Nuclear and chloroplast genome diversity revealed by low-coverage whole-genome shotgun sequence in 44 Brassica oleracea breeding lines

Whole-genome shogun sequence (WGS) data generated by next-generation sequencing (NGS) platforms are a valuable resource for crop improvement. We produced 5–6 × WGS coverage of 44 Brassica oleracea breeding lines representing seven subspecies/morphotypes: cabbage, broccoli, cauliflower, kailan, kale,...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: Sampath Perumal, Nomar Espinosa Waminal, Jonghoon Lee, Hyun-Jin Koo, Boem-soon Choi, Jee Young Park, Kyounggu Ahn, Tae-Jin Yang
Formato: article
Lenguaje:EN
Publicado: KeAi Communications Co., Ltd. 2021
Materias:
Acceso en línea:https://doaj.org/article/2a7f5fd4e83549d18ee92d466d4ce8db
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:2a7f5fd4e83549d18ee92d466d4ce8db
record_format dspace
spelling oai:doaj.org-article:2a7f5fd4e83549d18ee92d466d4ce8db2021-11-12T04:43:19ZNuclear and chloroplast genome diversity revealed by low-coverage whole-genome shotgun sequence in 44 Brassica oleracea breeding lines2468-014110.1016/j.hpj.2021.02.004https://doaj.org/article/2a7f5fd4e83549d18ee92d466d4ce8db2021-11-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S2468014121000315https://doaj.org/toc/2468-0141Whole-genome shogun sequence (WGS) data generated by next-generation sequencing (NGS) platforms are a valuable resource for crop improvement. We produced 5–6 × WGS coverage of 44 Brassica oleracea breeding lines representing seven subspecies/morphotypes: cabbage, broccoli, cauliflower, kailan, kale, Brussels sprout, and kohlrabi to systematically evaluate the nuclear and chloroplast (Cp) diversity in the 44 B. oleracea breeding lines. We then exploited the impact of low-coverage NGS by evaluating nuclear genome diversity and assembly, annotation of complete chloroplast (Cp) genomes and 45S nuclear ribosomal DNA (45S nrDNA) sequences, and copy number variation for major repeats. Nuclear genome diversity analysis has revealed a total of 496 463 SNPs and 37 493 indels in the nuclear genome across the 44 accessions. Interestingly, some SNPs showed subspecies enrichment at certain chromosomal regions. The assembly of complete Cp genomes contained 153 361–153 372 bp with 37 variants including SNPs and indels. The 45S nrDNA transcription unit was 5 802 bp long with a total of 31 SNPs from the 44 lines. The phylogenetic tree inferred from the nuclear and Cp genomes coincided and clustered broccoli, cauliflower, and kailan in one group and cabbage, Brussels sprout, kale, and kohlrabi in another group. The morphotypes diverged during the last 0.17 million years. The Cp genome diversity reflected the unique cytoplasm of each subspecies, and revealed that the cytoplasm of many breeding lines was replaced and intermingled via inter-subspecies crosses during the breeding process instead. The polymorphic Cp markers provide a classification system for the cytoplasm types in B. oleracea. Furthermore, copy numbers of major transposable elements (TEs) showed high diversity among the 44 accessions, indicating that many TEs have become active recently. Overall, we demonstrated a comprehensive utilization of low-coverage NGS data and might shed light on the genetic diversity and evolution of diverse B. oleracea morphotypes.Sampath PerumalNomar Espinosa WaminalJonghoon LeeHyun-Jin KooBoem-soon ChoiJee Young ParkKyounggu AhnTae-Jin YangKeAi Communications Co., Ltd.articleBrassica oleracea subspeciesChloroplast genomeNuclear ribosomal DNAGenetic diversityPhylogenyPlant cultureSB1-1110ENHorticultural Plant Journal, Vol 7, Iss 6, Pp 539-551 (2021)
institution DOAJ
collection DOAJ
language EN
topic Brassica oleracea subspecies
Chloroplast genome
Nuclear ribosomal DNA
Genetic diversity
Phylogeny
Plant culture
SB1-1110
spellingShingle Brassica oleracea subspecies
Chloroplast genome
Nuclear ribosomal DNA
Genetic diversity
Phylogeny
Plant culture
SB1-1110
Sampath Perumal
Nomar Espinosa Waminal
Jonghoon Lee
Hyun-Jin Koo
Boem-soon Choi
Jee Young Park
Kyounggu Ahn
Tae-Jin Yang
Nuclear and chloroplast genome diversity revealed by low-coverage whole-genome shotgun sequence in 44 Brassica oleracea breeding lines
description Whole-genome shogun sequence (WGS) data generated by next-generation sequencing (NGS) platforms are a valuable resource for crop improvement. We produced 5–6 × WGS coverage of 44 Brassica oleracea breeding lines representing seven subspecies/morphotypes: cabbage, broccoli, cauliflower, kailan, kale, Brussels sprout, and kohlrabi to systematically evaluate the nuclear and chloroplast (Cp) diversity in the 44 B. oleracea breeding lines. We then exploited the impact of low-coverage NGS by evaluating nuclear genome diversity and assembly, annotation of complete chloroplast (Cp) genomes and 45S nuclear ribosomal DNA (45S nrDNA) sequences, and copy number variation for major repeats. Nuclear genome diversity analysis has revealed a total of 496 463 SNPs and 37 493 indels in the nuclear genome across the 44 accessions. Interestingly, some SNPs showed subspecies enrichment at certain chromosomal regions. The assembly of complete Cp genomes contained 153 361–153 372 bp with 37 variants including SNPs and indels. The 45S nrDNA transcription unit was 5 802 bp long with a total of 31 SNPs from the 44 lines. The phylogenetic tree inferred from the nuclear and Cp genomes coincided and clustered broccoli, cauliflower, and kailan in one group and cabbage, Brussels sprout, kale, and kohlrabi in another group. The morphotypes diverged during the last 0.17 million years. The Cp genome diversity reflected the unique cytoplasm of each subspecies, and revealed that the cytoplasm of many breeding lines was replaced and intermingled via inter-subspecies crosses during the breeding process instead. The polymorphic Cp markers provide a classification system for the cytoplasm types in B. oleracea. Furthermore, copy numbers of major transposable elements (TEs) showed high diversity among the 44 accessions, indicating that many TEs have become active recently. Overall, we demonstrated a comprehensive utilization of low-coverage NGS data and might shed light on the genetic diversity and evolution of diverse B. oleracea morphotypes.
format article
author Sampath Perumal
Nomar Espinosa Waminal
Jonghoon Lee
Hyun-Jin Koo
Boem-soon Choi
Jee Young Park
Kyounggu Ahn
Tae-Jin Yang
author_facet Sampath Perumal
Nomar Espinosa Waminal
Jonghoon Lee
Hyun-Jin Koo
Boem-soon Choi
Jee Young Park
Kyounggu Ahn
Tae-Jin Yang
author_sort Sampath Perumal
title Nuclear and chloroplast genome diversity revealed by low-coverage whole-genome shotgun sequence in 44 Brassica oleracea breeding lines
title_short Nuclear and chloroplast genome diversity revealed by low-coverage whole-genome shotgun sequence in 44 Brassica oleracea breeding lines
title_full Nuclear and chloroplast genome diversity revealed by low-coverage whole-genome shotgun sequence in 44 Brassica oleracea breeding lines
title_fullStr Nuclear and chloroplast genome diversity revealed by low-coverage whole-genome shotgun sequence in 44 Brassica oleracea breeding lines
title_full_unstemmed Nuclear and chloroplast genome diversity revealed by low-coverage whole-genome shotgun sequence in 44 Brassica oleracea breeding lines
title_sort nuclear and chloroplast genome diversity revealed by low-coverage whole-genome shotgun sequence in 44 brassica oleracea breeding lines
publisher KeAi Communications Co., Ltd.
publishDate 2021
url https://doaj.org/article/2a7f5fd4e83549d18ee92d466d4ce8db
work_keys_str_mv AT sampathperumal nuclearandchloroplastgenomediversityrevealedbylowcoveragewholegenomeshotgunsequencein44brassicaoleraceabreedinglines
AT nomarespinosawaminal nuclearandchloroplastgenomediversityrevealedbylowcoveragewholegenomeshotgunsequencein44brassicaoleraceabreedinglines
AT jonghoonlee nuclearandchloroplastgenomediversityrevealedbylowcoveragewholegenomeshotgunsequencein44brassicaoleraceabreedinglines
AT hyunjinkoo nuclearandchloroplastgenomediversityrevealedbylowcoveragewholegenomeshotgunsequencein44brassicaoleraceabreedinglines
AT boemsoonchoi nuclearandchloroplastgenomediversityrevealedbylowcoveragewholegenomeshotgunsequencein44brassicaoleraceabreedinglines
AT jeeyoungpark nuclearandchloroplastgenomediversityrevealedbylowcoveragewholegenomeshotgunsequencein44brassicaoleraceabreedinglines
AT kyoungguahn nuclearandchloroplastgenomediversityrevealedbylowcoveragewholegenomeshotgunsequencein44brassicaoleraceabreedinglines
AT taejinyang nuclearandchloroplastgenomediversityrevealedbylowcoveragewholegenomeshotgunsequencein44brassicaoleraceabreedinglines
_version_ 1718431221377138688