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EST 分析和注释源自迷迭香毛状根 cDNA 文库的转录本。

EST analysis and annotation of transcripts derived from a trichome-specific cDNA library from Salvia fruticosa.

机构信息

Department of Pharmaceutical Sciences, Aristotle University of Thessaloniki, Thessaloniki, Greece.

出版信息

Plant Cell Rep. 2010 May;29(5):523-34. doi: 10.1007/s00299-010-0841-9. Epub 2010 Mar 24.

DOI:10.1007/s00299-010-0841-9
PMID:20333525
Abstract

Greek sage (Salvia fruticosa Mill., Syn. Salvia triloba L.) is appreciated for its essential oil which is used as an aromatic spice and active against a wide range of microorganisms and viruses. The essential oil is dominated by terpenoids and flavonoids which are produced and stored in glandular trichomes on the plant surface. The present study aims to give insights into the metabolic activities of S. fruticosa trichomes on a transcriptome level. A total of 2,304 clones were sequenced from a cDNA library from leaves' trichomes of S. fruticosa. Exclusion of sequences shorter than 100 bp resulted in 1,615 high-quality ESTs with a mean length of 592 bp. Cluster analysis indicated the presence of 197 contigs (908 clones) and 707 singletons, generating a total of 904 unique sequences. Of the 904 unique ESTs, 628 (69.5%) had significant hits in the non-redundant protein database and were annotated. A total of 517 (82.3%) sequences were functionally classified using the gene ontologies (GO) and established pathway associations to 220 (24.3%) sequences in Kyoto encyclopedia of genes and genomes (KEGG). In addition, 52 (5.8%) of the unique ESTs revealed a GO biological term with relation to terpenoid (78 ESTs), phenylpropanoid (43 ESTs), flavonoid (18 ESTs) or alkaloid (10 ESTs) biosynthesis or to P450s (26 ESTs). Expression analysis of a selected set of genes known to be involved in the pathways of secondary metabolite synthesis showed higher expression levels in trichomes, validating the tissue specificity of the analyzed glandular trichome library.

摘要

希腊鼠尾草(Salvia fruticosa Mill.,Syn. Salvia triloba L.)因其精油而受到赞赏,该精油可用作香料,并能有效对抗多种微生物和病毒。精油主要由萜类化合物和类黄酮组成,这些化合物是在植物表面的腺毛中产生和储存的。本研究旨在从转录组水平深入了解 S. fruticosa 腺毛的代谢活动。从 S. fruticosa 叶片腺毛的 cDNA 文库中测序了总共 2304 个克隆。排除短于 100 bp 的序列后,得到了 1615 个高质量的 EST,平均长度为 592 bp。聚类分析表明存在 197 个 contigs(908 个克隆)和 707 个单核苷酸,总共产生了 904 个独特序列。在 904 个独特的 EST 中,有 628 个(69.5%)在非冗余蛋白质数据库中有显著的匹配,并进行了注释。总共 517 个(82.3%)序列使用基因本体论(GO)进行了功能分类,并为 220 个(24.3%)序列建立了与京都基因与基因组百科全书(KEGG)的途径关联。此外,52 个(5.8%)独特的 EST 揭示了与萜类化合物(78 个 EST)、苯丙素(43 个 EST)、类黄酮(18 个 EST)或生物碱(10 个 EST)生物合成或 P450s(26 个 EST)相关的 GO 生物学术语。对已知参与次生代谢物合成途径的一组选定基因的表达分析表明,在腺毛中表达水平更高,验证了分析的腺毛文库的组织特异性。

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