何振艷,女,博士,副研究員,碩士生導師。中國科學院植物研究所副研究員。
基本介紹
- 中文名:何振艷
- 國籍:中國
- 畢業院校:中國科學院植物研究所、山西農業大學
- 職稱:中國科學院植物研究所副研究員
人物經歷,教育經歷,工作經歷,研究方向,科研項目,發明專利,發表論文,
人物經歷
教育經歷
1998年和2001年在山西農業大學獲學士和碩士學位,2004年在中科院植物所獲博士學位。
工作經歷
現任中科院植物所副研究員,中國植物生理學會修復生物學專業委員會委員,北京植物學會理事。迄今承擔國家自然科學基金項目、國家重點研發計畫、國家高技術研究發展計畫、科技基礎性工作重大專項、中科院先導專項等多個項目;獲得國家授權專利10餘項;在Nat. Commun.、J. Hazard. Mater.、New Phytol.、J. Proteomics、Sci Total Environ等刊物上發表論文30餘篇。
研究方向
利用分子生物學技術,結合遺傳學、細胞生物學和蛋白質組學等方法研究植物對重金屬的分子回響機制,著重兩方面的套用開發:一是基於超富集植物分子基礎的重金屬污染修復技術研發;二是基於穩定分子標記技術的低積累重金屬安全作物新品種的培育。
科研項目
國家自然科學基金面上項目,蜈蚣草PvABCT1相互作用蛋白的分離與功能研究
國家自然科學基金面上項目,蜈蚣草羽葉砷回響的差異蛋白質組學(DIGE)研究
國家自然科學基金面上項目,蜈蚣草砷液泡區隔化基因的挖掘和功能分析及其套用研究
國家自然科學基金面上項目,基於全長轉錄組的蜈蚣草砷轉運水通道蛋白的挖掘和深入解析
國家自然科學基金面上項目,蜈蚣草砷轉運PvABCs蛋白的功能解析及套用探究
國家高技術研究發展計畫,特殊生境植物資源的開發利用技術
科技基礎性工作重大專項子課題,我國大豆重金屬污染調查
國家重點研發計畫子課題,重金屬低積累玉米品種篩選及評比技術研究
中科院先導專項子任務,北方稻區水稻鎘污染現狀及分子模組解析
中科院先導專項任務,水稻籽粒重金屬低積累的分子網路
中科院先導專項任務,甜高粱品質安全性狀解析與新品種定向分子選育
橫向項目,植物修復重金屬污染土壤的評價
發明專利
培育低鎘積累水稻的方法及其相關材料的用途,專利號:ZL 201711001191.3
水稻籽粒鎘含量相關基因LCd-41的SNP分子標記的套用,專利號:ZL 201610121407.9
水稻籽粒鎘含量相關基因LCd-22的SNP分子標記的套用,專利號:ZL 201610113156.X
水稻籽粒鎘含量相關基因LCd-38的SNP分子標記的套用,專利號:ZL 201610108474.7
水稻籽粒鎘含量相關基因LCd-31的SNP分子標記的套用,專利號:ZL 201610172662.6
水稻籽粒鎘含量相關基因LCd-11的SNP分子標記的套用,專利號:ZL 201610104530.X
一種植物砷抗性相關的蛋白及編碼基因及其套用,專利號:ZL 201010116 397.2
一種蛋白及其編碼基因與套用,專利號:ZL 201010528752.7
一種蜈蚣草ABC轉運蛋白及其編碼基因與套用,專利號:ZL 200410080857.5
一種降低鎘在植物中積累的方法及其套用,專利號:ZL 03157195.6
一種檢測植物中目標蛋白的方法及其專用SPR生物感測器,專利號:ZL 201110081230.1
一種培育低重金屬積累植物的方法,專利號:ZL 200410096858.9
一種蜈蚣草經綠色球狀體再生植株的方法及其專用培養基, 專利號:ZL 200810239942.X
一種與砷回響相關的調控片段及其套用,專利號:ZL 2010 0128600.8
發表論文
2020
Feng L, Yan HL, Dai CH, Xu WX, Gu FY, Zhang F, Li T, Xian JY, He XQ, Yu YJ, Ma M, Wang F* & He ZY*. 2020. The systematic exploration of cadmium-accumulation characteristics of maize kernel in acidic soil with different pollution levels in China. Science of the Total Environment, 729: 138972
Liu ZQ, Li HL, Zeng XJ, Lu C, Fu JY, Guo LJ, Kimani WM, Yan HL, He ZY, Hao HQ*. Jing HC. 2020. Coupling phytoremediation of cadmium-contaminated soil with safe crop production based on a sorghum farming system. Journal of Cleaner Production, 275: 123002
Zhang F, Gu FY, Yan HL, He ZY, Wang BL, Liu H, Yang TT, Wang F*. 2020. Effects of soaking process on arsenic and other mineral elements in brown rice. Food Science and Human Wellness, 9(2): 168-175
2019
Yan HL, Xu WX, Xie JY, Gao YW, Wu LL, Sun L, Feng L, Chen X, Zhang T, Dai CH, Li T, Lin XN, Zhang ZY, Wang XQ, Li FM, Zhu XY, Li JJ, Li ZC, Chen CY, Ma, M, Zhang HL & He ZY. 2019. Variation of a major facilitator superfamily gene contributes to differential cadmium accumulation between rice subspecies. Nature Communications, 10: 2562
Yan HL, Gao YW, Wu LL, Wang LY, Zhang T, Dai CH, Xu WX, Feng L, Ma M, Zhu YG, He ZY. 2019. Potential use of the Pteris vittata arsenic hyperaccumulation-regulation network for phytoremediation. Journal of Hazardous Materials, 368: 386-396
Zhang T, Xu WX, Lin XN, Yan HL, Ma M, He ZY. 2019. Assessment of heavy metals pollution of soybean grains in North Anhui of China. Science of The Total Environment, 646: 914-922
張田,閆慧莉,何振艷.2019. 蜈蚣草中砷超富集的分子機制研究進展[J/OL].生物工程學報. https://doi.org/10.13345/j.cjb.190374
2016
He ZY, Yan HL, Chen YS, Shen HL, Xu WX, Zhang HY, Shi L, Zhu YG, Ma M. 2016. An aquaporin PvTIP4;1 from Pteris vittata may mediate arsenite uptake. New Phytologist, 209: 746-761
Sun YY, Xu WZ, Wu L, Wang RZ, He ZY, Ma M. 2016. An Arabidopsis mutant of inositol pentakisphosphate 2-kinase AtIPK1 displays reduced arsenate tolerance. Plant, Cell & Environment, 39:416-426
2015
Xu WZ, Dai WT, Yan HL, Li S, Shen HL, Chen YS, Xu H, Sun YY, He ZY, Ma M. 2015. Arabidopsis NIP3;1 plays an important role in arsenic uptake and root-to-shoot translocation under arsenite stress conditions. Molecular Plant, 8: 722-733
2014
Shen HL, He ZY, Yan HL, Xing ZN, Chen YS, Xu WX, Xu WZ, Ma M. 2014. The fronds tonoplast quantitative proteomic analysis in arsenic hyperaccumulator Pteris vittata L. Journal of Proteomics, 105: 46-57
2013
Dai WT, Yang XX, Chen H, Xu WZ, He ZY, Ma M. 2013. Phytotoxicities of inorganic arsenic and dimethylarsinic acid to Arabidopsis thaliana and Pteris vittata. Bulletin of Environmental Contamination and Toxicology, 91(6): 652-655
Chen YS, Xu WZ, Shen HL, Yan HL, Xu WX, He ZY, Ma M. 2013. Engineering arsenic tolerance and hyperaccumulation in plants for phytoremediation by a PvACR3 transgenic approach. Environmental Science &Technology, 47: 9355-9362
Xu H, Xu WZ, Xi HM, Ma WW, He ZY, Ma M. 2013. The ER luminal binding protein (BiP) alleviates Cd2%2b-induced programmed cell death through endoplasmic reticulum stress–cell death signaling pathway in tobacco cells. Journal of Plant Physiology, 170: 1434-1441
2010及以前
Ma WW, Xu WZ, Xu H, Chen YS, He ZY, Ma M. 2010. Nitric oxide modulates cadmium influx during cadmium-induced programmed cell death in tobacco BY-2 suspension cultures. Planta, 232: 325-335
Yang XX, Chen H, Dai XJ, Xu WZ, He ZY, Ma M. 2009. Evidence of vacuolar compartmentalization of arsenic in the hyperaccumulator Pteris vittata. Chinese Science Bulletin, 54: 4229-4233
Zheng YQ, Dai XJ, Wang L, Xu WZ, He ZY, Ma M. 2008. Arsenate reduces copper phytotoxicity in gametophytes of Pteris vittata. Journal of Plant Physiology, 165:1906-1916
Zheng YQ, Xu WZ, He ZY, Ma M. 2008. Plant regeneration of the arsenic hyperaccumulator Pteris vittata L. from spores and identification of its tolerance and accumulation of arsenic and copper. Acta Physiologiae Plantarum, 30: 249-255
Yang XX, Chen H, Xu WZ, He ZY, Ma M. 2007. Hyperaccumulation of arsenic by callus, sporophytes and gametophytes of Pteris vittata cultured in vitro. Plant Cell Reports, 26: 1889-1897
Zhang HY, Xu WZ, Dai WT, He ZY, Ma M. 2006. Functional characterization of cadmium-responsive garlic gene AsMT2b: A new member of metallothionein family. Chinese Science Bulletin, 51: 409-416
He ZY, Li JC, Zhang HY, Ma M. 2005. Different effects of calcium and lanthanum on the expression of phytochelatin synthase gene and cadmium absorption in Lactuca sativa. Plant Science, 168: 309-318
Zhang HY, Jiang YN, He ZY, Ma M. 2005. Cadmium tolerance and antioxidative responses of the garlic plant. Journal of Plant Physiology, 162: 977-984
Zhang HY, Xu WZ, Guo JB, He ZY, Ma M. 2005. Coordinated responses of phytochelatins and metallothioneins to heavy metals in garlic seedlings. Plant Science, 169: 1059-1065
何振艷,徐文忠,楊學習,麻密. 2005. 蜈蚣草高質量總RNA提取的一種有效方法. 植物學通報, 22(2): 198-202
