Transcriptomic Analysis of Multipurpose Timber Yielding Tree Neolamarckia cadamba during Xylogenesis Using RNA-Seq.

Transcriptomic Analysis of Multipurpose Timber Yielding Tree Neolamarckia cadamba during Xylogenesis Using RNA-Seq.

Neolamarckia cadamba is a fast-growing tropical hardwood tree that is used extensively for plywood and pulp production, light furniture fabrication, building materials, and as a raw material for the preparation of certain indigenous medicines. Lack of genomic resources hampers progress in the molecu...

Full description

Bibliographic Details
Main Authors: Kunxi Ouyang, Juncheng Li, Xianhai Zhao, Qingmin Que, Pei Li, Hao Huang, Xiaomei Deng, Sunil Kumar Singh, Ai-Min Wu, Xiaoyang Chen
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2016-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4954708?pdf=render
id doaj-bd9157b4162a4339a7a8e9b2877b3400
record_format Article
spelling doaj-bd9157b4162a4339a7a8e9b2877b34002020-11-25T02:43:08ZengPublic Library of Science (PLoS)PLoS ONE1932-62032016-01-01117e015940710.1371/journal.pone.0159407Transcriptomic Analysis of Multipurpose Timber Yielding Tree Neolamarckia cadamba during Xylogenesis Using RNA-Seq.Kunxi OuyangJuncheng LiXianhai ZhaoQingmin QuePei LiHao HuangXiaomei DengSunil Kumar SinghAi-Min WuXiaoyang ChenNeolamarckia cadamba is a fast-growing tropical hardwood tree that is used extensively for plywood and pulp production, light furniture fabrication, building materials, and as a raw material for the preparation of certain indigenous medicines. Lack of genomic resources hampers progress in the molecular breeding and genetic improvement of this multipurpose tree species. In this study, transcriptome profiling of differentiating stems was performed to understand N. cadamba xylogenesis. The N. cadamba transcriptome was sequenced using Illumina paired-end sequencing technology. This generated 42.49 G of raw data that was then de novo assembled into 55,432 UniGenes with a mean length of 803.2bp. Approximately 47.8% of the UniGenes (26,487) were annotated against publically available protein databases, among which 21,699 and 7,754 UniGenes were assigned to Gene Ontology categories (GO) and Clusters of Orthologous Groups (COG), respectively. 5,589 UniGenes could be mapped onto 116 pathways using the Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway database. Among 6,202 UniGenes exhibiting differential expression during xylogenesis, 1,634 showed significantly higher levels of expression in the basal and middle stem segments compared to the apical stem segment. These genes included NAC and MYB transcription factors related to secondary cell wall biosynthesis, genes related to most metabolic steps of lignin biosynthesis, and CesA genes involved in cellulose biosynthesis. This study lays the foundation for further screening of key genes associated with xylogenesis in N. cadamba as well as enhancing our understanding of the mechanism of xylogenesis in fast-growing trees.http://europepmc.org/articles/PMC4954708?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Kunxi Ouyang
Juncheng Li
Xianhai Zhao
Qingmin Que
Pei Li
Hao Huang
Xiaomei Deng
Sunil Kumar Singh
Ai-Min Wu
Xiaoyang Chen
spellingShingle Kunxi Ouyang
Juncheng Li
Xianhai Zhao
Qingmin Que
Pei Li
Hao Huang
Xiaomei Deng
Sunil Kumar Singh
Ai-Min Wu
Xiaoyang Chen
Transcriptomic Analysis of Multipurpose Timber Yielding Tree Neolamarckia cadamba during Xylogenesis Using RNA-Seq.
PLoS ONE
author_facet Kunxi Ouyang
Juncheng Li
Xianhai Zhao
Qingmin Que
Pei Li
Hao Huang
Xiaomei Deng
Sunil Kumar Singh
Ai-Min Wu
Xiaoyang Chen
author_sort Kunxi Ouyang
title Transcriptomic Analysis of Multipurpose Timber Yielding Tree Neolamarckia cadamba during Xylogenesis Using RNA-Seq.
title_short Transcriptomic Analysis of Multipurpose Timber Yielding Tree Neolamarckia cadamba during Xylogenesis Using RNA-Seq.
title_full Transcriptomic Analysis of Multipurpose Timber Yielding Tree Neolamarckia cadamba during Xylogenesis Using RNA-Seq.
title_fullStr Transcriptomic Analysis of Multipurpose Timber Yielding Tree Neolamarckia cadamba during Xylogenesis Using RNA-Seq.
title_full_unstemmed Transcriptomic Analysis of Multipurpose Timber Yielding Tree Neolamarckia cadamba during Xylogenesis Using RNA-Seq.
title_sort transcriptomic analysis of multipurpose timber yielding tree neolamarckia cadamba during xylogenesis using rna-seq.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2016-01-01
description Neolamarckia cadamba is a fast-growing tropical hardwood tree that is used extensively for plywood and pulp production, light furniture fabrication, building materials, and as a raw material for the preparation of certain indigenous medicines. Lack of genomic resources hampers progress in the molecular breeding and genetic improvement of this multipurpose tree species. In this study, transcriptome profiling of differentiating stems was performed to understand N. cadamba xylogenesis. The N. cadamba transcriptome was sequenced using Illumina paired-end sequencing technology. This generated 42.49 G of raw data that was then de novo assembled into 55,432 UniGenes with a mean length of 803.2bp. Approximately 47.8% of the UniGenes (26,487) were annotated against publically available protein databases, among which 21,699 and 7,754 UniGenes were assigned to Gene Ontology categories (GO) and Clusters of Orthologous Groups (COG), respectively. 5,589 UniGenes could be mapped onto 116 pathways using the Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway database. Among 6,202 UniGenes exhibiting differential expression during xylogenesis, 1,634 showed significantly higher levels of expression in the basal and middle stem segments compared to the apical stem segment. These genes included NAC and MYB transcription factors related to secondary cell wall biosynthesis, genes related to most metabolic steps of lignin biosynthesis, and CesA genes involved in cellulose biosynthesis. This study lays the foundation for further screening of key genes associated with xylogenesis in N. cadamba as well as enhancing our understanding of the mechanism of xylogenesis in fast-growing trees.
url http://europepmc.org/articles/PMC4954708?pdf=render
work_keys_str_mv AT kunxiouyang transcriptomicanalysisofmultipurposetimberyieldingtreeneolamarckiacadambaduringxylogenesisusingrnaseq
AT junchengli transcriptomicanalysisofmultipurposetimberyieldingtreeneolamarckiacadambaduringxylogenesisusingrnaseq
AT xianhaizhao transcriptomicanalysisofmultipurposetimberyieldingtreeneolamarckiacadambaduringxylogenesisusingrnaseq
AT qingminque transcriptomicanalysisofmultipurposetimberyieldingtreeneolamarckiacadambaduringxylogenesisusingrnaseq
AT peili transcriptomicanalysisofmultipurposetimberyieldingtreeneolamarckiacadambaduringxylogenesisusingrnaseq
AT haohuang transcriptomicanalysisofmultipurposetimberyieldingtreeneolamarckiacadambaduringxylogenesisusingrnaseq
AT xiaomeideng transcriptomicanalysisofmultipurposetimberyieldingtreeneolamarckiacadambaduringxylogenesisusingrnaseq
AT sunilkumarsingh transcriptomicanalysisofmultipurposetimberyieldingtreeneolamarckiacadambaduringxylogenesisusingrnaseq
AT aiminwu transcriptomicanalysisofmultipurposetimberyieldingtreeneolamarckiacadambaduringxylogenesisusingrnaseq
AT xiaoyangchen transcriptomicanalysisofmultipurposetimberyieldingtreeneolamarckiacadambaduringxylogenesisusingrnaseq
_version_ 1724771229053747200

Similar Items