國立臺南大學教師基本資料

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基本資料
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畢業學校國別主修學門學位修業期間
Chinses Culture UniversityROCAgricultureBS1977-1981
National Chung-Hsing UniversityROCPlant PhysiologyMS1981-1983
Rutgers UniversityUSASoils and CropsMS1987-1989
University of Rhode IslandUSAPlant SciencesPhD1989-1993

服務機關部門 / 系所職稱服務期間
Ohio State UniversityAgronomyAssociate Researcher1993-1994
臺南大學數理教育學系副教授1994-1998
臺南大學自然科學教育學系副教授1998-2005
臺南大學生物科技學系副教授2005-2013
臺南大學生物科技學系教授2013~

著作
名稱林哲彥、程台生、莊陽德(2000):高職自然科學概論。台北:仁林出版。
年度2000
類別學術專書
摘要 
關鍵字 
名稱洪秀鈴、許惠菁、蔡孜怡、程台生、陳麗珠(2004)。基因改造生物教學模組。台南:國立台南師範學院 印行。
年度2003
類別學術專書
摘要 
關鍵字 
名稱程台生(2003)。九年一貫課程教材之創新與應用 – 從「GMO教學模組」出發。台南:供學出版社 印行。
年度2003
類別學術專書
摘要 
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名稱程台生(2004)。基因改造生物教學模組設計研究。台南:國立台南師範學院 印行。
年度2004
類別學術專書
摘要 
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名稱程台生(2004)。基因改造生物褶頁。台南:國立台南師範學院 印行。
年度2004
類別學術專書
摘要 
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名稱Environment and Photosynthesis: A Future Prospects
年度2017
類別學術專書
摘要Diethyl phthalate (DEP), one of short chain and low molecular weight phthalic acid esters (PAEs), is widely used in industry as a plasticizer to increase the flexibility of polymer in many products. With a greater bioaccumulation factor than larger PAEs, such as di (2-ethylhexyl) phthalate (DEHP), DEP and the metabolites may interfere with animal growth and development by disrupting the endogenous hormone action and their receptors. DEP was classified as one of the priority organic pollutants by USEPA. DEP may cause oxidative stress, partially through accumulation of superoxide and/or hydrogen peroxide leading to membrane peroxidation, chlorophyll degradation, protein accumulation and turnover, and reduction in nitrogen assimilation. No available data suggest that any aquatic plant is a significant source of DEP in ecosystems. However, this was the only PAEs that was identified as one of the 15 potentially allelopathic compounds from root exudates of barnyard grass. In this chapter, we first review the toxic effects of DEP on plant growth and development. We also introduce our application of the JIP-test analysis to monitor the photosynthetic response to the DEP stress in greater duckweed, an aquatic plant model, and discuss the future prospective.
關鍵字Diethyl phthalate • Spirodela polyrhiza • Chlorophyll a fluorescence • Photosystem II • Reactive oxygen species
名稱程台生、許惠菁、蔡孜怡、陳麗珠(2003)。DNA SPA。南師學報,37,59-75。
年度2003
類別期刊論文
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名稱黃東賢、程台生、陳麗珠(2004)。南台灣國小高年級兒童的基因改造食品認知、態度與消費行為之調查研究。南大學報,38,71-92。
年度2004
類別期刊論文
摘要 
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名稱程台生、蔡孜怡、吳明哲、簡維瑩、陳麗珠(2005)。國小教師對生物科技議題融入自然科學教學的認知與應用。南大學報,39,(2),73-100。
年度2005
類別期刊論文
摘要 
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名稱連佩雯、程台生、蔡孜怡(2005)。不同課程標準的南台灣國一生遺傳學習之研究。當代教育研究季刊,13(1),21-52。
年度2005
類別期刊論文
摘要 
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名稱陳惠美、程台生、陳麗珠、連大進(2005)。大豆Bowman-Birk 蛋白水解酵素抑制素之定量分析研究。南大學報,39,45-60。
年度2005
類別期刊論文
摘要 
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名稱程台生、陳麗珠、連大進(2006):國產大豆抗氧化活性之研究。作物、環境與生物資訊,3(4):325-336。
年度2006
類別期刊論文
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名稱程台生、陳惠美、陳麗珠、連大進(2007):國產與市售大豆異黃酮之定量分析研究。南大理工研究學報,41:95-113。
年度2007
類別期刊論文
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名稱程台生、潘怡蓉、郭貞吟(2009): 農桿菌於紅豆胚軸誘發之黃化反應。作物、環境與生物資訊,6(1):15-26。
年度2009
類別期刊論文
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名稱Cheng T-S (2011) NaCl-induced responses in giant duckweed. Journal of Aquatic Plant Manage 49(2):62-71 SCI (IF 0.556 in 2010)
年度2011
類別期刊論文
摘要Salt accumulation leads to a decline in species richness in aquatic ecosystems. The effects of salt (NaCl) stress on plant growth and antioxidative responses in giant duckweed were investigated. Salt concentrations aAt 100 mM NaCl or above, the plants showed a significantly inhibited plantion of growth and a reducedtion in photosynthetic pigments. These increased levels , and may also provoke oxidative stress, to enhancinge malondialdehyde (MDA) and hydrogen peroxide (H2O2) contents in plant tissues. The antioxidative enzymatic analysis showed a significant increase in superoxide dismutase (SOD), ascorbate peroxidase (APX), catalase (CAT), and peroxidase (POD) activity, whereas glutathione reductase (GR) activities were marginally enhanced. POD is the most active enzyme in giant duckweed exposed to NaCl stress. These results suggest that an adapted reactive oxygen species (ROS) scavenging system could provide some protection against oxidative damage in giant duckweed plants under salt-stressed conditions.
關鍵字antioxidative enzyme, peroxidase, salt stress, Spirodela polyrhiza
名稱In-Hwa Chang, Kai-Teng Cheng, Po-Chuan Huang, Yen-Yu Lin, Lee-Ju Cheng, and Tai-Sheng Cheng (2011) Oxidative stress in greater duckweed (Spirodela polyrhiza) caused by long-term NaCl exposure. Acta Physiol. Plant 34:1165-1176. SCI (IF 1.639 in 2011)
年度2012
類別期刊論文
摘要Salt accumulation leads to a decline in species richness in aquatic ecosystems. The effects of salt stress on plant growth and antioxidative responses in giant duckweed were investigated. At 100 mM NaCl or above, the plants showed a significant inhibition of growth and a reduction in photosynthetic pigments, and may provoke oxidative stress to enhance malondialdehyde (MDA) and H2O2 contents in plant tissues. The antioxidative enzymatic analysis showed significant increase in superoxide dismutase (SOD), ascorbate peroxidase (APX), catalase (CAT), and peroxidase (POD) activity whereas glutathione reductase (GR) activities were marginally enhanced. POD is the most active enzyme in giant duckweed exposed to NaCl stress. These results suggest that an adapted ROS scavenging system could provide some protection against oxidative damage in giant duckweed plants under salt-stressed conditions.
關鍵字Spirodela polyrhiza, salt stress, antioxidative enzyme, peroxidase
名稱Cheng L-J and Cheng T-S (2012) Oxidative effects and metabolic changes following exposure of greater duckweed (Spirodela polyrhiza) to diethyl phthalate. Aquat. Toxicol. 109:166-175, SCI (IF3.761 in 2011)
年度2012
類別期刊論文
摘要The toxicity and effects of diethyl phthalate (DEP), a potent allelochemical, on the growth of greater duckweed were studied. Biochemical analyses and physiological methods were combined to investigate oxidative stress, adverse effects and concerned mechanism in greater duckweeds grown in 0-2 mM of diethyl phthalate (DEP) after cultivation for 7 days. The results showed that J-shaped dose response curves were displayed in hydrogen peroxide (H2O2), ascorbic acid (ASA), dehydroascorbate (DHA), ascorbate peroxidase (APX) and gualacol peroxidase (POD) activities, indicating reduced oxidative stress and toxic effect. The inverted U-shaped curved were exhibited in relative growth rate (RGR), fresh weight/dry weight (FW/DW) ratio, total chlorophyll content, total soluble thiols, and glutathione reductase (GR) activities, revealing beneficial effect in plant growth. The inverted U-shaped curves were also found in malondialdehyde (MAD) and superoxside radicals (O2.-) contents with the increasing concentration of DEP, indicative of enhanced oxidative stress. The results suggest that DEP is toxic to the greater duckweed by inducing oxidative stress and antioxidative enzymes may play important roles in the defense strategy against DEP toxicity.
關鍵字diethyl phthalate, oxidative stress, allelochemical, Spirodela polyrhiza
名稱The toxic effects of diethyl phthalate on the activity of glutamine synthetase in greater duckweed (Spirodela polyrhiza L.) SCI (IF 3.761 in 2011)
年度2012
類別期刊論文
摘要The toxic effects of diethyl phthalate (DEP), a potent allelochemical, on the enzyme activity and polypeptide accumulation of glutamine synthetase (GS) in greater duckweed were investigated. In our previous studies, DEP induced oxidative responses at concentrations from 0.5 to 2 mM in greater duckweed and the antioxidant enzymes played important roles in the defense strategy against DEP stress. In this study, DAB-H2O2 and NBT stain for superoxide radicals (O2.-), lipid peroxidation, HSP70, and ammonia accumulation in DEP-treated duckweed tissues revealed adverse effect of DEP in plant growth. Biochemical analysis and physiological methods were combined to investigate GS activity and polypeptide accumulation under DEP-induced stress. The results showed that GS activity was reduced with the increasing concentration of DEP, indicative of enhanced toxic effect. Immunoblot analysis with chloroplast soluble fractions indicated that the chloroplastic GS (GS2) polypeptide from greater duckweed was degraded under DEP stress conditions. The response of GS2 to the DEP stress may be modulated by means of redox change in plant tissues, chloroplasts, and chloroplast lysates. The results suggest that DEP is toxic to the greater duckweed by inhibition of the GS isoenzymes in nitrogen assimilation and the GS2 plays important roles in the adaptation strategy against DEP toxicity.
關鍵字Diethyl phthalate, glutamine synthetase, allelopathy, Spirodela polyrhiza
名稱Calcium-mediated responses and glutamine synthetase expression in greater duckweed (Spirodela polyrhiza L.) under diethyl phthalate-induced stress.
年度2013
類別期刊論文
摘要This study was carried out to assess the influence of diethyl phthalate (DEP) alone or associated with calcium chloride (CaCl2) on greater duckweed plants, emphasizing the implications of calcium in amelioration of DEP-induced stress on plant growth. Greater duckweed were treated with DEP in variable concentrations, as 0, 0.25, 0.5, 1.0 and 2.0 mM for 7 days, or treated with the same concentration either 2 mM DEP or 2 mM DEP plus 10 mM CaCl2‧2H2O in different duration 0-7 days. Treatment with 2 mM DEP resulted in increasing proline content, protease activity, and ammonia accumulation in duckweed tissues. NADH-glutamate dehydrogenase (NADH-GDH; EC 1.4.1.2) and 1-pyrroline-5-carboxylate reductase (P5CR; EC 1.5.1.2), two key enzymes in the glutamate pathway of proline synthesis, showed increase in activity with DEP treatment and positively correlated with proline accumulation. No further increase in proline accumulation was observed with addition of calcium chloride to the DEP-treated cultures. However, supplementation of Ca2+ can mitigate the adverse effect of DEP, at least in part to decrease the DEP-induced superoxide accumulation and increase in GDH activity for ammonia assimilation in duckweed fronds. In addition, effects of calcium on mitigation of DEP injury were also observed in glutamine synthetase (GS; EC 6.3.1.2) expression. Both GS1 and GS2 polypeptide accumulation and the level of total GS activity were nearly equivalent to the control. Exogenous proline protects GS2 from DEP-modulated redox damage in the chloroplast lysates but there is no remarkable protection effects on D1 (the 32 kDa protein in photosystem II reaction center) degradation. In conclusion, the glutamate pathway of proline synthesis might be involved in mitigation of DEP-induced injury, and calcium plays an important role in increasing GDH, P5CR, and GS expression.
關鍵字Diethyl phthalate, calcium chloride, glutamine synthetase, glutamate dehydrogenase, allelopathy, Spirodela polyrhiza
名稱Calcium-induced proline contributes to amelioration of NaCl injury and expression of glutamine synthetase in greater duckweed (Spirodela polyrhiza L.).
年度2013
類別期刊論文
摘要The calcium-mediated proline accumulation is a critical response under NaCl stress and the function of the induced proline as a glutamine synthetase (GS) protectant in greater duckweed was investigated. The plants were treated with solutions containing 100 mM NaCl, 200 mM NaCl, 200 mM NaCl plus 10 mM CaCl2, or 10 mM CaCl2 alone for 4 days. At the end of the experiment, the fronds of inoculum treated with 200 mM NaCl showed the chlorotic effect, higher glutamate dehydrogenase (NADH-GDH) activity and lower GS activity. At the lower salinity, the activities of GS and NADH-GDH were not altered markedly. A significant accumulation of proline was not found under either low or high salinity. The activity of 1-pyrroline-5-carboxylate reductase (P5CR) was enhanced only at 200 mM NaCl but remained unchanged at 100 mM NaCl. The activity of 1-pyrroline-5-carboxylate synthetase (P5CS) did not change under salinity-stressed. Addition of CaCl2 to the salt stressed plants not only lowered NaCl injury but also showed an elevated level of proline contents in response to the salinity treatment. In addition, both GS activity and corresponding polypeptides were expressed close to the level of control. Exogenous proline protects GS2 and the 32 kDa protein in photosystem II reaction center (D1) from H2O2-induced redox degradation in the chloroplast lysates of duckweed. The results suggest that calcium-induced proline may play an important role as a GS protectant under NaCl exposure in S. polyrhiza.
關鍵字glutamine synthetase, proline, NaCl, CaCl2, Spirodela polyrhiza
名稱Nitrogen-Cycling Microbial Community Functional Potential and Enzyme Activities in Cultured Biofilms with Response to Inorganic Nitrogen Availability
年度2018
類別期刊論文
摘要Biofilms mediate crucial biochemical processes in aquatic ecosystems. It was hypothesized that eutrophication may promote the growth of biofilms, resulting in larger numbers of functional genes. However, the metabolic activity and the roles of biofilms in N cycling will be affected by ambient inorganic nitrogen availability, not by the abundance of functional genes. Biofilms were cultured either with replete inorganic nitrogen (N-rep) or without exogenous inorganic nitrogen supply (N-def) in a flow incubator, and the N-cycling gene abundances (nifH, N2 fixation; amoA, ammonia oxidation, archaea and bacteria; nirS and nirK, denitrification) and enzyme activities (nitrogenase and nitrate reductase) were analyzed. The results showed that, comparing the N-def and N-rep biofilms, the former contained lower nifH gene abundance, but higher nitrogenase activity (NA), while the latter contained higher nifH gene abundance, but lower NA. Different patterns of NA diel variations corresponded to the dynamic microbial community composition and different stages of biofilm colonization. Ammonia oxidizing bacteria (AOB), detected only in N-def biofilms, were responsible for nitrification in biofilms. N-rep biofilms contained high nirS and nirK gene abundance and high denitrification enzyme activity, but N-def biofilms contained significantly lower denitrification gene abundance and activity. In general, the strong N2 fixation in N-def biofilms and strong denitrification in N-rep biofilms assured the balance of aquatic ecosystems. The results suggested that evaluation of the functional processes of N cycling should not only focus on genetic potential, but also on the physiological activity of biofilms.
關鍵字Cultured biofilms; Nitrogen availability; Nitrogen-cycling enzymes; Nitrogen cycling genes
名稱程台生、洪志嘉、陳麗珠(2006):國小學生家長對基因改造生物的認知及教學態度之研究。台灣基因意向之調查與研究學術研討會,台北:中研院人社中心、調查研究專題中心、台灣ELSI研究中心。Oral
年度2006
類別會議論文
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名稱Yi-Rong Pan, Tai-Sheng Cheng, and Zhen-YinGuo (2006): Effects of LED light radiation on Agrobacterium-mediated gene transfer of azuki bean hypocotyls, 2006 International Congress of Plan Tissue Culture & Biotechnology, August 13-18, Beijing, China.
年度2006
類別會議論文
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名稱王美嵐、陳佳慧、程台生(2006):國產大豆酒之抗氧化活性研究。台灣食品科學技術學會第36屆年會,基隆:國立海洋大學。
年度2006
類別會議論文
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名稱曾愛琳、程孝維、陳佳慧、程台生(2006):毛豆台南亞蔬2號抗氧化活性之研究。台灣食品科學技術學會第36屆年會,基隆:國立海洋大學。
年度2006
類別會議論文
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名稱潘怡蓉、郭貞吟、程台生(2006):照射LED燈對農桿菌轉殖紅豆之影響。台灣食品科學技術學會第36屆年會,基隆:國立海洋大學。
年度2006
類別會議論文
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名稱程台生、黃東賢、洪志嘉、陳麗珠(2006): 基因改造生物社會議題在國民小學課程改革與教學的應用。「社會變遷與課程改革」國際學術研討會,台北:國立臺灣師範大學教育學院。Oral
年度2006
類別會議論文
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名稱程台生、陳麗珠、連大進、吳昭慧(2007): 紅豆基因轉殖研究與教學應用。中正農業社會公益基金會94年度成果報告,台中:國立中興大學。受邀演講
年度2007
類別會議論文
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名稱王耀德、葉淳方、程台生、彭國證(2007):真菌Trichoderma harzianum之Xylanase純化與分析研究。台灣食品科學技術學會第37屆年會,員林:私立大葉大學。
年度2007
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名稱郭貞吟、王姿文、程台生(2008):紅豆基因轉殖研究。中華農藝學會,台北:國立臺灣大學。
年度2008
類別會議論文
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名稱程台生、陳麗珠、連大進、吳昭慧、彭國証(2009)紅豆分子農場在蛋白質或工業酵素產製的應用 98年農業科技研究計畫成果研討會 中正基金會、中興大學園藝系、台中。受邀演講
年度2009
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名稱張英華、程彥霏、謝桂鈺、葉淳方、程台生(2009)利用菸草生產Trichoderma harzianum ETS323木聚醣水解酵素。中國化學學會2009年會,高雄:私立義守大學。
年度2009
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名稱許尊傑、葉淳方、程台生(2009) Trichoderma harzianum Xyn II基因在大腸桿菌表現之探討。中國學學會2009年會,高雄:私立義守大學。
年度2009
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名稱張英嬅、黃伯銓、鄭楷騰、林彥妤、程台生 (2010) 大萍於鹽逆境的生理調適作用。2010年動物行為、生態暨環境教育研討會,台南:國立台南大學。
年度2010
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名稱張英嬅、鄭楷騰、黃伯銓、林彥妤、程台生 (2011) Oxidative stress in greater duckweed (Spirodela polyrhiza) caused by long-term NaCl exposure。臺灣農藝學會100年年會,屏東:國立屏東科技大學。Poster
年度2010
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名稱程台生、葉淳方、邱名禪、吳昭慧、陳麗珠(2011)應用RNAi技術調控大豆BBI含量對提升國產大豆利用價值之研究。100年農業科技研究計畫成果研討會,中正基金會、中興大學園藝系、台中。受邀演講
年度2011
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名稱陳麗珠、程台生 (2011) 大學生於英語講授分子生物學課程中基本能力培養的自覺。第二屆海峽兩岸植物生理與分子生物學教學和科研工作會議,哈爾濱:中國植物生理與植物分子生物學學會、東北農業大學。受邀演講
年度2011
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名稱Lee-Ju Cheng and Tai-sheng Cheng (2011) The hormetric effect of diethyl phthalate on the activity of antioxidative enzymes in greater duckweed (Spirodela polyrhiza)。第二屆海峽兩岸植物生理與分子生物學教學和科研工作會議,哈爾濱:中國植物生理與植物分子生物學學會、東北農業大學。受邀演講
年度2011
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名稱Lee-Ju Cheng, In-Hwa Chang, Kai-Teng Cheng, Po-Chuan Huang, Yen-Yu Lin, and Tai-Sheng Cheng (2011) Oxidative stress in greater duckweed (Spirodela polyrhiza) caused by long-term NaCl exposure. The 6th World Congress of Allelopathy, Dec. 15-19, Guangzhou, China. Poster
年度2011
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名稱Lee-Ju Cheng and Tai-Sheng Cheng (2011) Diethyl phthalate induced oxidative stress and changes in antioxidant enzyme activities in greater duckweed. The 6th World Congress of Allelopathy, Dec. 15-19, Guangzhou, China. Oral
年度2011
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名稱林彥妤、程台生(2012):青萍在低濃度鄰苯二甲酸二乙酯處理之下所造成的氧化傷害和生理調節作用。Poster,臺灣農藝學會101年年會,April 26,台北:國立台灣大學。
年度2012
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名稱程台生、鄭楷騰、陳麗珠(2012):Specific roles of glutamine synthetase isoenzymes in greater duckweed (Spirodela polyrhiza L.) grown under diethyl phthalate induced- stress. Poster,臺灣農藝學會101年年會,April 26,台北:國立台灣大學。
年度2012
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名稱洪孟如、鄭晏宜、陳麗珠、程台生2012. Effect of 24-epibrassinolide on oxidative responses induced by diethyl phthalate in Vigna radiate L. Poster,2012 Symposium on Innovative Plant Sciences,中華植物學會,Dec. 22-23,台北:中央研究院。
年度2012
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名稱Cheng, T.-S., 2012. The toxic effects of diethyl phthalate on the activity of glutamine synthetase. Poster,2012 Symposium on Innovative Plant Sciences,中華植物學會,Dec. 22-23,台北:中央研究院。
年度2012
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名稱陳麗珠、程台生(2013):分子生物學課程實施多元教學與學生基本能力培養初探。受邀演講,第三屆海峽兩岸植物生理與分子生物學教學和科研工作會議,April 10-15,廣州:中國植物生理與植物分子生物學學會、華南師範大學。
年度2012
類別會議論文
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名稱陳麗珠、洪孟如、鄭晏宜、程台生(2013):探討24-epibrassinolide (EBR)在鄰苯二甲酸二乙酯(diethyl- phthalate)所誘導的氧化逆境下對綠豆(Vigna radiate L.)生長的影響。Poster,臺灣農藝學會102年年會,April 25,台中:國立中興大學。
年度2013
類別會議論文
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名稱陳麗珠、洪孟如、程台生(2013):鈣誘導鹽逆境下水萍(Spirodela polyrhiza)脯胺酸累積與減輕鹽害及增加穀氨醯胺合成酶活性之研究。Poster,臺灣農藝學會102年年會,April 25,台中:國立中興大學。
年度2013
類別會議論文
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名稱Cheng L.-J., Hung, M.-J., Cheng Y.-I., Cheng T.-S., 2013. Effect of 24-epibrassinolide on oxidative responses induced by diethyl phthalate in Vigna radiate L. Poster, 2013 International Symposium on Agricultural Biotechnology: Emerging Topics on Plant Stress Biology, May 24-25, Academia Sinica, Taipei, ROC.
年度2013
類別會議論文
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名稱Cheng L.-J., Hung, M.-J., Cheng Y.-I., Cheng T.-S., 2013. Proline induction by calcium treatment contributes to amelioration of NaCl injury and activation of glutamine synthetase in greater duckweed (Spirodela polyrhiza). Poster, 2013 International Symposium on Agricultural Biotechnology: Emerging Topics on Plant Stress Biology, May 24-25, Academia Sinica, Taipei, ROC.
年度2013
類別會議論文
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名稱Cheng L.-J., Hung, M.-J., Cheng Y.-I., Cheng T.-S., 2013. Calcium-mediated responses and glutamine synthetase expression in greater duckweed (Spirodela polyrhiza L.) under diethyl phthalate-induced stress. Poster, 2013 Plant Biology, American Society of Plant Biologists, July 20-24, Providence, RI, USA.
年度2013
類別會議論文
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名稱GMO本位課程活動設計與實施,自然與生活科技學習領域假日教師專業成長營成果報告
年度2006
類別研究計畫成果報告
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