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劉春明

(北京大學現代農學院院長)

編輯 鎖定
劉春明,男,博士,研究員,教授,博士生導師。 [1] 
現任北京大學現代農學院院長,農業農村部僑聯副主席,中國作物學會常務副理事長、秘書長,中國植物學會常務理事,國家重大研究計劃首席科學家,中國科學院大學崗位教授,中國細胞學會副監事長,Food and Energy Security和Plant Molecular Biology Reporter期刊副主編等職。 [2] 
中文名
劉春明
國    籍
中國
民    族
漢族
畢業院校
山東師範大學
學位/學歷
博士
專業方向
植物種子發育的分子機理的研究
職    務
中國科學院光合作用與環境分子生理學重點實驗室常務副主任
發表論文數量
28篇(截至2019年7月) [3] 

劉春明人物履歷

編輯

劉春明教育經歷

1984年7月山東師範大學獲學士學位
1987年9月中國科學院上海植物生理研究所獲碩士學位
1996年6月英國John Innes Center/UEA獲博士學位 [2] 

劉春明工作經歷

1987年9月-1990年2月山東師範大學擔任助教;
1990年2月-1992年11月受國家人事部專家司派遣以Visiting Scientist在新加坡國立大學分子與細胞生物學研究所(IMCB)工作;
1996年2月-1999年2月在美國奧克拉何馬州立大學做博士後;
1999年2月-2005年12月受聘於荷蘭瓦赫寧根大學國際植物中心(Plant Research International)擔任種子發育實驗室主任(Section Leader)/高級研究員(Senior Scientist);
2005年7月-2011年6月主持籌建中國科學院植物研究所信號轉導與代謝組學研究中心並擔任主任;
2011年7月-2016年5月任中國科學院植物分子生理學重點實驗室主任;
2016年5月-2020年5月任中國農科院作物科學研究所所長,黨委副書記;
2020年6月11日,北京大學現代農學院院長。 [2]  [4] 

劉春明社會任職

編輯
⒈中國細胞學會副理事長。
⒉Journal of Integrative Plant Biology主編。
⒊Journal of Experimental Botany編委。
⒋Plant Molecular Biology Reporter副主編。

劉春明研究方向

編輯
主要從事植物種子發育的分子機理的研究。
主要研究:
⒈植物胚胎髮育啓動的分子機理。
⒉多肽激素在控制植物幹細胞中的作用。
⒊水稻胚乳營養改良。

劉春明承擔科研項目情況

編輯
⒈“十一五”重大研究計劃項目:“蛋白質功能的代謝與多肽組學研究”首席科學家。

劉春明科研成果

編輯
⒈提出了生長素的極性運輸控制植物器官原基形成的理論。
⒉建立了植物界第一個胞質分裂研究的突變體模型。
⒊闡明瞭控制胚乳細胞分裂所必需的一系列遺傳位點。
⒋發現了AMP脱氨酶在受精卵激活過程中的關鍵作用。
⒌證實了控制細胞分化的CLV3和CLE19基因是以多肽激素形式參與信號傳遞。

劉春明專著和中文期刊

編輯
徐婷婷, 宋秀芬, 任仕超, 劉春明. 2015.根的發育與幹細胞調控. 植物器官分化與器官發生(許智宏、種康主編), pp154-169
龔化勤, 郭磊, 劉春明. 2015. 植物胚胎髮育的分子機理. 植物器官分化與器官發生(許智宏、種康主編). pp154-169
宋秀芬, 徐婷婷, 劉春明.2012. 多肽激素. 植物激素作用的分子機理(許智宏、薛紅衞主編), pp261-294
蔣麗、齊興雲、龔化勤、劉春明. 2007. 被子植物胚胎髮育的分子調控. 植物學報, 24: 389-398
李琛, 宋秀芬, 劉春明. 2006. 高等植物中的多肽激素. 植物學通報, 23: 584-594
許智宏,劉春明主編,1998. 植物發育的分子機理. 北京:科學出版社
許智宏, 劉春明. 1992. 高等植物的遺傳轉化與遺傳工程. 植物生理與分子生物學(餘叔文主編), 科學出版社, pp63-83

劉春明研究論文

編輯
Jiang CC, Lei MM, Guo Y, Gao GQ, Shi LJ, Jin YL, Cai Y, Himmelbach A, Zhou SH, He Q, Yao XF, Kan JH, Haberer G, Duan FY, Li LH, Liu J, Zhang J, Spannagl M, Liu CM, Stein N, Feng ZY, Mascher M,* Yang P*. 2022. A reference guided TILLING by amplicon-seq platform supports forward and reverse genetics in barley. Plant Communications, https://doi.org/10.1016/j.xplc.2022.100317
Liu JX, Wu MW, Liu CM*, 2022. Cereal Endosperms: Development and storage product accumulations. Annual Review of Plant Biology, https://www.annualreviews.org/doi/pdf/10.1146/annurev-arplant-070221-024405
Song XF, Hou XL, Liu CM*. 2022. CLE peptides: critical regulators for stem cell maintenance in plants. Planta, 255: 5
Liu JL, Chen MM, Chen WQ, Liu CM, He YB, Song XF*. 2021. A CASE toolkit for easy and efficient multiplex transgene-free gene editing. Plant Physiology, https://doi.org/10.1093/plphys/kiab573
Li DQ, Wu XB, Wang HF, Feng X, Yan SJ, Wu SY, Liu JX, Yao XF, Bai AN, Zhao H, Song XF, Guo L, Zhang SY, Liu CM*. 2021. Defective mitochondrial function by mutation in THICK ALEURONE 1 encoding a mitochondrion-targeted single-stranded DNA binding protein leads to increased aleurone cell layers and improved nutrition in rice. Molecular Plant, 14(8): 1343-1361
Zheng XM§, Pang HB§, Wang JR, Yao XF, Song Y, Li F, Lou DJ, Ge JY, Zhao ZY, Qiao WH, Kim SR, Ye GY, Olsen KM*, Liu CM*, Yang QW*. 2021. Genomic signatures of domestication and adaptation during geographical expansions of rice cultivation. Plant Biotechnol. J. https://doi.org/10.1111/pbi.13730.
Yu JT, Mao CJ, Zhong Q, Yao XF, Li P, Liu CM* and Ming F*. 2021. OsNAC2 Is Involved in Multiple Hormonal Pathways to Mediate Germination of Rice Seeds and Establishment of Seedling. Front. Plant Sci. https://doi.org/10.3389/fpls.2021.699303.
Li DQ, Wu XB, Wang HF, Feng X, Yan SJ, Wu SY, Liu JX, Yao XF, Bai AN, Zhao H, Song XF, Guo L, Zhang SY, Liu CM*. 2021. Defective mitochondrial function by mutation in THICK ALEURONE 1 encoding a mitochondrion-targeted single-stranded DNA-binding protein leads to increased aleurone cell layers and improved nutrition in rice. Mol Plant. 14(8): 1343-1361.
Liu T, Jiang GQ, Yao XF, Liu CM*. 2021. The leucine-rich repeat receptor-like kinase OsERL plays a critical role in anther lobe formation in rice. Biochem Biophys Res Commun.563: 85-91.
Liu Q, Xu J, Zhu Y, Mo Y, Yao XF, Wang R, Ku W, Huang Z, Xia S, Tong J, Huang C, Su Y, Lin W, Peng K, Liu CM and Xiao L*. 2021.The Copy Number Variation of OsMTD1 Regulates Rice Plant Architecture. Front. Plant Sci. 11: 620282.
Hou XL, Chen WQ, Hou YF, Gong HQ, Sun J, Wang Z, Zhao H, Cao XF, Song XF*, Liu CM*. 2020. DEAD-BOX RNA HELICASE 27 Regulates MicroRNA Biogenesis, Zygote Division and Stem Cell Homeostasis. The Plant Cell, doi:10.1105/tpc.20.00084.
Yin WC, Xiao YH, Niu M, Meng WJ, Li LL, Zhang XX, Liu DP, Zhang GX, Qian YW, Sun ZT, Huang RY, Wang SP, Liu CM, Chu CC, Tong HN*. 2020. ARGONAUTE2 Enhances Grain Length and Salt Tolerance by Activating BIG GRAIN3 to Modulate Cytokinin Distribution in Rice. The Plant Cell, 32(7): 2292-2306.
Liu CM*. 2020. The war between wheat and Fusarum: fighting with an alien weapon. SCIENCE CHINA Life Sciences, 63(9): 1425-1427.
Zhang XF, Tong JH, Bai AN, Liu CM, Xiao LT, Xue HW*. 2020. Phytohormone dynamics in developing endosperm influence rice grain shape and quality. Journal of Integrative Plant Biology, 62(10): 1625-1637.
Yao XF, Wu SY, Guo L, Liu CM*. 2020. Efficient CELI endonuclease production in Nicotiana benthamiana through transient expression and applications in detections of mutation and gene editing events. Plant Science, 296: 110469.
Song ZB, Sui XY, Li MY, Gao YL, Li WZ, Zhao L, Li F, Yao XF, Liu CM, Wang BW*. 2020. Development of a nornicotine-reduced flue-cured tobacco line via EMS mutagenesis of nicotine N-demethylase genes. Plant Signaling and Behavior, 15(2): e1710053.
Zhang DJ§, GuoXY§, Xu YY, Li H, Ma L, Yao XF, Weng YX, Guo Y, Liu CM, Chong K*. 2019. OsCIPK7 point‐mutation leads to conformation and kinase‐activity change for sensing cold response. Journal of Integrative Plant Biology, 61: 1194-1200.
Wu MW, Zhao H, Zhang JD, Guo L, Liu CM*. 2019. RADICLELESS 1 (RL1)-mediated nad4 intron 1 splicing is crucial for embryo and endosperm development in rice (Oryza sativa L.). Biochemical and Biophysical Research Communications, 523(1): 220-225.
Mao C, He J, Liu L, Deng Q, Yao XF, Liu CM, Ming F*. 2019. OsNAC2 integrates auxin and cytokinin pathways to modulate rice root development. Plant Biotechnology Journal, 18(2): 429-442.
劉春明*. 2019. 防範學術不端的實踐與思考. 中國科技期刊研究. 2019, 30(1): 6-8.
Zhao T, Huan Q, Sun J, Liu C, Hou X, Yu X, Silverman IM, Zhang Y, Gregory BD, Liu CM, Qian WF, Cao XF*. 2019. Impact of poly (A)-tail G-content on Arabidopsis PAB binding and their role in enhancing translational efficiency. Genome Biology, 20: 1-12.
Yu K§, Liu D§, Chen Y, Wang D, Yang W, Yang W, Liu CM*, Zhang AM*. 2019. Unraveling the genetic architecture of grain size in einkorn wheat through linkage and homology mapping, and transcriptomic profiling. Journal of Experimental Botany, 70: 4671-4688.
Ren SC§, Song XF§, Chen WQ, Lu R, Lucas WJ, Liu CM*. 2019. CLE25 peptide regulates phloem initiation in Arabidopsis through a CLERK‐CLV2 receptor complex. Journal of Integrative Plant Biology, 61: 1043-1061.
Gao YL§, Yao XF§, Li WZ, Song ZB, Wang BW, Wu YP, Shi JL, Liu GS, Li YP, Liu CM*. 2019. An efficient TILLING platform for cultivated tobacco. Journal of Integrative Plant Biology, 62: 165-180.
He Y, Yan L, Ge C, Yao XF, Han X, Wang R, Xiong LZ, Jiang LW, Liu CM, Zhao YD*. 2019. PINOID is required for formation of the stigma and style in rice. Plant Physiology, 180: 926-936.
Zhang LM§, Leng CY§, Luo H§, Wu XY§, Liu ZQ§, Zhang YM, Zhang H, Xia Y, Shang L, Liu CM, Hao DY, Zhou YH, Chu CC, Cai H, Jing HC*. 2018. Sweet sorghum originated through selection of dry, a plant-specific NAC transcription factor gene. Plant Cell, 30: 2286-2307.
Liu JX§, Wu XB§, Yao XF, Yu R, Larkin P, Liu CM*. 2018. Mutations in the DNA demethylase OsROS1 result in a thickened aleurone and improved nutritional value in rice grains. PNAS. 115: 11327-11332.
Song XG, Lu ZF, Yu H, Shao GN, Xiong JS, Meng XB, Jing YH, Liu GF, Xiong GS, Duan JB, Yao XF, Liu CM, Li HQ, Wang YH, Li JY. 2017. IPA1 functions as a downstream transcription factor repressed by D53 in strigolactone signaling in rice. Cell Research, 27: 1128-1141.
Wu XB§, Liu JX§, Li DQ, Liu CM*. 2016. Rice caryopsis development II: Dynamic changes in the endosperm. Journal of Integrative Plant Biology, 58: 786-798.
Wu XB, Liu JX, Li DQ, Liu CM. 2016. Rice caryopsis development I: Dynamic changes in different cell layers. Journal of Integrative Plant Biology, 58: 772-785.
Guo L§, Jiang L§, Zhang Y, Lu XL, Xie Q, Weijers D, Liu CM. 2016. The anaphase promoting complex initiates zygote division in Arabidopsis through degradation of cyclin B1. Plant Journal, 86: 161-174. (*Co-first author)
Bai AN, Lu XD, Li DQ, Liu JX, Liu CM*. 2016. NF-YB1-regulated expression of sucrose transporters in aleurone facilitates sugar loading to rice endosperm. Cell Research, 26: 384-388.
Guo L, Liu CM*. 2015. A single-nucleotide exon found in Arabidopsis. Scientific Reports, 5: 18087.
Wu X, Liu J, Li D, Liu CM*. 2015. Rice caryopsis development: Dynamic changes in different cell layers. Journal of Integrative Plant Biology, doi: 10.1111/jipb.12440.
Xu TT, Ren SC, Song XF, Liu CM*. 2015. CLE19 expressed in the embryo regulates both cotyledon establishment and endosperm development in Arabidopsis. Journal of Experimental Botany, 66: 5217-5227.
Liu CM*. 2015. Auxin binding protein 1 (ABP1): A matter of fact. Journal of Integrative Plant Biology, 57: 234-235.
Yan SJ, Liang YT, Zhang JD, Chen Z, Liu CM*. 2014. Autoxidated linolenic acid inhibits aflatoxin biosynthesis in Aspergillus flavus via oxylipin species. Fungal Genetics and Biology, 81: 229-237.
Lu X, Zhang D, Li S, Su Y, Liang Q, Meng H, Shen S, Fan Y, Liu CM, Zhang C*. 2014. FtsHi4 is essential for embryogenesis due to its influence on chloroplast development in Arabidopsis. PLoS ONE, 9: e99741.
Zhang Z, Song Y, Liu CM, Thomma B*. 2014. Mutational analysis of the Ve1 immune receptor that mediates verticillium resistance in tomato. PloS ONE, 9: e99511.
Zhang JD, Han LD, Yan SJ, Liu CM*. 2014. The non-metabolizable glucose analog D-glucal inhibits aflatoxin biosynthesis and promotes kojic acid production in Aspergillus flavus. BMC Microbiology, 14: 95-104.
Xu TT, Song XF, Ren SC, Liu CM*. 2013. The sequence flanking the N-terminus of the CLV3 peptide is critical for its cleavage and activity in stem cell regulation in Arabidopsis. BMC Plant Biology, 13:225, doi:10.1186/1471-2229-13-225.
Song XF, Xu TT, Ren SC, Liu CM*. 2013. Individual amino acid residues in CLV3 peptide contribute to its stability in vitro. Plant Signal Behavior, 8: e25344.
Li S, Chen M. Yu D, Ren S, Sun S, Liu L, Ketelaar, T, Emons AM and Liu CM*. 2013. EXO70A1-mediated vesicle trafficking is critical for tracheary element development in Arabidopsis. Plant Cell, 25: 1774-1786.
Song XF, Guo P, Ren SC, Xu TT, Liu CM*. 2013. Antagonistic peptide technology for functional dissection of CLE genes in Arabidopsis. Plant Physiology, 161, 1076-1085
Jiang GQ, Yao XF and Liu CM*. 2013. A simple CELI endonuclease-based protocol for genotyping both SNPs and InDels. Plant Molecular Biology Reporter, 1325-1335.
Zhang Z, van Esse HP, van Damme M, Fradin EF, Liu CM, Thomma BPHJ*. 2013. Ve1-mediated resistance against Verticillium does not involve a hypersensitive response in Arabidopsis. Molecular Plant Pathology, 14: 719–727.
Zhang Y, Immink R, Liu CM, Emons A and Ketelaar T*. 2013. The Arabidopsis exocyst subunit SEC3A is essential for embryo development and accumulates in transient puncta at the plasma membrane. New Physiologist, 199:74-88.
Chu H, Liang W, Li J, Hong F, Wu Y, Wang L, Wang J, Wu P, Liu CM, Zhang Q, Xu J, Zhang D*. 2013. A CLE-WOX signalling module regulates root meristem maintenance and vascular tissue development in rice. Journal of Experimental Botany, 64: 5359-5369.
Brandt R, Xie Y, Musielak T, Graeff M, Stierhof YD, Huang H, Liu CM, Wenkel S*. 2013. Control of stem cell homeostasis via interlocking microRNA and microProtein feedback loops, Mech. Dev. 130: 25-33.
Zhang Z, Fradin E, Jonge R, Esse H.P, Smit P, Liu CM and Thomma B*. 2013. Optimized agroinfiltration and virus-induced gene silencing to study ve1-mediated Verticillium resistance in tobacco. Molecular Plant-Microbe Interactions, 26(2): 182-191.
Song XF, Yu DL, Xu TT, Ren SC, Guo P, Liu CM*. 2012, Contributions of individual amino acid residues to the endogenous CLV3 function in shoot apical meristem maintenance in Arabidopsis. Molecular Plant, 5(2): 515-523.
Zhang S, Haider I, Kohlen W, Jiang L, Bouwmeester H, Meijer AH, Schluepmann H, Liu CM*, Ouwerkerk PB*. 2012. Function of the HD-Zip I gene Oshox22 in ABA-mediated drought and salt tolerances in rice. Plant Molecular Biology, 80: 571–585.
Yu DL, Jiang L, Gong HQ, Liu CM*. 2012. EMBRYONIC FACTOR 19 encodes a PPR protein that is essential for the initiation of zygotic embryogenesis in Arabidopsis. Journal of Integrative Plant Biology, 54(1): 55-64.
Yan SJ, Liang YT, Zhang JD and Liu CM*. 2012. Aspergillus flavus grown in peptone as the carbon source exhibits spore density- and peptone concentration-dependent aflatoxin biosynthesis. BMC Microbiology, 12:106.
Wang ZZ, Yan SJ, Liu CM, Chen F and Wang T*. 2012. Proteomic Analysis reveals an aflatoxin-triggered immune response in cotyledons of Arachis hypogaea infected with Aspergillus flavus. Journal of Proteome Research, 11: 2739-2753.
Zheng Y, Xin H, Lin J, Liu CM and Huang SJ*. 2012. An Arabidopsis class II Formin, AtFH19, nucleates actin assembly, binds to the barbed end of actin filaments and antagonizes the effect of AtFH1 on actin dynamics. Journal of Integrative Plant Biology, 54(10): 800-813.
Zheng LY, Guo XS, He B, Sun LJ, Peng Y, Dong SS, Liu TF, Jiang S, Ramachandran S, Liu CM, Jing HC*. 2011. Genome-wide patterns of genetic variation in sweet and grain sorghum (Sorghum bicolor). Genome Biology. 12(11): R114.
Ma J, Hanssen M, Lundgren K, Hernandez H, Delatte T, Ehlert A, Liu CM, Schluepmann H, Droge-Laser H, Moritz T, Smeekens S and Hanson J*. 2011. The sucrose-regulated Arabidopsis transcription factor bZIP11 reprograms metabolism and regulates trehalose metabolism. New Phytologist,191(3): 733-745.
Li S, Os G van, Ren S, Yu D, Ketelaar T, Emons A and Liu CM*. 2010. Expression and functional analyses of EXO70 genes in Arabidopsis implicate their roles in regulating cell type-specific exocytosis. Plant Physiology, 154: 1819-1830.
Liu CM*, Hu Y .2010. Plant stem cells and their regulations in shoot apical meristems. Frontier Biology, 5: 417-423.
Song XF, Guo P, Li C, Liu CM*. 2010. The cysteine pairs in CLV2 are not necessary for sensing the CLV3 peptide in shoot and root meristems. Journal of Integrative Plant Biology, 52: 774-781
Zhou W, Wei L, Xu J, Zhai QZ, Jiang HL, Chen R, Chen Q, Sun JQ, Chu JF, Zhu LH, Liu CM and Li CY*. 2010. Arabidopsis tyrosylprotein sulfotransferase acts in the Auxin/PLETHORA pathway in regulating postembryonic maintenance of the root stem cell niche. Plant Cell, 22: 3692-3709.
Zhu YF, Wang YQ, Li RL, Song XF, Wang QL, Huang HJ, Jin JB, Liu CM and Lin JX*. 2010. Analysis of interactions among the CLAVATA3 receptors reveals a direct interaction between CLAVATA2 and CORY in Arabidopsis. Plant Journal, 61: 223-233.
Wang QL, Chen B, Liu P, Zheng MZ, Wang YQ, Cui SJ, Sun DY, Fang XH, Liu CM, Lucas WJ, and Lin JX*. 2009. Calmodulin Binds to Extracellular Sites on the Plasma Membrane of Plant Cells and Elicits a Rise in Intracellular Calcium Concentration. Journal of Biological Chemistry, 284: 12000-12007.
Fradin EM, Zhang Z, Juarez Ayala JC, Castroverde CDM, Nazar RN, Robb J, Liu CM, and Thomma B.P.H.J.*. 2009. Genetic Dissection of Verticillium Wilt Resistance Mediated by Tomato Ve11. Plant Physiology, 150: 320–332.
Fan YF, Jiang L, Gong HQ and Liu CM*. 2008. Sexual Reproduction in Higher Plants I: Fertilization and the Initiation of Zygotic Program. Journal of Integrative Plant Biology, 50: 860-867.
Wang G, Ellendorff U, Kemp B, Mansfield JW, Forsyth A, Mitchell K, Bastas K, Liu CM, Woods-Tor A, Zipfel C, de Wit PJGM, Jones JDG, Tor M, and Thomma BPHJ*. 2008. A genome-wide functional investigation into the roles s of receptor-like proteins in Arabidopsis. Plant Physiology, 147: 503-517.
Fiers M, Ku KL, Liu CM*. 2007. CLE peptide ligands and their roles in establishing meristems. Current Opinion of Plant Biology, 10: 39-43.
Ribarits A, Mamun ANK, Li S, Resch T, Fiers M., Heberle-Bors E, Liu CM and Touraev A*. 2007. Combination of reversible male sterility and doubled haploid production by targeted inactivation of cytoplasmic glutamine synthetase in developing anthers and pollen. Plant Biotechnology Journal, 5: 483–494.
Fiers M, Golemiec E, van der Schors R, van der Geest L, Li KW, Stiekema WJ, Liu CM*. 2006. The CLV3/ESR motif of CLV3 is functionally independent from the non-conserved flanking sequences. Plant Physiology, 141, 1284-1294.
Fiers M, Golemiec E, Xu J, Geest L. van der, Heidstra R, Stiekema W, and Liu CM*. 2005. The 14-Amino Acid CLV3, CLE19 and CLE40 Peptides Trigger Consumption of the Root Meristem in Arabidopsis through a CLAVATA2-Dependent Pathway. Plant Cell, 17: 2542-2553 (cover story).
Xu J, Zhang HY, Xie CH, Xue HW, Dijkhuis P, and Liu CM*. 2005. EMBRYONIC FACTOR 1 encodes an AMP deaminase and is essential for the zygote to embryo transition in Arabidopsis. Plant Journal, 42: 743-756.
Fiers M, Hause G, Boutilier K, Casamitjana-Marinez E., Weijers D, Offringa R, Geest L. van der, Lookeren Campagne M. van, Liu CM*. 2004. Mis-expression of the CLV3/ESR-like gene CLE19 in Arabidopsis leads to a consumption of root meristem. Gene, 327: 37-49.
Casamitjana-Martínez E, Hofhuis H. F, Xu J, Liu CM, Heidstra R and Scheres B*. 2003. Root-Specific CLE19 Overexpression and the sol1/2: Suppressors Implicate a CLV-like Pathway in the Control of Arabidopsis Root Meristem. Current Biology, 13: 1435-1441.
Liu CM, McElver J, Tzafrir I, Joosen R, Wittich P, Patton D, van Lammeren A.A.M. and Meinke D*. 2002. Condensin and cohesin knockouts in Arabidopsis exhibit a titan seed phenotype. Plant Journal, 29: 405-415.
Boutilier* K, Offringa R, Sharma V.K, Kieft H, Ouellet T, Zhang L, Hattori J, Liu CM, van Lammeren A.A, Miki B.L, Custers J.B., van Lookeren Campagne M.M. 2002. Ectopic expression of BABY BOOM triggers a conversion from vegetative to embryonic growth. Plant Cell, 14: 1737-1749.
Tzafrir I, McElver JA, Liu CM, Yang LJ, Wu JQ, Martinez A, Patton DA, and Meinke DW*. 2002. Diversity of TITAN Functions in Arabidopsis Seed Development. Plant Physiology, 128: 32-51.
McElver J, Patton D, Rambaugh M, Liu CM, Yang LJ and Meinke D*. 2000. The TITAN5 gene of Arabidopsis encodes a protein related to the ADP ribosylation factor family of GTP binding proteins. Plant Cell, 12: 1379-1302.
Cordewener J*, Bergervoet J and Liu CM. 2000. Changes in protein systhesis and phosphorylation during microspore embryogenesis in Brassica napus. Journal of Plant Physiology, 156: 156-163.
Custers JBM, Cordewener JHG, Fiers MA, Maassen BTH, van Lookeren Campagne MM, Liu CM*. 2000. Androgenesis in Brassica: A model system to study the initiation of plant embryogenesis. In "Current Trends in the Embryology of Angiosperm", Bhojwani SS and Soh Woony-Young (Eds)
Liu CM, Johnson S. Di Gregorio, S. and Wang TL*. 1999. single cotyledon (sic) mutants of pea and their relevance to the pattern formation and the evolution of monocots. Developmental Genetics, 25: 11-22.
Liu CM and Meinke DW*. 1998. The titan mutants of Arabidopsis are disrupted in mitosis and cell cycle control during seed development. Plant Journal, 16: 21-31.
Hong Y, Takano M, Liu CM, Gasch A, Chye M.L and Chua N-H*. 1996. Expression of the three members of the calcium-dependent protein kinase gene family in Arabidopsis thaliana. Plant Molecular Biology, 30: 1259-1275.
Liu CM, Johnson S. and Wang TL*. 1995. cyd, a mutant of pea that alters embryo morphology is defective in cytokinesis. Developmental Genetics, 16: 312-331.
Liu CM, Xu ZH and Chua N-H*. 1994. In vitro culture of Brassica juncea zygotic embryo, in "Plant Tissue Culture Manual: Fundamentals and Applications" K. Lindsey, Ed. Kluwar Academic Publishers, E5, pp1-19.
Liu CM, Xu ZH, and Chua N-H*. 1993. Proembryo culture: in vitro development of early globular-staged zygotic embryos of Brassica juncea. Plant Journal, 3: 291-300.
Liu CM, Xu ZH and Chua N-H*. 1993. Auxin polar transport is essential for the establishment of bilateral symmetry during early plant embryogenesis. Plant Cell, 5: 621-630.
Liu CM and Xu ZH*. 1992. An efficient procedure for mass propagation of commercial Anthurium scherzerinum. Chinese Journal of Botany, 4: 49-55.
Liu CM and Yao DY*. 1991. Somatic embryogenesis and cytohistological studies of cotton Gossypium hisutum L.). Acta Botanica Sinica, 33: 378-384.
Liu CM, Liu LD, Yao DY and Xu ZH*. 1990. Direct somatic embryogenesis in Nicotiana glutinosa L. induced by auxin-biosynthesis genes from Agrobacterium. Acta Biologiae Exparimentalis Sinica, 23: 1-9.
Liu CM and Xu ZH*. 1988. Plant regeneration and genetic transformation of mesophyll protoplasts of Nicotiana glutinosa L. Acta Biologiae Experimentalis Sinica, 21: 273-283. [5] 

劉春明發表中文論文

編輯
1 高等植物中的多肽激素,李琛,宋秀芬,劉春明,中國科學院植物研究所植物信號轉導與代謝組學研究中心,中國科學院植物研究所植物信號轉導與代謝組學研究中心,中國科學院植物研究所植物信號轉導與代謝組學研究中心 ,北京,【期刊】植物學通報,2006-09-30
2 被子植物胚胎髮育的分子調控,蔣麗,齊興雲,龔化勤,劉春明,中國科學院植物研究所信號轉導與代謝組學研究中心,中國科學院植物研究所信號轉導與代謝組學研究中心,中國科學院植物研究所信號轉導與代謝組學研究中心,北京,【期刊】植物學通報,2007-05-15
3 科學之遊戲規則,劉春明,中國科學院植物研究所,【期刊】生命世界專欄連載

劉春明榮譽獎勵

編輯
1 2006年中國科學院“百人計劃”入選者。
2 2006年國家自然科學基金委“傑出青年基金”獲得者。
參考資料