QTL and Transcriptomic Analyses Implicate Cuticle Transcription Factor SHINE as a Source of Natural Variation for Epidermal Traits in Cucumber Fruit

QTL and Transcriptomic Analyses Implicate Cuticle Transcription Factor SHINE as a Source of Natural Variation for Epidermal Traits in Cucumber Fruit

The fruit surface is a unique tissue with multiple roles influencing fruit development, post-harvest storage and quality, and consumer acceptability. Serving as the first line of protection against herbivores, pathogens, and abiotic stress, the surface can vary markedly among species, cultivars with...

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Main Authors: Stephanie Rett-Cadman, Marivi Colle, Ben Mansfeld, Cornelius S. Barry, Yuhui Wang, Yiqun Weng, Lei Gao, Zhangjun Fei, Rebecca Grumet
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-11-01
Series:Frontiers in Plant Science
Subjects:
cucumber
Cucumis sativus
fruit surface
cuticle
lipid droplet
epidermis
Online Access:https://www.frontiersin.org/article/10.3389/fpls.2019.01536/full
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spelling doaj-7c9b94e22cf44dafbe3d7f56a1dba48e2020-11-25T01:15:38ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2019-11-011010.3389/fpls.2019.01536490327QTL and Transcriptomic Analyses Implicate Cuticle Transcription Factor SHINE as a Source of Natural Variation for Epidermal Traits in Cucumber FruitStephanie Rett-Cadman0Marivi Colle1Ben Mansfeld2Cornelius S. Barry3Yuhui Wang4Yuhui Wang5Yiqun Weng6Yiqun Weng7Lei Gao8Zhangjun Fei9Rebecca Grumet10Department of Horticulture and Graduate Program in Plant Breeding, Genetics and Biotechnology, Michigan State University, East Lansing, MI, United StatesDepartment of Horticulture and Graduate Program in Plant Breeding, Genetics and Biotechnology, Michigan State University, East Lansing, MI, United StatesDepartment of Horticulture and Graduate Program in Plant Breeding, Genetics and Biotechnology, Michigan State University, East Lansing, MI, United StatesDepartment of Horticulture and Graduate Program in Plant Breeding, Genetics and Biotechnology, Michigan State University, East Lansing, MI, United StatesDepartment of Horticulture, University of Wisconsin, Madison, WI, United StatesUSDA-ARS, Vegetable Crops Research Unit, Madison, WI, United StatesDepartment of Horticulture, University of Wisconsin, Madison, WI, United StatesUSDA-ARS, Vegetable Crops Research Unit, Madison, WI, United StatesBoyce Thompson Institute, Cornell University, Ithaca, NY, United StatesBoyce Thompson Institute, Cornell University, Ithaca, NY, United StatesDepartment of Horticulture and Graduate Program in Plant Breeding, Genetics and Biotechnology, Michigan State University, East Lansing, MI, United StatesThe fruit surface is a unique tissue with multiple roles influencing fruit development, post-harvest storage and quality, and consumer acceptability. Serving as the first line of protection against herbivores, pathogens, and abiotic stress, the surface can vary markedly among species, cultivars within species, and developmental stage. In this study we explore developmental changes and natural variation of cucumber (Cucumis sativus L.) fruit surface properties using two cucumber lines which vary greatly for these traits and for which draft genomes and a single nucleotide polymorphism (SNP) array are available: Chinese fresh market type, Chinese Long ‘9930’ (CL9930), and pickling type, ‘Gy14’. Thin-section samples were prepared from the mid-region of fruit harvested at 0, 4, 8, 12, 16, 20, 24 and 30 days post pollination (dpp), stained with Sudan IV and evaluated for cuticle thickness, depth of wax intercalation between epidermal cells, epidermal cell size and shape, and number and size of lipid droplets. ‘Gy14’ is characterized by columnar shaped epidermal cells, a 2–3 fold thicker cuticular layer than CL9930, increased cuticular intercalations between cells and a larger number and larger sized lipid droplets. In both lines maximal deposition of cuticle and increase in epidermal size coincided with exponential fruit growth and was largely completed by approximately 16 dpp. Phenotyping and quantitative trait locus mapping (QTL) of fruit sampled from an F7:F8 Gy14 × CL9930 recombinant inbred line (RIL) population identified QTL regions on chromosomes 1, 4 and 5. Strong QTL for epidermal cell height, cuticle thickness, intercalation depth, and diameter of lipid droplets co-localized on chromosome 1. SSR markers on chromosome 1 were used to screen for recombinants in an extended RIL population to refine the QTL region. Further fine mapping by KASP assay combined with gene expression profiling suggested a small number of candidate genes. Tissue specificity, developmental analysis of expression, allelic diversity and gene function implicate the regulatory factor CsSHINE1/WIN1 as a source of natural variation for cucumber fruit epidermal traits.https://www.frontiersin.org/article/10.3389/fpls.2019.01536/fullcucumberCucumis sativusfruit surfacecuticlelipid dropletepidermis
collection DOAJ
language English
format Article
sources DOAJ
author Stephanie Rett-Cadman
Marivi Colle
Ben Mansfeld
Cornelius S. Barry
Yuhui Wang
Yuhui Wang
Yiqun Weng
Yiqun Weng
Lei Gao
Zhangjun Fei
Rebecca Grumet
spellingShingle Stephanie Rett-Cadman
Marivi Colle
Ben Mansfeld
Cornelius S. Barry
Yuhui Wang
Yuhui Wang
Yiqun Weng
Yiqun Weng
Lei Gao
Zhangjun Fei
Rebecca Grumet
QTL and Transcriptomic Analyses Implicate Cuticle Transcription Factor SHINE as a Source of Natural Variation for Epidermal Traits in Cucumber Fruit
Frontiers in Plant Science
cucumber
Cucumis sativus
fruit surface
cuticle
lipid droplet
epidermis
author_facet Stephanie Rett-Cadman
Marivi Colle
Ben Mansfeld
Cornelius S. Barry
Yuhui Wang
Yuhui Wang
Yiqun Weng
Yiqun Weng
Lei Gao
Zhangjun Fei
Rebecca Grumet
author_sort Stephanie Rett-Cadman
title QTL and Transcriptomic Analyses Implicate Cuticle Transcription Factor SHINE as a Source of Natural Variation for Epidermal Traits in Cucumber Fruit
title_short QTL and Transcriptomic Analyses Implicate Cuticle Transcription Factor SHINE as a Source of Natural Variation for Epidermal Traits in Cucumber Fruit
title_full QTL and Transcriptomic Analyses Implicate Cuticle Transcription Factor SHINE as a Source of Natural Variation for Epidermal Traits in Cucumber Fruit
title_fullStr QTL and Transcriptomic Analyses Implicate Cuticle Transcription Factor SHINE as a Source of Natural Variation for Epidermal Traits in Cucumber Fruit
title_full_unstemmed QTL and Transcriptomic Analyses Implicate Cuticle Transcription Factor SHINE as a Source of Natural Variation for Epidermal Traits in Cucumber Fruit
title_sort qtl and transcriptomic analyses implicate cuticle transcription factor shine as a source of natural variation for epidermal traits in cucumber fruit
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2019-11-01
description The fruit surface is a unique tissue with multiple roles influencing fruit development, post-harvest storage and quality, and consumer acceptability. Serving as the first line of protection against herbivores, pathogens, and abiotic stress, the surface can vary markedly among species, cultivars within species, and developmental stage. In this study we explore developmental changes and natural variation of cucumber (Cucumis sativus L.) fruit surface properties using two cucumber lines which vary greatly for these traits and for which draft genomes and a single nucleotide polymorphism (SNP) array are available: Chinese fresh market type, Chinese Long ‘9930’ (CL9930), and pickling type, ‘Gy14’. Thin-section samples were prepared from the mid-region of fruit harvested at 0, 4, 8, 12, 16, 20, 24 and 30 days post pollination (dpp), stained with Sudan IV and evaluated for cuticle thickness, depth of wax intercalation between epidermal cells, epidermal cell size and shape, and number and size of lipid droplets. ‘Gy14’ is characterized by columnar shaped epidermal cells, a 2–3 fold thicker cuticular layer than CL9930, increased cuticular intercalations between cells and a larger number and larger sized lipid droplets. In both lines maximal deposition of cuticle and increase in epidermal size coincided with exponential fruit growth and was largely completed by approximately 16 dpp. Phenotyping and quantitative trait locus mapping (QTL) of fruit sampled from an F7:F8 Gy14 × CL9930 recombinant inbred line (RIL) population identified QTL regions on chromosomes 1, 4 and 5. Strong QTL for epidermal cell height, cuticle thickness, intercalation depth, and diameter of lipid droplets co-localized on chromosome 1. SSR markers on chromosome 1 were used to screen for recombinants in an extended RIL population to refine the QTL region. Further fine mapping by KASP assay combined with gene expression profiling suggested a small number of candidate genes. Tissue specificity, developmental analysis of expression, allelic diversity and gene function implicate the regulatory factor CsSHINE1/WIN1 as a source of natural variation for cucumber fruit epidermal traits.
topic cucumber
Cucumis sativus
fruit surface
cuticle
lipid droplet
epidermis
url https://www.frontiersin.org/article/10.3389/fpls.2019.01536/full
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