高粱穀粒品質與澱粉生合成SSIIa、Wx、Ae1基因之關聯分析

Sih-Pei Wu; 吳思佩

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/65152

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	徐源泰
dc.contributor.author	Sih-Pei Wu	en
dc.contributor.author	吳思佩	zh_TW
dc.date.accessioned	2021-06-16T23:27:23Z	-
dc.date.available	2017-08-10
dc.date.copyright	2012-08-10
dc.date.issued	2012
dc.date.submitted	2012-07-30
dc.identifier.citation	中國國家標準(1995) CNS13498, N4164 穀類檢驗法－千粒重. 中國國家標準(1979) CNS5036, N6117 食品中粗脂訪之檢驗方法. 田曉紅、譚斌、譚洪卓、劉明、劉艷香. 2009. 我國主產區高粱的理化性質分析. 糧食與飼料工業. 4: 10-13. 宋文杰、黃靖淑、王柏森. 2004. 添加高粱穀粉之麻糬研究. 嘉南學報. 30: 42-52. 唐玉明. 2000. 高粱籽粒的釀酒品質研究. 釀酒. 4: 45-47. 張力田. 2001. 澱粉的糊化和澱粉糊. 澱粉與澱粉糖. 3: 1-3. 張隆仁、李台強. 1996. 高粱子實單寧含量分析法之比較及差異與分佈之探討. 臺中區農業改良場研究彙報. 51: 21-29. 劉曉輝、高士杰、李繼洪. 2007. 澱粉高粱雜交種吉雜97選育報告. 吉林農業科學.1:10-11. Agrama, H. A., G. C. Eizenga and W. Yan. 2007. Association mapping of yield and its components in rice cultivars. Mol Breeding. 19:341-356. Andersen, J.R., T. Schrag, A. E. Melchinger, I. Zein and T. Lubberstedt. 2005. Validation of Dwarf8 polymorphisms associated with flowering time in elite European inbred lines of maize (Zea mays L.). Theor Appl Genet. 2: 206-217. Aranzana, M. J., S. Kim, K. Zhao, E. Bakker, M. Horton, K. Jakob, C. Lister, J. Molitor, C. Shindo, C. Tang, C. Toomajian, B. Traw, H. Zheng, J. Bergelson, C. Dean, P. Marjoram and M. Nordborg. 2005.Genome-Wide Association Mapping in Arabidopsis Identifies Previously Known Flowering Time and Pathogen Resistance Genes. Plos Genetics. 5: 531-539. Awika, J. M. and L. W. Rooney. 2004. Sorghum phytochemicals and their potential aspects on human health. Phytochemistry. 65: 1199-1221. Bao, J. S., H. Corkr and M. sun. 2006. Nucleotide diversity in starch synthase IIa and validation of single nucleotide polymorphisms in relation to starch gelatinization temperature and other physicochemical properties in rice (Oryza sativa L.). Theor Appl Genet. 113: 1171-1183. Belo, A., P. Zheng, S. Luck, B. Shen, D. J. Meyer, B. Li, S. Tingey and A. Rafalski. 2005. Whole genome scan detects an allelic variant of fad2 associated with increased oleic acid levels in maize. Mol Genet Genomics. 279: 1-10. Beta, T., H. Corke, L. W. Roonry and J. R. Taylor. 2000. Starch properties as affected by sorghum grain chemistry. J Sci Food Agric. 81: 245-251. Borovsky, D., E. E. Smith and W. J. Whelan. 1976. On the mechanism of amylase branching by potato Q-enzyme. Eur J Biochem. 62: 307-312. Breseghello, F. and M. Sorrells. 2006. Association mapping of kernel size and milling quality in wheat (Triticum aestivum L.) cultivars. Genetics. 172: 1165-1177. Cao, H., J. Imparl-Radosevich, H. Guan, P. L. Keeling, M. G. James and A. M. Myers. 1999. Identiﬁcation of the soluble starch synthase activities of maize endosperm. Plant Physiol. 120: 205–216. Cao, H., M. G. James, A. M. Myers. 2000. Puriﬁcation and characterization of soluble starch synthases from maize endosperm. Arch Biochem Biophys. 373: 135-146. Chen, P., L. Yu, G. Simon, E. Petinakis, K. Dean and L. Chen. 2009. Morphologies and microstructures of cornstarches with different amylose–amylopectin ratios studied by confocal laser scanning microscope. J Cereal Sci. 50: 241-247. Chen, Z. H. A. Schols and A. G. J. Voragen. 2003. Physicochemical properties of starches obtained from three varieties of chinese sweet potatoes. 68: 431-437. Cheng, Q. J., F. Y. Zhang, W. J. Zhao, Y. H. Chang, C. H. Tian, H. Y. Gao, P. Gao and G. X. Zhang. 2010. Screening and utilization of high starch content sorghum. Chinese Agricultural Science Bulletin. 11: 103-106. Chi, X. F., D. X. Wu, X. Y. Lou, Y. W. Xia and Q. Y. Shu. 2003. Comparative studies on the starch gelatinization characteristics of five cereal crops. Acta Agronomica Sinica. 29: 300-304. Corder, E. H., A. M. Saunders, N. J. Risch, W. J. Strittmatter, D. E. Schmechel, P. C. Gaskell Jr, J. B. Rimmler, P. A. Locke, P. M. Conneally, K. E. Schmader, G. W. Small, A. D. Roses, J. L. Haines and M. A. Pericakk-Vance. 1994. Protective effect of apolipoprotein E type 2 allele for late onset Alzheimer disease. Nature Genetics. 7: 180-184. de Alencar Figueiredo, L. F., B. Sine, J. Chantereau, C. Mestres, G. Fliedel, J. F. Rami, J. C. Glaszmann, M. Deu and B. Courtois. 2010. Variability of grain quality in sorghum: association with polymorphism in Sh2, Bt2, SssI, Ae1, Wx and O2. Theor Appl Genet. 121: 1171-1185. Denyer, K., P. Johnson, S. Zeeman and A.M. Smith. 2001. The control of amylose synthesis. Journal of Plant Physiology. 158: 479–487. Desjardins, P. and D. Conklin. 2010. Nanodrop microvolume quantitation of nucleic acids. Journal of Visualized Experiments. 45: 1-4. D’hoop, B. B., M. J. Paulo, R. A. Mank, H. J. van Eck and F. A. van Euwijk. 2008. Association mapping of quality traits in potato (Solanum tuberosum L.). Euphytica. 161: 47-60. Dicko, M. H., H. Gruppen, A. S. Traore, A. G. J. Voragen and W. J. H. Berkel. 2006. Sorghum grain as human food in africa:relevance of starch content and amylase activities. African Journal of Biotechnology. 5: 384-395. Doane, W. M. 1994. Opportunities and challenges for new industrial uses of starch. Cereal Foods World. 39:556-563. Dong, H. Y., X. D. Xu, Y. Jiang, L. J. Wang and X. G. Yang. 2007. Enhancement and utilization of glutinous sorghum germplasm. Journal of plant genetic resources. 3: 321-324. Ehrenreich, I. M., Y. Hanzawa, L. Chou, J. L. Roe, P. X. Kover and M. D. Purugganan. 2009. Candidate gene association mapping of arabidopsis flowering time. Genetics. 183: 325-335. Eizenga, G. C., H. A. Agrama, F. N. Lee, W. Yan and Y. Jia. 2006. Identifying novel resistance genes in newly introduced blast resistant rice germplasm. Crop Science. 46: 1870-1878. Emes, M.J., C.G. Bowsher, C. Hedley, M.M. Burrell, E.S.F. Scrase-Field and I.J. Tetlow. 2003. Starch synthesis and carbon partitioning in developing endosperm. J Exp Bot. 54: 569–575. Evers, T. and S. Millart. 2001. Cereal grain structure and development: some implications for quality. J Cereal Sci. 36: 261-284. Food and Agricultural Organization. 1995. Sorghum and millet in human nutrition. FAO Food and Nutrition Series No. 27. ISBN 92-5-103381-1. French, D. 1984. Organisation of starch granules. In: Whistler, R. L., J. N. BeMiller, E. F. Paschall(Eds.) Starch: Chemistry and Technology. Academic Press. Orlando. 183 –247. Fu, H. B., Y. L. Shi and K. Teng. 2009. Discussion on raw materials and there testing and liquor-making. Liquor-making science and technology. 1: 92-95. Gupta, P. K., S. Rustgi and P. L. Kulwal. 2005. Linkage disequilibrium and association studies in higher plants: Present status and future prospects. Plant Mol Biol. 57: 461-485. Hall, T. A. 1999. BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT. Nucl Acids Symp Ser. 41: 95-98. Hamblin, M. T., S. Fernandez, G. Maria, M. R. Tuinstra, W. L. Rooney and S. Kresovich. 2007. Sequence variation at candidate loci in the starch metabolism pathway in sorghum: prospects for linkage disequilibrium mapping. Crop Sci. 47: 125-134. Harn, C., M. Knight, A. Ramakrishnan, H. Guan, P. L. Keeling and B. P. Wasserman. 1998. Isolation and characterization of the zSSIIa and zSSIIb starch synthase cDNA clones from maize endosperm. Plant Molecular Biology. 37: 639-649. Hickey, F. D. 1966. Method of processing cereal grain. United States Patent Office. Patent No. 3,342,607. Hii, H., L. S. Lee and R. J. Henry. 2012. Variation in sorghum starch synthesis genes associated with differences in starch phenotype. Food Chemistry. 131: 175-183. James, M. G., K. Denyer and A. M. Myers. 2003. Starch synthesis in the cereal endosperm. Curr opin plant biol. 6: 215-222. Jia, J. Z. and Y. Li. 2004. Plant gonemics and gene discovery in germplasm resources. Scientia Agriultura Sinica. 11: 1585-1592. Jin, L. and J. Bao. 2009. Progress on the trait-marker association anylysis in plants. Molecular Plant Breeding. 7: 1048-1063. Jing, H. C., D. Kornyukhin, K. Kanyuka, S. Orford, A. Zlatska, O. P. Mitrofanova, R. Kennedy, J. F. and V. M. Cabalda. 1991. Bioactive carbohydrates in food. Chemistry in Britain. 101:1017-1026. Koebner and K. H. Kosack. Identiﬁcation of variation in adaptively important traits and genome-wide analysis of trait–marker associations in Triticum monococcum. J Exp Bot. 58: 3749-3764. Kraakman, A. T. W., R. E. Niks, P. M. Van den Berg, P. Stam and F. A. Van Eeuwijk. 2004. Linkage disequilibrium mapping of yield and yield stability in modern spring barley cultivars. Genetics. 168:435-446. Liang, L. S., J. Xu, G. X. Wang and H. L. Ma. 2009. Relationship between starch pasting, amylose content and starch granule size in different chinese chestnut variety groups. Scientia Agricultura Sinica. 42: 251-260. Martin, C. and A. M. Smith. 1995. Starch biosynthesis. The Plant Cell. 7: 971-985. Martin, L., S. V. Scotoc and L .G. Butler. 1978. A critical evaluation of the vanillin reaction as an assay for tannin in sorghum grain. J Agric Food Chem. 26: 1214-1218. Mazzucato, A., R. Papa, E. Bitocchi, P. Mosconi, L. Nanni, V. Negri, M. E. Picarella, F. Siligato, G. P. Soressi, B. Tiranti and F. Veronesi. 2008. Genetic diversity, structure and marker-trait associations in a collection of Italian tomato (Solanum lycopersicum L.) landraces.Theor Appl Genet. 116: 657-669. Mclntyre, C. L., J. Drenth, N. Gonzalez, R. G. Henzell and D. R. Jordan. 2008. Molecular characterization of the waxy locus in sorghum. Genome. 51: 524-533. Morell, M. K., S. Rahman, S. L. Abrahams and R. Appels. 1995. The Biochemistry and Molecular Biology of Starch Synthesis in Cereals. Aust J Plant Physiol. 22:647-660. Morell, M. K., B. K. Hachemi, M. Cmiel, M. S. Samuel, P. Chandler, S. Rahman, A. Buleon, I. L. Batey and Z. Li. 2003. Barley sex6 mutants lack starch synthase IIa activity and contain a starch with novel properties. The Plant Journal. 34: 173-185. Mutisya, J., P. Sathish, C. Sun, L. Andersson, S. Ahlandsberg, Y. Baguma, S. Palmqvist, B. Odhiambo, P. Aman and C. Jansson. 2003. Starch branching enzymes in sorghum (Sorghum bicolor) and barley (Hordeum vulgare): Comparative analyses of enzyme structure and gene expression. J Plant Physiol. 160: 921-930. Myles, S., J. Peiffer, P. J. Brown, E. S. Ersoz, Z. Zhang, D. E. Costich and E. S. Buckler. 2009. Association mapping: Critical considerations shift from genotyping to experimental design. The Plant Cell. 21: 2194-2202. Nielsen, S. S. 2003. Crude Fat Analysis. Food analysis. p113-128. New York: Kluwer Academic. Palaisa，K. A., M. Morgante, M. Williams and A. Rafalski. 2003. Contrasting effects of selection on sequence diversity and linkage disequilibrium at two phytoene synthase loci. The Plant Cell. 15: 1795-1806. Pedersen, J. F., S. R. Bean, D. L. Funnell and R. A. Graybosch. 2004. Rapid iodine staining techniques for identifying the waxy phenotype in sorghum grain and waxy genotype in sorghum pollen. Crop Science. 44: 764-767. Rafalski, A. 2002. Applications of single nucleotide polymorphisms in crop genetics. 5: 94-100. Rooney, L.W. and J. M. Awika. 2005. Overview of products and health benefits of speciality sorghums. Cereal Foods World. 50: 109-115. Sang, Y., S. Bean, P. A. Seib, J. Pedersen and Y. C. Shi. 2008. Structure and functional properties of sorghum starches differing in amylose content. J Agric Food Chem. 56: 6690-6685. Singh, H., N. S. Sodhi and N. Singh. 2010. Characterisation of starches separated from sorghum cultivars grown in India. Food Chemistry. 119: 95-100. Takeda, Y. and S. Hizukuri. 1987. Structures of branched molecules of amyloses of various origins, and molar fractions of branched and unbranched molecules. Carbohydr Res. 165: 139-145. Tan, B. 2007. Properties of Grain Sorghum and its Prospects of Utilization in Food Industry. Cereal and Feed Industry. 7: 16-19. Taylor J. R. N., J. Dewar, J. Taylor and R. F. von Ascheraden. 1997. Factors affecting the porridge-making quality of sorghums South African. J Sci Food Agric. 73: 464-470. Taylor, J. R. N. and M. N. Emmambux. 2010. Development in our understanding of sorghum polysaccharides and their health benefits. Cereal Chem. 4: 263-271. Templeton, A. R. 1995. A cladistic analysis of phenotypic associations with haplotypes inferred from restriction endonuclease mapping or DNA sequencing. V. Analysis of case/control sampling designs: Alzheimer's disease and the apoprotein E locus. Genetics. 140: 403-409. Tester, R. F. and W. R. Morrison. 1990. Swelling and gelatinization of cereal starches. I. Effects of amylopectin, amylase, and lipids. Cereal Chemistry. 67: 551-557. Tester, R. F., J. Karkalas and X. Qi. 2004. Starch—Composition, ﬁne structure and architecture. J Cereal Sci. 39: 151–165 Thornsberry, J. M., M. M. Goodman, J. Doebley, S. Kresovich, D. Nielsen and E. B. Buckler IV. 2001. Dwarf8 polymorphisms associate with variation in ﬂowering time. Nature Genetics. 28: 286-289. Tsai, C. Y. 1970. Enzymes of carbohydrate metabolism in the developing endosperm of maize. Plant Physiol. 46: 299-306. Tsai, C. Y. 1974. The function of the waxy locus in starch synthesis in maize endosperm. Biochem Genet. 11: 83-96. Yu, C. H., D. G. Ma, S. H. Cheng, T. D. Bie, X. X. Zhang and R. L. Wu. 2010. Study on breeding wx wheat lines by rolling convergent backcross combined with pollen and endosperm staining with I2- KI solution. Journal of Triticeae Crops. 5: 835-841. Wang, R. H., T. Y. Wang and Y. Li. 2007. Application of association analysis in molecular evaluation of crop germplasm resources. Journal of Plant Genetic Resources. 3: 366-372 Water, D. L. E., R. J. Henry, R. F. Reinke and M. A. Fitzgerald. 2006. Gelatinization temperature of rice explained by polymorphisms in starch synthase. Plant Biotechnol J. 4: 115-122. Whitt, S.R., L. M. Wilson, M. I. Tenaillon, B. S. Gaut and E. S. Buckler IV. 2002. Genetic diversity and selection in the maize starch pathway. Proc Natl Acad Sci USA 99:12959–12962. Wilson, L. M., S. R. Whitt, A. M. Ibanez, T. R. Rocheford, M. M. Goodman and E. S. Buckler IV. 2004. Dissection of maize kernel composition and starch production by candidate gene association. Plant Cell. 16: 2719–2733 Wootton, M. and A. Bamunuarachchi. 1978. Water Binding capacity of commercial produced native and modified starches. Starch. 30: 306-309. Zeeman, S. C., J. KOssmann and A. M. Smith. 2010. Strach:Its metabolism, evolution, and biotechnological modification in plants. Annu Rev Plant Biol. 61: 209-34.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/65152	-
dc.description.abstract	高粱(Sorghum bicolor)穀粒富含澱粉，其澱粉品質為評斷高粱穀粒優劣的主要項目，澱粉品質進而影響營養價值與加工的應用性。本研究採用7個高粱品種，分析品種間澱粉相關性狀(澱粉與直鏈澱粉含量、千粒重、榖粒長、榖粒寬與澱粉糊化特性)差異性，並選定澱粉生合成路徑Soluble starch synthases (SSIIa)、Granule-bound starch synthase (Wx)與Starch branching enzyme (Ae1)三個候選基因，進行序列多型性的分析，最後以關聯分析(association analysis)方法尋找與表型具關聯性的等位基因。結果顯示SSIIa序列上具有9個多型性位點，而Wx 共具有7個多型性位點，其中一些位點與澱粉糊化特性有相關。Ae1增幅的兩片段上具有29個多型性位點。Ae1增幅片段的單一核苷酸多型性(single nucleotide polymorphisms, SNP)及插入與缺失(insertion and deletion, InDel)片段與澱粉糊化起始溫度(gelatinization temperature)相關，平均溫度相差9.4℃。在Ae1內插子區域的SNP與直鏈澱粉含量之含量具關聯性(p<0.05)，腺嘌呤鹼基 (adenine base)的缺失導致直鏈澱粉含量甚低。綜合實驗結果，序列多型性的鑑定可說明高粱澱粉相關特性的遺傳變異。	zh_TW
dc.description.abstract	Sorghum is rich in starch content, the starch quality contributes to its nutritional value and processing attributes tremendously. In this study, seven varieties of soghum were collected for analysis in their starch content, amylose content, pasting properties, thousand grain weight, and grain size. To identify the correlation of gene variation and the phenotype in starch content, genes including soluble starch synthases (SSIIa), granule-bound starch synthase (Wx) and starch branching enzyme (Ae1) were chosen for association analysis using statistical software. A total of 9 polymorphisms in SSIIa and 7 polymorphisms in Wx were identified, which were greatly associated with starch pasting properties. A total of 29 polymorphisms in two fragments of Ae1 were identified. Single nucleotide polymorphisms(SNP) and InDel in Ae1 were found associated with gelatinization temperature, which with a difference of 9.4℃ in gelatinization temperature. One SNP in non-coding region of Ae1 were found associated with amylase content (p<0.05), inferred deletion of a adenine base would cause a decrease in non-branching starch. The polymorphism we identified in this study may provide a genetic explanation to variation in sorghum starch properties.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T23:27:23Z (GMT). No. of bitstreams: 1 ntu-101-R99628214-1.pdf: 1647466 bytes, checksum: 940056dd7a10894a16f6005968bd5dee (MD5) Previous issue date: 2012	en
dc.description.tableofcontents	中文摘要 I Abstract II 目錄 III 圖目錄 VI 表目錄 VII 壹、前言 1 貳、文獻回顧 2 一、高粱之相關性質 2 (一) 高粱之介紹及現況 2 (二)高粱穀粒組成分 4 (三)高粱之應用 5 二、植物澱粉生合成 5 (一)植物澱粉 5 (二)澱粉生合成路徑 8 (三)澱粉生合成之相關酵素 9 三、關聯分析研究 12 (一)關聯分析的基本方法 13 (二)關聯分析的分析步驟 13 (三)植物關聯分析研究應用 13 (四)關聯分析應用之分子標誌 16 四、研究目的與實驗架構 16 參、材料與方法 18 一、高粱Wx, SssIIA, Ae1 基因序列分析 18 (一)試驗材料 18 (二)高粱Genomic DNA 萃取 19 (三) Genomic DNA 濃度測定 20 (四)聚合酶連鎖反應(PCR) 21 (五)瓊脂膠體電泳分析 21 (六) PCR產物純化與濃縮 26 (七) TA cloning 27 (八) Ligation 28 (十)定序與序列分析 29 (十一)聚類分析樹圖 29 二、高粱穀粒澱粉相關性狀之測定與評估 31 (一)碘染法糯性鑑定 31 (二)一般成分分析 31 1.水分 31 2.灰分 31 3.粗脂肪 32 (三)單寧含量 32 (四)高粱穀粒澱粉組成 33 1.總澱粉含量測定 33 2.直鏈澱粉含量測定 33 (五)高粱穀粒物理性狀測定 34 1.穀粒千粒重 34 2.穀粒長、寬 34 (六)高粱澱粉糊化性質檢測 34 (七)高粱澱粉物性分析 35 1. 澱粉萃取 35 2. 澱粉膨潤力(swelling power)、溶解度(solubility)與水結合力(water binding capacity) 35 (八)統計分析 36 四、高粱Wx、SssIIA、Ae1 基因序列與穀粒性狀之相關性分析 36 肆、結果與討論 37 一、高粱SSIIa 、Wx、Ae1 基因序列分析 37 (一) SSIIa序列多態性 37 (二) Wx序列多態性 38 (三) Ae1序列多態性 39 二、高粱穀粒澱粉相關性狀之測定與評估 53 (一)碘染法糯性鑒定 53 (二)一般成分分析 55 (三)單寧含量 56 (四)高粱穀粒澱粉組成 57 (五)高粱穀粒物理性狀 58 (六)高粱澱粉糊化性質 59 (七)高粱澱粉物性分析 62 三、高粱SSIIa、Wx、Ae1 基因序列與穀粒澱粉相關性狀之關聯性分析 71 伍、總結 75 陸、參考文獻 76 附錄一、高粱試樣SSIIa專一性引子對SSIIa8F/9R增幅片段之排序比對 85 附錄二、高粱試樣Waxy專一性引子對GBSS1F/1R增幅片段之排序比對 88 附錄三、高粱試樣Waxy專一性引子對GBSS9F/11R增幅片段之排序比對 91 附錄四、高粱試樣Ae1專一性引子對SBE1F/2R增幅片段之排序比對 93 附錄五、高粱試樣Ae1專一性引子對SBE9F/10R增幅片段之排序比對 95
dc.language.iso	zh-TW
dc.subject	糊化溫度	zh_TW
dc.subject	酸多型性	zh_TW
dc.subject	直鏈澱粉	zh_TW
dc.subject	關聯分析	zh_TW
dc.subject	單一核&#33527	zh_TW
dc.subject	高粱	zh_TW
dc.subject	sorghum	en
dc.subject	amylose	en
dc.subject	association study	en
dc.subject	single nucleotide polymorphism	en
dc.subject	gelatinization temperature	en
dc.title	高粱穀粒品質與澱粉生合成SSIIa、Wx、Ae1基因之關聯分析	zh_TW
dc.title	Association analysis of sorghum quality and their starch synthesis genes SSIIa、Wx、Ae1	en
dc.type	Thesis
dc.date.schoolyear	100-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	何國傑(Kuo-Chieh Ho),曾文聖
dc.subject.keyword	高粱,直鏈澱粉,關聯分析,單一核&#33527,酸多型性,糊化溫度,	zh_TW
dc.subject.keyword	sorghum,amylose,association study,single nucleotide polymorphism,gelatinization temperature,	en
dc.relation.page	100
dc.rights.note	有償授權
dc.date.accepted	2012-07-31
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	園藝學研究所	zh_TW
顯示於系所單位：	園藝暨景觀學系

文件中的檔案：

檔案	大小	格式
ntu-101-1.pdf 未授權公開取用	1.61 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。