Exploring DNA Variant Segregation Types Enables Mapping Loci for Recessive Phenotypic Suppression of Columnar Growth in Apple

Exploring DNA Variant Segregation Types Enables Mapping Loci for Recessive Phenotypic Suppression of Columnar Growth in Apple

Columnar apples trees, originated from a bud mutation ‘Wijcik McIntosh,’ develop a simple canopy and set fruit on spurs. These characteristics make them an important genetic resource for improvement of tree architecture. Genetic studies have uncovered that columnar growth habit is a dominant trait a...

Full description

Bibliographic Details
Main Authors: Laura Dougherty, Tuanhui Bai, Susan Brown, Kenong Xu
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-06-01
Series:Frontiers in Plant Science
Subjects:
DNA variants
segregation types
pooled genome sequencing
columnar suppressors
RNA-seq
co-expression gene network
Online Access:https://www.frontiersin.org/article/10.3389/fpls.2020.00692/full
id doaj-f5a7a2513e364d15b579eecf7ccb4006
record_format Article
spelling doaj-f5a7a2513e364d15b579eecf7ccb40062020-11-25T02:51:30ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2020-06-011110.3389/fpls.2020.00692510812Exploring DNA Variant Segregation Types Enables Mapping Loci for Recessive Phenotypic Suppression of Columnar Growth in AppleLaura Dougherty0Tuanhui Bai1Tuanhui Bai2Susan Brown3Kenong Xu4Horticulture Section, School of Integrative Plant Science, Cornell Agritech, Cornell University, Geneva, NY, United StatesHorticulture Section, School of Integrative Plant Science, Cornell Agritech, Cornell University, Geneva, NY, United StatesCollege of Horticulture, Henan Agricultural University, Zhengzhou, ChinaHorticulture Section, School of Integrative Plant Science, Cornell Agritech, Cornell University, Geneva, NY, United StatesHorticulture Section, School of Integrative Plant Science, Cornell Agritech, Cornell University, Geneva, NY, United StatesColumnar apples trees, originated from a bud mutation ‘Wijcik McIntosh,’ develop a simple canopy and set fruit on spurs. These characteristics make them an important genetic resource for improvement of tree architecture. Genetic studies have uncovered that columnar growth habit is a dominant trait and is caused by a retroposon insertion that induces the expression of the neighboring gene Co encoding a 2OG-Fe(II) oxygenase. Here we report the genetic mapping of two loci of recessive suppressors (genes) c2 (on Chr10) and c3 (on Chr9) that are linked to repression of the retroposon-induced Co gene expression and associated columnar phenotype in 275 F1 seedlings, which were developed from a reciprocal cross between two columnar selections heterozygous at the Co locus. The mapping was accomplished by sequencing a genomic pool comprising 18 columnar seedlings and another pool of 16 standard seedlings that also carry the retroposon insertion, and by exploring DNA variants of segregation types that are informative for mapping recessive traits in apple. The informative segregation types include <hk × hk>, <lm × ll>, <nn × np>, <lm × mm>, and <pp × np>, where each letter denotes one of the four DNA bases and the letters in bold represent variants in relation to the reference genome. The alleles in each first and third positions are assumed in linkage with the recessive suppressors’ allele in the two parents, respectively. Using RNA-seq analysis, we further revealed that the Co gene together with the differentially expressed genes under loci c2 and c3 formed a co-expression gene-network module associated with growth habit, in which 12 MapMan Bins were enriched.https://www.frontiersin.org/article/10.3389/fpls.2020.00692/fullDNA variantssegregation typespooled genome sequencingcolumnar suppressorsRNA-seqco-expression gene network
collection DOAJ
language English
format Article
sources DOAJ
author Laura Dougherty
Tuanhui Bai
Tuanhui Bai
Susan Brown
Kenong Xu
spellingShingle Laura Dougherty
Tuanhui Bai
Tuanhui Bai
Susan Brown
Kenong Xu
Exploring DNA Variant Segregation Types Enables Mapping Loci for Recessive Phenotypic Suppression of Columnar Growth in Apple
Frontiers in Plant Science
DNA variants
segregation types
pooled genome sequencing
columnar suppressors
RNA-seq
co-expression gene network
author_facet Laura Dougherty
Tuanhui Bai
Tuanhui Bai
Susan Brown
Kenong Xu
author_sort Laura Dougherty
title Exploring DNA Variant Segregation Types Enables Mapping Loci for Recessive Phenotypic Suppression of Columnar Growth in Apple
title_short Exploring DNA Variant Segregation Types Enables Mapping Loci for Recessive Phenotypic Suppression of Columnar Growth in Apple
title_full Exploring DNA Variant Segregation Types Enables Mapping Loci for Recessive Phenotypic Suppression of Columnar Growth in Apple
title_fullStr Exploring DNA Variant Segregation Types Enables Mapping Loci for Recessive Phenotypic Suppression of Columnar Growth in Apple
title_full_unstemmed Exploring DNA Variant Segregation Types Enables Mapping Loci for Recessive Phenotypic Suppression of Columnar Growth in Apple
title_sort exploring dna variant segregation types enables mapping loci for recessive phenotypic suppression of columnar growth in apple
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2020-06-01
description Columnar apples trees, originated from a bud mutation ‘Wijcik McIntosh,’ develop a simple canopy and set fruit on spurs. These characteristics make them an important genetic resource for improvement of tree architecture. Genetic studies have uncovered that columnar growth habit is a dominant trait and is caused by a retroposon insertion that induces the expression of the neighboring gene Co encoding a 2OG-Fe(II) oxygenase. Here we report the genetic mapping of two loci of recessive suppressors (genes) c2 (on Chr10) and c3 (on Chr9) that are linked to repression of the retroposon-induced Co gene expression and associated columnar phenotype in 275 F1 seedlings, which were developed from a reciprocal cross between two columnar selections heterozygous at the Co locus. The mapping was accomplished by sequencing a genomic pool comprising 18 columnar seedlings and another pool of 16 standard seedlings that also carry the retroposon insertion, and by exploring DNA variants of segregation types that are informative for mapping recessive traits in apple. The informative segregation types include <hk × hk>, <lm × ll>, <nn × np>, <lm × mm>, and <pp × np>, where each letter denotes one of the four DNA bases and the letters in bold represent variants in relation to the reference genome. The alleles in each first and third positions are assumed in linkage with the recessive suppressors’ allele in the two parents, respectively. Using RNA-seq analysis, we further revealed that the Co gene together with the differentially expressed genes under loci c2 and c3 formed a co-expression gene-network module associated with growth habit, in which 12 MapMan Bins were enriched.
topic DNA variants
segregation types
pooled genome sequencing
columnar suppressors
RNA-seq
co-expression gene network
url https://www.frontiersin.org/article/10.3389/fpls.2020.00692/full
work_keys_str_mv AT lauradougherty exploringdnavariantsegregationtypesenablesmappinglociforrecessivephenotypicsuppressionofcolumnargrowthinapple
AT tuanhuibai exploringdnavariantsegregationtypesenablesmappinglociforrecessivephenotypicsuppressionofcolumnargrowthinapple
AT tuanhuibai exploringdnavariantsegregationtypesenablesmappinglociforrecessivephenotypicsuppressionofcolumnargrowthinapple
AT susanbrown exploringdnavariantsegregationtypesenablesmappinglociforrecessivephenotypicsuppressionofcolumnargrowthinapple
AT kenongxu exploringdnavariantsegregationtypesenablesmappinglociforrecessivephenotypicsuppressionofcolumnargrowthinapple
_version_ 1724734262852190208

Similar Items