Intricate genetic variation networks control the adventitious root growth angle in apple
Abstract Background The root growth angle (RGA) typically determines plant rooting depth, which is significant for plant anchorage and abiotic stress tolerance. Several quantitative trait loci (QTLs) for RGA have been identified in crops. However, the underlying mechanisms of the RGA remain poorly u...
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doaj-b56f0b47390944a9989aee5b23f3d1d02020-12-06T12:25:29ZengBMCBMC Genomics1471-21642020-12-0121111810.1186/s12864-020-07257-8Intricate genetic variation networks control the adventitious root growth angle in appleCaixia Zheng0Fei Shen1Yi Wang2Ting Wu3Xuefeng Xu4Xinzhong Zhang5Zhenhai Han6College of Horticulture, China Agricultural UniversityCollege of Horticulture, China Agricultural UniversityCollege of Horticulture, China Agricultural UniversityCollege of Horticulture, China Agricultural UniversityCollege of Horticulture, China Agricultural UniversityCollege of Horticulture, China Agricultural UniversityCollege of Horticulture, China Agricultural UniversityAbstract Background The root growth angle (RGA) typically determines plant rooting depth, which is significant for plant anchorage and abiotic stress tolerance. Several quantitative trait loci (QTLs) for RGA have been identified in crops. However, the underlying mechanisms of the RGA remain poorly understood, especially in apple rootstocks. The objective of this study was to identify QTLs, validate genetic variation networks, and develop molecular markers for the RGA in apple rootstock. Results Bulked segregant analysis by sequencing (BSA-seq) identified 25 QTLs for RGA using 1955 hybrids of the apple rootstock cultivars ‘Baleng Crab’ (Malus robusta Rehd., large RGA) and ‘M9’ (M. pumila Mill., small RGA). With RNA sequencing (RNA-seq) and parental resequencing, six major functional genes were identified and constituted two genetic variation networks for the RGA. Two single nucleotide polymorphisms (SNPs) of the MdLAZY1 promoter damaged the binding sites of MdDREB2A and MdHSFB3, while one SNP of MdDREB2A and MdIAA1 affected the interactions of MdDREB2A/MdHSFB3 and MdIAA1/MdLAZY1, respectively. A SNP within the MdNPR5 promoter damaged the interaction between MdNPR5 and MdLBD41, while one SNP of MdLBD41 interrupted the MdLBD41/MdbHLH48 interaction that affected the binding ability of MdLBD41 on the MdNPR5 promoter. Twenty six SNP markers were designed on candidate genes in each QTL interval, and the marker effects varied from 0.22°-26.11°. Conclusions Six diagnostic markers, SNP592, G122, b13, Z312, S1272, and S1288, were used to identify two intricate genetic variation networks that control the RGA and may provide new insights into the accuracy of the molecular markers. The QTLs and SNP markers can potentially be used to select deep-rooted apple rootstocks.https://doi.org/10.1186/s12864-020-07257-8MalusRGABSA-seqRNA-seqQTLsGenetic variation |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Caixia Zheng Fei Shen Yi Wang Ting Wu Xuefeng Xu Xinzhong Zhang Zhenhai Han |
spellingShingle |
Caixia Zheng Fei Shen Yi Wang Ting Wu Xuefeng Xu Xinzhong Zhang Zhenhai Han Intricate genetic variation networks control the adventitious root growth angle in apple BMC Genomics Malus RGA BSA-seq RNA-seq QTLs Genetic variation |
author_facet |
Caixia Zheng Fei Shen Yi Wang Ting Wu Xuefeng Xu Xinzhong Zhang Zhenhai Han |
author_sort |
Caixia Zheng |
title |
Intricate genetic variation networks control the adventitious root growth angle in apple |
title_short |
Intricate genetic variation networks control the adventitious root growth angle in apple |
title_full |
Intricate genetic variation networks control the adventitious root growth angle in apple |
title_fullStr |
Intricate genetic variation networks control the adventitious root growth angle in apple |
title_full_unstemmed |
Intricate genetic variation networks control the adventitious root growth angle in apple |
title_sort |
intricate genetic variation networks control the adventitious root growth angle in apple |
publisher |
BMC |
series |
BMC Genomics |
issn |
1471-2164 |
publishDate |
2020-12-01 |
description |
Abstract Background The root growth angle (RGA) typically determines plant rooting depth, which is significant for plant anchorage and abiotic stress tolerance. Several quantitative trait loci (QTLs) for RGA have been identified in crops. However, the underlying mechanisms of the RGA remain poorly understood, especially in apple rootstocks. The objective of this study was to identify QTLs, validate genetic variation networks, and develop molecular markers for the RGA in apple rootstock. Results Bulked segregant analysis by sequencing (BSA-seq) identified 25 QTLs for RGA using 1955 hybrids of the apple rootstock cultivars ‘Baleng Crab’ (Malus robusta Rehd., large RGA) and ‘M9’ (M. pumila Mill., small RGA). With RNA sequencing (RNA-seq) and parental resequencing, six major functional genes were identified and constituted two genetic variation networks for the RGA. Two single nucleotide polymorphisms (SNPs) of the MdLAZY1 promoter damaged the binding sites of MdDREB2A and MdHSFB3, while one SNP of MdDREB2A and MdIAA1 affected the interactions of MdDREB2A/MdHSFB3 and MdIAA1/MdLAZY1, respectively. A SNP within the MdNPR5 promoter damaged the interaction between MdNPR5 and MdLBD41, while one SNP of MdLBD41 interrupted the MdLBD41/MdbHLH48 interaction that affected the binding ability of MdLBD41 on the MdNPR5 promoter. Twenty six SNP markers were designed on candidate genes in each QTL interval, and the marker effects varied from 0.22°-26.11°. Conclusions Six diagnostic markers, SNP592, G122, b13, Z312, S1272, and S1288, were used to identify two intricate genetic variation networks that control the RGA and may provide new insights into the accuracy of the molecular markers. The QTLs and SNP markers can potentially be used to select deep-rooted apple rootstocks. |
topic |
Malus RGA BSA-seq RNA-seq QTLs Genetic variation |
url |
https://doi.org/10.1186/s12864-020-07257-8 |
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