Transcriptome sequencing and de novo assembly in arecanut, Areca catechu L elucidates the secondary metabolite pathway genes

Transcriptome sequencing and de novo assembly in arecanut, Areca catechu L elucidates the secondary metabolite pathway genes

Areca catechu L. belongs to the Arecaceae family which comprises many economically important palms. The palm is a source of alkaloids and carotenoids. The lack of ample genetic information in public databases has been a constraint for the genetic improvement of arecanut. To gain molecular insight in...

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Main Authors: Ramaswamy Manimekalai, Smita Nair, A. Naganeeswaran, Anitha Karun, Suresh Malhotra, V. Hubbali
Format: Article
Language:English
Published: Elsevier 2018-03-01
Series:Biotechnology Reports
Subjects:
De novo assembly
Areca genome
Flavonoids
Carotenoids
Online Access:http://www.sciencedirect.com/science/article/pii/S2215017X17303508
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spelling doaj-bd8719dd0416499aa8c52403e22364762020-11-24T22:37:18ZengElsevierBiotechnology Reports2215-017X2018-03-0117C636910.1016/j.btre.2017.12.005Transcriptome sequencing and de novo assembly in arecanut, Areca catechu L elucidates the secondary metabolite pathway genesRamaswamy Manimekalai0Smita Nair1A. Naganeeswaran2Anitha Karun3Suresh Malhotra4V. Hubbali5Sugarcane Breeding Institute, Indian Council of Agricultural Research (ICAR), Coimbatore, 641 007, Tamil Nadu, IndiaCentral Plantation Crops Research institute, Indian Council of Agricultural Research (ICAR), Kudlu P.O., Kasaragod 671 124, Kerala, IndiaCentral Plantation Crops Research institute, Indian Council of Agricultural Research (ICAR), Kudlu P.O., Kasaragod 671 124, Kerala, IndiaCentral Plantation Crops Research institute, Indian Council of Agricultural Research (ICAR), Kudlu P.O., Kasaragod 671 124, Kerala, IndiaIndian Council of Agricultural Research (ICAR), KAB II, New Delhi, IndiaDirectorate of Arecanut and Cocoa Development, Kera Bhavan, Kochi, IndiaAreca catechu L. belongs to the Arecaceae family which comprises many economically important palms. The palm is a source of alkaloids and carotenoids. The lack of ample genetic information in public databases has been a constraint for the genetic improvement of arecanut. To gain molecular insight into the palm, high throughput RNA sequencing and de novo assembly of arecanut leaf transcriptome was undertaken in the present study. A total 56,321,907 paired end reads of 101 bp length consisting of 11.343 Gb nucleotides were generated. De novo assembly resulted in 48,783 good quality transcripts, of which 67% of transcripts could be annotated against NCBI non – redundant database. The Gene Ontology (GO) analysis with UniProt database identified 9222 biological process, 11268 molecular function and 7574 cellular components GO terms. Large scale expression profiling through Fragments per Kilobase per Million mapped reads (FPKM) showed major genes involved in different metabolic pathways of the plant. Metabolic pathway analysis of the assembled transcripts identified 124 plant related pathways. The transcripts related to carotenoid and alkaloid biosynthetic pathways had more number of reads and FPKM values suggesting higher expression of these genes. The arecanut transcript sequences generated in the study showed high similarity with coconut, oil palm and date palm sequences retrieved from public domains. We also identified 6853 genic SSR regions in the arecanut. The possible primers were designed for SSR detection and this would simplify the future efforts in genetic characterization of arecanut.http://www.sciencedirect.com/science/article/pii/S2215017X17303508De novo assemblyAreca genomeFlavonoidsCarotenoids
collection DOAJ
language English
format Article
sources DOAJ
author Ramaswamy Manimekalai
Smita Nair
A. Naganeeswaran
Anitha Karun
Suresh Malhotra
V. Hubbali
spellingShingle Ramaswamy Manimekalai
Smita Nair
A. Naganeeswaran
Anitha Karun
Suresh Malhotra
V. Hubbali
Transcriptome sequencing and de novo assembly in arecanut, Areca catechu L elucidates the secondary metabolite pathway genes
Biotechnology Reports
De novo assembly
Areca genome
Flavonoids
Carotenoids
author_facet Ramaswamy Manimekalai
Smita Nair
A. Naganeeswaran
Anitha Karun
Suresh Malhotra
V. Hubbali
author_sort Ramaswamy Manimekalai
title Transcriptome sequencing and de novo assembly in arecanut, Areca catechu L elucidates the secondary metabolite pathway genes
title_short Transcriptome sequencing and de novo assembly in arecanut, Areca catechu L elucidates the secondary metabolite pathway genes
title_full Transcriptome sequencing and de novo assembly in arecanut, Areca catechu L elucidates the secondary metabolite pathway genes
title_fullStr Transcriptome sequencing and de novo assembly in arecanut, Areca catechu L elucidates the secondary metabolite pathway genes
title_full_unstemmed Transcriptome sequencing and de novo assembly in arecanut, Areca catechu L elucidates the secondary metabolite pathway genes
title_sort transcriptome sequencing and de novo assembly in arecanut, areca catechu l elucidates the secondary metabolite pathway genes
publisher Elsevier
series Biotechnology Reports
issn 2215-017X
publishDate 2018-03-01
description Areca catechu L. belongs to the Arecaceae family which comprises many economically important palms. The palm is a source of alkaloids and carotenoids. The lack of ample genetic information in public databases has been a constraint for the genetic improvement of arecanut. To gain molecular insight into the palm, high throughput RNA sequencing and de novo assembly of arecanut leaf transcriptome was undertaken in the present study. A total 56,321,907 paired end reads of 101 bp length consisting of 11.343 Gb nucleotides were generated. De novo assembly resulted in 48,783 good quality transcripts, of which 67% of transcripts could be annotated against NCBI non – redundant database. The Gene Ontology (GO) analysis with UniProt database identified 9222 biological process, 11268 molecular function and 7574 cellular components GO terms. Large scale expression profiling through Fragments per Kilobase per Million mapped reads (FPKM) showed major genes involved in different metabolic pathways of the plant. Metabolic pathway analysis of the assembled transcripts identified 124 plant related pathways. The transcripts related to carotenoid and alkaloid biosynthetic pathways had more number of reads and FPKM values suggesting higher expression of these genes. The arecanut transcript sequences generated in the study showed high similarity with coconut, oil palm and date palm sequences retrieved from public domains. We also identified 6853 genic SSR regions in the arecanut. The possible primers were designed for SSR detection and this would simplify the future efforts in genetic characterization of arecanut.
topic De novo assembly
Areca genome
Flavonoids
Carotenoids
url http://www.sciencedirect.com/science/article/pii/S2215017X17303508
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