黃皓瑄[ 副教授 ]

植物及微生物作用機制研究室
辦公室電話: (04) 22840416 # 412
實驗室電話: (04) 22840416 # 413
傳      真 : (04) 22874740
實驗室位置: 生命科學大樓 412室
最 高 學 歷 : 美國印第安那州普渡大學 生物科學系 博士
專 長 領 域 : 農桿菌分子致病機制之研究,轉殖植物系統之建立與探討 
電 子 信 箱 : hauhsuan@dragon.nchu.edu.tw
實驗室網站:  
 
年份 標題
2018. 08 指導研究生簡珮如榮獲『 2018植物分子夏令營暨植物學年會』壁報競賽優良獎
2017.10 指導研究生紀馨斐榮獲『第十三屆國際生物催化暨農業生物技術研討會』壁報競賽第三名
2017.10 指導研究生黃凡真榮獲『第十三屆國際生物催化暨農業生物技術研討會』壁報競賽第一名
2017.08 中興大學傑出青年教師獎
2014.08 中興大學服務特優II獎
2012.11 中興大學教學特優I獎
2014.07 指導研究生黃凡真榮獲『2014植物生子夏令營』壁報競賽優等獎
2013.12 指導研究生董謹儀榮獲『2013中華植物學會-第二十九屆第一次會員大會暨現代植物科學與農業科技研討會』壁報競賽優等獎
2013.06 指導研究生劉茵慈榮獲『2013中興大學生科所碩士畢業論海報展』壁報競賽特優獎
2012.06 指導研究生鄭惇方榮獲『2012中興大學生科所碩士畢業論海報展』壁報競賽特優獎
2011.11 指導研究生黃凡真榮獲『中華植物學會第28屆第一次會員大會-前瞻植物生物科技研討會暨蘭花生物科技研討及產學交流會』壁報競賽特優等獎
 
畢業學校 主修學門系所 學位 時期
美國印第安那州普渡大學 生物科學系 博士 1998-2004
國立臺灣大學 植物學系 學士 1993-1997
 
服務機關 服務部門 職稱 時期
國立中興大學 生命科學系 副教授 2014/02-迄今
國立中興大學 生物科技發展中心 教學推動組組長 2015/03-2015/07
國立中興大學 生物科技發展中心 服務推廣組組長 2014/05-2015/02
國立中興大學 生命科學系 助理教授 2006/08-2014/01
中央研究院 植物暨微生物研究所 博士後研究 2004-2006
美國印第安那州普渡大學 生物科學系 博士後研究 2004-2004
國立臺灣大學 植物學系 研究助理 1997-1998
 
研究興趣
1.農桿菌轉殖植物之分子機制

研究主題
1.參與農桿菌轉殖過程的植物蛋白質之功能分析
2.農桿菌轉殖植物之系統建立
3.功能分析農桿菌反玉米素合成蛋白質及植物細胞分裂素對土壤農桿菌感染植物過程之影響


目前研究計畫
1.功能分析農桿菌反玉米素合成蛋白質及植物細胞分裂素對土壤農桿菌感染植物過程之影響(NSC 97-2311-B-005 -002 -MY3)
2.利用生化及蛋白質體學方式分離與分析受農桿菌T線毛調控以及與T線毛結合的植物蛋白質(NSC96-2311-B-005-001-MY2)
3.阿拉伯芥RTNLB1-8蛋白質於農桿菌感染時之功能分析(NSC 100-2311-B-005-002)
4.建立冰花培養細胞與根部的穩定轉殖系統以進行耐逆境基因SnRK1 功能分析(MOST 103-2311-B-005-003)
5.功能分析在農桿菌感染過程中,反玉米素合成蛋白質及植物細胞分裂素所扮演之功能(MOST 104-2313-B-005-011)
6.阿拉伯芥RTNLB1、2、4於農桿菌感染時在植物防禦反應中之功能分析 (MOST 105-2313-B-005 -008)
7.應用植物內生菌之功能性代謝產物研發新型植物抗逆境及生長調節劑 (MOST 107-2321-B-005-009)
 
學期 科目名稱 學分 開設班級
下學期 生物技術
下學期 植物逆境分子生理學
上學期 植物病原致病機制導論
上學期 農桿菌生物學
上學期 生命科學
上學期 植物生理學
上學期 植物細胞代謝
博士班
黃凡真

碩士班
簡珮如, 曾允立

大學部


研究助理


博士後研究


畢業生
張耀仁(97年碩),李宜霖(97年碩),盧毓(99年碩),楊豐誌(99年碩),傅碧汝(99年碩),黃凡真(100年碩),張欣農(101年碩),吳恩婷(102碩),鄭惇方(102碩), 劉茵慈(102碩),董謹儀(103碩),林詩霖(104碩), 王致皓(105碩),林建廷(105碩), 紀馨斐(106碩)
 
A.期刊論文
 
1.Hwang, H.H.,* Wang, C.H., Chen, H.H., Ho, J.F., Chi, S.F., Huang, F.C., and Yen, H.E. 2019/01 Effective Agrobacterium-mediated transformation protocols for callus and roots of halophyte ice plant (Mesembryanthemum crystallinum). ,Botanical Studies . vol.60, no.1. (SCI)
 
2.Haryono, M., Tsai, Y.M., Lin, C.T., Huang, F.C., Ye, Y.C., Deng, W.L., Hwang, H.-H.*, Kuo, C.H.* 2018/12 Presence of an Agrobacterium-type tumor-inducing plasmid in Neorhizobium sp. NCHU2750 and the link to phytopathogenicity.,Genome Biology and Evolution. vol.10, pp.3188-3195. (SCI)
 
3.Huang, F.C., Fu, B.J., Liu, Y.T., Chang, Y.R., Chi, S.F., Chien, P.R., Huang, S.C., and Hwang, H.-H.* 2018/02 Arabidopsis RETICULON-LIKE3 (RTNLB3) and RTNLB8 participate in Agrobacterium-mediated plant transformation. ,International Journal of Molecular Sciences. vol.19, no.638. (SCI)
 
4.Wang, P.-J., Yang, W.-K., Lin, C.-H., Hwang, H.-H., and Lee, T.-H.* 2017/08 FXYD8, a novel regulator of renal Na+/K+-ATPase in the euryhaline teleost, Tetraodon nigroviridis.,Frontier in Physiology. vol.8, no.576. (SCI)
 
5.Huang, F.C., and Hwang, H.-H.* 2017 植物與病原菌的部落衝突.,Science Development (科學發展) . vol.539, pp.44-49. (其他)
 
6.Hwang, H.-H.,* Yu, M., and Lai, E.M. 2017 Agrobacterium-mediated plant transformation: biology and applications. ,The Arabidopsis Book. vol.e0186.. (其他)
 
7.Hwang, H.-H.,* Yang, F.-J., Cheng, T.-F., and Tung, C.Y. 2016/09 細胞分裂素 ─植物的抗老化因子, Science Development (科學發展). vol.525, pp.36-41. (其他)
 
8.Sun, L.-P., Xu, X., Hwang, H.-H., Wang, X., Su, K.Y., and Chen, Y.L.S.* 2016 Dichloromethane extracts of propolis protect cell from oxygenglucose deprivation-induced oxidative stress via reducing apoptosis.,Food & Nutrition Research. vol.60, pp.30081. (SCI)
 
9.Hwang, H.-H.*, Liu, Y.T., Huang, S.C., Tung, C.Y., Huang, F.C., Tsai, Y.L., Lai, E.M. 2015 Overexpression of the HspL promotes Agrobacterium tumefaciens virulence in Arabidopsis under heat shock condition.,Phytopathology . vol.105, pp.160-168. (SCI)
 
10.Hwang, H.-H.*, Gelvin, S.B., Lai, E.M. 2015 Editorial:“Agrobacterium biology and its application to transgenic plant",Frontier in Plant Science. vol.6, no.265. (SCI)
 
11.Hwang, H.-H.*; Yang, F.-J.; Cheng, T.-F.; Chen, Y.-C.; Lee, Y.-L.; Tsai, Y.-L.; Lai, E.-M. 2013 The Tzs protein and exogenous cytokinin affect virulence gene expressions and bacterial growth of Agrobacterium tumefaciens,Phytopathology. vol.103, pp.888-899. (SCI)
 
12.Hwang, H.-H.*, Wu, E.-T., Liu, S.-Y., Chang, S.-C., Tzeng, K.-C., and Kado, C.I 2013 Characterization and host range of five tumorigenic Agrobacterium tumefaciens strains and possible application in plant transient transformation assays,Plant Pathology, . vol.62, pp.1384-1397. (SCI)
 
13.Hwang, H.-H. 2012 農桿菌-自然界的基因改造者,科學發展期刊Science Development . vol.478, pp.54-59.
 
14.Hwang, H.-H.*, Wang, M.-H.,Lee, Y.-L.,Tsai, Y.-L., Li, Y.-H., Yang, F.-J., Liao, Y.-C., Lin, S.-K.,and Lai, E.-M.* 2010 Agrobacterium-produced and exogenous cytokinin-modulated Agrobacterium-mediated plant transformation ,Molecular Plant Pathology. vol.11, pp. 677-690. (SCI)
 
15.Wang, P.-J., Lin, C.-H., Hwang. H.-H., and Lee, T.-H.* 2008 Branchial FXYD protein expression in response to salinity change and its interaction with Na+/K+-ATPase of the euryhaline teleost Tetraodon nigroviridis,The Journal of Experimental Biology . vol.211, pp. 3750-3758. (SCI)
 
16.Hwang, H.-H., Mysore, K., and Gelvin, S.B.* 2006 Transgenic Arabidopsis plants expressing Agrobacterium tumefaciens VirD2 protein are less susceptible to Agrobacterium transformation,Molecular Plant Pathology . vol.7, pp.473-484. (SCI)
 
17.Lai, E.-M.*, Shih, H.-W., Wen, S.-R., Cheng, M.-W., Hwang, H.-H., and Chiu, S.-H 2006 A proteomic approach to identify phenolics-induced proteins in Agrobacterium tumefaciens,Proteomics. vol.6, pp.4130-4136. (SCI)
 
18.Hwang, H.-H. and Gelvin, S.B.* 2004 Plant Proteins That Interact with VirB2, the Agrobacterium Pilin Protein Mediate Plant Transformation. ,Plant Cell. vol.16, pp.3148-3167. (SCI)
 
19.Zhu, Y. et al 2003 Identification of Arabidopsis rat mutants,Plant Physiology . vol.132, pp.494-505. (SCI)
B.研討會論文
 
1.Huang, F.-C., and Hwang, H.-H. 2018/12 A Gene regulation study of the AtRTNLB4 functions in plant defense response. ,第九屆國際植醫論壇 (The 9th International Conference of Clinical Plant Science 2018). Taichung, Taiwan.
 
2.Chi, S.-F., Liu, Y.-T., Chang, C.-N., Lu, Y., Huang, F.-C., Chien, P.-R., and Hwang, H.-H. 2018/12 Arabidopsis RAB8A, RAB8B and RAB8D proteins interact with several RTNLB proteins and participate the Agrobacterium tumefaciens infection process. ,第九屆國際植醫論壇 (The 9th International Conference of Clinical Plant Science 2018). Taichung, Taiwan.
 
3.Huang, F.-C., and Hwang, H.-H.* 2018/08 A Gene regulation study of the AtRTNLB4 functions in plant defense response., 2018植物分子夏令營暨植物學年會(2018 Taiwan Society of Plant Biologists Annual Meeting & Summer Workshop). Tainan, Taiwan.
 
4.Chi, S.-F., Liu, Y.-T., Chang, C.-N., Lu, Y., Huang, F.-C., Chien, P.-R., and Hwang, H.-H. 2018/08 Arabidopsis RAB8A, RAB8B and RAB8D proteins interact with several RTNLB proteins and participate the Agrobacterium tumefaciens infection process. ,2018植物分子夏令營暨植物學年會(2018 Taiwan Society of Plant Biologists Annual Meeting & Summer Workshop). Tainan, Taiwan.
 
5.Huang, F.-C., and Hwang, H.-H. 2017/11 A Gene regulation study of the AtRTNLB4 functions in plant defense response. ,2017台日植物生物學國際研討會(Taiwan-Japan Plant Biology 2017). Taipei, Taiwan.
 
6.Chi, S.-F., Liu, Y.-T., Chang, C.-N., Lu, Y., Huang, F.-C., Chien, P.-R., and Hwang, H.-H. 2017/11 Arabidopsis RAB8A, RAB8B and RAB8D proteins interact with several RTNLB proteins and participate the Agrobacterium tumefaciens infection process.,2017台日植物生物學國際研討會(Taiwan-Japan Plant Biology 2017). Taipei, Taiwan.
 
7.Wang, C.-H., Huang, H.-W., Chen, H.-H., Ho, J.-F., Chi, S.-F., Yen, H.E., and Hwang, H.-H. 2017/11 Effective Agrobacterium-mediated transformation methods for gene function analyses in ice plant (Mesembryanthemum crystallinum) cells and seedlings. , 2017台日植物生物學國際研討會(Taiwan-Japan Plant Biology 2017). Taipei, Taiwan.
 
8.Huang, F.-C., and Hwang, H.-H. 2017/10 A Gene regulation study of the AtRTNLB4 functions in plant defense response.,第十三屆國際生物催化暨農業生物技術研討會(13th International Symposium on Biocatalysis and Agricultural Biotechnology). Taichung, Taiwan.
 
9.Chi, S.-F., Liu, Y.-T., Chang, C.-N., Lu, Y., Huang, F.-C., Chien, P.-R., and Hwang, H.-H. 2017/10 Arabidopsis RAB8A, RAB8B and RAB8D proteins interact with several RTNLB proteins and participate the Agrobacterium tumefaciens infection process. ,第十三屆國際生物催化暨農業生物技術研討會(13th International Symposium on Biocatalysis and Agricultural Biotechnology). Taichung, Taiwan.
 
10.Wang, C.-H., Huang, H.-W., Chen, H.-H., Ho, J.-F., Chi, S.-F., Yen, H.E., and Hwang, H.-H. 2017/10 Effective Agrobacterium-mediated transformation methods for gene function analyses in ice plant (Mesembryanthemum crystallinum) cells and seedlings.,第十三屆國際生物催化暨農業生物技術研討會(13th International Symposium on Biocatalysis and Agricultural Biotechnology). Taichung, Taiwan.
 
11.Huang, F.C., and Hwang, H.H.* 2016/11 A Gene regulation study of the AtRTNLB4 functions in plant defense response. ,2016 臺灣植物學會年會暨「氣候變遷:植物演化之因應策略」研討會(2016 TSPB Annual Meeting & Symposium Climate Change: Evolutionary Strategies in Plants). Taichung, Taiwan.
 
12.Hwang, H.H. 2016/10 Characterizations of plant and bacterial genes involved in Agrobacterium-mediated plant transformation process.,The 2016 International Symposium on Plant Transformation Biotechnologies. Taipei, Taiwan. .
 
13.Hwang, H.-H. 2016/08 Characterizations of plant and bacterial genes involved in Agrobacterium-mediated plant transformation process. ,第21屆細菌學研討會(The 21th Conference on Bacteriology). New Taipei, Taiwan.
 
14.Tuang, C.-Y., and Hwang, H.-H. 2016/08 Deletions of various domains of the Tzs protein affects Agrobacterium tumefaciens bacterial growth and virulence.,第21屆細菌學研討會(The 21th Conference on Bacteriology). New Taipei, Taiwan.
 
15.Liu, Y.-T., Lu, Y., Chang, C.-N., Huang, F.-C., Chi, S.-F., Yan, Y.-C., and Hwang, H.-H. 2016/08 Arabidopsis AtRab8A and 8B proteins interact with several RTNLB proteins and may participate the Agrobacterium tumefaciens infection process. ,2016 植物分子生物夏令營(2016 Plant Molecular Biology Summer Camp). Nantou, Taiwan.
 
16.Wang, C.-H., Huang, H.-W., Chen, H.-H., Ho, J.-F., Lin, C.-T., Yen, H.E., and Hwang, H.-H. 2016/08 Effective Agrobacterium-mediated transformation methods for gene function analyses in ice plant (Mesembryanthemum crystallinum) cells and seedlings.,2016 植物分子生物夏令營(2016 Plant Molecular Biology Summer Camp). Nantou, Taiwan.
 
17.Huang, F.-C., and Hwang, H.-H. 2016/08 A Gene regulation study of the AtRTNLB4 functions in plant defense response. ,2016 植物分子生物夏令營(2016 Plant Molecular Biology Summer Camp). Nantou, Taiwan.
 
18.Tuang, C.-Y., and Hwang, H.-H. 2016/08 Deletions of various domains of the Tzs protein affects Agrobacterium tumefaciens bacterial growth and virulence.,2016 植物分子生物夏令營(2016 Plant Molecular Biology Summer Camp). Nantou, Taiwan.
 
19.Huang, F.-C., and Hwang, H.-H. 2015/11 A Gene regulation study of the AtRTNLB4 functions in plant defense response.,2015 臺灣植物學會第三十屆第一次會員大會暨轉譯植物科學研討會(2015 Plant Science Annual Meeting & Symposium). Taipei, Taiwan.
 
20.Tuang, C.-Y., and Hwang, H.-H. 2015/11 Deletions of various domains of the Tzs protein affects Agrobacterium tumefaciens bacterial growth and virulence.,2015 臺灣植物學會第三十屆第一次會員大會暨轉譯植物科學研討會(2015 Plant Science Annual Meeting & Symposium). Taipei, Taiwan.
 
21.Huang, F.-C., Fu, B.,-J., Lu, Y., Chang, Y.-R., Chang, C.-N., Liu, Y.-T., Huang, S.-C., and Hwang, H.-H. 2014/12 Several Arabidopsis RTNLB proteins interact with each other and participate in the Agrobacterium tumefaciens infection process.,2014植物學年會-創新植物及生物科技研討會(Innovation and Translational Technologies in Plant Science). Taipei, Taiwan.
 
22.Tung, C.-Y., and Hwang, H.-H. 2014/07 Deletions of various domains of the Tzs protein affects Agrobacterium tumefaciens bacterial growth and virulence. ,2014植物分子生物夏令營(Plant Molecular Biology Summer Camp). Nantou, Taiwan.
 
23.Hwang, H.-H. 2013/12 The Tzs protein and exogenous cytokinins affect Agrobacterium tumefaciens virulence, virulence gene expressions, and bacterial growth.,2013中華植物學會-第二十九屆第一次會員大會暨現代植物科學與農業科技研討會(2013 Symposium on Modern Plant Science and Agricultural Technology). Taipei, Taiwan.
 
24.Tung, C.-Y,, Yang, F.-J., Cheng, T.-F., Lee, Y.-L., Tsai, Y.-L., Lin, S.-L., Lai, E.-M., and Hwang, H.-H. 2013/12 The Tzs protein affects Agrobacterium tumefaciens virulence, virulence gene expressions, and bacterial growth. ,2013中華植物學會-第二十九屆第一次會員大會暨現代植物科學與農業科技研討會(2013 Symposium on Modern Plant Science and Agricultural Technology). Taipei, Taiwan.
 
25.Huang, F.-C., Liu, Y.-T., Lu, Y., Chang, C.-N., Fu, B.,-J., Huang, S.-C., and Hwang, H.-H. 2013/12 Arabidopsis AtRab8A and 8B proteins interact with several RTNLB proteins and may participate the Agrobacterium tumefaciens infection process.,2013中華植物學會-第二十九屆第一次會員大會暨現代植物科學與農業科技研討會(2013 Symposium on Modern Plant Science and Agricultural Technology). Taipei, Taiwan.
 
26.Hwang, H.-H., Lee, Y.-L., Li, Y.-H., Yang, F.-J., Cheng, T.-F., Tung, C.-Y., Tsai, Y.-L., and Lai, E.-M. 2013/10 The Tzs protein affects Agrobacterium tumefaciens virulence, virulence gene expressions, and bacterial growth. ,植物與微生物分子交互作用國際研討會(Advances in Molecular Plant-Microbe Interactions). Taipei, Taiwan.
 
27.Huang, F.-C., Liu, Y.-T., Lu, Y., Chang, C.-N., Fu, B.,-J., Huang, S.-C., and Hwang, H.-H. 2013/10 Arabidopsis AtRab8A and 8B proteins interact with several RTNLB proteins and may participate the Agrobacterium tumefaciens infection process.,植物與微生物分子交互作用國際研討會(Advances in Molecular Plant-Microbe Interactions). Taipei, Taiwan.
 
28.Hwang, H.-H., Lee, Y.-L., Yang, F.-J., Cheng, T.-F., Tung, C.-Y., Tsai, Y.-L., and Lai, E.-M. 2013/08 The Tzs protein affects Agrobacterium tumefaciens virulence, virulence gene expressions, and bacterial growth,第18屆細菌學研討會(The 18th Conference on Bacteriology). Nantou, Taiwan.
 
29.Liu, Y.-T., Lu, Y., Chang, C.-N., Huang, F.-C., Huang, S.-C., and Hwang, H.-H. 2013/08 Arabidopsis AtRab8A and 8B proteins interact with several RTNLB proteins and may participate the Agrobacterium tumefaciens infection process,第18屆細菌學研討會(The 18th Conference on Bacteriology). Nantou, Taiwan.
 
30.Huang, F.-C., Fu, B.-J., Lu, Y., Chang, Y.-R., Chang, C.-N., Liu, Y.-T., and Hwang, H.-H. 2013/08 Several Arabidopsis RTNLB proteins interact with each other and participate in the Agrobacterium tumefaciens infection process ,第18屆細菌學研討會(The 18th Conference on Bacteriology). Nantou, Taiwan.
 
31.Hwang, H.-H., Lee, Y.-L., Li, Y.-H., Yang, F.-J., Cheng, T.-F., Tsai, Y.-L., and Lai, E.-M. 2013/08 Tzs is involved in Agrobacterium virulence and growth,第十屆國際植物病理學會大會(The 10th International Congress of Plant Pathology). Beijing, China.
 
32.Hwang, H.-H., Wu, E. T., Chang, S.-C., and Tzeng, K.-C. 2013/08 Characterization of various opine types Agrobacterium virulence on different plant species,第十屆國際植物病理學會大會(The 10th International Congress of Plant Pathology). Beijing, China.
 
33.Hwang, H.-H., Lee, Y.-L., Li, Y.-H., Yang, F.-J., Cheng, T.-F., Tsai, Y.-L., and Lai, E.-M. 2012 Tzs is involved in Agrobacterium virulence and growth,2012台灣生物科技產學新知研討會-植物生物技術研討會. Tainan, Taiwan .
 
34.Hwang, H.-H., Wu, E. T., Chang, S.-C., and Tzeng, K.-C 2012 Characterization of various opine types Agrobacterium virulence on different plant species,2012 Symposium on Innovative Plant Sciences,. Taipei, Taiwan .
 
35.Hwang, H.-H., Lee, Y.-L., Li, Y.-H., Yang, F.-J., Cheng, T.-F., Tsai, Y.-L., and Lai, E.-M. 2012 Tzs is involved in Agrobacterium virulence and growth 2012 Symposium on Innovative Plant Sciences,Taipei, Taiwan .
 
36.Huang, F.-C., Fu, B.-J., Lu, Y., Chang, Y.-R., Chang, C.-N., Liu, Y.-T., and Hwang, H.-H. 2012 Arabidopsis RTNLB1, 2, 4, and AtRab8B proteins participate Agrobacterium-mediated plant transformation process ,The 17th Conference on Bacteriology. Nantou, Taiwan .
 
37.Hwang, H.-H., Wu, E. T., Chang, S.-C., and Tzeng, K.-C 2012 Characterization of various opine types Agrobacterium virulence on different plant species,The 17th Conference on Bacteriology. Nantou, Taiwan .
 
38.Hwang, H.-H., Lee, Y.-L., Li, Y.-H., Yang, F.-J., Cheng, T.-F., Tsai, Y.-L., and Lai, E.-M 2012 Tzs is involved in Agrobacterium virulence and growth ,The 17th Conference on Bacteriology. Nantou, Taiwan .
 
39.Hwang, H.-H., Lee, Y.-L., Li, Y.-H., Yang, F.-J., Cheng, T.-F., Tsai, Y.-L., and Lai, E.-M 2012 Tzs is involved in Agrobacterium virulence and growth The XV International Congress on Molecular Plant-Microbe Interactions,Kyoto, Japan.
 
40.Huang, F.-C., Fu, B.-J., Lu, Y., Chang, Y.-R., Chang, C.-N., Liu, Y.-T., and Hwang, H.-H 2012 Arabidopsis RTNLB1, 2, 4, and AtRab8B proteins participate Agrobacterium-mediated plant transformation process ,2012台灣生物科技產學新知研討會-植物生物技術研討會. Tainan, Taiwan .
 
41.Hwang, H.-H., Wu, E. T., Chang, S.-C., and Tzeng, K.-C 2012 Characterization of various opine types Agrobacterium virulence on different plant species,2012台灣生物科技產學新知研討會-植物生物技術研討會.
 
42.Huang, F.-C., Fu, B.-J., Lu, Y., Chang, Y.-R., Chang, C.-N., Liu, Y.-T., and Hwang, H.-H 2012 Several Arabidopsis RTNLB and AtRab8 proteins interact with each other and participate the Agrobacterium tumefaciens infection process ,2012 Symposium on Innovative Plant Sciences. Taipei, Taiwan .
 
43.Hau-Hsuan Hwang, En Ting Wu, Shih-Chieh Chang, Kuo-Ching Tzeng 2011 Characterizations of various opine types Agrobacterium virulence on different plant species,The 16th Conference on Bacteriology. Hualien, Taiwan .
 
44.Hau-Hsuan Hwang, Ying-Ling Lee, Yi-Ho Li, Fong-Jhih Yang, Tun-Fang Cheng, Yun-Long Tsai, and Erh-Min Lai 2011 Tzs is involved in Agrobacterium virulence and growth,The 16th Conference on Bacteriology. Hualien, Taiwan .
 
45.Hau-Hsuan Hwang, Ying-Ling Lee, Yi-Ho Li, Fong-Jhih Yang, Tun-Fang Cheng, Yun-Long Tsai, and Erh-Min Lai 2011 Tzs is involved in Agrobacterium virulence and growth BSROC ,Annual Meeting in Plant Sciences 2011. Nantou, Taiwan .
 
46.Fan-Chen Huang, Bi-Ju Fu, Yu Lu, Yao-Ren Chang, Hsin-Nung Chang, and Hau-Hsuan Hwang 2011 Arabidopsis RTNLB1, 2, 4, and AtRab8B proteins participate Agrobacterium-mediated plant transformation process ,BSROC Annual Meeting in Plant Sciences 2011. Nantou, Taiwan .
 
47.Hau-Hsuan Hwang, En Ting Wu, Shih-Chieh Chang, Kuo-Ching Tzeng 2011 Characterization of various opine types Agrobacterium virulence on different plant species ,BSROC Annual Meeting in Plant Sciences 2011. Nantou, Taiwan .
 
48.Hau-Hsuan Hwang, Bi-Ju Fu, Yu Lu, Yao-Ren Chang, Fan-Chen Huang, and Hsin-Nung Chang 2010 Arabidopsis RTNLB1, 2, 4, and AtRab8B proteins participate Agrobacterium-mediated plant transformation process ,The Symposium on Frontiers of Plant Science. Nantou, Taiwan .
 
49.Hau-Hsuan Hwang, Yu Lu, Bi-Ju Fu, Yao-Ren Chang, Fan-Chen Huang, and Hsin-Nung Chang 2010 Arabidopsis RTNLB1, 2, 4, and AtRab8B proteins participate Agrobacterium-mediated plant transformation process ,The 15th Conference on Bacteriology. Chiayi, Taiwan .
 
50.Hwang, H.-H., Wang, M.-H., Lee, Y.-L., Li, Y.-H., Yang, F.-J., Liao, Y.-C., Chen, C.-W., Tsai, Y.-L., and Lai, E.-M. 2010 Tzs is involved in Agrobacterium virulence and growth,The 21st International Conference on Arabidopsis Research. Yokohama, Japan.
 
51.Hau-Hsuan Hwang, Yao-Ren Chang, Yu Lu, Bi-Ju Fu,and Stanton B. Gelvin 2009 Plant proteins that interact with VirB2, the Agrobacterium pilin protein, participate plant transformation ,The 14th Bacterial Conference. Taichung, Taiwan .
 
52.Hau-Hsuan Hwang, Ming-Hsuan Wang, Ying-Ling Lee, Yi-Ho Li, Yu-Chen Liao, Chun-Wei Chen, Yun-Long Tsai, and Erh-Min Lai 2009 Tzs, a host range factor, is involved in Agrobacterium virulence and growth,The Plant Biology 2009 Meeting, . Hawaii, USA .
 
53.Hwang, H.-H., Chang, Y.-R., Lu, Y., Fu,B.-J., Huang, F.-C., and Chang, C.-N 2009 Arabidopsis RTNLB1, 2, 4, and RAB8B proteins participate Agrobacterium-mediated plant transformation process,The Symposium on Frontiers of Plant Science. Taichung, Taiwan .
 
54.Hwang, H.-H., Wang, M.-H., Lee, Y.-L., Li, Y.-H., Yang, F.-J., Liao, Y.-C., Chen, C.-W., Tsai, Y.-L., and Lai, E.-M. 2009 Tzs is involved in Agrobacterium virulence and growth,The Symposium on Frontiers of Plant Science. Taichung, Taiwan.
 
55.Hwang, H.-H., Wang, M.-H., Lee, Y.-L., Li, Y.-H., Yang, F.-J., Liao, Y.-C., Tsai, Y.-L., Lin, S.-K., and Lai, E.-M 2009 Agrobacteirum-produced and exogenous cytokinins modulate Agrobacterium?-mediated plant transformation,The 30th Annual Crown Gall Conference. Admore, USA .
 
56.Hau-Hsuan Hwang, Ming-Hsuan Wang, Ying-Ling Lee, Yi-Ho Li, Feng-Jhih Yang, Yu-Chen Liao, Chun-Wei Chen, Yun-Long Tsai, and Erh-Min Lai 2009 Tzs is involved in Agrobacterium virulence and growth ,The 14th Bacterial Conference. Taichung, Taiwan .
 
57.Hwang, H.-H., Wang, M.-H., Lee, Y.-L., Li,Y.-H., Liao, Y.-C., Chen, C.-W., Tsai, Y.-L., and Lai, E.-M 2008 Tzs, a host range factor, is involved in Agrobacterium virulence and growth ,植物分子生物夏令營研討會. chiayi, Taiwan.
 
58.Hwang, H.-H., Chang, Y.-R., Lu, Y., and Gelvin, S.B 2008 Plant proteins that interact with VirB2, the Agrobacterium pilin protein, participate plant transformation.,植物分子生物夏令營研討會. chiayi, Taiwan.
 
59.Hwang, H.-H., Wang, M.-H., Lee, Y.-L., Liao, Y.-C., Li,Y.-H., Tsai, Y.-L., and Lai, E.-M. 2008 The acetosyringone-induced trans-zeatin synthesizing protein affects Agrobacterium virulence as a host range factor,The 9th International Congress on Cell Biology. Seoul, Korea.
 
60.Hwang, H.-H., Liao, Y.-C., Chen, Y.-C., and Lai, E.-M. 2007 Tzs, a host range factor, is required for Agrobacterium tumefaciens growth under infection conditions,The 18th International Conference on Arabidopsis Research. Beijing, China.
 
61.Hwang, H.-H., Wang, M.-H., Liao, Y.-C., Tsai, Y.-L., Lee, Y.-L., Lin, S.-K., and Lai, E.-M. 2007 Tzs, a host range factor, is required for Agrobacterium tumefaciens growth under infection conditions,The 11th 細菌學研討會. HsinChu, Taiwan.
 
62.Hwang, H.-H., Liao, Y.-C., Chen, Y.-C., and Lai, E.-M 2006 Tzs, a host range factor, is required for Agrobacterium tumefaciens growth under infection condition ,植物分子生物夏令營研討會. Nantou, Taiwan.
 
63.Hwang, H.-H., Liao, Y.-C., and Lai, E.-M. 2006 Tzs, a host range factor, is required for the growth of Agrobacterium tumefaciens under infection conditions,The 2006 Annual Meeting of the American Society of Plant Biologists. Boston, MA, USA.
 
64.Hwang, H.-H., Liao, Y.-C., and Lai, E.-M 2006 Tzs, a host range factor, is required for the growth of Agrobacterium tumefaciens under infection conditions,The 4th NHRI Conference on Bacterial Gene Regulation and Pathogenesis. Miaoli, Taiwan.
 
65.Hwang, H.-H. and Gelvin, S.B 2004 Plant proteins that interact with VirB2, the Agrobacterium pilin protein, mediate plant transformation,植物分子生物夏令營研討會. Nantou, Taiwan.
 
66.Hwang, H.-H. and Gelvin, S.B 2003 Identification of a putative plant receptor for the Agrobacterium tumefaciens T-pilus,The 14th International Conference on Arabidopsis Research. Madison, WI, USA.
 
67.Gelvin, S.B. and Hwang, H.-H 2003 Plant genes involved in Agrobacterium-mediated genetic transformation,The Biology of Type IV Secretion Processes: EuroConference on the Mechanisms and Application in Biotechnology, Giens,. France.
 
68.Hwang, H.-H. and Gelvin, S.B 2003 Identification of a putative plant receptor for the Agrobacterium tumefaciens T-pilus,The 24th Annual Crown Gall Conference, Ithaca. NY, USA.
 
69.Hwang, H.-H. and Gelvin, S.B. 2002 Identification of a putative plant receptor for the Agrobacterium tumefaciens T-pilus,The 2002 Annual Meeting of the American Society of Plant Biologists, Denver, CO. USA.
 
70.Hwang, H.-H. and Gelvin, S.B. 2002 Identification of a putative plant receptor for the Agrobacterium tumefaciens T-pilus,The 23rd Annual Crown Gall Conference, Minneapolis, MN. USA.
 
71.Hwang, H.-H. and Gelvin, S.B. 2001 Identification of a putative plant receptor for the Agrobacterium tumefaciens T-pilus,The Biology of Type IV Secretion Processes: EuroConference on the Medical and Ecological Implications, Castelvecchio Pascoli. Italy.
 
72.Hwang, H.-H. and Gelvin, S.B 2001 Identification of a putative plant receptor for the Agrobacterium tumefaciens T-pilus,The 22nd Annual Crown Gall Conference, Atlanta, GA. USA.
 
73.Huang, F.-C., Fu, B.,-J., Lu, Y., Chang, Y.-R., Chang, C.-N., Liu, Y.-T., Huang, S.-C., and Hwang, H.-H. Several Arabidopsis RTNLB proteins interact with each other and participate in the Agrobacterium tumefaciens infection process., 2014植物分子生物夏令營(Plant Molecular Biology Summer Camp). Nantou, Taiwan.
C.專書
 
1.Hwang, H.H.*, and Liu, S.Y. 2017/04 生命科學實驗手冊-植物篇 (Handbook of Life Science Experiments.
F.專利
 
1.Hwang, H.-H., Wang, C.-H., and Yen, H.-C. 2018/05 A process for increasing growth of hydroponic grown plants under salt stress,Taiwan Patent number, No. I624544.
 
2.Hwang, H.-H., Wang, C.-H., and Yen, H.-C. 2017/08 A process for increasing growth of hydroponic grown plants,Taiwan Patent application number, No. 106129830.
 
3.Hwang, H.-H., and Lu, Y. 2016/09 Increasing frequency of obtaining transgenic plants by the AtRab8B gene. Taiwan patent, ,I550087.
 
4.Hwang, H.-H., and Wu, E. T 2015/12 A novel Agrobacterium tumefaciens 1D1460 strain and its application for generating transgenic plants, Taiwan patent,I510617.
 
5.Hwang, H.-H., Tsai, Y.L., and Lai, E.M 2015/06 A process for increasing efficiency of Agrobacterium-mediated plant transformation, Taiwan patent,I488967.
 
6.Hwang, H.-H., and Wu, E. T 2014/10 A novel Agrobacterium tumefaciens strain and its application for generating transgenic plants, Taiwan patent, I456056.
 
7.Hwang, H.-H., and Chang, Y.-R 2012/12 Enhanced plant cell transformation by utilization of the RTNLB4 gene Taiwan Patent No.I378770.
 
8.Hwang, H.-H. and Gelvin, S.B 2005 Over expression of BTI1 enhances transformation of Arabidopsis roots. USA patent, pending.