Assembly of the Boechera retrofracta Genome and Evolutionary Analysis of Apomixis-Associated Genes

Assembly of the Boechera retrofracta Genome and Evolutionary Analysis of Apomixis-Associated Genes

Closely related to the model plant Arabidopsis thaliana, the genus Boechera is known to contain both sexual and apomictic species or accessions. Boechera retrofracta is a diploid sexually reproducing species and is thought to be an ancestral parent species of apomictic species. Here we report the de...

Full description

Bibliographic Details
Main Authors: Sergei Kliver, Mike Rayko, Alexey Komissarov, Evgeny Bakin, Daria Zhernakova, Kasavajhala Prasad, Catherine Rushworth, R. Baskar, Dmitry Smetanin, Jeremy Schmutz, Daniel S. Rokhsar, Thomas Mitchell-Olds, Ueli Grossniklaus, Vladimir Brukhin
Format: Article
Language:English
Published: MDPI AG 2018-03-01
Series:Genes
Subjects:
Boechera
Brassicaceae
genome
assembly
annotation
apomixis
Online Access:http://www.mdpi.com/2073-4425/9/4/185
id doaj-0655b892809c454bb9eeb04738c043d1
record_format Article
spelling doaj-0655b892809c454bb9eeb04738c043d12020-11-25T01:03:40ZengMDPI AGGenes2073-44252018-03-019418510.3390/genes9040185genes9040185Assembly of the Boechera retrofracta Genome and Evolutionary Analysis of Apomixis-Associated GenesSergei Kliver0Mike Rayko1Alexey Komissarov2Evgeny Bakin3Daria Zhernakova4Kasavajhala Prasad5Catherine Rushworth6R. Baskar7Dmitry Smetanin8Jeremy Schmutz9Daniel S. Rokhsar10Thomas Mitchell-Olds11Ueli Grossniklaus12Vladimir Brukhin13Dobzhansky Center for Genome Bioinformatics, St. Petersburg State Universit, Sredniy Prospekt, 41, Vasilievsky Island, 199004 St. Petersburg, RussiaDobzhansky Center for Genome Bioinformatics, St. Petersburg State Universit, Sredniy Prospekt, 41, Vasilievsky Island, 199004 St. Petersburg, RussiaDobzhansky Center for Genome Bioinformatics, St. Petersburg State Universit, Sredniy Prospekt, 41, Vasilievsky Island, 199004 St. Petersburg, RussiaDobzhansky Center for Genome Bioinformatics, St. Petersburg State Universit, Sredniy Prospekt, 41, Vasilievsky Island, 199004 St. Petersburg, RussiaDobzhansky Center for Genome Bioinformatics, St. Petersburg State Universit, Sredniy Prospekt, 41, Vasilievsky Island, 199004 St. Petersburg, RussiaDepartment of Biology, Colorado State University, Fort Collins, CO 80523; USAUniversity and Jepson Herbaria, University of California, Berkeley, NC 94720; USADepartment of Biotechnology, Indian Institute of Technology. Sardar Patel road, 600036 Chennai, IndiaDepartment of Plant and Microbial Biology Zurich-Basel Plant Science Center, University of Zurich, Zollikerstrasse 107, 8008 Zurich; SwitzerlandDepartment of Energy Joint Genome Institute, Walnut Creek, CA 94598; USADepartment of Energy Joint Genome Institute, Walnut Creek, CA 94598; USADepartment of Biology, Duke University, Durham, NC 27708-0338; USADepartment of Plant and Microbial Biology Zurich-Basel Plant Science Center, University of Zurich, Zollikerstrasse 107, 8008 Zurich; SwitzerlandDobzhansky Center for Genome Bioinformatics, St. Petersburg State Universit, Sredniy Prospekt, 41, Vasilievsky Island, 199004 St. Petersburg, RussiaClosely related to the model plant Arabidopsis thaliana, the genus Boechera is known to contain both sexual and apomictic species or accessions. Boechera retrofracta is a diploid sexually reproducing species and is thought to be an ancestral parent species of apomictic species. Here we report the de novo assembly of the B. retrofracta genome using short Illumina and Roche reads from 1 paired-end and 3 mate pair libraries. The distribution of 23-mers from the paired end library has indicated a low level of heterozygosity and the presence of detectable duplications and triplications. The genome size was estimated to be equal 227 Mb. N50 of the assembled scaffolds was 2.3 Mb. Using a hybrid approach that combines homology-based and de novo methods 27,048 protein-coding genes were predicted. Also repeats, transfer RNA (tRNA) and ribosomal RNA (rRNA) genes were annotated. Finally, genes of B. retrofracta and 6 other Brassicaceae species were used for phylogenetic tree reconstruction. In addition, we explored the histidine exonuclease APOLLO locus, related to apomixis in Boechera, and proposed model of its evolution through the series of duplications. An assembled genome of B. retrofracta will help in the challenging assembly of the highly heterozygous genomes of hybrid apomictic species.http://www.mdpi.com/2073-4425/9/4/185BoecheraBrassicaceaegenomeassemblyannotationapomixis
collection DOAJ
language English
format Article
sources DOAJ
author Sergei Kliver
Mike Rayko
Alexey Komissarov
Evgeny Bakin
Daria Zhernakova
Kasavajhala Prasad
Catherine Rushworth
R. Baskar
Dmitry Smetanin
Jeremy Schmutz
Daniel S. Rokhsar
Thomas Mitchell-Olds
Ueli Grossniklaus
Vladimir Brukhin
spellingShingle Sergei Kliver
Mike Rayko
Alexey Komissarov
Evgeny Bakin
Daria Zhernakova
Kasavajhala Prasad
Catherine Rushworth
R. Baskar
Dmitry Smetanin
Jeremy Schmutz
Daniel S. Rokhsar
Thomas Mitchell-Olds
Ueli Grossniklaus
Vladimir Brukhin
Assembly of the Boechera retrofracta Genome and Evolutionary Analysis of Apomixis-Associated Genes
Genes
Boechera
Brassicaceae
genome
assembly
annotation
apomixis
author_facet Sergei Kliver
Mike Rayko
Alexey Komissarov
Evgeny Bakin
Daria Zhernakova
Kasavajhala Prasad
Catherine Rushworth
R. Baskar
Dmitry Smetanin
Jeremy Schmutz
Daniel S. Rokhsar
Thomas Mitchell-Olds
Ueli Grossniklaus
Vladimir Brukhin
author_sort Sergei Kliver
title Assembly of the Boechera retrofracta Genome and Evolutionary Analysis of Apomixis-Associated Genes
title_short Assembly of the Boechera retrofracta Genome and Evolutionary Analysis of Apomixis-Associated Genes
title_full Assembly of the Boechera retrofracta Genome and Evolutionary Analysis of Apomixis-Associated Genes
title_fullStr Assembly of the Boechera retrofracta Genome and Evolutionary Analysis of Apomixis-Associated Genes
title_full_unstemmed Assembly of the Boechera retrofracta Genome and Evolutionary Analysis of Apomixis-Associated Genes
title_sort assembly of the boechera retrofracta genome and evolutionary analysis of apomixis-associated genes
publisher MDPI AG
series Genes
issn 2073-4425
publishDate 2018-03-01
description Closely related to the model plant Arabidopsis thaliana, the genus Boechera is known to contain both sexual and apomictic species or accessions. Boechera retrofracta is a diploid sexually reproducing species and is thought to be an ancestral parent species of apomictic species. Here we report the de novo assembly of the B. retrofracta genome using short Illumina and Roche reads from 1 paired-end and 3 mate pair libraries. The distribution of 23-mers from the paired end library has indicated a low level of heterozygosity and the presence of detectable duplications and triplications. The genome size was estimated to be equal 227 Mb. N50 of the assembled scaffolds was 2.3 Mb. Using a hybrid approach that combines homology-based and de novo methods 27,048 protein-coding genes were predicted. Also repeats, transfer RNA (tRNA) and ribosomal RNA (rRNA) genes were annotated. Finally, genes of B. retrofracta and 6 other Brassicaceae species were used for phylogenetic tree reconstruction. In addition, we explored the histidine exonuclease APOLLO locus, related to apomixis in Boechera, and proposed model of its evolution through the series of duplications. An assembled genome of B. retrofracta will help in the challenging assembly of the highly heterozygous genomes of hybrid apomictic species.
topic Boechera
Brassicaceae
genome
assembly
annotation
apomixis
url http://www.mdpi.com/2073-4425/9/4/185
work_keys_str_mv AT sergeikliver assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
AT mikerayko assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
AT alexeykomissarov assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
AT evgenybakin assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
AT dariazhernakova assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
AT kasavajhalaprasad assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
AT catherinerushworth assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
AT rbaskar assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
AT dmitrysmetanin assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
AT jeremyschmutz assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
AT danielsrokhsar assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
AT thomasmitchellolds assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
AT ueligrossniklaus assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
AT vladimirbrukhin assemblyoftheboecheraretrofractagenomeandevolutionaryanalysisofapomixisassociatedgenes
_version_ 1725200054740844544

Similar Items