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袁松丽,博士,中国农业科学院油料作物研究所副研究员。2004年-2008年,华中农业大学生科院,国家生物学理科基地,获得学士学位;2008年-2013年,华中农业大学生科院 农业微生物学国家重点实验室,获得博士学位。目前主要从事大豆根瘤发育及衰老分子机理及应用、共生体寄主特异性识别的分子机理研究、高固氮转基因大豆新品种培育等方面的研究。在根瘤发育及衰老机理研究以及创制延缓根瘤衰老的转基因大豆材料方面取得了一定成绩。主持国家自然科学基金面上项目等项目5项,参与转基因重大专项、大豆产业技术体系、面上项目等项目5项;创制高固氮转基因材料10余份;发表文章40余篇,其中以第一作者或通讯作者在Plant Physiol、Front Plant Sci、Scientificreports、Front Microbio、BMCplant bio、Planta、Plants-basel等杂志上发表Q1区SCI论文11篇(总计影响因子53.122),以参与作者在Mol Plant、New Phytol、PlantPhysiol、PlantBiotechnol J、TAG、IJMS、Plos one等杂志上发表SCI论文20来篇,参与编写外文著作一部;负责申请并获授权发明专利4项;多家国际国内期刊(JXB, Front Plant Sci,the Canadian Journal of Plant Science, Oil Crop Science, 油料作物学报等)审稿人。
中国农业科学院油料作物研究所南方大豆遗传育种创新团队主要围绕南方大豆生产需求,以大豆优异基因挖掘、品种培育及高产高效生产技术集成为主要研究方向,重点开展大豆种质资源收集与评价、遗传育种、功能基因组、病虫害防治、高效生产技术等研究。现有研究人员14人,其中高级职称8人,具博士学位人员10人。“九五”以来,主持和承担国家863、国家支撑计划、转基因重大专项、国家自然科学基金、公益行业专项、湖北省攻关、国际合作等重大项目60余项。在大豆养分高效利用、抗锈病、抗食叶性害虫及胞囊线虫病等方面取得显著进展,育成大豆新品种16个,发表研究论文70余篇,获省部级以上科技成果奖励5项。
1.国家自然科学基金面上项目( 32071964 ),大豆GmCYS2蛋白与半胱氨酸蛋白酶互作调控根瘤发育及衰老的分子机理研究,2021-01至2024-12,主持;
2.国家自然科学基金青年基金(31701346),大豆半胱氨酸蛋白酶抑制基因Glyma18g12240在根瘤衰老过程中的功能及调控机理研究,2018-01至2020-12,主持;
3.中国农业科学院油料作物研究所杰出人才培育基金项目(1610172018001),大豆根瘤衰老机理研究及应用,2018-01至2020-12,主持;
4.中央高校基本科研业务费项目(学科交叉),大豆原卟啉原氧化酶抗除草剂突变体的设计及其转基因研究,2014-05至2016-05,主持;
5. 华中师范大学农药与化学生物学教育部重点实验室开放基金资助项目,大豆原卟啉原氧化酶抗除草剂突变体的转基因研究,2014-01至2014-12, 主持。
发表的论著-1 (第一或通讯作者):
1. Songli Yuan, Shunxin Zhou, Yong Feng, Chanjuan Zhang, Yi Huang, Zhihui Shan, ShuilianChen, Wei Guo, Hongli Yang, ZhongluYang, Dezhen Qiu, Haifeng Chen* and Xinan Zhou*. Identification of the important genes of Bradyrhizobium diazoefficiens 113-2 involved in soybean noduledevelopment and senescence. Frontiersin microbiology. 2021, Accept.(IF=5.640)
2. Rong Li, Haifeng Chen, Songli Yuan* and Xinan Zhou*. Overview and application of soybean genomics study.In: Oil Crop Genomics, Chapter 2, published by Springer Nature. 2021, DOI: 10.1007/978-3-030-70420-9.
3. Ping Wu, Yong Feng, Zhongmin Zou, Yangrong Cao*, Songli Yuan*. Criticalrole of Cysteine-266 of SIE3 in regulating the ubiquitination anddegradation of SIP1 transcription factor in Lotus japonicus. Planta. 2021, 253(6):126.(IF=4.116)
4. Shunxin Zhou, Chanjuan Zhang, Yi Huang, Haifeng Chen*, Songli Yuan * and Xinan Zhou. Characteristicsand research progress of legume nodule senescence. Plants. 2021,10: 1103.(IF=3.935)
5. Yong Feng, Ping Wu, Weiwei Fu, Liwei Peng, Hui Zhu,Yangrong Cao, Zhou Xin An, Zonglie Hong, Zhongming Zhang* and Songli Yuan*.The Lotus japonicus ubiquitin ligaseSIE3 interacts with the transcription factor SIP1 and forms a homodimer. Front Plant Sci. 2020, 11:795.(IF=5.753)
6. Rong Li#, Yong Feng#, Haifeng Chen, Chanjuan Zhang, Yi Huang, Limiao Chen, Qingnan Hao, Dong Cao, Songli Yuan* and Xinan Zhou*. Whole-genomesequencing of Bradyrhizobium diazoefficiens 113-2 and comparativegenomic analysis provide molecular insights into species specificity and hostspecificity. Frontiers in microbiology.2020, 11:576800.(IF=5.640)
7. Songli Yuan#, Danxia Ke#, Rong Li, Xiangyong Li, LeiWang, Haifeng Chen, Chanjuan Zhang, Yi Huang, Limiao Chen, Qingnan Hao, HongliYang, Dong Cao, Shuilian Chen, Wei Guo, Zhihui Shan, ZhongluYang, XiaojuanZhang, Dezhen Qiu, Yuefeng Guan* and Xinan Zhou*. Genome-wide survey of soybeanpapain-like cysteine proteases and their expression analysis in root nodulesymbiosis. BMC plant biology. 2020,20(1):517.(IF=4.215)
8. Rong Li, Haifeng Chen, Zhonglu Yang, Songli Yuan* and Xinan Zhou*. Researchstatus of soybean symbiosis nitrogen fixation. Oil Crop Science. 2020, 5: 6-10.
9. Songli Yuan,Xiangyong Li, Rong Li, Lei Wang, Chanjuan Zhang,Limiao Chen, Qingnan Hao, Xiaojuan Zhang, Haifeng Chen, Zhihui Shan, ZhongluYang, Shuilian Chen, Dezhen Qiu, Danxia Ke* and Xinan Zhou*. Genome-wideidentification and classification of soybean C2H2 zinc finger proteins andtheir expression analysis in legume-rhizobium symbiosis. Frontiers in microbiology, 2018,9:126.(IF=4.019)
10. Song LYuan, Rong Li, Hai F Chen,Chan J Zhang, Li M Chen, Qing N Hao, Shui L Chen, Zhi H Shan, Zhong L Yang,Xiao J Zhang, De Z Qiu and Xin A Zhou*. RNA-Seq analysis of nodule developmentat five different developmental stages of soybean (Glycine max)inoculated with Bradyrhizobium japonicum strain 113-2. Scientific Reports, 2017, 7:42248.(IF=4.259)
11. Rong Li, SongliYuan*, Haifeng Chen, Chanjuan Zhang, Limiao Chen, Qingnan Hao, XiaojuanZhang, Zhihui Shan, ZhongluYang, Shuilian Chen, Dezhen Qiu, Xinan Zhou*.Comparative analysis of symbiotic phenotypes of soybean ʻTianlong 1ʼ with twodifferent rhizobia and co-inoculation at different developmental stages. Oil Crop Science.2017, 2(3):160-168.
12. Rong Li, SongliYuan*, Haifeng Chen, Chanjuan Zhang, Limiao Chen, Qingnan Hao, XiaojuanZhang, Zhihui Shan, ZhongluYang, Shuilian Chen, Dezhen Qiu, Xinan Zhou*.Symbiotic matching between soybean ‘Tianlong No.1’ and different rhizobia. Oil Crop Science. 2017, 2(2):64-70.
13. Yuan S, Li R, Wang L, Chen H, Zhang C, Chen L, Hao Q,Shan Z, Zhang X, Chen S, Yang Z, Qiu D, Zhou X*. Search for Nodulation andNodule Development-Related Cystatin Genes in the Genome of Soybean (Glycinemax)[J]. Frontiers in Plant Science, 2016, 7:1595.(IF=4.495)
14. Yuan S, Li R, Chen S, Chen H, Zhang C, Chen L, Hao Q,Shan Z, Yang Z, Qiu D, Zhang X, Zhou X*. RNA-Seq analysis of differential geneexpression responding to different rhizobium strains in soybean (Glycine max)roots [J]. Frontiers in Plant Science, 2016, 7: 721. (IF=4.495)
15. Songli Yuan, Rong Li, Zhongming Zhang*, Xinan Zhou*. How many proteins interacting with Symbiosis Receptor-likekinase (SymRK) involved in the regulation of nodulation? Oil Crop Science, 2016 (4): 49-57.
16. Songli Yuan , Hui Zhu, Honglan Gou, Weiwei Fu, Lijing Liu, Tao Chen, Danxia Ke, Heng Kang, Qi Xie, Zonglie Hong, ZhongmingZhang*. A ubiquitin ligase of symbiosis receptor kinase involved innodule organogenesis. Plant physiol, 2012. 160(1):106-17.(IF=6.555)
发表的论文-2 (参与的代表性论文):
1. Feng Y,Wu P, Liu C, Peng L, Wang T, Wang C, Tan Q, Li B, Ou Y, Zhu H, Yuan S, Huang R, Stacey G, Zhang Z and Cao Y. Suppression of LjBAK1-mediated immunity bySymRK promotes rhizobial infection in Lotusjaponicus. Mol Plant. 2021, S1674-2052 (21) 00304-X.
2. Chen L, Yang H, Fang Y, Guo W, Chen H, Zhang X, Dai W, Chen S, Hao Q, Yuan S, Zhang C, Huang Y, Shan Z, Yang Z, Qiu D, Liu X, Tran LP, Zhou X, Cao D.Overexpression of GmMYB14 improves high-density yield and drought tolerance ofsoybean through regulating plant architecture mediated by the brassinosteroidpathway. Plant Biotechnol J. 2021, 19(4):702-716.
3. Guo W, Chen L, Chen H, Yang H, You Q, Bao A, Chen S, Hao Q, Huang Y,Qiu D, Shan Z, Yang Z, Yuan S, Zhang C, Zhang X, Jiao Y, Tran LP, Zhou X, Cao D. Overexpression of GmWRI1b in soybean stably improves plant architecture and associated yield parameters, and increases total seed oil production under field conditions. Plant Biotechnol J. 2020, 18(8):1639-1641.
4. Kang Heng, Chu Xiaojie,Wang Chao, Xiao Aifang, Zhu Hui, Yuan Songli,Yang Zhenzhen, Ke Danxia, Xiao Shaobo, Hong Zonglie, Zhang Zhongming. A MYBcoiled-coil transcription factor interacts with NSP2 and is involved innodulation in Lotus japonicus. New Phytol. 2014, 201(3):837-49.
5. Ke Danxia, Fang Qing,Chen Chunfen, Zhu Hui, Chen Tao, Chang Xiaojun, Yuan Songli, Kang Heng, Ma Lian, Hong Zonglie, Zhang Zhongming.Thesmall GTPase ROP6 interacts with NFR5 and is involved in nodule formation in Lotus japonicus. Plant Physiol. 2012, 159(1):131-43.
6. Kang Heng, Zhu Hui, Chu Xiaojie,Yang Zhenzhen, Yuan Songli, Yu Dunqiang,Wang Chao, Hong Zonglie, Zhang Zhongming.A novel interaction between CCaMK anda protein containing the Scythe_N ubiquitin-like domain in Lotus japonicus. Plant Physiol. 2011,155(3):1312-24.
部分授权专利:
1、 一种调控植物根瘤发育及衰老的方法及应用。中国发明专利。专利号:ZL201910379834.0. 第一发明人。
2、 一种培育根瘤大小增加的转基因豆科植物的方法及其应用。中国发明专利。专利号:ZL201910903078.7. 第一发明人。
3、 Gmpplcyp8蛋白及其相关生物材料在调控植物固氮能力中的应用。中国发明专利。专利号:ZL201910380288.2. 第一发明人。
4、 一种参与豆科植物共生结瘤的泛素连接酶基因及应用。中国发明专利。专利号:ZL201210051293.7. 第二发明人。
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