博士, 副研究員 ,碩士生導師。
主要從事以系統發掘玉米組織特異性高表達啟動子以及玉米雙向啟動子為基礎探索建立玉米多基因高效表達體系,期望通過植物基因工程技術提高農作物的營養與品質。重點集中在以玉米生物反應器生產醫藥用活性蛋白或其他活性物質如抗氧化活性的花青素、蝦青素等。主持了國家自然基金委青年科學基金一項(31500301),參與國家“轉基因生物新品種培育重大專項”一項。在《Plant Biotechnology Journal》、《Journal of experimental botany》和《BMC Genomics》等國際知名期刊發表SCI論文9篇,並申請了6項啟動子的專利,其中4項獲得授權。
基本介紹
- 中文名:柳小慶
- 國籍:中國
- 職業:老師
- 畢業院校:中國農業科學院
主要履歷及經歷,研究領域,主要成果,研究領域:,發表論文,
主要履歷及經歷
2001-2008河北農業大學生命科學學院獲希謎幾得理學學士學位
2008-2014中國農業科學院生物技術研究所獲得理學碩求兆埋探士、博士學位
2014-2017中國農業想厚槓科學院生物所博士後流動站, 博士後
2017年5月至今中國農業科學院生物技術研究所,副研究員
2008-2014中國農業科學院生物技術研究所獲得理學碩求兆埋探士、博士學位
2014-2017中國農業想厚槓科學院生物所博士後流動站, 博士後
2017年5月至今中國農業科學院生物技術研究所,副研究員
研究領域
主要從事植物基因工程方面的研究。
主要成果
授權專利4項;發表科研論文12篇,其廈微兆背中SCI論文(或其他高水平論文)9篇。
主要專利或標準(10個以內):
1、王磊、柳小慶、范雲六、陳茹梅等. 玉米組織特異性啟動子及其套用. 201510038836.5.
夜雅紋2、王磊、柳小慶、范雲六、陳茹梅等. 玉米組織特異性啟動子及其在提高作物種子品質中的套用. 201410683469.X.
3、陳茹梅、柳小慶、范雲六、李業、周曉今、趙軍等. 從玉米中分離的組織特異性啟動子及其套用. 201410682994. X.
4、陳茹梅、柳小慶、范雲六、李業、周曉今、趙軍等. 玉米組織特異性試謎啟動子及其套用. 201410683244.4.
5、陳茹梅、柳小慶、范雲六、李業、趙軍、田健、王磊、張春義. 從玉米中分離的雙向啟動子及其套用. 201410683241.0.
達探殼 6、田健、范雲六、柳小慶、趙軍、陳茹梅等. 玉米組織特異性啟動子及其套用. 201410429204.7
主要專利或標準(10個以內):
1、王磊、柳小慶、范雲六、陳茹梅等. 玉米組織特異性啟動子及其套用. 201510038836.5.
夜雅紋2、王磊、柳小慶、范雲六、陳茹梅等. 玉米組織特異性啟動子及其在提高作物種子品質中的套用. 201410683469.X.
3、陳茹梅、柳小慶、范雲六、李業、周曉今、趙軍等. 從玉米中分離的組織特異性啟動子及其套用. 201410682994. X.
4、陳茹梅、柳小慶、范雲六、李業、周曉今、趙軍等. 玉米組織特異性試謎啟動子及其套用. 201410683244.4.
5、陳茹梅、柳小慶、范雲六、李業、趙軍、田健、王磊、張春義. 從玉米中分離的雙向啟動子及其套用. 201410683241.0.
達探殼 6、田健、范雲六、柳小慶、趙軍、陳茹梅等. 玉米組織特異性啟動子及其套用. 201410429204.7
研究領域:
主要從事植物基因工程方面的研究。
發表論文
1. Liu X, Yang W, Mu B, Li S, Li Y, Zhou X, Zhang C, Fan Y, Chen R*.Engineering of 'Purple Embryo Maize' with a multigene expression system derived from a bidirectional promoter and self-cleaving 2A peptides.Plant Biotechnol J. 2018 Jun;16(6):1107-1109. doi: 10.1111/pbi.12883.(IF=7.443)
2. Liu X, Li S, Yang W, Mu B, Jiao Y, Zhou X, Zhang C, Fan Y, Chen R*.Synthesis of seed-specific bidirectional promoters for metabolic engineering of anthocyanin-rich maize.Plant Cell Physiol. 2018 Jun 15. doi: 10.1093/pcp/pcy110.(IF=4.059)
3.Liu X, Tian J, Zhou X, Chen R, Wang L, Zhang C, Zhao J, Fan Y. Identification and characterization of promoters specifically and strongly expressed in maize embryos. Plant Biotechnology Journal. 2014 Dec;12(9):1286-96. (IF=5.951)
4. Liu X, Zhou X, Li Y, Tian J, Zhang Q, Li S, Wang L, Zhao J, Chen R*, Fan Y. Identification and functional characterization of bidirectional gene pairs and their intergenic regions in maize. BMC Genomics. 2014 May 5;15:338. (IF=4.278)
5. Liu X, Yang W, Li Y, Li S, Zhou X, Zhao Q, Fan Y, Lin1, M* and Chen R*. The intergenic region of the maize defensin-like protein genes Def1 and Def2 functions as an embryo-specific asymmetric bidirectional promoter. Journal of Experimental Botany. 2016, 67 (14):4403-4413. (IF=6.229)
6. Li Y, Liu X, Li J, Li S, Chen G, Zhou X, Yang W, Chen R*. Isolation of a maize ZmCI-1B promoter and characterization of its activity in transgenic maize and tobacco. Plant Cell Reports. 2015 34(8). (IF=3.178)
7. Li S, Zhou X, Li H, Liu Y, Zhu L, Guo J, Liu X, Fan Y, Chen J, Chen R. Overexpression of ZmIRT1 and ZmZIP3 Enhances Iron and Zinc Accumulation in Transgenic Arabidopsis. PLoS One. 2015 Aug 28;10(8):e0136647. (IF=3.535)
8. Zhou X, Yan S, Sun C, Li S, Li J, Xu M, Liu X, Zhang S, Zhao Q, Li Y, Fan Y, Chen R*, Wang L. A Maize Jasmonate Zim-Domain Protein, ZmJAZ14, Associates with the JA, ABA, and GA Signaling Pathways in Transgenic Arabidopsis. PLoS One. 2015 Mar 25: 10 (3): e0121824. (IF=3.535)
9. Zhou X, Li S, Zhao Q, Liu X, Zhang S, Sun C, Fan Y, Zhang C, Chen R*. Genome-wide identification, classification and expression profiling of nicotianamine synthase (NAS) gene family in maize. BMC Genomics. 2013 Apr 10;14:238. (IF=4.278)
10. Zhang S, Yang W, Zhao Q, Zhou X, Jiang L, Ma S, Liu X, Li Y, Zhang C, Fan Y, Chen R. Analysis of weighted co-regulatory networks in maize provides insight into new genes and regulatorymechanisms related to inositol phosphate metabolism. BMC Genomics. 2016 Feb 24;17(1):129(IF=4.278)
2. Liu X, Li S, Yang W, Mu B, Jiao Y, Zhou X, Zhang C, Fan Y, Chen R*.Synthesis of seed-specific bidirectional promoters for metabolic engineering of anthocyanin-rich maize.Plant Cell Physiol. 2018 Jun 15. doi: 10.1093/pcp/pcy110.(IF=4.059)
3.Liu X, Tian J, Zhou X, Chen R, Wang L, Zhang C, Zhao J, Fan Y. Identification and characterization of promoters specifically and strongly expressed in maize embryos. Plant Biotechnology Journal. 2014 Dec;12(9):1286-96. (IF=5.951)
4. Liu X, Zhou X, Li Y, Tian J, Zhang Q, Li S, Wang L, Zhao J, Chen R*, Fan Y. Identification and functional characterization of bidirectional gene pairs and their intergenic regions in maize. BMC Genomics. 2014 May 5;15:338. (IF=4.278)
5. Liu X, Yang W, Li Y, Li S, Zhou X, Zhao Q, Fan Y, Lin1, M* and Chen R*. The intergenic region of the maize defensin-like protein genes Def1 and Def2 functions as an embryo-specific asymmetric bidirectional promoter. Journal of Experimental Botany. 2016, 67 (14):4403-4413. (IF=6.229)
6. Li Y, Liu X, Li J, Li S, Chen G, Zhou X, Yang W, Chen R*. Isolation of a maize ZmCI-1B promoter and characterization of its activity in transgenic maize and tobacco. Plant Cell Reports. 2015 34(8). (IF=3.178)
7. Li S, Zhou X, Li H, Liu Y, Zhu L, Guo J, Liu X, Fan Y, Chen J, Chen R. Overexpression of ZmIRT1 and ZmZIP3 Enhances Iron and Zinc Accumulation in Transgenic Arabidopsis. PLoS One. 2015 Aug 28;10(8):e0136647. (IF=3.535)
8. Zhou X, Yan S, Sun C, Li S, Li J, Xu M, Liu X, Zhang S, Zhao Q, Li Y, Fan Y, Chen R*, Wang L. A Maize Jasmonate Zim-Domain Protein, ZmJAZ14, Associates with the JA, ABA, and GA Signaling Pathways in Transgenic Arabidopsis. PLoS One. 2015 Mar 25: 10 (3): e0121824. (IF=3.535)
9. Zhou X, Li S, Zhao Q, Liu X, Zhang S, Sun C, Fan Y, Zhang C, Chen R*. Genome-wide identification, classification and expression profiling of nicotianamine synthase (NAS) gene family in maize. BMC Genomics. 2013 Apr 10;14:238. (IF=4.278)
10. Zhang S, Yang W, Zhao Q, Zhou X, Jiang L, Ma S, Liu X, Li Y, Zhang C, Fan Y, Chen R. Analysis of weighted co-regulatory networks in maize provides insight into new genes and regulatorymechanisms related to inositol phosphate metabolism. BMC Genomics. 2016 Feb 24;17(1):129(IF=4.278)
