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1.
Sci Rep ; 10(1): 20456, 2020 11 24.
Article in English | MEDLINE | ID: mdl-33235270

ABSTRACT

Phytophthora blight is one of the most serious diseases affecting melon (Cucumis melo) production. Due to the lack of highly resistant germplasms, the progress on disease-resistant research is slow. To understand the genetics of melon resistance to Phytophthora capsici, an F2 population containing 498 individuals was developed by crossing susceptible line E31 to highly resistant line ZQK9. Genetic analysis indicated that the resistance in ZQK9 was controlled by a dominant gene, tentatively named MePhyto. Through bulked-segregant analysis (BSA-Seq) and chromosome walking techniques, the MePhyto gene was mapped to a 52.44 kb interval on chromosome 12. In this region, there were eight genes and their expression patterns were validated by qRT-PCR. Among them, one wall-associated receptor kinase (WAK) gene MELO3C002430 was significantly induced in ZQK9 after P. capsici inoculation, but not in E31. Based on the non-synonymous mutation site in MELO3C002430, a cleaved amplified polymorphic sequence (CAPS) marker, CAPS2430, was developed and this maker was co-segregated with MePhyto in both F2 population and a collection of 36 melon accessions. Thus MELO3C002430 was considered as the candidate gene and CAPS2430 was a promising marker for marker-assisted selection (MAS) in breeding. These results lay a foundation for revealing the resistance mechanism of melon to P. capsici.


Subject(s)
Chromosome Walking/methods , Cucurbitaceae/growth & development , Disease Resistance , Plant Proteins/genetics , Cucurbitaceae/genetics , Cucurbitaceae/parasitology , Gene Expression Regulation, Plant , Genetic Linkage , Genetic Markers , Models, Molecular , Mutation , Phytophthora/pathogenicity , Plant Breeding , Plant Diseases/parasitology , Plant Proteins/chemistry , Protein Structure, Tertiary
2.
PLoS One ; 15(2): e0227284, 2020.
Article in English | MEDLINE | ID: mdl-32050262

ABSTRACT

Phytophthora blight caused by Phytophthora capsici is a devastating disease for melon plant. However, the underlying resistance mechanisms are still poorly understood. In this study, the transcriptome differences between the resistant ZQK9 and susceptible E31 at 0, 3, and 5 days post-inoculation (dpi) were identified by RNA-seq. A total of 1,195 and 6,595 differentially expressed genes (DEGs) were identified in ZQK9 and E31, respectively. P. capsici infection triggered massive transcript changes in the inoculated tissues. Genes related to plant defense responses were activated, which was reflected by a lot of up-regulated DEGs involved in pathogenesis-related (PR) genes, hormones biosynthesis and signal transduction, secondary metabolites biosynthesis and cell wall modification in resistant ZQK9. The dataset generated in this study may provide a basis for identifying candidate resistant genes in melon against P. capsici and lay a foundation for further research on the molecular mechanisms.


Subject(s)
Cucurbitaceae/genetics , Disease Resistance/genetics , Gene Expression Regulation, Plant/genetics , Plant Diseases/genetics , Plant Proteins/genetics , Transcriptome/genetics , Gene Expression Profiling/methods , Phytophthora/growth & development
3.
Nat Genet ; 51(11): 1607-1615, 2019 11.
Article in English | MEDLINE | ID: mdl-31676864

ABSTRACT

Melon is an economically important fruit crop that has been cultivated for thousands of years; however, the genetic basis and history of its domestication still remain largely unknown. Here we report a comprehensive map of the genomic variation in melon derived from the resequencing of 1,175 accessions, which represent the global diversity of the species. Our results suggest that three independent domestication events occurred in melon, two in India and one in Africa. We detected two independent sets of domestication sweeps, resulting in diverse characteristics of the two subspecies melo and agrestis during melon breeding. Genome-wide association studies for 16 agronomic traits identified 208 loci significantly associated with fruit mass, quality and morphological characters. This study sheds light on the domestication history of melon and provides a valuable resource for genomics-assisted breeding of this important crop.


Subject(s)
Chromosome Mapping , Cucurbitaceae/genetics , Domestication , Genome, Plant , Polymorphism, Single Nucleotide , Quantitative Trait Loci , Cucurbitaceae/classification , Cucurbitaceae/growth & development , Genome-Wide Association Study , Genomics , Phenotype , Plant Breeding
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