何紹貞(中國農業大學農學院教授)

1990.09—1994.07，北京農業大學本科學習

1994.07—2003.12，中國農業大學組織部、人事處、產業處科長/助研

2003.12－2015.10，中國農業大學，農學與生物技術學院副院長/副研究員/博士生導師

2003.09－2008.12，中國農業大學，農學院植物遺傳育種系，博士學位

2009.01－2010.01，美國北卡州立大學，園藝系，公派訪問學者

2015.10－2018.12，中國農業大學，農學院植物遺傳育種與種子科學系，副教授/博士生導師

2018.12—至今，中國農業大學，農學院植物遺傳育種與種子科學系，教授/博士生導師

植物生物技術導論

植物生物技術實驗

北京市創新團隊崗位專家

北京市支農資金

北京市優秀人才

國家轉基因專項

[1] Zhitong Ren ,Shaozhen He, Ning Zhao, Hong Zhai, Qingchang Liu. (2018) A sucrose non-fermenting-1-related protein kinase-1gene, IbSnRK1, improves starch content, composition, granule size, degree of crystallinity and gelatinization in transgenic sweet potato. Plant Biotechnology Journal, pp: 1–12

[2] Chen Kang, Hong Zhai, Luyao Xue, Ning Zhao,Shaozhen He, Qingchang Liu. A lycopeneβ-cyclase gene, IbLCYB2, enhances carotenoid contents and abiotic stress tolerance in transgenic sweetpotato. Plant Science, 272: 243–254

[3] REN Zhi-tong, ZHAO Hong-yuan,HE Shao-zhen, ZHAI Hong, ZHAO Ning, LIU Qing-chang. Overexpression of IbSnRK1 enhances nitrogen uptake and carbon assimilation in transgenic sweetpotato. Journal of Integrative Agriculture, 17(2): 296–305

[4] MENG Yu-sha, ZHAO Ning, LI Hui, ZHAI Hong,HE Shao-zhen, LIU Qing-chang. (2018) SSR fingerprinting of 203 sweetpotato (Ipomoea batatas (L.) Lam.) varieties. Journal of Integrative Agriculture, 17(1): 86–93

[5] ZHU Hong, ZHOU Yuan-yuan, ZHAI Hong,HE Shao-zhen, ZHAO Ning, LIU Qing-chang. (2018) Transcriptome profiling reveals insights into the molecular mechanism of drought tolerance in sweetpotato. Journal of Integrative Agriculture, 17(0): 60345-7

[6] Jia LC, Zhai H,He SZ, Yang YF, Liu QC. (2017)Analysis of drought tolerance and genetic and epigenetic variations in a somatic hybrid betweenIpomoea batatas(L.) Lam. andI. trilobaL.Journal of Integrative Agriculture, 16(1): 36-46

[7] Li RJ, Kang C, Song XJ, Yu L, Liu DG,He SZ, Zhai H, Liu QC. (2017) A ζ-carotene desaturase gene,IbZDS, increases β-carotene and lutein contents and enhances salt tolerance in transgenic sweetpotato.Plant Science, 262: 39-51

[8] Li Y, Wang YN, Zhang H, Zhang Q, Zhai H, Liu QC,He SZ. (2017) The plasma membrane-localized sucrose transporter IbSWEET10 contributes to the resistance of sweet potato toFusarium oxysporum. Frontiers in Plant Science, 8: 197

[9] Meng YS, Zhao N, Li H, Zhai H,He SZ, Liu QC. (2017) SSR fingerprinting of 203 sweetpotato [Ipomoea batatas(L.) Lam.] varieties. Journal of Integrative Agriculture, 17(1): 86–93

[10] Ren ZT, Zhao HY,He SZ, Zhai H, Zhao N, Liu QC. (2017) Overexpression ofIbSnRK1enhances nitrogen uptake and carbon assimilation in transgenic sweetpotato. Journal of Integrative Agriculture, 17(2): 296–305

[11] Yannan Wang, Yan Li, Huan Zhang, Hong Zhai, Qingchang Liu,Shaozhen He. (2017) A soluble starch synthase I gene,IbSSI, alters the content, composition, granule size and structure of starch in transgenic sweet potato. Scientific Reports, 7(1): 2315

[12] Zhang H, Zhang Q, Wang YN, Li Y, Zhai H, Liu QC,He SZ.(2017) Characterization of salt tolerance and fusarium wilt resistance of a sweetpotato mutant. Journal of Integrative Agriculture, 16(9): 1946-1955

[13] Zhang H, Zhang Q, Zhai H, Li Y, Wang XF, Liu QC,He SZ. (2017)Transcript profile analysis reveals important roles of jasmonic acid signalling pathway in the response of sweet potato to salt stress.Scientific Reports, 7: 40819

[14] Si ZZ, Du B, Huo JX,He SZ, Liu QC, Zhai H. (2016) A genome-wide BAC-end sequence survey provides first insights into sweetpotato (Ipomoea batatas(L.) Lam.) genome composition. BMC Genomics, 17(1): 945

[15] Wang B, Zhai H,He SZ, Zhang H, Ren ZT, Zhang DD, Liu QC. (2016) A vacuolar NaH+antiporter gene,IbNHX2, enhances salt and drought tolerance in transgenic sweetpotato. Scientia Horticulturae, 201: 153-166

[16] Wang FB, Zhai H, AN YY, Si ZZ,He SZ, Liu QC. (2016) Overexpression ofIbMIPS1gene enhances salt tolerance in transgenic sweetpotato. Journal of Integrative Agriculture, 15(2): 271-281

[17] Wang YN, Li Y, Zhang H, Zhai H, Liu QC,He SZ.(2016) A plastidic ATPADP transporter gene,IbAATP, increases starch and amylose contents and alters starch structure in transgenic sweetpotato. Journal of Integrative Agriculture, 15(9): 1968-1982

[18] Zhai H, Wang FB, Si ZZ,HuoJX, Xing L, An YY,He SZ, Liu QC. (2016) A myo-inositol-1-phosphate synthase gene,IbMIPS1, enhances salt and drought tolerance and stem nematode resistance in transgenic sweetpotato. Plant Biotechnology Journal, 14(2): 592-602

[19] Chen W,He SZ, Liu DG, Gunvant BP, Zhai H, Wang FB, Troy JS, Wang YN, Wang B, Babu V, Henry TN, Liu QC. (2015) A sweetpotato geranylgeranyl pyrophosphate synthase gene,IbGGPS, increases carotenoid content and enhances osmotic stress tolerance inArabidopsis thaliana. Plos One, 10(9): e0137623.

[20] Li RJ, Zhai H, Kang C, Liu DG,He SZ, Liu QC. (2015) De novo transcriptome sequencing of the orange-fleshed sweet potato and analysis of differentially expressed genes related to carotenoid biosynthesis. International Journal of Genomics, 13: 1-10

[21] Liu DG,He SZ, Song XJ, Zhai H, Liu N, Zhang DD, Ren ZT, Liu QC. (2015)IbSIMT1, a novel salt-induced methyltransferase gene fromIpomoea batatas, is involved in salt tolerance. Plant Cell Tiss Organ Cult, 120(2): 701-715

[22] Jiang T, Zhai H, Wang FB, Zhou HN, Si ZZ,He SZ, Liu QC. (2014) Cloning and characterization of a salt tolerance-associated gene encoding trehalose-6-phosphate synthase in sweetpotato. Journal of Integrative Agriculture, 13(8): 1651-1661

[23] Li H, Zhao N, Yu XX, Liu YX, Zhai H,He SZ, Li Q, Ma DF, Liu QC. (2014)Identification of QTLs for storage root yield in sweetpotato. Scientia Horticulturae, 170(3): 182-188

[24] Liu DG,He SZ, Zhai H, Wang LJ, Zhao Y, Wang B, Li RJ, Liu QC. (2014) Overexpression ofIbP5CRenhances salt tolerance in transgenic sweetpotato. Plant Cell, Tissue and Organ Culture, 117(1): 1-16

[25] Liu DG, Wang LJ, Liu CL, Song XJ,He SZ, Zhai H, Liu QC. (2014) AnIpomoea batatasiron-sulfur cluster scaffold protein gene,IbNFU1, is involved in salt tolerance. Plos One, 9(4): e93935

[26] Liu QC, Liu J, Zhang P,He SZ.(2014) Root and tuber crops. Encyclopedia of Agriculture and Food Systems, 5: 46-61

[27] Liu DG, Wang LJ, Zhai H, Song XJ,He SZ, Liu QC. (2014) A novelα/β-hydrolasegeneIbMasenhances salt tolerance in transgenic sweetpotato. Plos One, 9(12): e115128

[28] Yu XX, Zhao N, Li H, Jie Q, Zhai H,He SZ, Li Q, Liu QC. (2014) Identification of QTLs for starch content in sweetpotato (Ipomoea batatas(L.) Lam.). Journal of Integrative Agriculture, 13(2): 310-315

[29] Chen W, Zhai H, Yang YJ,He SZ,Liu DG, Liu QC. (2013) Identification of differentially expressed genes in sweetpotato storage roots between Kokei No. 14 and its mutant Nongdafu 14 using PCR-based cDNA subtraction. Journal of Integrative Agriculture, 12(4): 589-595

[30] Jiang T, Zhai H, Wang FB, Yang N, Wang B,He SZ, Liu QC. (2013) Cloning and characterization of a carbohydrate metabolism- associated geneIbSnRK1from sweetpotato. Scientia Horticulturae, 158(4): 22-32

[31] Wang LJ,He SZ, Zhai H, Liu DG, Wang YN, Liu QC. (2013) Molecular cloning and functional characterization of a salt tolerance-associated geneIbNFU1from sweetpotato. Journal of Integrative Agriculture, 12(1):27-35

[32] Yu L, Zhai H, Chen W,He SZ, Liu QC. (2013) Cloning and functional analysis of lycopene ε-cyclase (IbLCYe) gene from sweetpotato,Ipomoea batatas(L.) Lam. Journal of Integrative Agriculture, 12(5):773-780

[33] Zhao N, Zhai H, Yu XX, Liu ZS,He SZ, Li Q, Ma DF, Liu QC. (2013) Development of SRAP markers linked to a gene for stem nematode resistance in sweetpotato, Ipomoea batatas (L.) Lam. Journal of Integrative Agriculture, 12(3): 414-419

[34] Zhao N, Yu XX, Jie Q, Li H, Li H, Hu J, Zhai H,He SZ, Liu QC. (2013) A genetic linkage map based on AFLP and SSR markers and mapping of QTLs for dry-matter content in sweetpotato. Molecular Breeding, 32(4): 807-820

[35] Liu DG, Zhao N, Zhai H, Yu XX, Jie Q, Wang LJ,He SZ, Liu QC. (2012) AFLP fingerprinting and genetic diversity of main sweetpotato varieties in China. Journal of Integrative Agriculture, 11(9):1424-1433

[36] Gao S, Yuan L, Zhai H, Liu CL,He SZ, Liu QC. (2012) Overexpression ofSOSgenes enhanced salt tolerance in sweetpotato. Journal of Integrative Agriculture, 11(3): 378-386

[37] Gao S, Yu B, Yuan L, Zhai H,He SZ, Liu QC. (2011) Production of transgenic sweetpotato plants resistant to stem nematodes using oryzacystatin-I gene. Scientia Horticulturae, 128(4): 408-414

[38] Gao S, Yu B, Zhai H,He SZ, Liu QC. (2011) Enhanced stem nematode resistance of transgenic sweetpotato plants expressing oryzacystatin-I gene. Agricultural Sciences in China, 10(4): 519-525

[39] Gao S, Yuan L, Zhai H, Liu CL,He SZ, Liu QC. (2011) Transgenic sweetpotato plants expressing anLOS5gene are tolerant to salt stress. Plant Cell, Tissue and Organ Culture, 107(2): 205-213

[40]He SZ, Han YF, Wang YP, Zhai H, Liu QC. (2009) In vitro selection and identification of sweetpotato (Ipomoea batatas(L.) Lam.) plants tolerant to NaCl. Plant Cell, Tissue and Organ Culture, 96(1): 69-74

[41] Yang YF, Guan SK, Zhai H,He SZ, Liu QC. (2009) Development and evaluation of a storage root-bearing sweetpotato somatic hybrid betweenIpomoea batatas(L.) Lam. andI. trilobaL. Plant Cell, Tissue and Organ Culture, 99(1): 83-89

[42] Zang N, Zhai H, Gao S, Chen W,He SZ, Liu QC. (2009) Efficient production of transgenic plants using the bar gene for herbicide resistance in sweetpotato. Scientia Horticulturae, 122(4): 649-653

[43] Yu B, Zhai H, Wang YP, Zang N,He SZ, Liu QC. (2007) EfficientAgrobacterium tumefaciens-mediated transformation using embryogenic suspension cultures in sweetpotato,Ipomoea batatas(L.) Lam. Plant Cell, Tissue and Organ Culture, 90(3): 265-273