摘要
樟树(Cinnamomum camphora)是樟科植物的一个代表种,具有材用、药用、香料、油用和生态环境建设等多种用途。叶精油中富含利用价值极高的樟脑、芳樟醇、1,8-桉叶油素、异-橙花叔醇和右旋龙脑等萜类化合物。依据叶精油中主要成分的种类和含量,可将樟树划分为脑樟、芳樟、油樟、异樟、龙脑樟5种化学类型。文章采用Illumina HiSeq?2000高通量测序技术,对5种化学类型叶片转录组进行测序,对测序得到的所有Unigene进行GO(Gene Ontology)、COG(Clusters of Orthologous Groups)和KEGG(Kyoto Encyclopedia of Genes and Genomes)分类,给出功能注释和Pathway注释,并预测Unigene蛋白编码区(Coding sequence,CDS)。De novo组装共获得156 278个Unigene,序列平均长度584 bp,N50(覆盖50%所有核苷酸的最大Unigene长度)为1 023bp。通过与其他核酸、蛋白数据库的Blast搜索比对,共有55 955条Unigene获得了基因注释,占所有Unigene的35.80%。其中,有24 717条Unigene得到GO注释,有21 806条Unigene得到COG注释。KEGG pathways分析结果表明,共有3 350条基因(10.19%)注释到次生代谢生物合成途径,其中参与单萜、二萜、倍半萜和萜类骨架合成的Unigene有424个。在单萜合成的代谢通路中,有9条Unigene可能编码芳樟醇合成酶基因,且表达分析结果显示,芳樟醇合成酶基因在芳樟化学类型中优势表达,在油樟化学类型中表达水平较低。这些注释信息的完成为樟树功能基因及相关候选基因的发掘提供了基础数据和重要依据。
Camphor tree (Cinnamomum camphora) is a representative species in Lauraceae family, and can be subdi vided into five types: linalool, camphor, cineol, iso-nerolidol and borneol. In this paper, the leaves transcriptomes of Cinnamomum camphora were sequenced with the platform of Illumina HiSeqTM 2000. Based on the GO (Gene Ontology), COG (Clusters of Orthologous Groups), and KEGG (Kyoto Encyclopedia of Genes and Genomes) database, the function classification, pathway annotation, and the coding sequence prediction of all-Unigenes were carried out. 156 278 Unigeneswith an average length of 584 bp and N50 (N50 value is defined as the Unigene length where half the assembly is repre sented by Unigenes of this size or longer) of 1 023 bp were generated by de novo assembly. A total of 5 5955 Unigenes (35.80%) were annotated through similarity comparison, in which 24 717 and 21 806 Unigenes were assigned into GO and COG, respectively. By searching KEGG database, 3 350 Unigenes were involved in biosynthesis of secondary metabolites, in which 424 Unigenes were involved in monoterpenoids, diterpenoids, sesquiterpenoids, and terpenoid backbone biosyn thesis. The analysis of monoterpenoids biosynthesis pathway showed that 9 Unigenes likely encode (+)-linalool synthase, and their expression levels were higher in linalool type but lower in cineole type. This study provides a foundation for fur ther characterizing the functional genes in C camphora.
出处
《遗传》
CAS
CSCD
北大核心
2014年第1期58-68,共11页
Hereditas(Beijing)
基金
"赣鄱英才555工程"领军人才培养计划项目樟树全基因组研究
江西省自然科学基金项目(编号:20122BAB214029)资助
关键词
樟树
RNA-SEQ
基因注释
功能分类
CDS预测
Cinnamomum camphora
RNA-Seq
gene annotation
function classification
CDS prediction
