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邢朝柱
鎖定
邢朝柱,男,中共黨員,博士,二級研究員,博士生導師
[3]
[5]
。從1991年起
[6]
,在中國農業科學院棉花研究所工作,一直從事棉花雜種優勢利用研究
[18]
。為“新世紀百千萬人才工程”國家級人選、國家科技創新領軍人才,全國農業科研傑出人才、河南省優秀專家、中國農科院B類農科英才,科技部重點領域創新團隊負責人,中國農科院創新團隊首席等,享受國務院特殊津貼
[5]
。在核心學術期刊發表科技論文80多篇,主持培育棉花新品種20多個;獲專利和軟件著作權20多項,獲各類科技成果獎7項,其中獲國家科技進步二等獎1項,省部一等獎2項,省部二等獎2項,排名均為第一
[5]
。2008年10月至2009年10月在美國新墨西哥州立大學做高訪學者,從事棉花分子育種合作研究
[5]
。2020年入選“中原學者”
[4]
[21]
。
邢朝柱人物履歷
邢朝柱教育經歷
邢朝柱工作經歷
邢朝柱主要成就
邢朝柱科研成果
從1991年起,在中國農業科學院棉花研究所工作,一直從事棉花雜種優勢利用研究,主要圍繞棉花細胞質雄性不育及其育性恢復分子機理、產量雜種優勢形成分子機理和強優勢棉花新品種選育等領域開展應用基礎研究。從“十五”起,先後主持國家“863”課題、國家支撐計劃課題、科技部轉基因重大專項課題以及國家重點研發項目等十多項,參與並謀劃我國雜交棉發展方向,推動了我國雜交棉的快速發展
[5]
。率先開展了我國轉基因抗蟲雜交棉選育研究,主持培育“國審抗蟲棉”中棉所29
[1]
、38、39、47、52、99等一系列生產上主推品種,累計推廣面積8千多萬畝,取得了顯著的經濟和社會效益,推動了我國抗蟲雜交棉的全面發展
[2-3]
[5]
。在棉花不育系研究方面,改良和提高棉花雙隱性核雄性不育系材料農藝性狀;建立了棉花“三系”分子標記輔助育種體系
[16]
,審定“兩系”和“三系”不育系雜交種4個,推廣1千多萬畝,創制的不育系核心種質材料被全國棉花主要育種單位引用,大大提升了我國棉花不育系育種水平
[5]
。先後獲各類科技成果獎7項,其中獲國家科技進步二等獎1項,省部級一等獎2項,排名均為第一。主持完成“棉花抗蟲不育系創制”等鑑定成果3項,獲專利和軟件著作權等20多項,同時以第一作者或通訊作者身份在中國農業科學、遺傳學報、棉花學報、Journal of Experimental Botany、Plant Molecular Biology、BMC Plant Biology、International Journal of Molecular Sciences、BMC Genomics、Molecular Breeding等中英文核心期刊發表科技論文80多篇
[5]
[7]
[15]
,主編著作2本,參編7本
[17]
。
邢朝柱人才培養
邢朝柱研究員為科技部“創新人才推進計劃”重點領域創新團隊負責人、農業部農業科技創新團隊和中國農科院科技創新團隊首席。團隊圍繞“四個面向”中面向國家重大需求,優化和完善本學科體系,加強棉花雜種優勢應用基礎研究,突出精準高效育種技術(分子標記輔助育種技術、全基因組選擇技術、轉基因技術和基因編輯技術等)在棉花育種中的作用,培育重大品種;構建了人才結構合理、制度健全、和諧向上的科研團隊,提升了團隊在科研理念和科技成果研發等方面的創新能力;培養碩士、博士近20人
[5]
。
邢朝柱科研項目
代表性品種
邢朝柱授權專利
5. XING Chaozhu; FENG Juanjuan; WU Jianyong; ZHANG Meng; ZHANG Xuexian; GUO Liping; QI Tingxiang; TANG Huini; WANG Hailin; QIAO Xiuqin. INDEL MARKER FOR SIMULTANEOUSLY IDENTIFYING RESTORER GENES RF1 AND RF2 OF COTTONCYTOPLASMIC MALE STERILITY. LU102409, 2021年2月獲盧森堡國際發明專利,第1名
[5]
6. XING Chaozhu; QI Tingxiang; GUO Liping; WU Jianyong; ZHANG Xuexian; TANG Huini; WANG Hailin; QIAO Xiuqin. COMBINED POLLEN COLLECTOR. 2021100466, 2021年3月獲澳大利亞國際革新專利,第1名
[5]
7. 邢朝柱;張夢;吳建勇;馮娟娟;郭立平;戚廷香;張學賢;王海林;唐會妮;喬秀琴。一種棉花育性恢復相關的分子標記及其應用。ZL 201910566536.2,2021年08月31日獲國家發明專利,第1名
[20]
邢朝柱獎勵情況
邢朝柱代表性論文
1. Zhang M, Zhang X, Guo L, Qi T,Liu G, Feng J, Shahzad K, Zhang B, Li X, Wang H, Tang H, Qiao X, Wu J*, Xing C*. Single-base resolution methylome of cotton cytoplasmic male sterility system reveals epigenomic changes in response to high-temperature stress during anther development. J Exp Bot 2020, 71(3): 951-969. (SCI影響因子:6.992
[19]
,*為通訊作者)
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[11-13]
2. Feng J, Zhang X, Zhang M, Guo L, Qi T, Tang H, Zhu H, Wang H, Qiao X, Xing C*, Wu J*. Physical mapping and InDel marker development for the restorergene Rf2 in cytoplasmic male sterile CMS-D8 cotton. BMC Genomics 2021, 22(1): 24. (SCI影響因子:3.969,*為通訊作者)
[7]
[15]
3. Zhang S, Jiang Z, Chen J, Han Z, Chi J, Li X, Yu J, Xing C, Song M, Wu J, Liu F, Zhang X*, Zhang J*, Zhang J*. The cellulose synthase (CesA) gene family in four Gossypium species: phylogenetics, sequence variation andgene expression in relation to fiber quality in Upland cotton. Mol Genet Genomics 2021, 296(2):355-368. (SCI影響因子:3.291,*為通訊作者)
[7]
4. Shahzad K, Zhang X, Guo L, Qi T, Bao L, Zhang M, Zhang B, Wang H, Tang H, Qiao X, Feng J, Wu J*, Xing C*. Comparative transcriptome analysis between inbred and hybrids reveals molecular insights into yieldheterosis of upland cotton. BMC Plant Biol 2020, 20(1): 239. (SCI影響因子:4.215,*為通訊作者)
[7]
5. Shahzad K, Zhang X, Guo L, Qi T, Tang H, Zhang M, Zhang B, Wang H, Qiao X, Feng J, Wu J*, Xing C*. Comparative transcriptome analysis of inbred lines and contrasting hybrids reveals overdominance mediate early biomass vigor in hybrid cotton. BMC Genomics 2020, 21(1): 140. (SCI影響因子:3.969,*為通訊作者)
[6-7]
6. Feng J#, Zhu H#, Zhang M, Zhang X, Guo L, Qi T, Tang H, Wang H, Qiao X, Zhang B, Shahzad K, Xing C*, Wu J*. Development and utilization of an InDel marker linked to the fertility restorer genes of CMS-D8 and CMS-D2 in cotton. Mol Biol Rep 2020, 47(2): 1275-1282. (SCI影響因子:2.316,#為共同第一作者,*為通訊作者)
[7]
7. Han Z*, Qin Y, Li X, Yu J, Li R, Xing C, Song M, Wu J, Zhang J*. A genome-wide analysis of pentatricopeptide repeat (PPR) protein-encoding genesin four Gossypium species with an emphasis on their expression in floral buds,ovules, and fibers in upland cotton. Mol Genet Genomics 2020, 295(1): 55-66. (SCI影響因子:3.291,*為通訊作者)
[7]
8. Zhang M, Guo L, Qi T, Zhang X,Tang H, Wang H, Qiao X, Zhang B, Feng J, Zuo Z, Li T, Shahzad K, Wu J*, Xing C*. Integrated Methylome and Transcriptome Analysis between the CMS-D2 Line ZBA and Its Maintainer Line ZB in Upland Cotton. Int J Mol Sci 2019, 20(23). (SCI影響因子:4.556,*為通訊作者)
[6-7]
9. Zhang B, Zhang X, Zhang M, Guo L, Qi T, Wang H, Tang H, Qiao X, Shahzad K, Xing C*, Wu J*. Transcriptome Analysis Implicates Involvement of Long Noncoding RNAs in Cytoplasmic Male Sterility and Fertility Restoration in Cotton. Int J Mol Sci 2019, 20(22).(SCI影響因子:4.556,*為通訊作者)
[7]
10. Shahzad K#, Li X#, Qi T, Guo L,Tang H, Zhang X, Wang H, Zhang M, Zhang B, Qiao X, Xing C*, Wu J*. Genetic analysis of yield and fiber quality traitsin upland cotton (Gossypium hirsutumL.) cultivated in different ecological regions of China. Journal of Cotton Research 2019, 2(1): 14. (#為共同第一作者,*為通訊作者)
[7]
11. Shahzad K, Qi T, Guo L, Tang H, Zhang X, Wang H, Qiao X, Zhang M, Zhang B, Feng J, Shahid Iqbal M, Wu J*, Xing C*. Adaptability and Stability Comparisons of Inbred and Hybrid Cotton in Yield and Fiber Quality Traits. Agronomy 2019, 9(9): 516.(SCI影響因子:2.603,*為通訊作者)
[7]
12. Li X, Shahzad K, Guo L, Qi T, Zhang X, Wang H, Tang H, Qiao X, Zhang J, Wu J*, Xing C*. Using yield quantitative trait locus targeted SSR markersto study the relationship between genetic distance and yield heterosis inupland cotton (Gossypium hirsutum). Plant Breeding 2019, 138(1):105-113. (SCI影響因子:1.662,*為通訊作者)
[7]
[14]
13. Zhang B, Zhang X, Guo L, Qi T, Wang H, Tang H, Qiao X, Shahzad K, Xing C*, Wu J*. Genome-wide analysis of Rf-PPR-like (RFL) genes and a new InDel marker development for Rf1 gene in cytoplasmic male sterile CMS-D2 Upland cotton. Journal of Cotton Research 2018, 1(1): 12. (*為通訊作者)
[7]
14. Zhang B, Zhang X, Liu G, Guo L, Qi T, Zhang M, Li X, Wang H, Tang H, Qiao X, Pei W, Shahzad K, Xing C*, Zhang J*, Wu J*. A combined small RNA and transcriptome sequencing analysis reveal regulatory roles of miRNAs during anther development of Upland cotton carrying cytoplasmic malesterile Gossypium harknessii (D2) cytoplasm. BMC Plant Biol 2018, 18(1):242. (SCI影響因子:3.67,*為通訊作者)
[6-7]
15. Yang L, Wu Y, Zhang M, Zhang J, Stewart JM, Xing C*, Wu J*, Jin S.Transcriptome, cytological and biochemical analysis of cytoplasmic malesterility and maintainer line in CMS-D8 cotton. Plant Mol Biol 2018, 97(6): 537-551. (SCI影響因子:3.928,*為通訊作者)
[6-7]
16. Wu J*, Zhang M, Zhang X, Guo L, Qi T, Wang H, Tang H, Zhang J, Xing C*.Development of InDel markers for the restorer gene Rf1 and assessment of their utility for marker-assisted selection in cotton. Euphytica 2017,213(11). (SCI影響因子:1.546,*為通訊作者)
[7]
17. Wu J*, Zhang M, Zhang B, Zhang X, Guo L, Qi T, Wang H, Zhang J, Xing C*.Genome-wide comparative transcriptome analysis of CMS-D2 and its maintainer andrestorer lines in upland cotton. BMC Genomics 2017, 18(1): 454. (SCI影響因子:3.73,*為通訊作者)
[6-7]
18. Zhang B, Liu G, Li X, Guo L, Zhang X, Qi T, Wang H, Tang H, Qiao X, Zhang J, Xing C*, Wu J*. A genome-wide identification and analysis of the DYW-deaminase genes in the pentatricopeptide repeat gene family in cotton (Gossypium spp.). PLoS One 2017, 12(3): e0174201. (SCI影響因子:2.766,*為通訊作者)
[7]
19. Fu W, Shen Y, Hao J, Wu J, Ke L, Wu C, Huang K, Luo B, Xu M, Cheng X, Zhou X, Sun J, Xing C*, Sun Y*. Acyl-CoA N-acyltransferase influences fertility by regulating lipid metabolism and jasmonic acid biogenesis in cotton. Sci Rep 2015, 5: 11790. (SCI影響因子:5.228,*為通訊作者)
[6-7]
20. Wu J, Cao X, Guo L, Qi T, Wang H, Tang H, Zhang J, Xing C*. Development of a candidate gene marker for Rf1 based on a PPR gene in cytoplasmic male sterile CMS-D2 Upland cotton. Molecular Breeding 2014, 34(1):231-240. (SCI影響因子: 2.246,*為通訊作者)
[7]
21. Wu J, Gong Y, Cui M, Qi T, Guo L, Zhang J, Xing C*. Molecular characterization of cytoplasmic male sterility conditioned by Gossypium harknessii cytoplasm (CMS-D2) in upland cotton. Euphytica 2011, 181(1):17-29. (SCI影響因子:1.554,*為通訊作者)
[7]
22. Pang M, Xing C, Adams N, Rodriguez-Uribe L, Hughs SE, Hanson SF, Zhang J*. Comparative expression of miRNA genes and miRNA-based AFLP marker analysis in cultivated tetraploid cottons. J Plant Physiol 2011, 168(8): 824-830. (SCI影響因子:2.791,*為通訊作者)
[7]
23. Zhao Y, Yu S*, Xing C, Fan S, Song M. Analysis of DNA methylation in cotton hybrids and their parents. Molecular Biology 2008, 42(2): 169-178. (SCI影響因子:0.849,*為通訊作者)
[7]
24. Ma X, Xing C*, Guo L, Gong Y, Wang H, Zhao Y, Wu J. Analysis of differentially expressed genes in genic male sterility cotton (Gossypiumhirsutum L.) using cDNA-AFLP. J Genet Genomics 2007, 34(6): 536-543. (SCI影響因子:0.382,*為通訊作者)
[7]
25. 陳亮亮, 張夢, 郭立平, 戚廷香, 張學賢, 唐會妮, 王海林, 喬秀琴, 吳建勇*, 邢朝柱*. 淺談陸地棉雜種二代利用. 中國棉花 2020, 47(12): 1-4. (*為通訊作者)
[10]
26. 邢朝柱*, 郭立平, 李威, 吳建勇, 楊代剛, 戚廷香, 馬雄風, 張學賢. 棉花雜種優勢利用研究十年成就和未來發展. 棉花學報 2017, 29(S1): 28-36. (*為通訊作者)
27. 邢朝柱*, 靖深蓉, 邢以華. 中國棉花雜種優勢利用研究回顧和展望. 棉花學報 2007(05): 337-345. (*為通訊作者)
邢朝柱圖書著作
- 參考資料
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- 1. 邢朝柱:辛勤耕耘棉花領域16年 .2007年05月22日 16:08 農博網[引用日期2016-09-08]
- 2. 邢朝柱 .中國農業科學院棉花研究所官網[引用日期2016-09-08]
- 3. 棉花秀 天下暖—記中國農業科學院棉花研究所研究員邢朝柱 .《科學中國人》 2012年02期[引用日期2016-09-08]
- 4. 2020年度中原英才計劃(育才系列)-- 中原學者初選結果公示 .河南省科學技術廳.2020-10-29[引用日期2021-05-09]
- 5. 人才隊伍——邢朝柱 .中國農業科學院棉花研究所[引用日期2021-05-09]
- 6. 博士生導師-邢朝柱 .中國農業科學院棉花研究所.2020-03-10[引用日期2021-05-09]
- 7. Chaozhu Xing_Works .ORCID iD.2021-01-14[引用日期2021-05-09]
- 8. 2018-2019年度神農中華農業科技獎擬授獎成果公示 .中國農學會.2019-10-12[引用日期2021-05-09]
- 9. 國家重點研發計劃2016年度項目公示詳細清單 .青塔-科研.2016-06-23[引用日期2021-05-09]
- 10. 淺談陸地棉雜種二代利用 .中國知網.2020-11-13[引用日期2021-05-09]
- 11. 中棉所解析高温脅迫下DNA甲基化調控棉花育性的潛在機制 .中國農業科學院棉花研究所.2019-11-05[引用日期2021-05-09]
- 12. 高温脅迫下DNA甲基化調控棉花育性的潛在機制被解析 .中國農業科學院-新聞中心.2019-11-08[引用日期2021-05-09]
- 13. 《中國科學報》:高温脅迫下DNA甲基化調控棉花育性的潛在機制被解析 .中國農業科學院棉花研究所.2019-11-12[引用日期2021-05-09]
- 14. Using yield quantitative trait locus targeted SSR markers to study the relationship between genetic distance and yield heterosis in upland cotton (Gossypium hirsutum) .Wiley Online Library.2018-12-17[引用日期2021-05-09]
- 15. Chaozhu_Xing .ResearchGate[引用日期2021-05-09]
- 16. 中棉所建立高效棉花“三系”育種技術體系 .中國農業科學院棉花研究所.2020-08-25[引用日期2021-05-09]
- 17. 圖書題錄 .中國農科院棉花研究所[引用日期2021-05-12]
- 18. 研究室和研究課題組-棉花雜種優勢育種 .中國農業科學院棉花研究所[引用日期2021-05-30]
- 19. Journal Citation Reports .JCR.2021-06-30[引用日期2021-07-06]
- 20. 一種棉花育性恢復相關的分子標記及其應用 .SooPAT.2021-08-31[引用日期2021-10-22]
- 21. 205人擬入選2020年度“中原英才計劃”(育才系列) .澎湃新聞.2020-12-10[引用日期2021-10-24]
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