楊淑華,博士,教授,長江學者特聘教授。1991年在南開大學獲理學學士學位;1994年在南開大學獲得理學碩士學位;2002年獲新加坡國立大學博士學位。2002-2004年在美國康奈爾大學植物生物系從事博士後研究。2005年受聘為中國農業大學生物學院植物系教授。2005年入選教育部“新世紀優秀人才支持計畫”,2012年獲得“國家傑出青年科學基金”資助,2014年獲教育部長江學者特聘教授。近年來在Developmental Cell、Plant Cell、Plant Journal、Plant Physiology等國際雜誌上發表研究論文近30篇。
近年主持國家自然科學基金重大研究計畫、重點項目、面上項目、國家重點基礎研究規劃項目(“973”)子課題等科研項目。任New Phytologist Editor、Plant & Cell Physiology Advisory Editor、《植物學報》副主編。
基本介紹
- 中文名:楊淑華
- 外文名:shuhua Yang
- 國籍:中國
- 民族:漢族
- 性別:女
學習經歷,工作經歷,研究方向,發表論文,
學習經歷
1987年9月-1991年7月,南開大學,理學學士學位
1991年9月-1994年7月,南開大學,理學碩士學位
1998年7月-2002年1月,新加坡國立大學,博士學位
工作經歷
1994年7月-1998年6月,南開大學,助理研究員
2002年2月-2004年12月,美國康奈爾大學,博士後
2005年1月-今,中國農業大學生物學院,教授
研究方向
研究方向:植物回響低溫脅迫的分子機制
作為外界主要環境因子,溫度影響植物的生長發育、植被的分布以及農作物的產量。我們實驗室主要是通過分子生物學、遺傳學和生物化學等手段,研究植物應答低溫脅迫的信號轉導途徑、低溫信號與植物激素信號之間的互動作用,以及低溫信號與生物脅迫信號之間的互動作用等。
1. 植物回響零下低溫脅迫的分子調控研究
在植物抗凍性研究方面,我們建立了穩定的凍相關突變體的篩選體系。通過該體系,我們發現蛋白激酶CRPK1(Cold-responsive protein kinase 1)參與負向調控低溫信號途徑關鍵轉錄因子CBF依賴的信號轉導。低溫激活定位於細胞膜上的CRPK1,後者磷酸化細胞質中的14-3-3蛋白,誘導其進入細胞核中,與CBF1/3蛋白互作,介導CBF1/3蛋白的泛素化降解,從而負調控植物對低溫的應答。該研究不僅揭示了低溫信號從細胞膜傳遞到細胞核中的負調控機制,也闡明了CBF蛋白翻譯後修飾的調控機制(Liu et al., 2017,Mol Cell)。而蛋白激酶OST1在植物低溫應答中發揮重要的正向調控作用。OST1激酶活性被低溫迅速誘導,激活狀態的OST1將ICE1磷酸化,抑制ICE1的泛素化降解,從而正調控植物的抗凍性(Ding et al., 2015, Dev Cell)。
在低溫信號和植物激素信號的交叉互作方面,我們發現乙烯信號通路關鍵組分均參與低溫應答。轉錄因子EIN3蛋白直接負調控低溫調節基因CBF和細胞分裂素信號負調控因子A型ARR基因的表達,從而負調控擬南芥的抗凍性。該研究明確了乙烯在植物抗低溫中的作用,同時也揭示乙烯和細胞分裂素信號之間互動作用的分子機制(Shi et al., 2012, Plant Cell)。另一個重要植物激素油菜素內酯信號通路關鍵的蛋白激酶BIN2和轉錄因子BZR1/BES1通過依賴和不依賴於CBF的方式調控下游一系列基因的表達,從而正向調節植物的抗凍能力(Li et al., 2017, Mol Plant)。利用CRISPR技術,構建了cbfs三缺失突變體,明確了CBFs在低溫馴化中的關鍵作用及CBFs的靶基因,並為低溫信號研究提供了理想的遺傳材料 (Jia et al., 2016, New Phytol)。
2. 植物回響零上低溫脅迫的分子調控研究
我們的研究發現擬南芥防衛反應中起重要作用的抗病相關基因CHS1、RPP4/CHS2、CHS3和LSD1/CHS4參與不同溫度下植物生長的穩態平衡調控 (Wang et al., 2013, Plant J; Wang et al., 2011, Plant J; Huang et al., 2010, Plant Physiol; Yang et al., 2010, Plant J; Huang et al., 2010,New Phytol)。研究揭示TIR-NB類蛋白CHS1通過與R蛋白SOC3互作,蛋白磷酸酶IBR5和伴侶蛋白HSP90分別與R蛋白CHS3和CHS2互作,調控R蛋白的活性,從而調控R介導的溫度依賴的細胞死亡和防衛反應 (Zhang et al., 2016, New Phytol; Liu et al., 2015, PLoS Genet; Bao et al., 2014, New Phytol)。
研究發現擬南芥磷脂結合蛋白BON1在調控溫度依賴的生長發育中是一個關鍵調控因子,BON1與兩個類受體蛋白激酶BIR1和BAK1互作,可能通過BAK1對BIR1和BON1的磷酸化,作用於同一條信號通路,協同調控溫度依賴的植物生長發育和防衛反應 (Wang et al., 2011, Plant J; Yang et al., 2007, Plant Physiol; Yang et al., 2006, Plant J; Yang and Hua, 2004, Plant Cell)。
研究發現擬南芥磷脂結合蛋白BON1在調控溫度依賴的生長發育中是一個關鍵調控因子,BON1與兩個類受體蛋白激酶BIR1和BAK1互作,可能通過BAK1對BIR1和BON1的磷酸化,作用於同一條信號通路,協同調控溫度依賴的植物生長發育和防衛反應 (Wang et al., 2011, Plant J; Yang et al., 2007, Plant Physiol; Yang et al., 2006, Plant J; Yang and Hua, 2004, Plant Cell)。
發表論文
1. Liu Z, Jia Y, Ding Y, Shi Y, Zhang X, Li Z, Guo Y, Gong Z,Yang S* (2017) Plasma membrane CRPK1-mediated phosphorylation of 14-3-3 proteins induces their nuclear import to fine-tune CBF signaling during cold response. Mol Cell 66: 117-128. (Previewed in the same issue of Mol Cell)
2. Li H#, Ye K#, Shi Y, Zhang X, Yang S* (2017) BZR1 positively regulates freezing tolerance via CBF-dependent and CBF-independent pathways in Arabidopsis. Mol Plant 10: 545-559. (#These authors contributed equally) (Spotlighted in the same issue of Mol Plant)
3. Zhang Z#, Li J#, Pan Y#, Li J#, Zhou L#, Shi H#, Zeng Y#, Guo H, Yang S, Zheng W, Yu J, Sun X, Li G, Ding Y, Ma L, Shen S, Dai Ln, Zhang H, Yang S, Guo Y, Li Z* (2017) Natural variation in CTB4a enhances rice adaptation to cold habitats. Nat Commun 8:14788. Doi: 10.1038/ncomms14788.
4. Zhang Y#, Wang Y#, Liu J, Ding Y, Wang S, Zhang X, Liu Y,Yang S* (2017) Temperature-dependent autoimmunity mediated by chs1 requires its neighboring TNL gene SOC3. New Phytol 213:1330-1345.
5. Jia Y, Ding Y, Shi Y, Zhang X, Gong Z, Yang S* (2016) The cbfs triple mutants reveal the essential functions of CBFs in cold acclimation and allow the definition of CBF regulons in Arabidopsis. New Phytol 212: 345-353. (Commentary in the same issue of New Phytol)
6. Huang X, Zhang X, Gong Z, Yang S, Shi Y* (2016) ABI4 represses the expression of type-A ARRs to inhibit seed germination in Arabidopsis. Plant J 89: 354-365.
7. Yu F, Lou L, Tian M, Li Q, Ding Y, Wu Y, Belda-Palazon B, Rodrigue P L, Yang S, Xie Q* (2016) ESCRT-I component VPS23A affects ABA signaling by recognizing ABA receptors for endosomal degradation. Mol Plant 9: 1570-1582.
8. Ding Y, Li H, Zhang X, Xie Q, Gong Z,Yang S* (2015) OST1 kinase modulates freezing tolerance by enhancing ICE1 stability in Arabidopsis. Dev Cell 32: 278-289. (Previewed in the same issue of Mol Cell)
9. Liu J#, Yang H#, Bao F, Ao K, Zhang X, Zhang Y, Yang S* (2015) IBR5 modulates temperature-dependent, R protein CHS3-mediated defense responses in Arabidopsis. PLoS Genet 11, e1005584. (#These authors contributed equally)
10. Kong L, Cheng J, Zhu Y, Ding Y, Meng J, Chen Z, Xie Q, Guo Y, Li J, Yang S, Gong Z* (2015) Degradation of the ABA co-receptor ABI1 by PUB12/13 U-box E3 ligases. Nat Commun 6: 8630. Doi: 10.1038/ncomms9630.
11. Ji H, Wang Y, Cloix C, Li K, Jenkin G, Wang S, Shang Z, Shi Y, Yang S, Li X* (2015) The Arabidopsis RCC1 family protein TCF1 regulates freezing tolerance and cold acclimation through modulating lignin biosynthesis. PLoS Genet 11, e1005471.
12. Shi Y#, Ding Y#, Yang S* (2015) Cold signal transduction and its interplay with phytohormones during cold acclimation. Plant Cell Physiol56: 7-15. (#These authors contributed equally)
13. Bao F, Huang X, Zhu C, Zhang X, Li X, Yang S*(2014) Arabidopsis HSP90 protein modulates RPP4-mediated temperature-dependent cell death and defense responses. New Phytol202: 1320-1334.
14. Song S, Huang H, Gao H, Wang J, Wu D, Liu X, Yang S, Zhai Q, Li C, Qi T, Xie D* (2014) Interaction between MYC2 and ETHYLENE INSENSITIVE3 modulates antagonism between jasmonate and ethylene signaling in Arabidopsis. Plant Cell26: 263-279.
15. Wang Y, Zhang Y, Wang Z, Zhang X,Yang S*(2013) A missense mutation in CHS1, a TIR-NB protein, induces chilling sensitivity in Arabidopsis. Plant J 75: 553-565.
16. Shi Y, Wang Z, Meng P, Tian S, Zhang X, Yang S* (2013) The glutamate carboxypeptidase AMP1 mediates ABA and abiotic stress responses in Arabidopsis. New Phytol 199: 135-150.
17. Guo L, Yang H, Zhang X, Yang S*(2013) Lipid transfer protein 3 as a target of MYB96 mediates freezing and drought stress in Arabidopsis. J Exp Bot64: 1755-1767.
18. Li J#, Mu J#, Bai J#, Fu F, Zou T, An F, Zhang J, Jing H, Wang Q, Yang S, Zuo J* (2013) PARAQUAT RESISTANT 1, a Golgi-localized putative transporter protein, is involved in intracellular transport of paraquat. Plant Physiol 162: 470-483. (#These authors contributed equally)
19. Shi Y#, Tian S#, Hou L, Huang X, Zhang X, Guo H, Yang S*(2012) Ethylene signaling negatively regulates freezing tolerance by repressing expression of CBF and type-A ARR genes in Arabidopsis. Plant Cell24: 2578-2595. (#These authors contributed equally)
20. Wang Z#, Meng P#, Zhang X, Ren D, Yang S* (2011) BON1 interacts with the protein kinases BIR1 and BAK1 in modulation of temperature-dependent plant growth and cell death in Arabidopsis. Plant J 67: 1081-1093. (#These authors contributed equally)
21. Huang X, Li J, Bao F, Zhang X, Yang S* (2010) A gain-of-function mutation in the Arabidopsis disease resistance gene RPP4 confers sensitivity to low temperature. Plant Physiol 154: 796-809.
22. Yang H, Shi Y, Liu J, Guo L, Zhang X, Yang S* (2010) A mutant CHS3 protein with TIR-NB-LRR-LIM domains modulates growth, cell death and freezing tolerance in a temperature-dependent manner in Arabidopsis.Plant J 63: 283-296.
23. Huang X, Li Y, Zhang X, Zuo J, Yang S* (2010) The Arabidopsis LSD1 gene plays an important role in the regulation of low temperature-dependent cell death. New Phytol 187: 301-312 (Cover story).
24. Liu D, Gong Q, Ma Y, Li P, Li J, Yang S, Yuan L, Yu Y, Pan D, Xu F, Wang NN* (2010) cpSecA, a thylakoid protein translocase subunit, is essential for photosynthetic development in Arabidopsis.J Exp Bot 61: 1655-1669.
25. Huang X, Zhang X, Yang S* (2009) A novel chloroplast-localized protein EMB1303 is required for chloroplast development in Arabidopsis. Cell Res 19: 1205-1216.
26. Gou M, Su N, Zheng J, Huai J, Wu G, Zhao J, He J, Tang D, Yang S, Wang G* (2009) An F-box gene, CPR30, functions as a negative regulator of the defense response in Arabidopsis.Plant J 60: 757-770.
27. Li Y#, Yang S#, Yang H, Hua J* (2007) The TIR-NB-LRR gene SNC1 is regulated at the transcript level by multiple factors. Mol Plant Microbe Interact 20: 1449-1456. (#These authors contributed equally)
28. Yang H, Yang S, Li Y, Hua J* (2007) The Arabidopsis BAP1 and BAP2 genes are general inhibitors of programmed cell death.Plant Physiol 145: 135-146.
29. Chai MF, Wei PC, Chen QJ, An R, Chen YM, Chen J, Yang S*, Wang XC* (2006) NADK3, a novel cytoplasmic source of NADPH, is required under conditions of oxidative stress and modulates abscisic acid responses in Arabidopsis.Plant J 47: 665-674.
30. Yang S, Yang H, Grisafi P, Sanchatjate S, Fink GR, Sun Q, Hua J* (2006) The BON/CPN gene family represses cell death and promotes cell growth in Arabidopsis.Plant J 45: 166-179.
31. Yang S, and Hua J* (2004) A haplotype-specific resistance gene regulated by BONZAI1 mediates temperature-dependent growth control in Arabidopsis. Plant Cell 16: 1060-1071.
32. Yang S*, Yu H, Xu Y, Goh CJ* (2003) Investigation of cytokinin-deficient phenotypes in Arabidopsis by ectopic expression of orchid DSCKX1. FEBS Lett 555: 291-296.
33. Yang S, Yu H, Goh CJ* (2003) Functional characterisation of a cytokinin oxidase gene DSCKX1 in Dendrobium orchid. Plant Mol Biol 51: 237-248.
34. Yang S, Yu H, Goh CJ* (2002) Isolation and characterization of the orchid cytokinin oxidase DSCKX1 promoter.J Exp Bot 53: 1899-1907.
35. Yu H,Yang S, Goh CJ* (2002) Spatial and temporal expression of the orchid floral homeotic gene DOMADS1 is mediated by its upstream regulatory elements. Plant Mol Biol 49: 225-237.
36. Yu H, Yang S, Goh CJ* (2001) Agrobacterium-mediated transformation of a Dendrobium orchid with the class 1 knox gene DOH1. Plant Cell Rep 20: 301-305.
37. Yu H,Yang S, Goh CJ* (2000) DOH1, a class 1 knox Gene, is required for maintenance of the basic plant architecture and floral transition in orchid. Plant Cell 12: 2143-2160.
38. 丁楊林,施怡婷,楊淑華* (2015) 植物回響低溫脅迫的分子機制研究. 生命科學. 27: 398-405.
39. 鄧 岩,王興春,楊淑華*,左建儒* (2006) 細胞分裂素:代謝、信號轉導、交叉反應與農藝性狀改良. 植物學通報. 23: 478-498.
專著
Shi Y, Yang S* (2014) ABA regulation of the cold stress response in plants. In Zhang D (ed) Abscisic Acid: Metabolism, Transport and Signaling. Springer, pp337-363.
Yu H, Dhavale T, Yang S (2006) Molecular mechanisms of hormone functions in flowering In Teixeira da Silva JA (ed) Floriculture, Ornamental and Plant Biotechnology: Advances and Topical Issues, Ed 1 Vol 1 Global Science Books, London, UK, pp 25-32.
任勃,王興春,馮健,楊淑華,左建儒 (2012) 細胞分裂素. 植物激素作用的分子機理 (許智宏,薛紅衛主編) 上海科學技術出版社.
武維華,張蜀秋,袁明,張軍,韓玉珍,李穎章,葉德,楊淑華,王學臣 (2008) 植物生理學 (第二版) 科學出版社.
2. Li H#, Ye K#, Shi Y, Zhang X, Yang S* (2017) BZR1 positively regulates freezing tolerance via CBF-dependent and CBF-independent pathways in Arabidopsis. Mol Plant 10: 545-559. (#These authors contributed equally) (Spotlighted in the same issue of Mol Plant)
3. Zhang Z#, Li J#, Pan Y#, Li J#, Zhou L#, Shi H#, Zeng Y#, Guo H, Yang S, Zheng W, Yu J, Sun X, Li G, Ding Y, Ma L, Shen S, Dai Ln, Zhang H, Yang S, Guo Y, Li Z* (2017) Natural variation in CTB4a enhances rice adaptation to cold habitats. Nat Commun 8:14788. Doi: 10.1038/ncomms14788.
4. Zhang Y#, Wang Y#, Liu J, Ding Y, Wang S, Zhang X, Liu Y,Yang S* (2017) Temperature-dependent autoimmunity mediated by chs1 requires its neighboring TNL gene SOC3. New Phytol 213:1330-1345.
5. Jia Y, Ding Y, Shi Y, Zhang X, Gong Z, Yang S* (2016) The cbfs triple mutants reveal the essential functions of CBFs in cold acclimation and allow the definition of CBF regulons in Arabidopsis. New Phytol 212: 345-353. (Commentary in the same issue of New Phytol)
6. Huang X, Zhang X, Gong Z, Yang S, Shi Y* (2016) ABI4 represses the expression of type-A ARRs to inhibit seed germination in Arabidopsis. Plant J 89: 354-365.
7. Yu F, Lou L, Tian M, Li Q, Ding Y, Wu Y, Belda-Palazon B, Rodrigue P L, Yang S, Xie Q* (2016) ESCRT-I component VPS23A affects ABA signaling by recognizing ABA receptors for endosomal degradation. Mol Plant 9: 1570-1582.
8. Ding Y, Li H, Zhang X, Xie Q, Gong Z,Yang S* (2015) OST1 kinase modulates freezing tolerance by enhancing ICE1 stability in Arabidopsis. Dev Cell 32: 278-289. (Previewed in the same issue of Mol Cell)
9. Liu J#, Yang H#, Bao F, Ao K, Zhang X, Zhang Y, Yang S* (2015) IBR5 modulates temperature-dependent, R protein CHS3-mediated defense responses in Arabidopsis. PLoS Genet 11, e1005584. (#These authors contributed equally)
10. Kong L, Cheng J, Zhu Y, Ding Y, Meng J, Chen Z, Xie Q, Guo Y, Li J, Yang S, Gong Z* (2015) Degradation of the ABA co-receptor ABI1 by PUB12/13 U-box E3 ligases. Nat Commun 6: 8630. Doi: 10.1038/ncomms9630.
11. Ji H, Wang Y, Cloix C, Li K, Jenkin G, Wang S, Shang Z, Shi Y, Yang S, Li X* (2015) The Arabidopsis RCC1 family protein TCF1 regulates freezing tolerance and cold acclimation through modulating lignin biosynthesis. PLoS Genet 11, e1005471.
12. Shi Y#, Ding Y#, Yang S* (2015) Cold signal transduction and its interplay with phytohormones during cold acclimation. Plant Cell Physiol56: 7-15. (#These authors contributed equally)
13. Bao F, Huang X, Zhu C, Zhang X, Li X, Yang S*(2014) Arabidopsis HSP90 protein modulates RPP4-mediated temperature-dependent cell death and defense responses. New Phytol202: 1320-1334.
14. Song S, Huang H, Gao H, Wang J, Wu D, Liu X, Yang S, Zhai Q, Li C, Qi T, Xie D* (2014) Interaction between MYC2 and ETHYLENE INSENSITIVE3 modulates antagonism between jasmonate and ethylene signaling in Arabidopsis. Plant Cell26: 263-279.
15. Wang Y, Zhang Y, Wang Z, Zhang X,Yang S*(2013) A missense mutation in CHS1, a TIR-NB protein, induces chilling sensitivity in Arabidopsis. Plant J 75: 553-565.
16. Shi Y, Wang Z, Meng P, Tian S, Zhang X, Yang S* (2013) The glutamate carboxypeptidase AMP1 mediates ABA and abiotic stress responses in Arabidopsis. New Phytol 199: 135-150.
17. Guo L, Yang H, Zhang X, Yang S*(2013) Lipid transfer protein 3 as a target of MYB96 mediates freezing and drought stress in Arabidopsis. J Exp Bot64: 1755-1767.
18. Li J#, Mu J#, Bai J#, Fu F, Zou T, An F, Zhang J, Jing H, Wang Q, Yang S, Zuo J* (2013) PARAQUAT RESISTANT 1, a Golgi-localized putative transporter protein, is involved in intracellular transport of paraquat. Plant Physiol 162: 470-483. (#These authors contributed equally)
19. Shi Y#, Tian S#, Hou L, Huang X, Zhang X, Guo H, Yang S*(2012) Ethylene signaling negatively regulates freezing tolerance by repressing expression of CBF and type-A ARR genes in Arabidopsis. Plant Cell24: 2578-2595. (#These authors contributed equally)
20. Wang Z#, Meng P#, Zhang X, Ren D, Yang S* (2011) BON1 interacts with the protein kinases BIR1 and BAK1 in modulation of temperature-dependent plant growth and cell death in Arabidopsis. Plant J 67: 1081-1093. (#These authors contributed equally)
21. Huang X, Li J, Bao F, Zhang X, Yang S* (2010) A gain-of-function mutation in the Arabidopsis disease resistance gene RPP4 confers sensitivity to low temperature. Plant Physiol 154: 796-809.
22. Yang H, Shi Y, Liu J, Guo L, Zhang X, Yang S* (2010) A mutant CHS3 protein with TIR-NB-LRR-LIM domains modulates growth, cell death and freezing tolerance in a temperature-dependent manner in Arabidopsis.Plant J 63: 283-296.
23. Huang X, Li Y, Zhang X, Zuo J, Yang S* (2010) The Arabidopsis LSD1 gene plays an important role in the regulation of low temperature-dependent cell death. New Phytol 187: 301-312 (Cover story).
24. Liu D, Gong Q, Ma Y, Li P, Li J, Yang S, Yuan L, Yu Y, Pan D, Xu F, Wang NN* (2010) cpSecA, a thylakoid protein translocase subunit, is essential for photosynthetic development in Arabidopsis.J Exp Bot 61: 1655-1669.
25. Huang X, Zhang X, Yang S* (2009) A novel chloroplast-localized protein EMB1303 is required for chloroplast development in Arabidopsis. Cell Res 19: 1205-1216.
26. Gou M, Su N, Zheng J, Huai J, Wu G, Zhao J, He J, Tang D, Yang S, Wang G* (2009) An F-box gene, CPR30, functions as a negative regulator of the defense response in Arabidopsis.Plant J 60: 757-770.
27. Li Y#, Yang S#, Yang H, Hua J* (2007) The TIR-NB-LRR gene SNC1 is regulated at the transcript level by multiple factors. Mol Plant Microbe Interact 20: 1449-1456. (#These authors contributed equally)
28. Yang H, Yang S, Li Y, Hua J* (2007) The Arabidopsis BAP1 and BAP2 genes are general inhibitors of programmed cell death.Plant Physiol 145: 135-146.
29. Chai MF, Wei PC, Chen QJ, An R, Chen YM, Chen J, Yang S*, Wang XC* (2006) NADK3, a novel cytoplasmic source of NADPH, is required under conditions of oxidative stress and modulates abscisic acid responses in Arabidopsis.Plant J 47: 665-674.
30. Yang S, Yang H, Grisafi P, Sanchatjate S, Fink GR, Sun Q, Hua J* (2006) The BON/CPN gene family represses cell death and promotes cell growth in Arabidopsis.Plant J 45: 166-179.
31. Yang S, and Hua J* (2004) A haplotype-specific resistance gene regulated by BONZAI1 mediates temperature-dependent growth control in Arabidopsis. Plant Cell 16: 1060-1071.
32. Yang S*, Yu H, Xu Y, Goh CJ* (2003) Investigation of cytokinin-deficient phenotypes in Arabidopsis by ectopic expression of orchid DSCKX1. FEBS Lett 555: 291-296.
33. Yang S, Yu H, Goh CJ* (2003) Functional characterisation of a cytokinin oxidase gene DSCKX1 in Dendrobium orchid. Plant Mol Biol 51: 237-248.
34. Yang S, Yu H, Goh CJ* (2002) Isolation and characterization of the orchid cytokinin oxidase DSCKX1 promoter.J Exp Bot 53: 1899-1907.
35. Yu H,Yang S, Goh CJ* (2002) Spatial and temporal expression of the orchid floral homeotic gene DOMADS1 is mediated by its upstream regulatory elements. Plant Mol Biol 49: 225-237.
36. Yu H, Yang S, Goh CJ* (2001) Agrobacterium-mediated transformation of a Dendrobium orchid with the class 1 knox gene DOH1. Plant Cell Rep 20: 301-305.
37. Yu H,Yang S, Goh CJ* (2000) DOH1, a class 1 knox Gene, is required for maintenance of the basic plant architecture and floral transition in orchid. Plant Cell 12: 2143-2160.
38. 丁楊林,施怡婷,楊淑華* (2015) 植物回響低溫脅迫的分子機制研究. 生命科學. 27: 398-405.
39. 鄧 岩,王興春,楊淑華*,左建儒* (2006) 細胞分裂素:代謝、信號轉導、交叉反應與農藝性狀改良. 植物學通報. 23: 478-498.
專著
Shi Y, Yang S* (2014) ABA regulation of the cold stress response in plants. In Zhang D (ed) Abscisic Acid: Metabolism, Transport and Signaling. Springer, pp337-363.
Yu H, Dhavale T, Yang S (2006) Molecular mechanisms of hormone functions in flowering In Teixeira da Silva JA (ed) Floriculture, Ornamental and Plant Biotechnology: Advances and Topical Issues, Ed 1 Vol 1 Global Science Books, London, UK, pp 25-32.
任勃,王興春,馮健,楊淑華,左建儒 (2012) 細胞分裂素. 植物激素作用的分子機理 (許智宏,薛紅衛主編) 上海科學技術出版社.
武維華,張蜀秋,袁明,張軍,韓玉珍,李穎章,葉德,楊淑華,王學臣 (2008) 植物生理學 (第二版) 科學出版社.
