Zhang P* (2017) Cassava C-repeat binding factor 1 gene responds to low temperature and enhances cold tolerance when overexpressed in Arabidopsis and cassava. Plant Molecular Biology 94(1-2): 109-124.

    4、Fan WJ, Wang HX, Wu YL, Yang N, Yang J, Zhang P* (2017) H+-pyrophosphatase IbVP1 promotes efficient iron use in sweet potato [Ipomoea batatas (L.) Lam.]. Plant Biotechnology Journal 15: 698-712.

    5、Wang H, Yang J, Zhang M, Fan W, Firon N, Pattanaik S, Yuan L, Zhang P* (2016) Altered phenylpropanoid metabolism in the maize Lc-expressed sweet potato (Ipomoea batatas) affects storage root development. Scientific Reports 6: 18645.

    6、Ma Q, Zhang T, Zhang P*, Wang Z-Y*. (2016) Melatonin attenuates postharvest physiological deterioration of cassava storage roots. Journal of Pineal Research 60(4): 424-434.

    7、Li KT, Moulin M, Mangel N, Albersen M, Verhoeven-Duif NM, Ma Q, Zhang P, Fitzpatrick TB*, Gruissem W*, Vanderschuren H* (2015) Increased bioavailable vitamin B6 in field-grown transgenic cassava for dietary sufficiency. Nature Biotechnology 33(10): 1029-1032.

    8、Zhou W, Yang J, Hong Y, Liu G, Zheng J, Gu Z, Zhang P* (2015) Impact of amylose content on starch physicochemical properties in transgenic sweet potato. Carbohydrate Polymers 122: 417–427.

    9、Wang W*, Feng B, Xiao J, Xia Z, Zhou X, Li P, Zhang W, Wang Y, M?ller BL, Zhang P, Luo MC, Xiao G, Liu J, Yang J, Chen S, Rabinowicz PD, et al. (2014) Cassava genome from a wild ancestor to cultivated varieties. Nature Communications 5: 5110.

    10、Xu J, Duan XG, Yang J, Beeching JR, Zhang P* (2013) Enhanced reactive oxygen species scavenging by overproduction of superoxide dismutase and catalase delays post-harvest physiological deterioration of cassava storage roots. Plant Physiology 161(3): 1517-1528.

    11、Wang H, Fan W, Li H, Yang J, Huang J, Zhang P* (2013) Functional characterization of dihydroflavonol-4-reductase in anthocyanin biosynthesis of purple sweet potato underlies the direct evidence of anthocyanins function against abiotic stresses. PLoS ONE 8(11): e78484.

    12、An D, Yang J, Zhang P* (2012) Transcriptome profiling of low temperature-treated cassava apical shoots showed dynamic responses of tropical plant to cold stress. BMC Genomics 13: 64.

    13、Yang J, An D, Zhang P* (2011) Expression profiling of cassava storage roots reveals an active process of glycolysis/gluconeogenesis. Journal of Integrative Plant Biology 53(3): 193-211.

    14、Zhao SS, Dufour S, Sánchez T, Ceballos H, Zhang P* (2011) Development of waxy cassava with different biological and physico-chemical characteristics of starches for industrial applications. Biotechnology and Bioengineering 108(8): 1925-35.

    15、Zhang P*, Wang W-Q, Zhang G-L, Kaminek M, Dobrev P, Xu J, Gruissem W (2010) Senescence-inducible expression of isopentenyl transferase extends leaf life, increases drought stress resistance and alters cytokinin metabolism in cassava. Journal of Integrative Plant Biology 52(7): 653-669.
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