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儲成才

鎖定
儲成才,華南農業大學 教授,博士生導師。中國科學院“百人計劃,首批新世紀百千萬人才工程國家級人選,國家傑出青年基金獲得者,萬人計劃領軍人才 [1]  。華南農業大學節水抗旱稻綠色產業研究院副院長,廣州市人民政府參事。 [7] 
中文名
儲成才
國    籍
中國
民    族
出生日期
1966年
畢業院校
安徽師範大學
中國科學院植物研究所 [1] 
主要成就
國家傑青
新世紀百千萬人才
百人計劃
出生地
安徽嶽西
職    稱
研究員
職    務
華南農業大學博士生導師

目錄

  1. 1 人物經歷
  2. 2 科研成果
  3. 學術服務
  1. 研究方向
  2. 主要成就
  3. 論文著作
  4. 主要授權專利
  1. 主要合作品種
  2. 科研項目
  3. 3 所獲榮譽

儲成才人物經歷

教育經歷:
1986年 安徽師範大學學士學位
1989年 河南師範大學/中國科學院植物研究所碩士學位
1996年 德國Martin-Luther大學博士學位
工作經歷:
1989-1993年 河南師範大學生物系任教 (助教、講師)
1996-1998年 德國植物遺傳與作物育種研究所(IPK) 博士後
1999-2021年 中國科學院遺傳發育所研究員/中國科學院大學教授
2021- 華南農業大學教授/農學院院長
嶺南現代農業科學與技術廣東省實驗室研究員
2024- 華南農業大學節水抗旱稻綠色產業研究院副院長 [6] 
2024.04 廣州市人民政府參事 [7] 

儲成才科研成果

儲成才學術服務

全國科學技術新詞委員會委員
國家知識產權局中國專利審查技術專家
中國作物學會分子育種專業委員會副會長
Committeemember of International Society on Pre-Harvest Sprouting in Cereals
《中華科學技術大詞典•生物學卷》副主編
《遺傳》副主編
《作物學報》副主編
《激光生物學報》副主編
《植物學報》編委
《農業生物技術學報》編委
PlantCommunications 編委
Rice 編委
Plantand Cell Physiology編委
指導學生實驗 指導學生實驗
1966年生,安徽嶽西人。1999年入選中國科學院“百人計劃”,引進國外傑出人才,2004年入選首批新世紀百千萬人才工程國家級人選,2006年經國務院批准享受政府特殊津貼專家,2008年國家傑出青年基金獲得者。現為植物基因組學國家重點實驗室研究組組長,國家植物基因研究中心(北京)理事會秘書、主任助理及項目科學家,中國科學院遺傳發育所浙江嘉興農作物高新技術育種中心副主任。同時任中國科學院研究生院教授,中國農業科學院水稻研究所研究員,南京大學、北京師範大學等兼職教授,國際組織培養與生物技術學會會員,美國植物生理學會會員,中國遺傳學會第七屆理事會理事,中國遺傳學會國際交流委員會委員,中國植物生理學會植物組織培養與生物技術專業委員會委員 [2-3] 

儲成才研究方向

主要以水稻等為材料,重點研究植物對氮磷養分感知、轉運與利用的分子機制,不同養分間互作關係,以及通過遺傳學、計算生物學及多維組學等技術,克隆調控植物養分高效利用關鍵基因,鑑定其優異等位變異,並與育種家合作開展農作物品種的分子設計改良。

儲成才主要成就

秉承“育種家的問題就是科學家的課題”的科研思路,將基礎研究和應用實踐緊密結合,在水稻營養高效利用及作物分子設計育種等基礎及應用基礎研究領域取得一系列原創性成果。克隆了控制水稻秈粳亞種間氮肥利用效率差異關鍵基因NRT1.1B;建立了硝酸鹽信號從細胞膜受體感知到細胞核應答響應的主信號通路;揭示了硝酸鹽信號通過調控氮磷應答基因實現氮磷營養平衡的分子機制;發現秈稻根系微環境的氮循環比粳稻更活躍,且秈稻型NRT1.1B基因在促進氮循環相關細菌在水稻根系富集、提高有機氮利用及土壤適應性等方面起重要作用;基於實驗室研究成果培育出設計型水稻新品種,為“綠色超級稻”(少施化肥、少打農藥、提高產量)的培育及其它作物的育種改良提供了成功範例。回國後在包括Nature, NatureGenetics, Nature Biotechnology, Nature Plants, NatureCommunications, Genome Research, PNAS, PlantCell, Molecular Plant 等刊物發表通訊/共同通訊作者論文110篇,總引用16200多次(Google Scholar 數據),h指數72,連續入選2019、2020、2021年度Clarivate Analytics(科睿唯安)“高被引科學家”。多次應邀在Nature Plants, Trends in PlantScience, Current Opinion in Plant Biology, Molecular Plant等雜誌撰寫綜述、趨勢和評論;申請專利70多項,其中國際專利10項,與育種單位合作培育水稻新品種5個,其中秀水114和秀水134累積推廣面積1400多萬畝。
2022年,中國科學院遺傳與發育生物學研究所儲成才團隊和高彩霞團隊找到了調控水稻、小麥穗發芽問題的兩個“開關”,包括負調控種子休眠的關鍵基因SD6和正調控種子休眠的基因ICE2。 [5] 

儲成才論文著作

I. 代表性論文 (藍色為第三方評價)
1. Liu Y#, Wang H#, Jiang Z, WangW, Xu R, Wang Q, Zhang Z, Li A, Liang Y, Ou S, Liu X, Cao S, Tong H, Wang Y,Zhou F, Liao H, Hu B*, and ChuC* (2021) Genomic basis of geographicaladaptation to soil nitrogen in rice. Nature590: 600-605.
2. Fang J#*, Zhang F#, Wang H, Wang W, Zhao F, Li Z, Sun C, ChenF, Xu F, Chang S, Wu L, Bu Q, Wang P, Xie J, Chen F, Huang X, Zhang Y, Zhu X,Han B, Deng X*, and Chu C* (2019) Ef-cd locus shortens rice maturity duration without yield penalty. Proc. Natl. Acad. Sci. USA 116: 18717-18722.
3. Zhang J#, Liu Y-X#,Zhang N#, Hu B#, Jin T#, Xu H, Qin Y, Yan P,Zhang X, Guo X, Hui J, Cao S, Wang X, Wang C, Wang H, Qu B, Fan G, Yuan L,Garrido-Oter R, Chu C*, and Bai Y*(2019) NRT1.1B is associated with rootmicrobiota composition and nitrogen use in field-grown rice. Nat. Biotechnol. 37: 676-684.【高被引論文】
4. Hu B#*, Jiang Z#,Wang W#, Qiu Y#, Zhang Z, Liu Y, Gao X, Liu L, Qian Y,Huang X, Yu F, Li A, Kang S, Wang Y, Xie J, Cao S, Zhang L, Wang Y, Xie Q,Kopriva S, and Chu C*(2019) Nitrate-NRT1.1B-SPX4 cascade integrates nitrogen and phosphorussignaling networks in plants. Nat. Plants 5: 401-413.【高被引論文】
5. Wang W#, Hu B#,Yuan D, Liu Y, Che R, Hu Y, Ou S, Zhang Z, Wang H, Li H, Jiang Z, Zhang Z, GaoX, Qiu Y, Meng X, Liu Y, Bai Y, Liang Y, Wang Y, Zhang L, Li L, Sodmergen, Jing H, Li J, and Chu C* (2018)Expression of the nitrate transporter OsNRT1.1A/OsNPF6.3confers high yield and early maturation in rice. PlantCell 30: 638-651.【高被引論文】
6. Wang H, Xu X, Vieira FG, Xiao Y, Li Z, Wang J, Nielsen R*, and Chu C*(2016) The power of inbreeding: NGS based GWAS of rice reveals convergentevolution during rice domestication. Mol. Plant 9: 975-985.
7. Che R#, Tong H#,Shi B, Liu Y, Fang S, Liu D, Xiao Y, Hu B, Liu L, Wang H, Zhao M*,and Chu C* (2015) Controlof grain size and rice yield by GL2-mediatedbrassinosteroid responses. Nat. Plants 2: 15195.【高被引論文】
8. Hu B, Wang W, Ou S, Tang J, Li H, Che R,Zhang Z, Chai X, Wang H, Wang Y, Liang C, Liu L, Piao Z, Deng Q, Deng K, Xu C,Liang Y, Zhang L, Li L, and Chu C*(2015) Variation in NRT1.1Bcontributes to nitrate-use divergence between rice subspecies. Nat. Genet. 47: 834-838.
9. Liang C#,Wang Y#, Zhu Y, Tang J, Hu B, LiuL, Ou S, Wu H, Sun X, Chu J, and Chu C*(2014) OsNAP connects abscisic acid and leaf senescence by fine tuning abscisic acid biosynthesis and directly targeting senescence-associated genes in rice. Proc. Natl. Acad. Sci. U S A 111: 10013-10018.【高被引論文】
10. Tong H#, Xiao Y#, Liu D, Gao S, Liu L, Yin Y, Jin Y, Qian Q,and Chu C* (2014)Brassinosteroid regulates cell elongation by modulating gibberellin metabolismin rice. Plant Cell 26: 4376-4393.【高被引論文】
II. 通訊/共同通訊文章
11. Liu X, Hu B, Chu C (2022)Nitrogen Assimilation in Plants: Current Status and Future Prospects. J.Genet.Genomics. doi: 10.1016/j.jgg.2021.12.006.
12. Liu D#, Zhao H#, Xiao Y, Zhang G, Cao S, Yin W, Qian Y, YinY, Zhang J, Chen S, Chu C*, Tong H*(2022) A cryptic inhibitor of cytokinin phosphorelay controls grain size. Mol.Plant doi: 10.1016/j.molp.2021.09.010.
13. Che R, Hu B, Wang W, Xiao Y,Liu D, Yin W, Tong H*, Chu C*(2022) POLLENSTERILITY, a Novel Suppressor of Cell Division, is Required for Timely TapetalProgrammed Cell Death in Rice. Sci. China – Life Sci. doi: 10.1007/s11427-021-2011-2.
14. Tian X, Xia X, Xu D, Liu Y, Xie L,Hassan MA, Song J, Li F, Wang D, Zhang Y, Hao Y, Li G, Chu C*, He Z*, Cao S* (2022) Rht24b, anancient variation of TaGA2ox-A9,reduces plant height without yield penalty in wheat. New Phytol. 233(2): 738-750.
15. Liu D#, Yu Z#, Zhang G#, Yin W, Li L, Niu M, MengW, Zhang X, Dong N, Liu J, Yang Z, Wang S*, Chu C*, Tong H* (2021) Diversificationof plant agronomic traits by genome editing of brassinosteroid signaling familygenes in rice. Plant Physiol. 187(4): 2563-2576.
16. Chu C (2021) Editorial Feature: Meet the PCP Editor- Chengcai Chu. Plant Cell Physiol. 62(6): 923-925.
17. Xu Y, ChuC*, and Yao S* (2021) Theimpact of high-temperature stress on rice: Challenges and solutions. Crop J. 9: 963-976.
18. Wang W, Zhang Z, Li A, and Chu C* (2021)Post-translational modifications: regulation of nitrogen utilization andsignaling. Plant Cell Physiol. 62(4): 543-552.
19. Sun C*#, Zhang K#, Zhou Y#, XiangL, He C, Zhong C, Li K, Wang Q#, Yang C#, Wang Q, Chen C,Chen D, Wang Y, Liu C, Yang B, Wu H, Chen X, Li W, Wang J, Xu P, Wang P, FangJ, Chu C*, Deng X* (2021) Dual function of clock component OsLHY sets critical daylength for photoperiodic flowering in rice. Plant Biotechnol. J. 19:1644-1657.
20. Li Q, Xu F, Chen Z, Teng Z, Sun K, Li X, Yu J, Zhang G, Liang Y, Huang X, Du L, Qian Y,Wang Y, Chu C*, Tang J*(2021) Synergistic interplay of ABA and BR signal in regulating plantgrowth and adaptation. Nat. Plants 7: 1108–1118.
21. Yu Y#, Yu J#, Wang Q#, Wang J, Zhao G, Wu H, Zhu Y, Chu C*, Fang J* (2021) Overexpressionof the rice ORANGE gene OsOR negatively regulates carotenoidaccumulation, leads to higher tiller numbers and decreases stress tolerance inNipponbare rice. Plant Sci. 310: 110962.
22. Li G, Tang J, Zheng J*, and ChuC* (2021) Exploration of rice yieldpotential: Decoding agronomic and physiological traits. Crop J. 9(3): 577-589.
23. Wang X#, Feng C#, Tian L#, Hou C,Tian W, Hu B, Zhang Q, Ren Z, Niu Q, Song J, Kong D, Liu L, He Y, Ma L, ChuC*, Luan S*, Li L* (2021) Atransceptor-channel complex couples nitrate sensing to calcium signaling in Arabidopsis. Mol. Plant 14(5):774-786.
24. Li A, Hu B, and Chu C* (2021) Epigenetic regulation of nitrogen and phosphorus responses inplants. J. Plant Physiol. 258-259: 153363. (Invited Review)
25. Zhang Z#,Li Z#, Wang W, Jiang Z, Guo L, WangX, Qian Y, Huang X, Liu Y, Liu X, Qiu Y, Li A, Yan Y, Xie J, Kopriva S, Li L,Kong F, Li B, Wang Y, Hu B*, and Chu C* (2021) Modulation of Nitrate-Induced Phosphate Response by the MYB Transcription FactorRLI1/HINGE1 in the Nucleus. Mol.Plant14(3): 517-529.
26. Gao S and Chu C* (2020) Gibberellin metabolism andsignalling: targets for improving agronomic performance of crops. Plant Cell Physiol. 61(11): 1902-1911.
27. Qu M, JemaaE, Xu J, Ablat G, Perveen S, Wang H, Chen K, Yang Z, Chen G*, Chu C*,and Zhu X* (2020) Alterations in stomatalresponse to fluctuating light increase biomass and yield of rice under droughtconditions. Plant J. 104(5): 1334-1347.
28. Xu Y#,Zhang L#, Ou S, Wang R, Wang Y, Chu C*, and Yao S* (2020)Natural variations of SLG1 conferhigh-temperature tolerance in indica rice.Nat. Commun. 11: 5441.
29. Tang J*and Chu C* (2020) Strigolactonesignaling: Repressor proteins are transcription factors. TrendsPlant Sci. 25(10): 960-963.
30. WangW, Hu B, Li A, and Chu C* (2020)NRT1.1s in plants: functions beyond nitrate transport. J. Exp.Bot. 71(15): 4373-4379.
31. Wang Y and Chu C* (2020) S-Nitrosylation controlof ROS and RNS homeostasis in plants: the switching function of catalase. Mol. Plant 13: 946-948.
32. Xiao Y#, Zhang G#, Liu D, Niu M, Tong H*,and Chu C* (2020) GSK2 stabilizesOFP3 to suppress brassinosteroid responses in rice. Plant J. 102: 1187-1201.
33. Wang Y#,Liang C#, Wu S, Jian G, Zhang X, Zhang H, Tang J, Li J, Jiao G, LiF, and Chu C* (2020) Vascular-specific expression of Gastrodia antifungal protein gene significantly enhanced cotton Verticillium wilt resistance. Plant Biotechnol. J. 18(7): 1498-1500.
34. ZhangZ, Gao S, and Chu C* (2020)Improvement of nutrient use efficiency in rice: Current toolbox and futureperspectives. Theor. Appl. Genet. 133(5):1365-1384. (InvitedReview)
35. ZhangZ, Hu B, and Chu C* (2020) Towards understanding thehierarchical nitrogen signalling network in plants. Curr. Opin. Plant Biol. 55: 60-66. (InvitedReview)
36. HuB* and Chu C* (2020) Nitrogen-phosphorus interplay: old story withmolecular tale. New Phytol.225(4): 1455-1460. (InvitedReview)
37. ZhangZ and Chu C* (2020) Nitrogen-use divergence between indica and japonica rice:Variation at nitrate assimilation. Mol.Plant 13(1): 6-7.
38. XuF, Tang J, Gao S, Cheng X, Du L, Fang J and Chu C* (2019) Control ofrice pre-harvest sprouting by glutaredoxin-mediated abscisic acid signaling. Plant J. 100(5): 1036-1051.
39. TangJ, Wang Y, Yin W, Dong G, Sun K, Teng Z, Wu X, Wang S, Qian Y, PanX, Qian Q*, and Chu C* (2019)Mutation of a nucleotide-binding leucine-rich repeat immune receptor-typeprotein disrupts immunity to bacterial blight. Plant Physiol. 181(3): 1295-1313.
40. GaoS, Xiao Y, Xu F, Gao X, Cao S, Zhang F, Wang G, Sanders D, and Chu C*(2019) Cytokinin-dependent regulatory module underlies themaintenance of zinc nutrition in rice. New Phytol. 224(1): 202-215.
41. Liu C, Schläppi M, Mao B, Wang W, Wang A, Chu C* (2019) The bZIP73 transcriptionfactor controls rice cold tolerance at the reproductive stage. PlantBiotechnol. J. 17:1834-1849.
42. Zhang L#*, Hu B#, Deng K, Gao X, Sun G, Zhang Z, Li P, Wang W,Li H, Li L, Yu F, Li Y, Chu C*(2019) NRT1.1B improves selenium concentrations in rice grains by facilitatingselenomethinone translocation. Plant Biotechnol. J. 17(6):1058-1068.
43. Xiao Y, Liu D, Zhang G, Gao S, Liu L, Xu F, Che R, Tong H*, Chu C* (2019) Big Grain3, encodinga purine permease, regulates grain size via modulating cytokinin transport inrice. J. Integr. Plant Biol. 61(5):581-597.
44. Hamdani S, Wang H, Zheng G,Perveen SH, Qu M, Khan N, Khan W, Jiang J, Li M, Liu X, Zhu X, Govindjee, Chu C*, Zhu X* (2019)Genome-wide association study identifies variation of glucosidase being linkedto natural variation of the maximal quantum yield of photosystem II. Physiol.Plant. 166: 105-119.
45. Tong H and Chu C* (2018) Functional specificities of brassinosteroid and potential utilization for crop improvement. Trends Plant Sci. 23(11): 1016-1028.
46. Wang M#, Li W#, Fang C#, Xu F#,Liu Y#, Wang Z, Yang R, Zhang M, Liu S, Lu S, Lin T, Tang J, Wang Y,Wang H, Lin H, Zhu B, Chen M, Kong F, Liu B, Zeng D, Jackson SC*, Chu C* & Tian Z* (2018) Parallel selection on a dormancy gene during domestication of crops from multiplefamilies. Nat. Genet. 50(10):1435-1441.
47. Liu C#, Ou S#, Mao B, Tang J, Wang W, WangH, Cao S, Schläppi MR, Zhao B, Xiao G, Wang X* and Chu C* (2018) Early selection of bZIP73 facilitated adaptation of japonica rice to cold climates. Nat. Commun.9(1): 3302.
48. DuL#, Xu F#, Fang J#,Gao S, Tang J, Fang S, Wang H, Tong H, Cao S, Zhang F, Chu J, Wang G, Chu C* (2018) Endosperm sugaraccumulation caused by mutation of PHS8/ISA1 leads to pre-harvest sprouting inrice. Plant J. 95(3): 545-556.
49. ZhangJ#, Zhang N#, Liu YX#,Zhang X, Hu B, Qin Y, Xu H, Wang H, Guo X, Zhang P, Jin T*, Chu C*, Bai Y* (2018) Root microbiotashift in rice correlates with resident time in the field and developmentalstage. Sci. China-Life Sci. 61(6): 613-621.
50. Gao S and Chu C* (2018) Fine-tuning of Eui1:Breaking the bottleneck in hybrid rice seed production. Mol.Plant 11(5):643-644.
51. Xiao Y, Liu D, Zhang G, Tong H*, Chu C*(2017) Brassinosteroids regulate OFP1, a DLT interacting protein, to modulateplant architecture and grain morphology in rice. Front.Plant Sci. 8: 1698.
52. Wang H#, Vieira FG#,Crawford JE, Chu C*, and Nielsen R*(2017) Asianwild rice is a hybrid swarm with extensive gene flow and feralization fromdomesticated rice. Genome Res. 27: 1029-1038.
53. Li H, Hu B, and Chu C* (2017) Nitrogen use efficiency in crops: lessons from Arabidopsis and rice. J.Exp. Bot. 68(10):2477-2488. (Invited Review)
54. Tang J* and Chu C*(2017) microRNAs in crops: fine-tuners for complex traits. Nat. Plants 3:17077. (Invited Review)
55. ZhangB#, Zhang L#, Li F#, Zhang D, Liu X, Wang H,Xu Z, Chu C*, Zhou Y* (2017) Controlof secondary cell wall patterning involves xylan deacetylation by a GDSL esterase. Nat. Plants 3: 17017.
56. HuB* and Chu C* (2017) Node-basedtransporter: Switching phosphorus distribution. Nat.Plants 3: 17002. (Invited Commentary)
57. LiX, Zhou W, Ren Y, Tian X, Lv T, Wang Z, Fang J, Chu C*, Yang J*, and Bu Q* (2017) High-efficiency breeding ofearly-maturing rice cultivars via CRISPR/Cas9-mediated genome editing. J. Genet. Genomics 44(3): 175-178.
58. LiangC#, Li A#, Yu H#, Li W, Liang C, Guo S, ZhangR*, Chu C* (2017) Melatoninregulates root architecture by modulating auxin response in rice. Front. Plant Sci. 8: 134.
59. TongH and Chu C* (2017) Physiologicalanalysis of brassinosteroid responses and sensitivity in rice. Methods Mol. Biol. 1564: 23-29.
60. LiH, Hu B, Wang W, Zhang Z, Liang Y, Gao X, Li P, Liu Y, Zhang L and Chu C* (2016) Identification of MicroRNAs in Rice Root in Response to Nitrate andAmmonium. J. Genet. Genomics. 43: 651-661.
61. Wang Y#, Liang C#, Wu S#, Zhang X#, Tang J,Jian G, Jiao G, Li F*,Chu C* (2016) Significant Improvement of Cotton Verticillium Wilt Resistanceby Manipulating the Expression of GastrodiaAntifungal Proteins. Mol. Plant 9(10): 1436-1439.
62. TongH and Chu C* (2016) Brassinosteroidregulates gibberellin synthesis to promote cell elongation in rice: Criticalcomments on Ross and Quittenden’s letter. Plant Cell 28(4): 833-835.
63. GaoS, Fang J, Xu F, Wang W, and Chu C*(2016) Rice HOX12 regulates panicle exsertion by directly modulating theexpression of ELONGATED UPPERMOSTINTERNODE1. Plant Cell 38(3): 680-695.
Highlighted with ScienceNews on April 1, 2016 by Jennifer A. Lockhart: Feeding the world: Uncovering a key regulatorof flower head development in rice.
64. Chu C*(2015) A new era for crop improvement: From model-guided rationale design topractical engineering. Mol. Plant 8(9): 1299-1301.
65. LiuL#, Tong H#, Xiao Y, Che R, Xu F, Hu B, Liang C, Chu J,Li J*, and Chu C* (2015)Activation of Big Grain1significantly improves grain size by regulating auxin transport in rice. Proc.Natl. Acad. Sci. U S A 112(35): 11102-11107.
66. XuF#, Fang J#, Ou S, Gao S, Zhang F, Du L, Xiao Y, Wang H,Sun X, Chu J, Wang G, and Chu C*(2015) Variations in CYP78A13 codingregion influence grain size and yield in rice. Plant Cell Environ.38(4): 800-811.
67. HuB, Wang W, Deng K, Li H, Zhang Z, Zhang L, and Chu C* (2015) microRNA399 is involved in multiple nutrientresponses in rice. Front. Plant Sci. 6: 188.
68. LiangC, Zheng G, Li W, Wang Y, Hu B, Wang H, Wu H, Qian Y, Zhu XG, Tan DX, Chen SY,and Chu C* (2015) Melatonin delaysleaf senescence and enhances salt stress tolerance in rice. J.Pineal Res. 59(1): 91-101.
69. LiangC and Chu C* (2015) Towardsunderstanding abscisic acid-mediated leaf senescence. Sci. China Life Sci.58(5): 506-508. (Invited Commentary)
70. Gao S#, Fang J#, Xu F, Wang W, SunX, Chu J, Cai B, Feng Y, and Chu C* (2014) CYTOKININOXIDASE/DEHYDROGENASE4 integrates cytokinin and auxin signaling to controlrice crown root formation. Plant Physiol. 165(3): 1035-1046.
71. Zhang L#*, Hu B#,Li W, Che R, Deng K, Li H, Yu F, Ling H, Li Y, and Chu C* (2014) OsPT2, a phosphate transporter, is involved in activeuptake of selenite in rice. New Phytol. 201(4): 1183-1191.
72. LiuC, Mao B, Ou S, Wang W, Liu L, Wu Y, ChuC*, and Wang X* (2014) OsbZIP71, a bZIP transcriptionfactor, confers salinity and drought tolerance in rice. Plant Mol. Biol. 84(1-2):19-36.
73. SunC, Chen D, Fang J, Wang P, Deng X*, and ChuC* (2014) Understanding the genetic and epigenetic architecture in complexnetwork of rice flowering pathways. Protein Cell 5(12): 889-898.
74. Liu Y, Fang J, Xu F, Chu J, Yan C,Schläppi M, Wang Y, and Chu C*(2014) Expression patterns of ABA and GA metabolism genes and hormone levelsduring rice seed development and imbibition: A comparison of dormant andnon-dormant rice cultivars. J. Genet.Genomics 41(6): 327-338.
75. WangY, Lin A, Loake GJ, and Chu C*(2013) H2O2-induced leaf cell death and the crosstalk ofreactive nitric/oxygen species. J. Integr. Plant Biol. 55(3):202-208.
76. Wang Y, Loake GJ, and Chu C* (2013) Cross-talk of nitricoxide and reactive oxygen species in plant programed cell death. Front.Plant Sci. 4: 314. (Invited Review)
77. GuoX#, Hou X#, Fang J#, Wei P, Xu B, Chen M, FengY, and Chu C* (2013) The rice GERMINATIONDEFECTIVE1, encoding a B3 domain transcriptional repressor, regulates seedgermination and seedling development by integrating GA and carbohydratemetabolism. Plant J. 75(3):403-416.
78. SunC#, Fang J#, Zhao T, Xu B, Zhang F, Liu L, Tang J, ZhangG, Deng X, Chen F, Qian Q, Cao X, and ChuC* (2012) The histone methyltransferase SDG724 mediates H3K36me2/3deposition at MADS50 and RFT1, and promotes flowering in rice. PlantCell 24(8): 3235-3247.
79. Tong H, Liu L, Jin Y, Du L, Yin Y, QianQ, Zhu L, and Chu C* (2012) DWARFAND LOW-TILLERING acts as a direct downstream target of a GSK3/SHAGGY-likekinase to mediate brassinosteroid responses in rice. Plant Cell 24(6):2562–2577.
80. Wu HJ#, Zhang Z#,Wang JY#, Oh DH#, Dassanayake M#,Liu B#, Huang Q#, Sun HX, Xia R, Wu Y, Wang Y, Yang Z, Liu Y,Zhang W, Zhang H, Chu J, Yan C, Fang S, Zhang J, Wang Y, Zhang F, Wang G, LeeSY, Cheeseman JM, Yang B, Li B, Min J, Yang L, Wang J*, Chu C*, Chen SY*,Bohnert HJ, Zhu J-K*, Wang XJ* and Xie Q*(2012) Insights into salt tolerance from the genome of Thellungiella salsuginea. Proc. Natl. Acad. Sci. U S A109(30): 12219- 12224.
81. TongH and Chu C* (2012) Brassinosteroidsignaling and application in rice. J.Genet. Genomics 39(1): 3-9.
82. LiuX, Li F, Tang J, Wang W, Zhang F, Wang G, Chu J, Yan C, Wang T, Chu C*, and Li C*(2012) Activation of the jasmonic acid pathway by depletion of thehydroperoxide lyase OsHPL3 reveals crosstalk between the HPL and AOS branchesof the oxylipin pathway in rice. PLoS ONE 7(11): e50089.
83. LinA#, Wang Y#, Tang J#,Xue P, Li C, Liu L, Hu B, Yang F, Loake GJ, and Chu C* (2012) Nitric oxide and protein s-nitrosylation are integralto hydrogen peroxide induced leaf cell death in rice. Plant Physiol. 158:451-464.
84. WangH, Fang J, Liang C, He M, Li Q, and ChuC* (2011) Computation-assisted SiteFinding-PCR for isolating flankingsequence tags in rice. BioTechniques 51: 421-423.
85. YangZ and Chu C* (2011) Towardsunderstanding plant response to heavy metal stress. In: Abiotic Stress in Plants - Mechanisms and Adaptations,Venkateswarlu B and Shanker AK (Ed.). p59-78.
86. LiC, Wang Y, Liu L, Hu Y, Zhang F, Sodmergen, Wang G, Schläppi MR, and Chu C* (2011) A rice plastidialnucleotide sugar epimerase is involved in galactolipid biosynthesis andimproves photosynthetic efficiency. PLoS Genet. 7(7): e1002196.
87. TangJ#, Zhu X#, Wang Y, Liu L, Xu B, Li F, Fang J, and Chu C* (2011) Semidominant mutations inthe CC-NB-LRR-type R gene, NLS1, leadto constitutive activation of defense responses in rice. Plant J. 66: 996-1007.
88. HuB and Chu C* (2011) Phosphatestarvation signaling in rice. Plant Sig. Behav. 6(7): 927-929.
89. HuB, Zhu C, Li F, Tang J, Wang Y, Lin A, Liu L, Che R, and Chu C* (2011) LEAF TIPNECROSIS1 plays a pivotal role in regulation of multiple phosphatestarvation responses in rice. Plant Physiol. 156: 1101-1115.
90. Sun C#,Liu L#, Tang J, Lin A, Zhang F,Fang J, Zhang G*, and Chu C* (2011) RLIN1, encoding a putative coproporphyrinogen III oxidase, isinvolved in lesion initiation in rice. J. Genet. Genomics 38(1): 29-37.
91. Chai C#, Fang J#, Liu Y, Tong H, Gong Y, Wang Y, Liu M, Wang Y, Qian Q,Cheng Z, and Chu C* (2011) ZEBRA2,encoding a carotenoid isomerase, is involved in photoprotection in rice. PlantMol. Biol. 75(3): 211-221.
92. Li F, Liu W, TangJ, Chen J, Tong H, Hu B, Li C, Fang J, Chen M, and Chu C* (2010) Rice DENSEAND ERECT PANICLE 2 is essential for determining panicle outgrowth andelongation. Cell Res. 20: 838-849.
93. WangY, Chen C, Loake G, and Chu C*(2010) Nitric oxide: Promoter or suppressor of programmed cell death? ProteinCell 1(2): 133-142. (Invited Review)
94. TongH and Chu C* (2009) Roles of DLT infine modulation on brassinosteroid response in rice. Plant Sig. Behav. 4 (5): 438 - 439.
95. TongH, Jin Y, Liu W, Li F, Fang J, Yin Y, Qian Q, Zhu L, and Chu C* (2009) DWARF AND LOW-TILLERING, a new member of GRAS family,plays positive roles in brassinosteroid signaling in rice. Plant J. 58:803-816.
96. MaY, Liu L, Zhu C, Sun C, Xu B, Fang F, Tang J, Luo A, Cao S, Li G, Qian Q, XueY, and Chu C* (2009) Molecularanalysis of rice plants harboring a multi-functional T-DNA tagging system. J. Genet. Genomics 36(5):267-276.
97. GuoX, Wu Y, Wang Y, and Chu C* (2009)OsMSRA4.1 and OsMSRB1.1, two rice plastidial methionine sulfoxide reductases,are involved in abiotic stress responses. Planta 230: 227-238.
98. Yang Z, Wu Y, Li Y, Ling HQ, and Chu C* (2009) OsMT1a, a type 1metallothionein, plays the pivotal role in zinc homeostasis and droughttolerance in rice. Plant Mol. Biol. 70(1-2): 219-229.
99. Wang Q, Guan Y, Wu Y, Chen H, Chen F,and Chu C* (2008) Overexpression ofa rice OsDREB1F gene increases salt,drought, and low temperature tolerance in both Arabidopsis and rice. Plant Mol. Biol. 67: 589-602.
100. Fang J and Chu C* (2008) Abscisic acid and the pre-harvestsprouting in cereals. Plant Sig. Behav. 3: 1046-1048.
101. FangJ#, Chai C#, Qian Q#, Li C, Tang J, Sun L,Huang Z, Guo X, Sun C, Liu M, Zhang Y, Lu Q, Wang Y,Lu C, Han B, Chen F, Cheng Z, and Chu C*(2008) Mutations of genes in synthesis of the carotenoid precursorsof ABA lead to preharvest sprouting and photo-oxidation in rice. Plant J. 54: 177-189.
102. BaiX, Wang Q, and Chu C* (2008)Excision of a selective marker in transgenic rice using a novel Cre/loxP systemcontrolled by a floral specific promoter. Transgenic Res. 17: 1035-1043.
103. Liu X, Bai X, Wang X, and Chu C* (2007) OsWRKY71, a rice transcription factor, is involved in ricedefense response. J. Plant Physiol. 164: 969-979.
104. DingY, Wang X, Su L, Zhai J, Cao S, Zhang D, Liu C, Bi YP, Qian Q, Cheng ZK, Chu C*, and Cao X* (2007) SDG714, ahistone H3K9 methyltransferase, is involved in Tos17 DNA methylation andtransposition in rice. Plant Cell 19: 9-22 (*Correspondingauthor).
105. Luo A#, Qian Q#, Ying H, Liu X, Yin C, Lan Y, TangJ, Tang Z, Cao S, Wang X, Xia K, FuX, Luo D*, and Chu C* (2006) EUI1, encoding a putative cytochromeP450 monooxygenase, regulates the internode elongation by modulating GAresponses in rice. Plant Cell Physiol. 47: 181-191.
106. Wu Y, Wang Q, Ma Y, and Chu C* (2005) Isolation andexpression analysis of salt up-regulated ESTs in upland rice using PCR-basedsubtractive suppression hybridization method. Plant Sci. 168: 847-853.
107. Luo A, Liu L, Tang Z, Bai X, Cao S, and Chu C* (2005) Down-regulationof OsGRF1 gene in rice rhd1 mutant results in reduced headingdate. J. Integr. Plant Biol. 47: 745-752.
108. Liu X, Bai X, Qian Q, Wang X, Chen M, and Chu C*(2005) OsWRKY03, a rice transcription activator that functions in defensesignaling pathway upstream of OsNPR1.Cell Res. 15: 593-603.
109. Si L, Cao S, and Chu C* (2003) Isolation of a1195 bp 5’-flanking region of rice cytosolic fructose-1,6-bisphosphatase andanalysis of its expression in transgenic rice. Acta Bot. Sin. 45: 359-364.
110. Si L, Wang L, Cao S, and Chu C* (2002) Deletion of a 93bp 5’ flanking region of rice cytosolic fructose-1,6-bisphosphatase completelyaltered its expression pattern. ActaBot. Sin. 44: 1339-1345.
III. 共作者文章
111. Yu S, AliJ, Zhou S, Ren G, Xie H, Xu J, Yu X, Zhou F, Peng S, Ma L, Yuan D, Li Z, ChenD, Zheng R, Zhao Z, Chu C, You A,Wei Y, Zhu S, Gu Q, He G, Li S, Liu G, Liu C, Zhang C, Xiao J, Luo L, Li Z, andZhang Q (2022) From Green Super Rice to green agriculture: reaping the promiseof functional genomics research. Mol. Plant doi:10.1016/j.molp.2021.12.001.
112. Chen R*,Deng Y*, Ding Y*, Guo J*, Qiu J*, Wang B*, Wang CS*, Xie Y*, Zhang Z*, ChenJ, Chen L, Chu C, He G, HeZ, Huang X, Xing Y, Yang S, Xie D#, Liu Y#, Li J#(2021) Rice functional genomics: Decades' efforts and roads ahead. Sci. China- Life Sci. doi: 10.1007/s11427-021-2024-0.
113. Liu C, MaoB, Yuan D, Chu C, Duan M (2021) Salt tolerance inrice: physiological responses and molecular mechanisms. Crop J. doi: 10.1016/j.cj.2021.02.010.
114. Gao F, Zhang H, Zhang W, Wang N, Zhang S, Chu C, Liu C (2021) Engineering of the cytosolic form ofphosphoglucose isomerase into chloroplasts improves plant photosynthesis andbiomass. New Phytol. 231(1): 315-325.
115. Cao S*, Luo X, Xu D, Tian X, Song J, Xia X, Chu C, He Z* (2021) Genetic architecture underlying light andtemperature mediated flowering in Arabidopsis, rice and temperate cereals. NewPhytol. 230: 1731-1745.
116. Yu H*#, Lin T#, Meng X#, Du H#, Zhang J#, Liu G, Chen M, Jing Y,Kou L, Li X, Gao Q, Liang Y, Liu X, Fan Z, Liang Y, Cheng Z, Chen M, Tian Z,Wang Y, Chu C, Zuo J, Wan J, Qian Q,Han B, Zuccolo A, Wing RA, Gao C*, Liang C*, Li J* (2021) A route to de novodomestication of wild allotetraploid rice. Cell 184(5):1156-1170.
117. Xiao Y, Zhang J, Yu G, Lu X, Mei W, Deng H, ZhangG, Cheng G, Chu C, Tong H*, and TangW* (2020) Endoplasmic reticulum-localizedPURINE PERMEASE1 regulates plant height and grain weight by modulatingcytokinin distribution in rice. Front. Plant Sci. 11: 618560.
118. Liu X#, Hu Q#, Yan J#, Sun K, Liang Y, Jia M, MengX, Fang S, Wang Y, Jing Y, Liu G, Wu D, Chu C, Smith SM, Chu J*, Wang Y,Li J, Wang B* (2020) ζ-Carotene isomerase suppresses tillering in rice throughthe coordinated biosynthesis of strigolactone and abscisic acid. Mol. Plant. 13: 1784-1801.
119. Wu J, Zhang Z-S, Xia J-Q; Alfatih A, Song Y,Huang Y-J, Wan G-Y, Sun L-Q, Tang H, Liu Y, Wang S-M, Zhu Q-S, Qin P, Wang Y,Li S; Mao C, Zhang G-Q, Chu C, YuL-H, and Xiang C (2021) Rice NIN-LIKE PROTEIN 4 plays a pivotal role innitrogen use efficiency. PlantBiotechnol. J. 19(3):448-461.
120. He Y#, Hong G#, Zhang H,Tan X, Li L, Kong Y, Sang T, Xie K, Li J, Yan F, Wang P, Tong H, Chu C, Chen J* and Sun Z* (2020) OsGSK2 integratesbrassinosteroids and jasmonic acid signaling by interacting with OsJAZ4. PlantCell 32(9): 2806-2822.
121. Li X#, ChenZ#, Zhang G#, Lu H#, Qin P, Qi M, Yu Y, Gao Q,Jiao B, Zhao X, Gao Q, Wang H, Wu Y, Ma J, Zhang Y, Wang Y, Deng L, Yao S,Cheng Z, Yu D, Zhu L, Xue Y, Chu C, Li A*, Li S*, Liang C* (2020) Analysisof genetic architecture and favorable allele usage of agronomic traits in alarge collection of Chinese rice accessions. Sci. China – Life Sci. 63(11):1688-1702.
122. Yin W, Xiao Y, Niu M,Meng W, Li L, Zhang X, Liu D, Zhang G, Qian Y, Sun Z, Huang R, Wang S, Liu C-M,Chu C, and Tong H* (2020)ARGONAUTE2 enhancesgrain length and salt tolerance by activating BIG GRAIN3 to modulate cytokinin distribution in rice.Plant Cell 32(7):2292-2306.
123.Shi Y, Phan H,Liu Y, Cao S, Zhang Z, Chu C, and Schlappi MR (2020) Theglycosyltransferase gene OsUGT90A1helps protect plasma membranes during chilling stress in rice. J. Exp. Bot. 71(9): 2723-2739.
124.Cao S#,*,Luo X#, Xue L#, Gao C, Wang D, Holt III BF, Lin H, Chu C, Xia X (2020) The florigeninteractor BdES43 represses flowering in the model temperate grass Brachypodium distachyon. PlantJ. 102: 262-275.
125. MengY#,Wang Z#,Wang Y, Wang C, Zhu B, Liu H, Ji W, Wen J, ChuC, Tadege M, Niu L, and Lin H* (2019) The MYB activator WHITE PETAL1associates with MtTT8 and MtWD40-1 to regulate carotenoid-derived flowerpigmentation in Medicago truncatula. Plant Cell 31(11): 2751-2767.
Featured by Philip Carella (2018)Mellowed yellow: WHITE PETAL1 regulates carotenoid accumulation in medicagopetals. Plant Cell 31: 2556-2557.
126. YangR, Li P, Mei H, Wang D, Sun J, Yang C, Hao L, Cao S, Chu C, Hu S, Song X*, Cao X* (2019) Fine-tuning of miR528accumulation modulates flowering time in rice. Mol. Plant 12(8):1103-1113.
127. Zhang LM#, Leng CY#, Luo H#, Wu XY#, LiuZQ#, Zhang YM, Zhang H, Xia Y, Shang L, Liu CM, Hao D, Zhou Y, Chu C, Cai HW*, Jing HC* (2018) Sweetsorghum originated through selection of Dry,a plant specific NAC transcription factor gene. Plant Cell 30(10):2286-2307.
128. KoprivaS* and Chu C (2018) Are we ready to improve phosphorus homeostasis in rice? J.Exp. Bot. 69(15):3515-3522. (Expertview).
129. PanJ, Huang D, Guo Z, Kuang Z, Zhang H, Xie X, Ma Z, Gao S, Lerdau MT, Chu C, Li L (2018) Overexpression ofmicroRNA408 enhances photosynthesis, growth, and seed yield in diverse plants. J.Integr. Plant Biol. 60(4): 323-340.
130. HuZJ#, Lu SJ#, Wang MJ#, He H, Sun L, Wang H,Liu XH, Jiang L, Sun JL, Xin XY, Kong W, Chu C, Xue HW, Yang JS, Luo X*, Liu JX* (2018) A novel QTL qTGW3 encodes the GSK3/SHAGGY-likekinase OsGSK5/OsSK41 that interacts with OsARF4 to negatively regulate grainsize and weight in rice. Mol. Plant 11(5):736-749.
131. Guo Q#, Wu F, Pang S, Zhao X, Chen L, Liu J, Xue B, Xu G, LiL, Jing H, and Chu C (2018) Crop 3D:a LiDAR based platform for 3D high-throughput crop phenotyping. Sci. China Life Sci. 61(3): 328-339.
132. QuM, Zheng G, Hamdani S, Essmine J, Song Q, Wang H, Chu C, Sirault X, Zhu XG (2017) Leaf photosynthetic parametersrelated to biomass accumulation in a global rice diversity panel. PlantPhysiol. 175(1): 248-258.
133. Lu Y, Ye X, Guo R, Huang J, Li G, Tang J, Tan L, Zhu JK, Chu C, and Qian Y (2017) Genome-wide Targeted Mutagenesisin Rice Using CRISPR/Cas9 System. Mol. Plant 10(9): 1242-1245.
134. SchläppiM, Jackson A, Wang A, Chu C, EizengaG, Shi Y, Shimoyama N, Boykin DL (2017) Assessment of five cold tolerancetraits and GWAS mapping in rice using the USDA mini-core collection. Front.Plant Sci. 8: 957.
135. ChenJ, Nolan T, Ye H, Zhang M, Tong H, Xin P, Chu J, Chu C, Li Z, Yin Y (2017) Arabidopsis WRKY46, WRKY54 and WRKY70transcription factors are involved in brassinosteroid-regulated plant growthand drought response. Plant Cell 29(6): 1425-1439.
136. WangM#, Wu HJ, Fang J, Chu C,Wang XJ# (2017) A long noncoding RNA involved inrice reproductive development by negatively regulating osa-miR160.Sci.Bull. 62: 470-475.
137. YeH, Liu S, Tang B, Chen J, Xie Z, Nolan T, Jiang H, Guo H, Lin HY, Li L, Wang Y,Tong H, Zhang M, Chu C, Li Z, AluruM, Aluru S, Schnable P, and Yin Y (2017) RD26 mediatescrosstalk between drought and brassinosteriod signalling pathways. Nat.Commun. 8: 14573.
138. WuJ, Yang R, Yang Z, Zhao S, Yao S, Wang Y, Li P, Song X, Jin L, Zhou T, Xie L,Zhou X, Chu C, Qi Y, Cao X, and Li Y(2017) ROS accumulation and antiviral defence control by microRNA528in rice. Nat. Plants 3:16203.
139. QuM, Hamdani S, Li W, Wang S, Tang J, Chen Z, Song Q, Li M, Zhao H, Chang T, Chu C, and Zhu XG (2016) Rapid stamatalresponse to fluctuating light: an under -explored mechanism to improvedrought tolerance in rice. Funct. Plant Biol. 43(8):727-738.
140. SongQ, Chu C, Parry M, and Zhu XG (2016)Genetics-based dynamic systems model of canopy photosynthesis: The key toimprove light and resource use efficiencies for crops. Food Energy Secur.5(1): 18-25.
141. YinCC, Ma B, Collinge D, Pogson B, He SJ, Xiong Q, Duan KX, Chen H, Yang C, Lu X,Wang YQ, Zhang WK, Chu CC, Sun XH,Fang S, Chu JF, Lu TG, Chen SY, and Zhang JS (2015) Differential regulation ofethylene responses in roots and coleoptiles by a carotenoid isomeraseMHZ5-mediated abscisic acid pathway in rice.Plant Cell 27(4): 1061-1081.
142. LiX, Liu H, Wang M, Liu H, Tian X, Zhou W, Lv T, Wang Z, Chu C, Fang J and Bu Q (2015) Combinations of four heading dategenes determine rice adaptability to Heilongjiang province, northern limit ofChina. J. Integr. Plant Biol. 57(8): 698-707.
143. ChenJ#, Liu X#, Wang C#, Yin SS, Li XL, Hu WJ,Simon M, Shen ZJ, Xiao Q, Chu CC,Peng XX, and Zheng HL* (2015) Nitric oxide ameliorates zinc oxidenanoparticles-induced phytotoxicity in rice seedlings. J. Hazard. Mater. 297:173-182.
144. HamdaniS, Qu M, Xin C, Chu C, Govindjee G,and Zhu X (2015) Variations of photosynthetic parameters in Chinese elite ricerevealed by simultaneous measurements of Chlorophyll a fluorescence induction and 820nm transmission signal. J. PlantPhysiol. 177: 128-138.
145. SuL, Li A, Li H, Chu C, and Qiu JL(2013) Direct modulation of protein level in Arabidopsis. Mol. Plant 6(5): 1711-1714.
146. FanY, Du K, Gao Y, Kong Y, Chu C,Sokolov V, and Wang Y (2013) Transformation of LTP gene into Brassica napus to enhance its resistanceto Sclerotinia sclerotiorum. Russ.J. Genet. 49(4): 380-387.
147. WangL, Song X, Gu L, Li X, Cao S, Chu C,Cui X, Chen X, and Cao X (2013) NOT2 proteins promote Pol II-dependenttranscription and interact with multiple miRNA biogenesis factors in Arabidopsis. Plant Cell 25(2): 715-727.
148. SongX, Wang D, Ma L, Chen Z, Li P, Cui X, Liu C, Cao S, Chu C, Tao Y, and Cao X (2012) Rice RNA-dependent RNA polymerase 6acts in small RNA biogenesis and spikelet development. Plant J. 71(3):378-389.
149. Song X, Li P, Zhai J, Zhou M, Ma L, LiuB, Jeong DH, Nakano M, Cao S, Liu C, Chu C, Wang XJ, Green PJ, MeyersBC, and Cao X (2012) Roles of DCL4 and DCL3b in rice phased small RNAbiogenesis. Plant J. 69(3): 462-474.
150. Wu H, Chen C, Du J, Liu H, Yan C, Zhang Y, He Y, Wang Y, Chu C, Feng Z, Li J, and Ling HQ (2012)Co-overexpression FIT with AtbHLH38 or AtbHLH39 in Arabidopsis enhanced cadmium tolerance via increasedcadmium sequestration in roots and improved iron homeostasis of shoots. PlantPhysiol. 158(2): 790-800.
151. Shen H, Liu C, Zhang Y, Meng X, Zhou X, Chu C, andWang X(2012) OsWRKY30 is activated by MAP kinases to confer drought tolerance inrice. Plant Mol. Biol. 80(3): 241-253.
152. JinY#, Luo Q#, Tong H#, Wang A, Cheng Z, Tang J,Li D, Zhao X, Li X, Wan J, Chu C,and Zhu L (2011) An AT-hook gene is required for palea formation and floralorgan number control in rice. Dev. Biol. 359: 277-288.
153. FengJ, Cao L, Li J, Duan C, Luo X, Le N, Wei H, Liang S, Chu C, Pan Q, and Tang JL (2011) Involvement of OsNPR1/NH1 in ricebasal resistance to rice blast fungus Magnaportheoryzae. Eur. J. Plant Pathol. 131(2): 221-235.
154. MengX, Qin J, Wang L, Duan G, Sun G, Wu H, ChuC, Ling HQ, Rosen B, and Zhu Y (2011) Arsenic biotransformation andvolatilization in transgenic rice. New Phytol. 191: 49-56.
155. GaoT, Wu Y, Zhang Y, Liu L, Ning Y, Wang D, Tong H, Chen S, Chu C, and Xie Q (2011) OsSDIR1overexpression greatly improves drought tolerance in transgenic rice. PlantMol. Biol. 76: 145-156.
156. Wu X, Zuo S, Chen Z, Zhang Y, Zhu J, Ma N, Tang J,Chu C, andPan X(2011) Fine mapping of qSTV11TQ,a major gene conferring resistance to rice stripe disease. Theor. Appl. Genet. 122(5):915-923.
157. QinX, Liu Y, Mao S, Li T, Wu H, Chu C,and Wang Y (2011) Genetic transformation of lipid transfer protein encodinggene in Phalaenopsis amabilis toenhance cold resistance. Euphytica 177: 33-43.
158. Zhang S, Li G, Fang J, Chen W, Jiang H,Zou J, Liu X, Zhao X, Li X, Chu C,Xie Q, Jiang X, and Zhu L (2010) The interactions among DWARF10, auxin andcytokinin underlie lateral bud outgrowth in rice. J. Integr. Plant Biol. 52(7): 626-638.
159. Chen H, Zhang Z,Teng K, Lai J, Zhang Y, Huang Y, Li Y, Liang L, Wang Y, Chu C, Guo H, and Xie Q (2010) Up-regulation of LSB1/GDU3 impactsgeminivirus infection by activating the salicylic acid pathway. PlantJ. 62(1): 12-23.
160. Spadaro D, Yun BW, Spoel SH, Chu C, Wang Y, and Loake G (2010) Theredox switch: dynamic regulation of protein function by cysteine modifications. Physiol.Plant 138(4): 360-371.
161. Huang X, Qian Q, Liu Z, Sun H, He S, Luo D, Xia G, Chu C, Li J, and Fu X (2009) Naturalvariation at the DEP1 locus enhancesgrain yield in rice. Nat. Genet.41(4): 494-497.
162. WangY, Feechan A, Yun BW, Shafiei R, Hofmann A, Taylor P, Xue P, Yang F, Xie Z,Pallas JA, Chu C, and Loake G (2009) S-nitrosylation of AtSABP3 antagonizes theexpression of plant immunity. J. Biol. Chem. 284: 2131-2137.
163. Zhang Y, Li Y, Gao T, Zhu H, Wang D, Zhang H, NingY, Liu L, Wu Y, Chu C, Guo H, and Xie Q (2008) Arabidopsis SDIR1 enhances drought tolerance in cropplants. Biosci. Biotech. Biochem.72: 2251-2254.
164. QiJ, Qian Q, Bu Q, Li S, Chen Q, Sun J, Liang W, Zhou Y, Chu C, Li X, Ren F, Palme K, Zhao B, Chen J, Chen M, and Li C(2008) Mutation of the rice NARROW LEAF1gene, which encodes a novel protein, affects vein patterning and polar auxintransport. Plant Physiol. 147: 1947-1959.
165. HongJK, Yun BW, Kang JG, Raja Mu, Kwon E, Sorhagen K, Chu C, Wang Y, and Loake GJ (2008) Nitricoxide function and signalling in plant disease resistance. J. Exp. Bot. 59: 147-154.
166. DongH, Deng Y, Mu J, Lu Q, Wang Y, Xu Y, ChuC, Chong K, Lu C, and Zuo J (2007) TheArabidopsis Spontaneous CellDeath1 gene, encoding a ζ-carotenedesaturase essential for carotenoid biosynthesis, is involved inphotoprotection, chloroplast development and retrograde signaling. Cell Res. 17: 458-470.
167. LiuB, Chen Z, Song X, Liu C, Cui X, Zhao X, Fang J, Xu W, Zhang H, Wang X, Chu C, Deng XW, Xue Y, andCao X (2007) Oryza sativa Dicer-like4 reveals a key role for smallinterfering RNA silencing in plant development. Plant Cell 19: 2705-2718.
168. ZhangK, Qian Q, Huang Z, Wang Y, Li M, Hong L, Zheng D, Gu M, Chu C, and Cheng Z (2006) GOLD HULL AND INTERNODE2 (GH2) encodes a primarily multifunctionalcinnamyl-alcohol dehydrogenase (CAD) in Oryza sativa. Plant Physiol.140: 972-983.
169. XiongG, Hu X, Jiao Y, Yu Y, Chu C, Li J,Qian Q, and Wang Y (2006) LEAFYHEAD2, which encodes aputative RNA-binding protein, regulates shoot development of rice. Cell Res. 16: 267-276.
170. ZhouH, He S, Cao Y, Chen T, Du B, Chu C,Zhang J, and Chen S (2006) OsGLU1, A putativemembrane-bound endo-1,4-b-D-glucanase from rice, affects plant internodeelongation. Plant Mol. Biol.60: 137-151.
171. Liu B, Li P, Li X, Liu C, Cao S, Chu C, and Cao X (2005) Loss of function of OsDCL1 affects microRNA accumulation andcauses developmental defects in rice. Plant Physiol. 139:296-305.
172. Junker BH, Chu C, Sonnewald U, Willmitzer L, and Fernie AR (2003) In plants the alc geneexpression system responds more rapidly following induction with acetaldehydethan with ethanol. FEBS Lett.535 (1-3): 136-140.
173. SweetmanJP, Chu C, Qu N, Greenland AJ,Sonnewald U, and Jepson I (2002) Ethanol vapor is an efficient inducer of the alc gene expression system in model andcrop plant species. Plant Physiol.129: 943-948.

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1. 儲成才, 陳帥,阿爾拜託.馬提尼;一種建立植物基因標籤系統的方法. 專利號:ZL01118092.7.
2. 王義琴, 儲成才,孫勇如,陳晨;培育抗黃萎病轉基因棉花的方法及其專用表達載體. 專利號:ZL201010146639.2.
3. 儲成才, 張振霞, 史代範.包雷;煙胺合成酶基因的用途和通過轉基因植物提高植物耐逆性的方法. 專利號:ZL02150321.4.
4. 儲成才, 王義琴, 劉豐澤,陳帥; 一種維管組織特異表達啓動子VSP1及其應用. 專利號:ZL201210327687.0.
5. 儲成才, 胡斌,王威, 李華, 張志華, 車榮會, 梁成真; 水稻硝酸鹽轉運蛋白NRT1.1B在提高植物氮利用效率中的應用. 專利號: ZL201410495440.9.
6. 唐九友, 左士敏, 吳旭江, 殷文超, 潘學彪, 儲成才; 水稻條紋葉枯病抗性基因Stvbi及其應用. 專利號:ZL2016100647862.2.
7. 儲成才, 劉永強, 胡斌, 汪鴻儒; 一個調控植物氮素利用效率和產量蛋白質及其應用. 專利號: ZL202010965332.9.
8. 儲成才, 王秋韞, 吳耀榮; 水稻的一種耐逆相關基因及其編碼蛋白與應用. 專利號:ZL200410029952.2.
9. 儲成才, 李春來; 一種與水稻產量相關蛋白及其編碼基因與應用. 專利號: ZL2010178405.6.
10. 儲成才, 高少培, 方軍, 徐凡, 王威; 水稻HOX12基因的應用. 專利號: ZL201610157388.5.
11. 儲成才, 司麗珍; 細胞質型 1,6-二磷酸果糖酶基因啓動子及其應用. 專利號:ZL02146791.9.
12. 儲成才, 白先權; 一種植物花特異性啓動子及其專用重組表達載體和應用. 專利號:ZL200810101694.2.
13. 儲成才, 童紅寧, 金芸, 劉文波, 李峯, 方軍, 朱立煌; 一種與植物分櫱數目相關的蛋白及其編碼基因與應用. 專利號:ZL200810247366.3.
14. 王義琴, 潘學彪, 儲成才; 抗紋枯病轉基因水稻的培育及專用載體. 專利號:ZL201210530561.3.
15. 儲成才, 劉林川, 童紅寧, 胡斌, 梁成真, 車榮會, 徐凡; 水稻BG1蛋白及其編碼基因在調節植物生長髮育中的應用. 專利號:ZL201310343713.3.
16. 儲成才, 梁成真; 水稻PS1蛋白及其編碼基因在調節植物衰老中的應用. 專利號:ZL201310400013.3.
17. 儲成才, 張聯合, 胡斌; 一種提高生物體中硒含量的方法. 專利號:ZL201310536167.5.
18. 儲成才, 王威, 胡斌, 李華, 張志華, 劉永強; 水稻 NRT1.1A 及其編碼蛋白在提高作物產量育種中的應用. 專利號:ZL201610680206.2.

儲成才主要合作品種

1. 秀水114(浙審稻 2009005)培育人:浙江省嘉興市農業科學研究院、中國科學院遺傳與發育生物學研究所浙江嘉興農作物高新技術育種中心
2. 秀水134(浙審稻 2010003;滬審稻2011005)培育人:嘉興市農業科學研究院、中國科學院遺傳與發育生物學研究所浙江嘉興農作物高新技術育種中心、餘姚市種子管理站
3. 秀優207(國審稻 20180118)培育人:浙江嘉興農業科學研究院,浙江勿忘農種業有限公司,中國科學院遺傳與發育生物學研究所浙江嘉興農作物高新技術育種中心
4. 秀優71207(國審稻 20180048)培育人:浙江嘉興農業科學研究院,浙江勿忘農種業有限公司,中國科學院遺傳與發育生物學研究所浙江嘉興農作物高新技術育種中心
5. 秀優5013(綠超稻 201916,科技部重大專項總體組認定品種)培育人:浙江嘉興市農科院,中國科學院遺傳與發育生物學研究所浙江嘉興農作物高新技術育種中心
6. 秀優7113(綠超稻 201917,科技部重大專項總體組認定品種)培育人:浙江嘉興市農科院,中國科學院遺傳與發育生物學研究所浙江嘉興農作物高新技術育種中心
7. 秀優4913(綠超稻 201918,科技部重大專項總體組認定品種)培育人:浙江嘉興市農科院,中國科學院遺傳與發育生物學研究所浙江嘉興農作物高新技術育種中心
參考資料 [1] 

儲成才科研項目

(1) 農學 - 稻類作物種質資源和遺傳育種 ,主持,國家級,2009-01--2012-12 [4] 

儲成才所獲榮譽

1999年 中國科學院“百人計劃”
2004年 首批新世紀百千萬人才工程國家級人選
2006年 國務院批准享受政府特殊津貼專家
2008年 國家傑出青年基金
2016年 全國優秀科技工作者
2016年 中國僑界貢獻獎
2016年 科技部國家創新人才推進計劃重點領域創新團隊
2017年 中組部、人社部“萬人計劃”領軍人才
2017年 《功能基因組學》課程被評為中國科學院大學生命科學學院精品課程
2019年 《功能基因組學》課程被評為中國科學院大學現代農學院優秀課程
2019年 《功能基因組學》課程被評為中國科學院大學優秀課程
2019年 Web of Science高被引科學家
2020年 Web of Science高被引科學家
2021年 Web of Science高被引科學家
2021年 中國科學院大學“魏橋國科”校長獎教金
參考資料