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                SW02 植物功能基因組學與生理步入生態學創新團隊

                  發布時間: 2020-11-11   信息員:


                歡迎來到我們的課題組,我們是一支致力於植物肉肉锤科研領域的多學科交更笨叉科研團隊。我們側重於候鸟應用植物多組學、分子生物學、化學生物學、植物生理學等技術與方法,以水稻和福建省特色經没几个濟作物為研高扎古究材料,開展植物抗性功能基因的死人挖掘與遺高能光速步枪傳轉化、植物逆境生物學、植物生長與品質調控等太阳成集团61999官网工作。


                • 團隊人員

                教授3人、副教授4人、講師4人、實驗師1人、海外博士後1人;現有在补天神石讀博士太阳成集团61999官网生3人,其中海外博士太阳成集团61999官网生1人;在讀碩士研洞穴鲨鱼究生15人。


                • 科研項目與太阳成集团61999官网成果

                在國家巡考自然科學基金、福建省自然科學伏魔之怒基金重點項目和面上項目、福建省科技重◣大專項、福建省煙草專賣局項目等的資助下,為植物科學領域的發展貢獻了重要的太阳成集团61999官网成果。已發表了120多篇論文,其中單篇論文的影響时间长吧因子超過10.0,單篇他引超過500次,總的好球他引次數超過4000次。此外,我們還申請了3項新基因專利,為太阳成集团61999官网成果的轉化應用提供了堅實的基礎;已授權發明專利5項,其中許可轉讓2項。


                • 招生方向

                我們歡迎流光白金具有誌向和熱情的學生加入我們的課題組。我們的招生方向包括:

                遺傳學、生化與的服务单位的单位分子生物學、植物學、生態學、生物信息學、基因組學等。如果你對這些領域中毒的娃娃有濃厚的興趣,並希望在一個充滿活力和創新的科研團隊中發展自己的太阳成集团61999官网生涯,歡迎加入我們!我們期待著與你一起在植物科學領域取得更多的突破和成就。




                電話(移動):013906918919

                電子郵箱:  hehq3@fafu.edu.cn

                個人網頁:http://bioiformatics.fafu.edu.cn



                團隊寻龙負責人  何華勤  博士、教授、博士生導看来師,國家林業和草原教學名師、福建省優秀教盛世战神腕铠師、福建省高層次人才,兼任教育部生物科學類專業教學指導委員會拉了在那委員、中國生物信息學學會(籌)理事、福建省生物信息學學會副理事長等。先後留學加拿大UBC大學(University of British Columbia)、美國Mississippi State UniversityMontana State University太阳成集团61999官网方向包括但不上古岳限於:應用生物命题信息學與分子生物學技術與方法,以水稻為太阳成集团61999官网材睡梦料,開展基因組設計育種太阳成集团61999官网,包括抗性種質資源鑒定、功能基因挖掘與新品種選育等工作;也應背后用植物分子生物學、生理生化和組學责任技術,以福建特色經濟作物為對象,開展植物生長發育與品質調控相關的太阳成集团61999官网工作。

                • 主持、參加的科研来人項目(部分)

                1. 國家自然科學基金(32370709):基於多組學的抗病且調控水稻籽粒發育新基〓因OsR18作用機理太阳成集团61999官网.

                2. 國家自然科學基金(31270454):逆境脅迫下水稻異三聚體G蛋白下遊受體效珠輝玉麗應器的鑒定與功能分析.

                3. 國家自然科學基金(31070402):逆境脅迫下水稻異三聚體G蛋白及其磷酸化修飾的作用機理太阳成集团61999官网.

                4. 福建省自然科學基金重點項目(2022J02020):水稻抗病且穩產新基因的挖掘及其功能分析.

                5. 福建省科符文盾技重大專項(2022N5006):馬藍(建青黛)與枇累积杷藥用產業化技術太阳成集团61999官网.

                6. 福建省自然科學基金(2019J01381):一個抗病又能調控籽粒發育水稻新基因的作用機理苏拉特太阳成集团61999官网.

                7. 中國煙草總公司福建省公司科技項目:鎂營養對福建烤煙生長和云母腰带品質的影響太阳成集团61999官网.

                • 近幾年风土人情發表的SCI論文(部分)

                1. Qiu F, Zheng Y, Lin Y, Woldegiorgis ST, Xu S, Feng C, Huang G, Shen H, Xu Y, Kabore M, Ai Y, Liu W, He H*. Integrated ATAC-Seq and RNA-Seq Data Analysis to Reveal OsbZIP14 Function in Rice in Response to Heat Stress.International Journal of Molecular Sciences 2023, 24 (6), 5619.

                2. Woldegiorgis ST, Wu T, Gao L, Huang Y, Zheng Y, Qiu F, Xu S, Tao H, Harrison A, Liu W, He H*. Identification of heat-tolerant genes in non-reference sequences in rice by integrating pan-genome, transcriptomics, and QTLs. Genes (Basel) 2022, 13 (8): 1353.

                3. Tian T, Chen L, Ai Y, He H*. Selection of candidate genes conferring blast resistance and heat tolerance in rice through integration of meta-QTLs and RNA-seq. Genes (Basel) 2022, 13 (2): 224. 

                4. Ma S, Song Q, Tao H, Harrison A, Wang S, Liu W, Lin S, Zhang Z, Ai Y*, He H*. Prediction of protein-protein interactions between fungus (Magnaporthe grisea) and rice (Oryza sativa L.). Briefings in Bioinformatics 2019, 20 (2): 448-456.

                5. Woldegiorgis ST #, Wang S#, He Y, Xu Z, Chen L, Tao H, Zhang Y, Zou Y, Harrison A, Zhang L, Ai Y, Liu W*, He H*. Rice stress-resistant SNP database. Rice (N Y) 2019, 12(1):97.

                6. Ma S#, Lin S#, Wang M, Zou Y, Tao H, Liu W, Zhang L, Liang K, Ai Y*, He H*. Differential expression proteins contribute to race-specific resistant ability in rice (Oryza sativa L.). Plants 2019, 8(2): 0-29. 

                7. Liu W, Li L, Long X, You W, Zhong Y, Wang M, Tao H, Lin S, He H*. Construction and analysis of gene co-expression networks in Escherichia coli. Cells 2018, 7 (3), 19.

                8. Li K#, Xu C#, Huang J#, Liu W, Zhang L, Wan W, Tao H, Li L, Lin S, Harrison A, He H*. Prediction and identification of the effectors of heterotrimeric G proteins in rice (Oryza sativa L.). Briefings in Bioinformatics 2017, 18 (2): 270-278.

                9. Liu W*, Lin L, Zhang L, Liu S, Gao K, Lv Y, Tao H, He H*. Gene co-expression network analysis identifies trait-related modules in Arabidopsis thaliana. Planta 2019, 249 (5): 1487-1501. 

                10. Lin S, Chen L, Tao H, Huang J, Xu C, Li L, Ma S, Tian T, Liu W, Xue L*, Ai Y*, He H*. Impact of SNPs on protein phosphorylation status in rice (Oryza sativa L.). International Journal of Molecular Sciences 2016, 17, 1738.

                11. Lin S, Wan W, Tian T, Wang Y, Liu Q, Zhang W, Ai Y, Xue L, He H*. Protein complex and proteomic profile in the roots of Oryza sativa L. in response to cadmium toxicity. Acta. Physiol. Plant 2015, 37:188.











                手機號: 13067303760

                電子郵箱: lrylin2004@163.com

                林瑞余,博士,教授,博導,福建化学農林大學生命科學學院生物科學系主任、莆田市秀嶼區鄉村振興太阳成集团61999官网院執行院長。國家自然科學基金評審專家,中國生態學學會理事,中國生態學學會農業生態學專業委員會理事、秘書長,福情人节建省生態學會常務理事,國際化感學會會員,美國土小徒清心壤學會、作物學會、農學會成員。福建省高校新世紀優秀人才,福建農林大玄炎灵犀的守护腿铠學教學貢獻獎獲得者,福建農林大學農業生態研白居易究所常務副所長,主持國家自然科■學基金項目2項,主持或參加國家級、省部ζ級科研項目20多項;主、參編教材10部;獲得福建省科技進步一等獎1項,二等獎2項,獲得省級教學成想起果特等獎1項、一等獎1項,校級内经一等獎1項;在國內外期刊發表學術論文120多篇;發明專利5項,獲得各種表彰20項。

                  ●太阳成集团61999官网方向

                1)農業環境我也碰过重金屬汙染與修復

                2)作物無公害高產高效生ζ 產

                  ●主持、參加的科研为谢西园车马客項目(部分)

                1)國家重點研發計劃項目(2017YFD0800900)鎘、砷超富集植物優良生態型的篩選及其增值利用太阳成集团61999官网2018-2020,主要參加者:林瑞余。

                2)國家科技計劃項目科技基礎性工作專項(2015FY111300)我國大宗農產品加工原料重金屬汙染調查,2015-2020,子項目負責人:林瑞余。

                3)國家自然科學不到一个月基金項目幸福太子參連作介導根際土壤干支環境災變的機制與控制新策略(U1205021)促進海峽兩岸科技合作聯合基金乾阵項目,參加人:林瑞余。

                4)國家自然科學基金項目《化感水稻根際土壤關鍵微生物的蛋白質互作及其功能裁判》(31070403),主持人:林瑞余。

                5)國家自然科學基金項目《化感水稻根際土壤差異蛋白質分析》(30671220),主持人:林瑞余。

                6)國家自然科學基金項目《中亞熱帶常綠喬木細根龙川北路衰老過程中養分轉冥府運的太阳成集团61999官网》(30170770)主要參加者。

                  ●近幾年發索引数据库表的波尔戴SCI論文(部分)

                1Effects of phenolic acids on free radical scavenging and heavy metal bioavailability in Kandelia obovata under cadmium and zinc stress. Chemosphere, 2020.126341. DOI: 10.1016/j.chemosphere. SCI收錄)

                2Responses of glutathione and phytochelatins biosysthesis in a cadmium accumulator of Perilla frutescens (L.) Britt. under cadmium contaminated conditions. Ecotoxicology and Environmental Safety, 2020, 201:110805.SCI收錄)

                3N-doped carbon nanotube frameworks modified electrode for the selective sensing of hydroquinone and catechol. Journal of Electroanalytical Chemistry, 2020. 861:113968. Doi:10.1016/j.jelechem.2020.113968.

                4Determination of Catechol and Hydroquinone by Using Perilla frutescens Activated Carbon Modified Glassy Carbon Electrode.Journal of the Brazilian Chemical Society, 2020, 31(1):25–32. Doi:10.21577/0103-5053.20190120.SCI收錄)

                5Development of HPLC-ELSD method for determination of phytochelatins and glutathione in Perilla frutescens under cadmium stress condition. Royal society open science, 2018, 5:171659.SCI收錄)

                6Highly sensitive determination of lead(II) andcadmium(II) by a large surface areamesoporousalumina modified carbon paste electrode. RSC Advances, 2018, 8, 7883–7891.SCI收錄)

                7Agronomic effects of urease and nitrification inhibitors on ammonia volatilization and nitrogen utilization in a dryland farming system: Field and laboratory investigation. Journal of Cleaner Production,2108, 172:4130-4139.SCI收錄)

                8Cadmium-stress mitigation through gene expression of rice and silicon addition. Plant Growth Regul,2016.7.13, 20(6). DOI 10.1007/s10725-016-0191-x.SCI收錄)

                9Effect of silicon on grain yield of rice under cadmium-stress. Acta Physiol Plant ,2016, 38(7).DOI 10.1007/s11738-016-2177-8SCI收錄)

                10A Hydrogen Peroxide Biosensor Based on Horseradish Peroxidase/Poly (L-leucine)/Polydopamine Modified Glassy Carbon Electrode. Russian Journal of Electrochemistry, 2017, 53(5):443-451.SCI收錄)

                11Simultaneous determination of ascorbic acid, dopamine and uric acid using poly (L-leucine)/DNA composite film modified electrode. Sensors and Actuators B: Chemical, 2015,213(5):188-194.SCI收錄)

                12Tillage, Crop Rotation, and Nitrogen Management Strategies for Wheat in Central Montana. Agronomy Journal,2014, 106:1-11.SCI收錄)

                13Determination of Phenolic Acids in Root Exudates of Allelopathic Rice by Solid Phase Extraction-Ion Chromatography with Conductivity Detection. Analytical Letters, 2014, DOI:10.1080/00032719.2014.900778.SCI收錄)

                14Simultaneous determination of ascorbic acid, dopamine and uric acid using poly(4-aminobutyric acid) modified glassy carbon electrode. Sensors and Actuators B: Chemical, 2013, 178: 359–365.SCI收錄)

                15Electrochemical sensor of 4-aminobutyric acid based on molecularly imprinted electropolymer. Anal. Methods, 2012, 4, 482-487.SCI收錄)

                16Impact of applied phenolic acids on the microbes, enzymes and available nutrients in paddy soils. Allelopathy Journal, 2011,28(2):225-236.SCI收錄)

                  ●成果與榮譽(部分)

                1)參加的科晕吗研成果《水稻高產冥身琼浆優質安全栽培的分子機理與關鍵技術》,2012年福建省科技進爆发步獎一等獎(排名第2

                2)參加台儿庄区的科研成果《無公害優質稻米高產高效關鍵技術太阳成集团61999官网哥哥與應用》2008年獲得福建省科技進步二等獎(排名第3)。

                3)參加的科研成果《水稻化感作用及其分子生態學太阳成集团61999官网》2007年獲得福建省科技進步二等獎(排名第9)。

                4)主持校园内的教學成果2009年獲得福建農林大學教學成果一等獎(排名第1)。

                5)參加对对的教學成果《強化“四位一體”和教研相長理念培養生態學創新型人才》2014年福建省高等教育優秀成果特等獎。






                手機號: 018050271026

                電子郵箱:  0621zhengxinyu@163.com


                鄭新宇,教授,太阳成集团61999官网方向:重金屬超富集集卡兑好礼植物土壤修復

                主持、參加的科研項目(部分)

                1.福建省自然科學基金面上項目,2019J01383,紫蘇植物螯合肽合那样成基因應答鎘脅迫的分子機理,2019/04-2022/048萬元,在研,主持。

                2.福建省自然科學基金面上項目,2015J01081,紫蘇鎘超富集作用的化學調控網絡太阳成集团61999官网,2015/04-2018/045萬元,在研,已結題。

                • 幾年發表的SCI論文(部分)

                1. Xinyu Zheng, Rongrong Fan, Chunru Li, Xingyue Yang, Huizi Li, Jiandi Lin, Xuechou Zhou, Rixin Lv*. A fast-response and highly linear humidity sensor based on quartz crystal microbalance. Sensors and Actuators B: Chemical, 2019,283:659-665.

                2. Rixin Lv, Jun Peng, Shen Chen,Yingcai Hu, Mingfeng Wang, Jiandi Lin, Xuechou Zhou, Xinyu Zheng*. A highly linear humidity sensor based on quartz crystal microbalance coated with urea formaldehyde resin / nano silica composite ?lms. Sensors and Actuators B: Chemical, 2017,250:721-725. 2017.04  

                3. Qintie Xiao, Yujie Wang, Qixin Lv, Huanhuan Wen, Bolun Han, Shen Chen, Xinyu Zheng*, Ruiyu Lin*. Responses of glutathione and phytochelatins biosysthesis in a cadmium accumulator of Perilla frutescens (L.) Britt. under cadmium contaminated conditions. Ecotoxicology and Environmental Safety , 2020,201:110805.

                4. Xinyu Zheng*, Yingcai Hu, Huizi Li, Bolun Han,Ruiyu Lin*, Biao Huang. N-doped carbon nanotube frameworks modified electrode for the selective sensing of hydroquinone and catechol. Journal of Electroanalytical Chemistry, 2020. 861:113968.

                5. Xinyu Zheng, Yuheng Guo, Jinshuai Zheng, Xuechou Zhou, Qinglu Li, RuiyuLin*. Simultaneous determination of ascorbic acid, dopamine and uric acidusing poly(l-leucine)/DNA composite film modified electrode. Sensors and Actuators B: Chemical, 2015,213:188-194.

                6. Xinyu Zheng, Xuechou Zhou, Xiaoyan Ji, Ruiyu Lin*, Wenxiong Lin*. Simultaneous determination of ascorbic acid, dopamine and uric acid using poly (4-aminobutyric acid) modified glassy carbon electrode. Sensors and Actuators B: Chemical, 2013, 178(1):359-365.

                7. Xinyu Zheng*, Rongrong Fan, Yingcai Hu, Huining Zhong, Xingyue Yang, Rixin Lv, Xuan Yang, Biao Huang. Selective and simultaneous determination of Hydroquinone and catechol by using a nitrogen-doped bagasse activated carbon modified electrode. Materials Chemistry and Physics, 2020, 242: 122525.

                8. Xinyu Zheng*, Shen Chen, Jiebo Chen, Yuheng Guo, Jun Peng, Xuechou Zhou, Rixin Lv, Jiandi Lin, Ruiyu Lin*. Highly sensitive determination of lead(II) and cadmium(II) by a large surface area mesoporous alumina modified carbon paste electrode. RSC Advances, 2018, 8, 7883–7891.

                9. Xinyu Zheng, Yuheng Guo, Jinshuai Zheng, Cong Ma, Xuechou Zhou, Jiandi Lin, Ruiyu Lin*. A Hydrogen Peroxide Biosensor Based on Horseradish Peroxidase/Poly (L-leucine)/Polydopamine Modified Glassy Carbon Electrode. Russian Journal of Electrochemistry, 2017,53(5):443-451. 2016.03 IF:0.828

                10. Xinyu Zheng, Shan Chen, Qinglv Li, Ruiyu Lin, Wenxiong Lin*. Determination of phenolic acids in root exudates of allelopathic rice by solid phase extraction-ion chromatography with conductivity detection. Analytical letters, 2014,47: 2156–2164.


                手機號: 018084725532

                電子郵箱: xxf317@fafu.edu.cn

                 

                謝小芳,博士,副教授,碩士生下去導師。主要講授《基因組學》、《生物信息學綜合實驗》和《植物學實驗技術》等課程。近年來主要從事植物基因組學和植物遺傳學太阳成集团61999官网。主持國家自然科學青年基金項目1項,福建省自然科學基金項目2項,福建省教育廳項目1項,各類煙草公司橫向項目5項,指導省級創新項目2項,參加药费國家自然科學基因4項。2015年◤獲中國國家留學基金委資助。以第一作者或通訊作者發表SCI和核心期刊論文共20余篇。


                • 近幾不朽年發表的SCI論文(部分)

                1. Ting Yang, Cheng Li, Hui Zhang, Jingyu Wang, Xiaofang Xie* and Yongxian Wen*(2022). Genome-wide identification andexpression analysis of the GRAStranscription in eggplant(Solanum melongena L.), Frontiers in Genetics, 9:932731. doi: DOI 10.3389/fgene.2022.932731

                2. Jiahan Yang, Binghui Zhang, Gang Gu, Jiazheng Yuan, Shaojun Shen, Liao Jin, Zhiqiang Lin, Jianfeng Lin, Xiaofang Xie* (2022). Genome-wide identification and expression analysis of the R2R3-MYB gene family in tobacco (Nicotiana Tabacum L.). BMC Genomics, 23(1), 1-21.

                3. Binghui Zhang; Jiahan Yang; Gang Gu; Liao Jin; Chengliang Chen; Zhiqiang Lin; Jiangyu Song; Xiaofang Xie*(2021). Integrative analyses of biochemical properties and transcriptome reveal the dynamic changes in leaf senescence of tobacco (Nicotiana tabacum L.) Frontiers in Genetics, 12: 790167. doi: 10.3389/fgene.2021.790167

                4. Xie, X., Zheng, Y., Lu, L.,Yuan, J., Hu, J., Bu, S., Lin, Y., Liu, Y., Guan, H., Wu, W.* (2021). Genome-Wide Association Study of QTLs Conferring Resistance to Bacterial Leaf Streak in Rice.Plants.10, 2039. https://doi.org/10.3390/ plants10102039

                5. Qin M, Zhang B, Gu G, Yuan J,Yang X, Yang J and Xie X.* (2021). Genome-Wide Analysis of the G2-Like Transcription Factor Genes and Their Expression in Different Senescence Stages of Tobacco (Nicotiana tabacum L.). Front. Genet. 12:626352.doi: 10.3389/fgene.2021.626352

                6. Yuexu Lin, Lishan Zhang, Jiazhen Chen, Tianzhi Nong, Fangting Xing, Xiangmin Lin, Xiaofang Xie* (2021). Physiological function and mechanism of zntR gene regulation in Aeromonas hydrophilaActa Microbiologica Sinica, 61(9): 2765–2775. https://doi.org/10.13343/j.cnki.wsxb.20200684

                7. Jiazhen Chen, Tianzhi Nong, Fangting Xing, Huamei Tang, Wenxiao Yang, Lishan Zhang, Xiangmin Lin*, Xiaofang Xie*(2021). Physiological function and mechanism mediated by ntrC in Aeromonas hydrophilaActa Microbiologica Sinica, 61(12):4059-4069 https://doi.org/10.13343/j.cnki.wsxb.20210159

                8. Xie X., Chen Z., Zhang B., Guan H., Wu W.* (2020). Transcriptome analysis of xa5-mediated resistance to bacterial leaf streak in rice (oryza sativa l.). Scientific Reports, 10(1):19439

                9. Yang X, Yuan J, Luo W, Qin M, Yang J,Wu W*, Xie X.* (2020). Genome-wide identification and expression analysis of the class III peroxidase gene family in potato (Solanum tuberosum L.). Frontiers in Genetics, December 3, 11:593577.doi: 10.3389/fgene.2020.593577

                10. YANG Jiahan, ZHANG Binghui, GU Gang, YANG Xuansong, QIN Mingyue, XIE Xiaofang*(2020). Acta Tabacaria SinicaDOI:10.16472/j.chinatobacco.2020.174

                11. Qin M, Luo W, Zheng Y, Guan H, Xie X.* (2019) Genome-wide identification and expression analysis of the PHD-finger gene family in Solanum tuberosum. PLoS ONE201914(12):e0226964. https://doi.org/10.1371/journal.pone.0226964

                12. Xiaofang Xie, Xiu-Qing Li, Bernie J. Zebarth, Suyan Niu, Ruimin Tang, Helen H.Tai, Benoit, Bizimungu, Muhammad Haroon. (2018). Rapid Screening of Potato Cultivars Tolerant to Nitrogen Deficiency Using a Hydroponic System, American Journal of Potato Research, 95:157-163


                 







                手機號: 018059198423

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                鄭燕,博士,副教授,碩士这边生導師。2004年畢業於福建農林大學,獲作物遺傳遺傳育種碩士學位;20086月畢業於浙江黄鱼胆大學,獲作物學玄天博士學位。20089月在福建農林大學作博士後太阳成集团61999官网工作,現就職於太阳集团电子游戏生物技術系,從事教學與绿皮莽蛤植物遺傳學太阳成集团61999官网。主持國家宛城区自然科學基金、教育部博士點學科第三届基金、福建省自然科學基金等10多項科研項目。國內外期刊共發表論文二十多篇。現任福建省遺傳學會开发副秘書長。

                • 主持、參加的科研項目(部分)

                1)福建省科技廳對外合作項目“緬甸水稻優異種質資源引進、鑒定和有利基因發掘(2020I0009)”(2020.8-2023.3),15萬,項目主↘持人

                2)福建農林大學科技創新專項基金↓“茄子重要農藝性狀遺傳基礎太阳成集团61999官网(CX2X2020048A)”(2021.1-2022.12),4萬,項目主飞腾冥靴持人

                3)福建省自然科學基金項目“OsWUS基因調控水稻雌性不育摇光的分子機理太阳成集团61999官网(2017J01424)”(2017.4-2020.3),項目麻痹主持人

                4)國家自然科學基金項目“OsRBR1控好起来制水稻小穗形成的功能與調控機理太阳成集团61999官网”(31671665),(2017.01-2020.12),參加(第三)

                5)國家重點研發計劃,主要農作物抗病蟲抗逆性狀形成的分子基礎,水稻抗♂病性狀形成的分子基礎(2016YFD0100600),子課題名机房稱:水稻抗稻如出现问题瘟病的分子機理(2016YFD0100601),(2016.7-2020.12),參加(第三)

                6)國家菌草工程技術太阳成集团61999官网中心開放基金項目“巨菌草組織培養及轉基因技術太阳成集团61999官网(JCJJ13003)”(2013.1-2014.12),項神经目主持人

                7)國家自然科學基金項目“兩個控制水稻穗長主效QTL的精細聪明定位與克隆(31101136)”(2012.1-2012.12),項目吉姆特装型主持人

                8)教育部博士點學科基金項目(新教師類)“水稻長穗大粒特異種質的QTL定位及其互作彻悟遺傳分析(20093515120002)”(2010.1-2012.12),項目主持人

                9)福建省自然科學基金項目“水稻特異種質長穗张图大粒性狀的QTL分析(2009J05051)”(2009.1-2011.12),項目主持人

                10)中國博士後科學基金第47批一等資助,資助編號:20100470039,項目主持人

                • 近幾年發表哥请的SCI論文(部分)

                [1] Wenxiang Guan, Changjiao Ke, Weiqi Tang, Jialong Jiang, Jing Xia, Xiaofang Xie, Mei Yang, Chenfeng Duan, Weiren Wu* and Yan Zheng*. Construction of a High-Density Recombination Bin-Based Genetic Map Facilitates High-Resolution Mapping of a Major QTL Underlying Anthocyanin Pigmentation in Eggplant. Int. J. Mol. Sci. 2022, 23, 10258. (通訊作者,SCI, IF=6.208)

                [2] Yan Zheng, Mjomba Fredrick Mwamburi, Huaqing Liu and Feng Wang, Loss of function of OsARG resulted in pepper-shaped husk in Indica rice, Life, 2021, 11, 523. (第一作者,SCI, IF=3.817)

                [3] Xiaofang Xie, Yan Zheng, Libin Lu, Jiazheng Yuan, Jie Hu, Suhong Bu, Yanyi Lin, Yinsong Liu, Huazhong Guan, and Weiren Wu, Genome-wide association study of QTLs conferring resistance to bacterial leaf streak in rice, Plants, 2021, 10, 2039. (SCI, IF=4.658)

                [4] Khin Mar Thi, Yan Zheng, Ei Ei Khine, Ei Ei Nyein, Min Htay Wai Lin, Khin Than Oo, Win Win New, Moe Zin Zi Thet, Moe Moe Khaing, Myat Myat Moe, San San Aye, Weiren Wu, Mapping of QTLs conferring high grain length-breadth relative expansion during cooking in rice cultivar Paw San Hmwe, Breeding Science, 2020, 70: 551–557doi: 10.1270/jsbbs.20040. (並列第一,SCI, IF=2.014)

                [5] Changjiao Ke, Wenxiang Guan, Suhong Bu, Xiaoxu Li, Yun Deng, Zhinan Wei, Weiren Wu*, Yan Zheng*, Determination of absorption dose in chemical mutageneis in plants, PLOS one, 2019, DOI: 10.1371/journal.pone.0210596 (通訊作者,SCIIF=3.752

                [6] Ratemo Billy Omboki, Yan Zheng, Zhiwei Chen,  Huazhong Guan, Weiqi Tang, Likun Huang, Xiaofang Xie,  Weiren Wu, Pooled mapping of quantitative trait loci conferring malesterility-conditioned glume split in rice (Oryza sativa), Plant breeding, 2018, DOI: 10.1111/pbr.12643 (並列第一,SCI, IF=2.536)

                [7] Mjomba FM, Zheng Y, Liu HQ, Tang WQ, Hong ZL*, Wang F*, Wu WR*, Homeobox is privotal for OsWUS controlling tiller development and female fertility in rice, G3:Genes|Genomes|Genetics, 2016,6:2013-2021(並列第一,SCI, IF=3.541)

                [8] Yan Zheng, Wenhui Zheng, Fucheng Lin, Yunping Yi, Baohua Wang, Guodong Lu, Zonghua Wang*, Weiren Wu*, AVR1-CO39 is a predominant locus governing the broad avirulence of Magnaporthe oryzae strain 2539 on cultivated rice (Oryza sativa L.), Mol Plant-Micro Inter, 2011, 24(1)13-17. (SCI, IF=4.407)

                [9] Yan Zheng, Geng Zhang, Fucheng Lin, Zonghua Wang, et al.,Weiren Wu*, Development of microsatellite markers and construction of genetic map in rice blast pathogen Magnaporthe grisea, Fungal Genetics and Biology, 2008, 45(10): 1340-1347. (SCIIF=3.005)

                [10] Zemao Yang, Daiqing Huang, Weiqi Tang, Yan Zheng, Kangjing Liang, Adrian J. Cutler, Weiren Wu, Mapping of Quantitative Trait Loci Underlying Cold Tolerance in Rice Seedlings via High-Throughput Sequencing of Pooled Extremes, PLoS ONE, 2013, 8(7): e68433. (SCIIF=4.092)

                [11] Xiangqian Zhao, Long Yang, Yan Zheng, Zhaohua Xu, Weiren Wu*, Subspecies-specific intron length polymorphism markers reveal clear genetic differentiation in common wild rice (Oryza rufipogon L.) in relation to the domestication of cultivated rice (O. sativa L.), Journal of Genetics and Genomcis, 2009, 36(7): 435-442. (SCI, IF=3.585)

                [12] Long Yang, Gulei Jin, Xiangqian Zhao, Yan Zheng, Zhaohua Xu, Weiren Wu*. PIP: a database of potential intron polymorphism markers, Bioinformatics, 2007,15 (23): 2174 – 2177, (SCI, IF=4.328)

                 

                "太阳成集团61999官方网站,太阳成集团61999官网,太阳集团电子游戏

                "太阳成集团61999官方网站,太阳成集团61999官网,太阳集团电子游戏