Analysis of expressed sequence tags from a normalized cDNA library of perilla (Perilla frutescens)

详细信息    查看全文

• 作者：Sang-Choon Lee (1)
  Junki Lee (1)
  Nam-Hoon Kim (1)
  Jee Young Park (1)
  Hyun Uk Kim (2)
  Hyun Oh Lee (1)
  Beom-Soon Choi (3)
  Kyunghee Kim (1) (3)
  Jonghoon Lee (1)
  Myoung-Hee Lee (4)
  Kalaiselvi Senthil (5)
  Xu Jiang (6)
  Chao Sun (6)
  Tae-Ho Kim (7)
  Tae-Jin Yang (1)
  
• 关键词：cDNA library ; Expressed sequence tag ; Fatty acid desaturase ; Perilla
• 刊名：Journal of Plant Biology
• 出版年：2014
• 出版时间：October 2014
• 年：2014
• 卷：57
• 期：5
• 页码：312-320
• 全文大小：447 KB
• 参考文献：1. Altschul SF, Gish W, Miller W, Myers EW, Lipman DJ (1990) Basic local alignment search tool. J Mol Biol 215:403鈥?10 CrossRef
  2. Asif M (2011) Health effects of omega-3,6,9 fatty acids: / Perilla frutescens is a good example of plant oils. Orient Pharm Exp Med 11:51鈥?9 CrossRef
  3. Bedigian D, Seigler DS, Harlan JR (1985) Sesamin, sesamolin and the origin of sesame. Biochem Syst Ecol 13:133鈥?39 CrossRef
  4. Chung CH, Kim JL, Lee YC, Choi YL (1999) Cloning and characterization of a seed-specific omega-3 fatty acid desaturase cDNA from / Perilla frutescens. Plant Cell Physiol 40:114鈥?18 CrossRef
  5. Conesa A, G枚tz S, Garc铆a-G贸mez JM, Terol J, Tal贸n M, Robles M (2005) Blast2GO: a universal tool for annotation, visualization and analysis in functional genomics research. Bioinformatics 21:3674鈥?676 CrossRef
  6. Deng YM, Xie QM, Zhang SJ, Yao HY, Zhang H (2007) Antiasthmatic effects of perilla seed oil in the guinea pig / in vitro and / in vivo. Planta Med 73:53鈥?8. CrossRef
  7. Diao Y, Miao Y, Lin X, Liao C, Guo F, Hu Z (2009) Comparative analysis of five varieties in / Perilla frutescens (L.) Britton by 45S rDNA FISH and 5S rDNA sequences. Genetika 45:506鈥?10
  8. Feng LJ, Yu CH, Ying KJ, Hua J, Dai XY (2011) Hypolipidemic and antioxidant effects of total flavonoids of / Perilla frutescens leaves in hyperlipidenia rat induced by high-fat diet. Food Research International 44:404鈥?09 CrossRef
  9. Gwak YH, Kwon JK, Kim SD, Kim HK, Park CB, Bae SB, Bae SD, Oh KO, Yun ES, Lee DC, Lee MH, Jeong CS, Choi YH, Hong YK (2003) Dlggae. Yeongnam Agricultural Research Institute, National Institute of Crop Science (NICS), Rural Development Administration, Republic of Korea
  10. Ha TH, Lee JH, Lee MH, Lee BW, Kwon HS, Park CH, Shim KB, Kim HT, Baek IY, Jang DS (2012) Isolation and identification of phenolic compounds from the seeds of / Perilla frutescens (L.) and their inhibitory activities against a-glucosidase and aldose reductase. Food Chemistry 135:1317鈥?403 CrossRef
  11. Hwang SK, Hwang YS (2000) Molecular cloning and functional expression of / Perilla frutescens 3-ketoacyl-(acyl carrier protein) synthase III. Mol Cells 10:375鈥?81
  12. Hwang SK, Kim KH, Hwang YS (2000) Molecular cloning and expression analysis of 3-ketoacyl-ACP synthases in the immature seeds of / Perilla frutescens. Mol Cells 10:533鈥?39 CrossRef
  13. Ichihara K, Suda Y (2003) Lipid biosynthesis in developing perilla seeds. Phytochemistry 63:139鈥?43 CrossRef
  14. Igarashi M, Miyazaki Y (2013) A review on bioactivities of perilla: progress in research on the functions of perilla as medicine and food. Evidence-based complementary and alternative medicine. 2013:Article ID 925342http://dx.doi.org/10.1155/2013/925342
  15. Jun HI, Kim BT, Song GS, Kim YS (2014) Structural characterization of phenolic antioxidants from purple perilla ( / Perilla frutescens var. acuta) leaves. Food Chemistry 148:367鈥?72 CrossRef
  16. Kang R, Helms R, Stout MJ, Jaber H, Chen Z, Nakatsu T (1992) Antimicrobial activity of the volatile constituents of / Perilla frutescens and its sysnergistic effects with polygodial. J Agric Food Chem 40:2326鈥?330 CrossRef
  17. Ke T, Dong C, Mao H, Zhao Y, Chen H, Liu H, Dong X, Tong C, Liu S. (2011) Analysis of expression sequence tags from a fulllength- enriched cDNA library of developing sesame seeds ( / Sesamum indicum). BMC Plant Biol 11:180 CrossRef
  18. Kitada C, Gong Z, Tanaka Y, Yamazaki M, Saito K (2001) Differential expression of two cytochrome P450s involved in the biosynthesis of flavones and anthocyanins in chemo-varietal forms of / Perilla frutescens. Plant Cell Physiol 42:1338鈥?344 CrossRef
  19. Lee JK, Nitta M, Kim NS, Park CH, Yoon KM, Shin YB, Ohnishi O (2002) Genetic diversity of perilla and related weedy types in Korea determined by AFLP analyses. Crop Sci 42:2161鈥?166 CrossRef
  20. Lee JK, Ohnishi O (2001) Geographic differentiation of morphological characters among perilla crops and their weedy types in East Asia. Breed Sci 51:247鈥?55 CrossRef
  21. Lee JK, Ohnishi O (2003) Genetic relationships among cultivated types of / Perilla frutescens and their weedy types in East Asia revealed by AFLP markers. Genet Resour Crop Evol 50:65鈥?4 CrossRef
  22. Li-Beisson Y, Shorrosh B, Beisson F, Andersson MX, Arondel V, Bates PD, Baud S, Bird D, Debono A, Durrett TP, Franke RB, Graham IA, Katayama K, Kelly AA, Larson T, Markham JE, Miquel M, Molina I, Nishida I, Rowland O, Samuels L, Schmid KM, Wada H, Welti R, Xu C, Zallot R, Ohlrogge J (2013) Acyllipid metabolism. Arabidopsis Book. 11:e0161 CrossRef
  23. Lin ES, Chou HJ, Kuo PL, Huang YC (2010) Antioxidant and antiproliferative activities of methanolic extracts of / Perilla frutescens. Journal of Medicinal Plants Research 46:477鈥?83
  24. Los DM, Murata N (1998) Structure and expression of fatty acid desaturases. Biochim Biophys Acta 1394:3鈥?5 CrossRef
  25. Makino T (1961) Makino鈥檚 new illustrated flora of Japan. Hokuryukan, Tokyo (in Japanese)
  26. Makino T, Furuta Y, Wakushima H, Fujii H, Saito K, Kano Y (2003) Anti-allergic effect of / Perilla frutescens its active constituent. Phytother Res 17:240鈥?43 CrossRef
  27. Mau CJ, Karp F, Ito M, Honda G, Croteau RB (2010) A candidate cDNA clone for (-)-limonene-7-hydroxylase from / Perilla frutescens. Phytochemistry 71:373鈥?79 CrossRef
  28. Meng L, Loazno YF, Gaydou EM, Li B (2009) Antioxidant activities of polyphenols extracted from / Perilla frutescens varieties. Molecules 14:133鈥?40 CrossRef
  29. Nam SH, Kim DW, Jung TS, Choi YS, Kim DW, Choi HS, Choi SH, Park HS (2009) PESTAS: a web server for EST analysis and sequence mining. Bioinformatics 25:1846鈥?848 CrossRef
  30. Nitta M (2001) Origin of Perilla crops and their weedy type. Ph.D. Thesis, Kyoto University, Kyoto
  31. Nitta M, Ohnishi O (1999) Genetic relationships among two Perilla crops, shiso and egoma, and the weedy type revealed by RAPD markers. Jpn J Genet 74:43鈥?8
  32. Oh JH, Sohn HY, Kim JM, Kim YS, Kim NS (2004) Construction of multi-purpose vectors, pCNS and pCNS-D2, are suitable for collection and functional study of large-scale cDNAs. Plasmid 51:217鈥?26 CrossRef
  33. Ohlrogge J, Browse J (1995) Lipid biosynthesis. Plant Cell 7:957鈥?70 CrossRef
  34. Onogi N, Okuno M, Komaki C, Moriwaki H, Kawamori T, Tanaka T, Mori H, Muto T (1996) Suppressing effect of perilla oil on azoxymethane-induced foci of colonic aberrant crypts in rats. Carcinogenesis 17:1291鈥?296 CrossRef
  35. Rudd S (2003) Expressed sequence tags: alternative or complement to whole genome sequences? Trends Plant Sci 8:321鈥?29 CrossRef
  36. Sadi AM, Toda T, Oku H, Hokama S (1996) Dietary effects of corn oil, oleic acid, Perilla oil, and primrose oil on plasma and hepatic lipid level and atherosclerosis in Japanese quail. Exp Anim 45:55鈥?2 CrossRef
  37. Saita E, Kishimoto Y, Tani M, Iizuka M, Toyozaki M, Sugihara N, Kondo K (2012) Antioxidant activities of / Perilla frutescens against low-density lipoprotein oxidation in vitro and inhuman subjects. J Oleo Sci 61:113鈥?20 CrossRef
  38. Seo PJ, Lee SB, Suh MC, Park MJ, Go YS, Park CM (2011). The MYB96 transcription factor regulates cuticular wax biosynthesis under drought conditions in Arabidopsis. Plant Cell 23:1138鈥?152 CrossRef
  39. Sompornpailin K, Makita Y, Yamazaki M, Saito K (2002) A WDrepeat-containing putative regulatory protein in anthocyanin biosynthesis in / Perilla frutescens. Plant Mol Biol 50:485鈥?95 CrossRef
  40. Upchurch RG (2008) Fatty acid unsaturation, mobilization, and regulation in the response of plants to stress. Biotechnol Lett 30:967鈥?77 CrossRef
  41. Varshney RK, Nayak SN, May GD, Jackson SA (2009) Next-generation sequencing technologies and their implications for crop genetics and breeding. Trends Biotechnol 27:522鈥?30 CrossRef
  42. Yamazaki M, Saito K (2006) Isolation and characterization of anthocyanin 5-O-glucosyltransferase in / Perilla frutescens var. crispa by differential display. Methods Mol Biol 317:255鈥?66
  43. Yamazaki M, Saito K (2011) Molecular genetic study on the anthocyanin chemotypes of / Perilla frutescens var. crispa. Nat Prod Commun 6:423鈥?27
  44. Yamazaki M, Yamagishi E, Gong Z, Fukuchi-Mizutani M, Fukui Y, Tanaka Y, Kusumi T, Yamaguchi M, Saito K (2002) Two flavonoid glucosyltransferases from Petunia hybrida: molecular cloning, biochemical properties and developmentally regulated expression. Plant Mol Biol4 8:401鈥?11 CrossRef
  45. Yonekura-Sakakibara K, Tanaka Y, Fukuchi-Mizutani M, Fujiwara H, Fukui Y, Ashikari T, Murakami Y, Yamaguchi M, Kusumi T (2000) Molecular and biochemical characterization of a novel hydroxycinnamoyl-CoA: anthocyanin 3-O-glucoside-6鈥?Oacyltransferase from / Perilla frutescens. Plant Cell Physiol 41:495鈥?02 CrossRef
  46. Yu HC, Kosuna K, Haga M (2004) Perilla: The Genus Perilla. Taylor & Francis 11 New Fetter Lane, London
  47. Wang L, Yu S, Tong C, Zhao Y, Liu Y, Song C, Zhang Y, Zhang X, Wang Y, Hua W, Li D, Li D, Li F, Yu J, Xu C, Han X, Huang S, Tai S, Wang J, Xu X, Li Y, Liu S, Varshney RK, Wang J, Zhang X (2014) Genome sequencing of the high oil crop sesame provides insight into oil biosynthesis. Genome Biol 15:R39 CrossRef
  48. Zhang T, Li L, Hu F, Zhao X, Fu B, Yang D (2012) Analysis of ESTs from a normalized cDNA library of the rhizome tip of / Oryza longistaminata. J Plant Biol 55:33鈥?2 CrossRef
  
• 作者单位：Sang-Choon Lee (1)
  Junki Lee (1)
  Nam-Hoon Kim (1)
  Jee Young Park (1)
  Hyun Uk Kim (2)
  Hyun Oh Lee (1)
  Beom-Soon Choi (3)
  Kyunghee Kim (1) (3)
  Jonghoon Lee (1)
  Myoung-Hee Lee (4)
  Kalaiselvi Senthil (5)
  Xu Jiang (6)
  Chao Sun (6)
  Tae-Ho Kim (7)
  Tae-Jin Yang (1)
  
  1. Department of Plant Science, Plant Genomics and Breeding Institute, and Research Institute for Agriculture and Life Sciences, College of Agriculture and Life Sciences, Seoul National University, Seoul, 151-921, Korea
  2. Department of Agricultural Biotechnology, National Academy of Agricultural Science, Rural Development Administration, Suwon, 441-707, Korea
  3. Phyzen Genomics Institute, 501-1, Gwanak Century Tower, Kwanak-gu, Seoul, 151-836, Korea
  4. Department of Functional Crop, National Institute of Crop Science, Rural Development Administration, Miryang, 627-803, Korea
  5. Department of Biochemistry, Biotechnology and Bioinformatics, Avinashilingam University for Women, Coimbatore, 641043, India
  6. Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College, Beijing, 100193, China
  7. Genomics Division, National Academy of Agricultural Science, Rural Development Administration, Suwon, 441-707, Korea
  
• ISSN：1867-0725

文摘

Perilla (Perilla frutescens), an herbal plant belonging to the Lamiaceae family, has long been cultivated in Asia. Perilla is notable as an aroma-rich leaf vegetable and as the oilseed crop richest in omega-3 fatty acids. However, molecular analysis of this herbal plant is lacking due to insufficient genetic resources. Here, we constructed a normalized cDNA library from whole young perilla plants and analyzed expressed sequence tags (ESTs). A total of 4,582 uniESTs were generated from analysis of 5,435 ESTs. Among these, 307 uniESTs (6.7%) were identified as unique in perilla and 3,625 uniESTs were assigned at least one GO term through similarity searches in public databases. The most frequent GO terms were related to abiotic and biotic stress responses. In addition, we identified 141 uniESTs involved in lipid metabolism, of which four genes encoded fatty acid desaturases. We found one new candidate omega-3 fatty acid desaturase gene, in addition to the four that were previously reported. This analysis of uniESTs from perilla provides a valuable genetic resource to elucidate the molecular underpinnings of lipid metabolism and for molecular breeding of perilla species.