1980年9月-1984年7月,莱阳农学院农学系,农学学士
1984年9月-1986年9月,北京农业大学硕士研究生
1986年10月-1987年3月,日本国立鹿儿岛大学研究留学生
1987年4月-1989年3月,日本国立鹿儿岛大学,农学硕士
1989年4月-1992年3月,日本国立鹿儿岛大学,农学博士
1992年4月-1993年3月,日本学术振兴会特别研究员(博士后)
1993年4月-1996年11月,中国农业大学副教授
1996年12月-现在,中国农业大学教授,博士生导师
1997年7月-2003年12月,中国农业大学植物遗传育种系 主任
2004年1月-现在,中国农业大学农学(与生物技术)学院 副院长
主讲本科生课程:遗传学A,新生研讨课
主编教材:遗传学(科学出版社),植物细胞组织培养(中国农业大学出版社)
2005年《普通遗传学》获得国家精品课程(负责人)
2007年获得作物遗传育种学国家级教学团队(带头人)
2007年 获批教育部 “植物生产类复合型拔尖创新人才培养模式创新实验区” (负责人)
2007年获批北京市植物生产类实验教学示范中心(主任)
2012年《普通遗传学》获得国家精品资源共享课(负责人)
甘薯分子育种与细胞工程
国家甘薯产业技术体系遗传改良研究室主任、育种技术与方法岗位科学家(2008-2020, 910万元)
国家自然科学基金国际合作项目“全球甘薯种质资源遗传多样性分析及重要基因资源发掘”(2015-2019, 80万元)
北京市教委项目“甘薯抗旱基因克隆及功能鉴定”(2016, 50万元)
著作
[1] Liu QC,Kokubu T (eds.): Proceedings of the 1st Chinese-Japanese Symposium on Sweetpotato and Potato, China Agricultural University Press, 1995
[2] 陆漱韵,刘庆昌,李惟基:甘薯育种学,中国农业出版社, 1998
[3] 马代夫,刘庆昌主编:中国甘薯育种与产业化,中国农业大学出版社,2005
[4] Liu QC (Editor-in-Chief): Sustainable sweetpotato production technology for food,energy, health and environment-Proceedings of 3rd China-Japan-Korea Workshop on Sweetpotato. China Agricultural University Press, 2008
[5] Ma DF, Liu QC, Chen P: Sweetpotato in Food and Energy Security. China Agricultural University Press, 2010
近期期刊论文
[1] Liu QC* (2017): Improvement for agronomically important traits by gene engineering in sweetpotato. Breeding Science, 67(1): 15-26
[2] 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
[3] 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 to Fusarium oxysporum. Frontiers in Plant Science, 2017, 10.3389
[4] Shirasawa* K, Tanaka M , Takahata Y, Ma DF, Cao QH, Liu QC, Zhai H, Kwak SS, Jeong JC, Yoon UH, Lee HU, Hirakawa H & Isobe S (2017): A high-density SNP genetic map consisting of a complete set of homologous groups in autohexaploid sweetpotato (Ipomoea batatas). Scientific Reports, 7:44207
[5] Jia LC, Zhai H, He SZ Yang YF & Liu QC* (2017): Analysis of drought tolerance and genetic and epigenetic variations in a somatic hybrid between Ipomoea batatas (L.) Lam. and I. triloba L. Journal of Integrative Agriculture 2017, 16(1): 36-46
[6] 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 2017, 16(0): 60345-7
[7] Wang YN, Li Y, Zhang H, Zhai H, Liu QC* & He SZ* (2017): A soluble starch synthase I gene, IbSSI, alters the content, composition, granule size and structure of starch in transgenic sweet potato. Scientific Reports (in press)
[8] Ren ZT, Zhao HY, He SZ, Zhai H, Zhao N & LIU QC* (2017): Overexpression of IbSnRK1 enhances nitrogen uptake and carbon assimilation in transgenic sweetpotato. Journal of Integrative Agriculture 2017 (in press)
[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 2017 (in press)
[10] 翟红,何绍贞,赵宁,刘庆昌*(2017):甘薯生物技术育种研究进展。 江苏师范大学学报(自然科学版), 35(1):25-29
[11] Zhai H, Wang FB, Si ZZ, Huo JX, 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: 592-602
[12] 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, 17:945
[13] Wang B, Zhai H, He SZ, Zhang H, Ren ZT, Zhang DD & Liu QC* (2016): A vacuolar Na+/H+ antiporter gene, IbNHX2, enhances salt and drought tolerance in transgenic sweetpotato. Scientia Horticulturae, 201: 153-166
[14] Wang FB, Zhai H, AN YY, Si ZZ, He SZ & Liu QC* (2016): Overexpression of IbMIPS1 gene enhances salt tolerance in transgenic sweetpotato. Journal of Integrative Agriculture, 15(2): 271-281
[15] Wang FB, Zhu H, Kong WL, Peng RH, Liu QC & Yao QH* (2016): The Antirrhinum AmDEL gene enhances flavonoids accumulation and salt and drought tolerance in transgenic Arabidopsis. Planta, 125:387-398
[16] Wang FB, Tong WJ, Zhu H, Kong WL, Peng RH, Liu QC & Yao QH* (2016): A novel Cys2/His2 zinc finger protein gene from sweetpotato, IbZFP1, is involved in salt and drought tolerance in transgenic Arabidopsis. Planta, 243:783-797
[17] Wang YN, Li Y, Zhang H, Zhai H, Liu QC & He SZ* (2016): A plastidic ATP/ADP transporter gene, IbAATP, increases starch and amylose contents and alters starch structure in transgenic sweetpotato. Journal of Integrative Agriculture 2016, 15(9): 1968–1982
[18] Kyndt T, Quispe D, Zhai H, Jarret R, Ghislain M, Liu QC, Gheysen G & Kreuze JF* (2015): The genome of cultivated sweet potato contains Agrobacterium T-DNAs with expressed genes: An example of a naturally transgenic food crop. Proceedings of the National Academy of Sciences of the United States of America, 112(18):5844-5849
[19] Liu DG, He SZ, Song XJ, Zhai H, Liu N, Zhang DD, Ren ZT & Liu QC* (2015): IbSIMT1, a novel salt-induced methyltransferase gene from Ipomoea batatas, is involved in salt tolerance. Plant Cell Tiss Organ Cult, 120: 701-715
[20] Yang XS, Su WJ, Wang LJ, Lei J, Chai SS & Liu QC* (2015): Molecular diversity and genetic structure of 380 sweetpotato accessions as revealed by SSR markers. Journal of Integrative Agriculture, 14(4):633-641
[21] Chen W, He SZ, Liu DG, Gunvant B. Patil, Zhai H, Wang FB, Stephenson TJ, Wang YN, Wang B, Valliyodan B, Nguyen HT & Liu QC* (2015): A sweetpotato geranylgeranyl pyrophosphate synthase gene, IbGGPS, increases carotenoid content and enhances osmotic stress tolerance in Arabidopsis thaliana. PLoSONE, 10(9):e0137623.
[22] 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, ID843802
[23] 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
[24] Liu DG, He SZ, Zhai H, Wang LJ, Zhao Y, Wang B, Li RJ & Liu QC* (2014): Overexpression of IbP5CR enhances salt tolerance in transgenic sweetpotato. Plant Cell, Tissue & Organ Culture, 117:1-16
[25] 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, 170:182-188
[26] Liu DG, Wang LJ, Liu CL, Song XJ, He SZ, Zhai H & Liu QC* (2014): An Ipomoea batatas iron-sulfur cluster scaffold protein gene, IbNFU1, is involved in salt tolerance. PLOS-ONE, 9(4)e93935
[27] 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
[28] Liu QC*, Liu J, Zhang P & He SZ (2014). Root and tuber crops. Encyclopedia of Agriculture and Food Systems, 5:46-61
[29] Liu DG, Wang LJ, Zhai H, Song XJ, He SZ & Liu QC* (2014): A novel α/β-hydrolase gene IbMas enhances salt tolerance in transgenic sweetpotato. PLOS-ONE, 9(12):e115128
[30] Wang LJ, He SZ, Zhai H, Liu DG, Wang YN & Liu QC* (2013): Molecular cloning and functional characterization of a salt tolerance-associated gene IbNFU1 from sweetpotato. Journal of Integrative Agriculture, 12(1):27-35
[31] 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
[32] 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
[33] 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
[34] Jiang T, Zhai H, Wang FB, Yang N, Wang B, He SZ & Liu QC* (2013): Cloning and characterization of a carbohydrate metabolism- associated gene IbSnRK1 from sweetpotato. Scientia Horticulturae, 158:22-32
[35] 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, 32:807-820
[36] Gao S, Yuan L, Zhai H, Liu CL, He SZ & Liu QC* (2012): Overexpression of SOS genes enhanced salt tolerance in sweetpotato. Journal of Integrative Agriculture, 11(3): 378-386
[37] Wang LJ, Dai CB, Liu DG & Liu QC* (2012): Identification of a male-specific amplified fragment length polymorphism (AFLP) marker in Broussonetia papyrifera. African Journal of Biotechnology, 11(33):8196-8201
[38] Guo HJ, Liu QC* & Liu LX* (2012): Characterization of a novel chlorophyll-deficient mutant Mt6172 in wheat. Journal of Integrative Agriculture, 2012, 11(6):888-897
[39] 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
[40]关世凯 , 杨育峰, 孙亚萍, 翟红, 何绍贞, 刘庆昌*(2011):甘薯近缘野生种Ipomoea cordatotriloba 组织及原生质体培养植株再生。分子植物育种,9 :1851-1856
[41] 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, 128:408-414
[42] 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
[43] Gao S, Yuan L, Zhai H, Liu CL, He SZ & Liu QC* (2011): Transgenic sweetpotato plants expressing an LOS5 gene are tolerant to salt stress. Plant Cell, Tissue & Organ Culture, 107:205-213
[44] Liu QC* (2011): Sweetpotato omics and biotechnology in China. Plant Omics Journal,4(6):295-301 ……