劉慶昌

1980年9月-1984年7月，萊陽農學院農學系，農學學士

1984年9月-1986年9月，北京農業大學碩士研究生

1986年10月-1987年3月，日本國立鹿兒島大學研究留學生

1987年4月-1989年3月，日本國立鹿兒島大學，農學碩士

1989年4月-1992年3月，日本國立鹿兒島大學，農學博士

1992年4月-1993年3月，日本學術振興會特別研究員(博士後) ^[1] 

1993年4月-1996年11月，中國農業大學副教授

1996年12月-現在，中國農業大學教授，博士生導師

1997年7月-2003年12月，中國農業大學植物遺傳育種系 主任

2004年1月-現在，中國農業大學農學（與生物技術）學院 副院長 ^[1] 

主講本科生課程：遺傳學A，新生研討課 ^[1] 

甘薯分子育種與細胞工程 ^[1] 

劉慶昌一直從事甘薯細胞工程和分子育種研究，先後主持國家“863”、自然科學基金、科技攻關及教育部各類基金、國際合作項目21項。

通過這些項目：

(1)建立了甘薯及其近緣野生種的細胞組織培養有效植株再生體系和原生質體培養植株再生體系；

(2)建立了甘薯及其近緣野生種的體細胞雜交技術體系，首次獲得甘薯組種間體細胞雜種植株；

(3)首次建立了甘薯細胞水平輻射技術體系並獲得數個甘薯優異突變體；

(4)首次將甘薯胚性懸浮細胞應用於甘薯基因工程研究，大大提高了甘薯遺傳轉化效率；

(5)初步建立了甘薯莖線蟲病抗性等性狀的分子標記；

(6)探明瞭低倍體種間雜種與甘薯雜交低結實的原因，選育出高產、高澱粉含量、高抗病的甘薯新材料。

先後主持國家“863”、國家自然科學基金、國家科技支撐計劃、國際合作項目等近30項，現為國家甘薯產業技術體系生物技術育種崗位科學家。

國家甘薯產業技術體系遺傳改良研究室主任、育種技術與方法崗位科學家（2008-2020, 910萬元）

國家自然科學基金國際合作項目“全球甘薯種質資源遺傳多樣性分析及重要基因資源發掘”（2015-2019, 80萬元）

北京市教委項目“甘薯抗旱基因克隆及功能鑑定”（2016, 50萬元） ^[1] 

發表學術論文150餘篇，其中SCI收錄30餘篇，其代表論文有：

[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. andI.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]翟紅，何紹貞，趙寧，劉慶昌*（2017）：甘薯生物技術育種研究進展。江蘇師範大學學報（自然科學版），35（1）：25-29

[11] 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: 592-602

[12] Si ZZ, Du B, Huo JX He SZ,LiuQC* & 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 theNationalAcademyof Sciences of theUnited 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 novelα/β-hydrolasegene 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]關世凱,楊育峯,孫亞萍,翟紅,何紹貞,劉慶昌*(2011):甘薯近緣野生種Ipomoea cordatotriloba組織及原生質體培養植株再生。分子植物育種，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 …… ^[1] 

[1] Liu QC，Kokubu T (eds.): Proceedings of the 1st Chinese-Japanese Symposium on Sweetpotato andPotato,ChinaAgricultural University Press, 1995

[2]陸漱韻，劉慶昌，李惟基：甘薯育種學，中國農業出版社, 1998

[3]馬代夫，劉慶昌主編：中國甘薯育種與產業化，中國農業大學出版社，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.ChinaAgricultural University Press, 2008

[5] Ma DF, Liu QC, Chen P: Sweetpotato in Food and Energy Security.ChinaAgricultural University Press, 2010 ^[1] 

1998年以來，他連續6次獲學校“課堂教學效果優秀獎”；指導了30餘名碩士、博士生，多人次獲學校優秀畢業生、杜邦獎學金、校長獎學金等；主持、參加6項國家、部及學校教改項目；主編、編寫了21世紀課程教材《植物細胞組織培養》、《遺傳學（第三版）》，編寫了《作物育種學各論》的甘薯育種部分；完成了農林主要課程國家試題庫遺傳學；製作了《普通遺傳學課件》。

1997年獲北京市優秀教師稱號；1999年被評為中國農業大學優秀教師；2001年獲北京市優秀教學成果二等獎，同年享受政府特殊津貼，並獲教育部教學科研獎勵計劃優秀青年教師獎；2003年獲首屆北京市和全國高等學校教學名師獎，同年獲寶鋼教育基金優秀教師特等獎；2004年主持的《普通遺傳學》被評為國家精品課程。

1995年獲教育部科技進步二等獎，1998年獲第六屆中國青年科技獎、第六屆霍英東青年教師獎，1999年獲山東省科技進步三等獎，2002年獲國家傑出青年科學基金，2004年入選“新世紀百千萬人才工程國家級人選”。