Sequencing of a Wild Apple (Malus baccata) Genome Unravels the Differences Between Cultivated and Wild Apple Species Regarding Disease Resistance and Cold Tolerance

Sequencing of a Wild Apple (Malus baccata) Genome Unravels the Differences Between Cultivated and Wild Apple Species Regarding Disease Resistance and Cold Tolerance

Malus baccata is one of four wild apple species that can hybridize with the cultivated apple species (Malus domestica). It is widely used in high-latitude apple-producing areas as a rootstock and breeding resource because of its disease resistance, and cold tolerance. A lack of a reference genome ha...

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Main Authors: Xilong Chen, Shiming Li, Dong Zhang, Mingyu Han, Xin Jin, Caipin Zhao, Songbo Wang, Libo Xing, Juanjuan Ma, Jingjing Ji, Na An
Format: Article
Language:English
Published: Oxford University Press 2019-07-01
Series:G3: Genes, Genomes, Genetics
Subjects:
Siberian crab apple (Malus baccata)
genome sequencing
resistance gene analogs (RGAs)
cold-related genes
Online Access:http://g3journal.org/lookup/doi/10.1534/g3.119.400245
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spelling doaj-52ac881410ba41ad8918eae8ee8f58ac2021-07-02T07:23:43ZengOxford University PressG3: Genes, Genomes, Genetics2160-18362019-07-01972051206010.1534/g3.119.4002452Sequencing of a Wild Apple (Malus baccata) Genome Unravels the Differences Between Cultivated and Wild Apple Species Regarding Disease Resistance and Cold ToleranceXilong ChenShiming LiDong ZhangMingyu HanXin JinCaipin ZhaoSongbo WangLibo XingJuanjuan MaJingjing JiNa AnMalus baccata is one of four wild apple species that can hybridize with the cultivated apple species (Malus domestica). It is widely used in high-latitude apple-producing areas as a rootstock and breeding resource because of its disease resistance, and cold tolerance. A lack of a reference genome has limited the application of M. baccata for apple breeding. We present a draft reference genome for M. baccata. The assembled sequence consisting of 665 Mb, with a scaffold N50 value of 452 kb, included transposable elements (413 Mb) and 46,114 high-quality protein-coding genes. According to a genetic map derived from 390 sibling lines, 72% of the assembly and 85% of the putative genes were anchored to 17 linkage groups. Many of the M. baccata genes under positive selection pressure were associated with plant–pathogen interaction pathways. We identified 2,345 Transcription factor-encoding genes in 58 families in the M. baccata genome. Genes related to disease defense and cold tolerance were also identified. A total of 462 putative nucleotide-binding site (NBS)-leucine-rich-repeat (LRR) genes, 177 Receptor-like kinase (RLK) and 51 receptor-like proteins (RLP) genes were identified in this genome assembly. The M. baccata genome contained 3978 cold-regulated genes, and 50% of these gene promoter containing DREB motif which can be induced by CBF gene. We herein present the first M. baccata genome assembly, which may be useful for exploring genetic variations in diverse apple germplasm, and for facilitating marker-assisted breeding of new apple cultivars exhibiting resistance to disease and cold stress.http://g3journal.org/lookup/doi/10.1534/g3.119.400245Siberian crab apple (Malus baccata)genome sequencingresistance gene analogs (RGAs)cold-related genes
collection DOAJ
language English
format Article
sources DOAJ
author Xilong Chen
Shiming Li
Dong Zhang
Mingyu Han
Xin Jin
Caipin Zhao
Songbo Wang
Libo Xing
Juanjuan Ma
Jingjing Ji
Na An
spellingShingle Xilong Chen
Shiming Li
Dong Zhang
Mingyu Han
Xin Jin
Caipin Zhao
Songbo Wang
Libo Xing
Juanjuan Ma
Jingjing Ji
Na An
Sequencing of a Wild Apple (Malus baccata) Genome Unravels the Differences Between Cultivated and Wild Apple Species Regarding Disease Resistance and Cold Tolerance
G3: Genes, Genomes, Genetics
Siberian crab apple (Malus baccata)
genome sequencing
resistance gene analogs (RGAs)
cold-related genes
author_facet Xilong Chen
Shiming Li
Dong Zhang
Mingyu Han
Xin Jin
Caipin Zhao
Songbo Wang
Libo Xing
Juanjuan Ma
Jingjing Ji
Na An
author_sort Xilong Chen
title Sequencing of a Wild Apple (Malus baccata) Genome Unravels the Differences Between Cultivated and Wild Apple Species Regarding Disease Resistance and Cold Tolerance
title_short Sequencing of a Wild Apple (Malus baccata) Genome Unravels the Differences Between Cultivated and Wild Apple Species Regarding Disease Resistance and Cold Tolerance
title_full Sequencing of a Wild Apple (Malus baccata) Genome Unravels the Differences Between Cultivated and Wild Apple Species Regarding Disease Resistance and Cold Tolerance
title_fullStr Sequencing of a Wild Apple (Malus baccata) Genome Unravels the Differences Between Cultivated and Wild Apple Species Regarding Disease Resistance and Cold Tolerance
title_full_unstemmed Sequencing of a Wild Apple (Malus baccata) Genome Unravels the Differences Between Cultivated and Wild Apple Species Regarding Disease Resistance and Cold Tolerance
title_sort sequencing of a wild apple (malus baccata) genome unravels the differences between cultivated and wild apple species regarding disease resistance and cold tolerance
publisher Oxford University Press
series G3: Genes, Genomes, Genetics
issn 2160-1836
publishDate 2019-07-01
description Malus baccata is one of four wild apple species that can hybridize with the cultivated apple species (Malus domestica). It is widely used in high-latitude apple-producing areas as a rootstock and breeding resource because of its disease resistance, and cold tolerance. A lack of a reference genome has limited the application of M. baccata for apple breeding. We present a draft reference genome for M. baccata. The assembled sequence consisting of 665 Mb, with a scaffold N50 value of 452 kb, included transposable elements (413 Mb) and 46,114 high-quality protein-coding genes. According to a genetic map derived from 390 sibling lines, 72% of the assembly and 85% of the putative genes were anchored to 17 linkage groups. Many of the M. baccata genes under positive selection pressure were associated with plant–pathogen interaction pathways. We identified 2,345 Transcription factor-encoding genes in 58 families in the M. baccata genome. Genes related to disease defense and cold tolerance were also identified. A total of 462 putative nucleotide-binding site (NBS)-leucine-rich-repeat (LRR) genes, 177 Receptor-like kinase (RLK) and 51 receptor-like proteins (RLP) genes were identified in this genome assembly. The M. baccata genome contained 3978 cold-regulated genes, and 50% of these gene promoter containing DREB motif which can be induced by CBF gene. We herein present the first M. baccata genome assembly, which may be useful for exploring genetic variations in diverse apple germplasm, and for facilitating marker-assisted breeding of new apple cultivars exhibiting resistance to disease and cold stress.
topic Siberian crab apple (Malus baccata)
genome sequencing
resistance gene analogs (RGAs)
cold-related genes
url http://g3journal.org/lookup/doi/10.1534/g3.119.400245
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