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                森林學沈阳航空工业学院學科-楊清

                郵箱: yang.qing1020@163.com

                通信地址:北京☆市海澱區清華東路35號北京林業大學

                郵政編碼:100083

                電話:010-62336292

                一、教育背景

                2012.09–2017.06 中國農業卐大學,園藝學院果樹皆可學  博士

                2009.09–2012.06 中↓國農業大學,園藝學院炉石果樹學  碩士

                2005.09–2009.06 中國農業大學,園藝學院果樹學  學士

                二、工作經歷

                2018.01–至今 北京林業大學 林學院 森林學學科 講師

                2019.11–至今 北京林業大學 北京市高精尖創新中心 青热门年研究員

                三、教學經歷

                經濟林學

                經濟她手中取下听筒林栽培學①

                四、研究方向

                林ㄨ木次生代謝產物調控機制研究與抗并且有着开诚逆性育種

                五、研究項目

                [1] 國家自然樟茶鸭子科學基金青年項目,31901281,木豆激酶CIPK14介導的微絲蛋】白ADF2促進根毛生長抗旱分寒冰护体子機制研究,2020/01-2022/12,25萬,在研,主持;
                [2] 中央高校基本科研業◎務費專項基金項目,2018ZY22,林下經濟植物金花葵ADF基因遺傳鳞须海龟洞穴機制研究,2018/5-2019/12,15萬,已結題,主持;
                [3] 北京林業大學新進教師科研啟動基金項目,BLX201807,褪黑素〗提高木豆CK2激酶活性看她纯真的睡脸緩解鹽脅迫分子機制,2018/10-2020/4,8萬,已結題,主持;
                [4] 國家自然营销科學基金項目,31930076,森林植々物資源多功能成分協同代謝調控機制@ 及其利用規律解析,2020/01-2024/12,116萬,在研,參與;
                [5] 國家重點研發計劃百炼,2018YFD1000605-01,板栗花器官發育分子機制及產■量調控,2018/01-2022/12,101萬,在研,參與;
                [6] 國家自然科學基金重點項是我错目,31630066,蘋果自交親和性特異資源的評價东风圈與基因挖掘,2017/1-2021/12,281萬,在研,參與;
                [7] 國家自然科學基金ㄨ優秀青年項目,31922058,林木抗逆分子機制研究,2020/01-2022/12,130萬,在研,參與;
                [8] 北京林業大學科技創嗜血术新計劃項目,2019JQ03009,北京林業大學傑出〇青年人才培育項目, 2019/06-2023/05,100萬,在研,參與;
                [9] 國家自然科學基金青年項目,31800509,楊樹snrk2基因調控葉枯病抗性分子機制研究,2019/1-2021/12,27萬,在研,參與;
                [10] 國家→自然科學基金面上項目,31572096,蘋果花柱S-RNase調控MdMVG蛋白切割花粉管微▂絲的自交不親和機制研究,2016/1-2019/12,70萬,已結題,參與;
                [11] 國家自转系吧然科學基金面上項目,31372035,蘋果花粉γ-硫堇蛋白在自交不親和反應中的作用機制研究,2014/1-2017/12,85萬,已結題,參與。

                六、發表文章

                1. Yang Q., Dong B., Wang L., Song Z., Niu l., Li H., Cao H., Meng D., Fu Y. (2020). AeCDPK6 phosphorylates and stabilizes AeMYB30 promoting hyperoside biosynthesis to prolong full-blooming period in okra. Journal of Experimental Botany. 71(14): 4042–4056. (IF5year= 7.011)
                2. Yang Q., Song Z., Dong B., Niu L., Cao H., Li H., Du T., Liu T., Yang W., Meng D., Fu Y. (2020). Hyperoside regulates its own biosynthesis via MYB30 in promoting reproductive development and seed set in okra. Plant Physiology, Accept. (IF5year= 7.520)
                3. Meng D.1, Yang Q.1, Dong B., Song Z., Niu L., Wang L., Cao H., Li H., Fu Y. (2019). Development of an efficient root transgenic system for pigeon pea and its application to other important economically plants. Plant Biotechnology Journal, pp. 1–10. (IF5year= 7.658)
                4. Yang Q., Meng D., Gu Z., Li W., Yuan H., Li Y., Chen Q., Yu J., Li T. (2018). Apple S-RNase combined with MdMVG on reducing the growth of self-pollen tube by inhibiting severing F-actin. The Plant Journal. 95:41-56. (IF5year= 6.629)
                5. Dong M., An J., Wang L., Fan X., Lv M., Zhu Y., Chang Y., Meng D., Yang Q#., Fu Y#. (2020). Development of fermented chestnut with Bacillus natto: Functional and sensory properties. Food Research International. https://doi.org/10.1016/j.foodres.2019.108941. (IF5year= 5.084)
                6. Cao H., Amin R., Niu L., Song Z., Dong B., Li H., Wang L., Meng D., Yang Q#., Fu Y#. (2020). Multidimensional analysis of actin depolymerising factor family in pigeon pea under different environmental stress revealed specific response genes in each subgroup. Functional Plant Biology. https://doi.org/10.1071/FP20190. (IF5year= 2.729)
                7. Yang Q., Wang S., Wu C., Zhang Q., Zhang Y., Chen Q., Li Y., Li H., Gu Z., Li W., Li T. (2017). Malus domestica ADF1 severs actin filaments in growing pollen tubes. Functional Plant Biology. 44(4). (IF5year= 2.729)
                8. Yang Q., Chen Q., Zhu Y., Li T. (2017). Identification of MdDof genes in apple and analysis of their response to biotic or abiotic stress. Functional Plant Biology. 45(5). (IF5year= 2.729)
                9. Gao Z., Dong B., Cao H., He H., Yang Q#., Meng D., Fu Y#. (2020). Time Series RNA-seq in Pigeonpea Revealed the Core Genes in Metabolic Pathways under Aluminum Stress. Genes. 11(4): 380. (IF5year= 3.822)
                10. Dong B., Niu L., Meng D., Song Z., Wang L., Jian Y., Fan X., Dong M., Yang Q#., Fu Y#. (2019). Genome-wide analysis of MATE transporters and response to metal stress in Cajanus cajan. Journal of Plant Interactions. 14(1): 265-275. (IF5year= 2.954)
                11. Wang L., Yang Q., Cui Q., Fan X., Dong M., Gao M., Lv M., An J., Meng D., Zhao X., Fu Y. (2020). Recyclable menthol-based deep eutectic solvent micellar system for extracting phytochemicals from Ginkgo biloba leaves. Journal of Cleaner Production. 244: 118648. (IF5year= 7.491)
                12. Li, W., Yang, Q., Gu, Z., Wu, C., Meng, D., Yu, J., Li, Y., Yuan, H., and Li, T. (2016). Molecular and genetic characterization of a self-compatible apple 'CAU-1'. Plant science. 252: 162-175. (IF5year= 4.253)
                13. Li W., Meng D., Gu Z., Yang Q., Yuan H., Li Y., Chen Q., Yu J., Liu C., Li T.  (2018). Apple S-RNase triggers inhibition of tRNA aminoacylation by interacting with a soluble inorganic pyrophosphatase in growing self-pollen tubes invitro. New Phytologist. 218(2):579-593. (IF5year= 8.795)
                14. Gu Z., Li W., Doughty J., Meng D., Yang Q., Yuan H., Li Y., Chen Q., Liu C., Li T. (2019). A gamma-thionin protein from apple, MdD1, is required for defense against S-RNase-induced inhibition of pollen tube prior to self/non-self recognition. Plant Biotechnology Journal. 17(11): 2184-2198. (IF5year=7.658)
                15. Meng, D., Gu, Z., Li, W., Wang, A., Yuan, H., Yang, Q., and Li, T. (2014). Apple MdABCF assists in the transportation of S-RNase into pollen tubes. The Plant Journal.78: 990-1002. (IF5year= 6.629)
                16. Yuan H., Meng D., Gu Z., Li W., Wang A., Yang Q., Zhu Y., Li T. (2014). A novel gene, MdSSK1, as a component of the SCF complex rather than MdSBP1 can mediate the ubiquitination of S-RNase in apple. Journal of Experimental Botany.65: 3121-3131. (IF5year= 7.011)
                17. Chen Q., Meng D., Gu Z., Li W., Yuan H., Duan X., Yang Q., Li Y., Li T. (2018). SLFL Genes Participate in the Ubiquitination and Degradation Reaction of S-RNase in Self-compatible Peach. Frontiers in Plant Science. 9: 227. (IF5year=)
                18. Song Z., Dong B., Yang Q., Niu L., Li H., Cao H., Amina R., Meng D., Fu Y. (2020). Screening of CBL genes in pigeon pea with focus on the functional analysis of CBL4 in abiotic stress tolerance and flavonoid biosynthesis. Environmental and Experimental Botany. 177: 104102. (IF5year= 4.744)
                19.  Meng D., Gu Z., Yuan H., Wang A., Li W., Yang Q., Zhu Y., Li T. (2014). The microtubule cytoskeleton and pollen tube Golgi vesicle system are required for in vitro S-RNase internalization and gametic self-incompatibility in apple. Plant & cell physiology. 55: 977-989. (IF5year= 4.799)
                20. Wang L., Fan X., Jian Yue., Dong M., Yang Q., Meng D., Fu Y. (2019). A sensitive and selective multiple reaction monitoring mass spectrometry method for simultaneous quantification of flavonol glycoside, terpene lactones, and biflavonoids in Ginkgo biloba leaves. Journal of Pharmaceutical and Biomedical Analysis. 170: 335-340. (IF5year= 3.132)
                21. Sun B., Liu J., Liu S., Yang Q. (2009). Application of FT-NIR-DR and FT-IR-ATR sepectroscopy to estimate the chemical composition of bamboo (Neosinocalamus affinis Keng). Holzforschung. 65(5):689-696. (IF5year= 1.828)
                22. Meng D., Gu Z., Wang A., Yuan H., Li W., Yang Q., Duan X., Li T. (2014). Screening and characterization of apple Rho-like GTPase (MdROPs) genes related to S-RNase mediated self-incompatibility. Plant Cell, Tissue and Organ Culture. 117: 465-476. (IF5year= 2.329)
                23. Gu Z., Meng D., Yang Q., Yuan H., Wang A., Li W., Chen Q., Zhang Y., Wang D., Li T. (2015). A CBL gene, MdCBL5, controls the calcium signal and influences pollen tube growth in apple. Tree Genetics & Genomes.11(2):27. (IF5year= 2.262)
                24. Song Z., Niu L., Yang Q., Dong B., Wang L., Dong M., Fan X., Jian Y., Meng D., Fu Y. (2019). Genome-wide identification and characterization of UGT family in pigeonpea (Cajanus cajan) and expression analysis in abiotic stress. Trees. 33: 987-1002. (IF5year= 2.256)
                25. Fan X., Chang Y., Wang L., Zhu Y., Dong M., Lv M., An J., Yang Q., Jiao J., Meng D., Fu Y. (2020). A simple and efficient sample preparation for taxanes in Taxus chinensis needles with natural menthol-based deep eutectic solvent aqueous. Journal of Separation Science. https://doi.org/10.1002/jssc.201900754. (IF5year= 2.317)

                26. 楊清,曹紅燕,董碧瑩,孟冬. 樂“想”其中的多元交互式教學新夜色短裤思路—以農林本科院校分子生物♀學為例[G]. 北京林業大學教育教學研究論文征集. 2020, 203-206.
                27. 孟冬,董碧瑩,曹紅燕,楊清. 以培養“先”思而後行的實驗思維為原則的火盾本科分子生物學實驗課程教改建議[J]. 中國林業教育. 接收.
                28. 楊清,艾沙江·買買提,王誌霞,劉國傑. DA-6對桃樹葉片葉綠生命收割素合成途徑的調控研究[J]. 園藝學報,2012,(04):621-628.
                29. 楊清,艾沙江·買買提,劉國傑,鄒文靜,趙紅偉,劉奎霞. DA-6對草莓葉片綠素合否认成前物質及關鍵酶酶活性的影響[J]. 中◢國農業大學學報,2012,(04):86-90.
                30. 楊清,劉國傑. 多效唑浸種對番木瓜幼苗生長的影響[J]. 中國果樹,2008,(06):31-32.
                31. 張寧,李威,顧釗宇,陳秋菊,段續偉,楊清,李天忠. ‘富士’蘋果花原生質體分初探[J]. 園藝學報,2015,(6):1167-1174.
                32. 艾沙江·買買提,楊清,王晶晶,劉國傑. 短截、拉枝、刻芽惊雷裂地對蘋果枝條不同部位芽激素含量的影響[J]. 園藝學報,2013,(8):1437-1444.
                33. 王誌霞,劉國傑,梁艷萍,艾沙江,楊清. 桃果實教士长裤迅速膨大期生長調節劑及摘◥處理對果實品質影響[J]. 中國農業房屋出租大學學報,2011,(3):76-80.
                34. 付曉記,艾沙江·買買提,牟紅梅,楊清,梁艷萍,臧燕燕,劉國傑. 草莓陇东学院去果降低庫力對葉片光合特性和光破壞防禦系統的影響╱[J]. 園藝學報,2011,(7):1267-1274.

                七、授權和申請原始哈卡莱之盾專利

                1. 李天忠,楊清,顧釗宇,李威,李洋,於傑,劉春生. 一種標記蘋果授粉後花粉管衰弱状态微絲細胞骨架的試劑盒及方法. CN109061133B, 2019-11-05。 (已授權)
                2. 李天忠,楊清,顧釗宇,李威,李洋,於傑,劉春生.一種標記植物花粉微絲微管細胞骨架的方法印制插头及其試劑盒. CN108424876B, 2020-06-16。 (已授權)
                3. 楊清,宋治華,付玉傑,孟冬,董碧瑩,牛麗麗,杜婷婷.一種促進木∏豆種子快速萌發長成幼苗的培德雷克塔尔養方法。 (實審中)
                4. 楊清,孟冬,董碧瑩,付玉傑,牛麗麗,宋治華. 一種發根農桿我是人菌介導的轉基因植物的構建方法。 (實審中)
                5. 付玉傑,楊清,宋治華,孟冬,董碧瑩,牛麗麗.一種延長金↘花葵開花時間的藥液及其贾恩噴灑方法. (實審中)
                6. 付玉傑,孟冬,牛麗麗,楊清,董碧瑩,宋治華. 一種經濟植物有效根系轉基因系統的構建方法. (實審中)
                7. 孟冬,曹紅燕,付玉傑,楊清,李航航,劉騰躍,楊婉瓏. 一種農桿菌介導真空侵染木豆的曹操高效遺傳轉化方法董烁. (實審中)

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