1. Jinkwan Jo1, Jelli Venkatesh1, Koeun Han1 and Byoung-Cheorl Kang1*
(PC) Genetic Mapping and Marker Development for the Powdery Mildew Resistance Gene PMR1 in Pepper (Capsicum annuum)
Jinkwan Jo1, Jelli Venkatesh1, Koeun Han1 and Byoung-Cheorl Kang1*
1Department of Plant Science, Plant Genomics and Breeding Institute, and Vegetable Breeding Research Center, College of Agriculture and Life Sciences, Seoul National University, Seoul , Republic of Korea
*Corresponding author Byoung-Cheorl Kang
Abstract
Powdery mildew (Capsicum annuum) is a major fungal disease caused by Leveillula taurica in greenhouse. Although powdery mildew resistance has a complex mode of inheritance, resistant cultivars have been steadily developed. Therefore, our objective was to map the resistance gene to powdery mildew resistance using a breeding line, C. annuum ‘VK515 R’. Based genetic analysis of an F2:3 families derived from across between the resistant parent ‘VK515 R’ and a susceptible parent ‘VK515 S’, it was found that the powdery mildew resistant is controlled by a single dominant gene, PMR1. Molecular mapping revealed that the PMR1 locus is located at 1 cM genetic interval between CZ2_11628, and HRM4.1.6 markers on pepper chromosome 0. These results provide a solid foundation for map-based cloning of the PMR1 gene and development of markers for breeding powdery mildew resistant cultivars. This is the first report showing the localization of the resistance gene to powdery mildew in pepper.
Objectives
To develop molecular markers linked to the PM resistance in Capsicum
To conduct fine mapping of the PM resistance gene
Marker enrichment
Genotyping was performed with the Fluidigm® EP1TM system and PMR1 locus were localized on chromosome 0. Therefore, more markers were tried to be added around the PMR1 locus using genomic information of Capsicum. A total 8 markers were developed.
Marker validation using GBS
To validate closely markers, genotyping by sequencing (GBS) was performed using twelve VK515.
Genetic mapping of the powdery mildew resistance gene
A total of nine polymorphic markers were further developed in 102 VK515 F2:3 families based on genotyping analysis, three recombinants with ZL1_10691, one recombinants with each of the markers CZ2_11628 and HRM4.1.6 markers were identified from 102 F2:3 population (Figs 2, 3). Among the nine markers used, six markers, ZL1_1826, HPGV_1313, HPGV_1344, HPGV_1412, KS and HRM2_A4, were perfectly co-segregated with powdery mildew resistant phenotype and found to be at a genetic distance of 0 cM from the PMR1 locus. The PMR1 locus was delimited to a 1 cM region between CZ2_11628 and HRM4.1.6 markers on chromosome 0 (Fig 3).
Comparison of the physical position of the PMR1 region
The GBS SNP data from C. chinense and C. annuum were aligned. A total of 59 SNP markers were detected from the PMR1 region from C. chinense, whereas as 92 SNP markers detected from C. annuum. Among 59 SNP markers were detected from C. chinense, a total 35 SNP were validated by BLAST searches against C. annuum and 14 SNP markers showed collinearity with C. chinense (Fig 3).
These results provide a solid foundation for map-based cloning of the PMR1 gene and development of markers for breeding powdery mildew resistant cultivars.
Materials and Methods
Plant materials
Resistant parent C. annuum ‘VK-515 R’
Susceptible patent C. annuum ‘VK-515 S’
Resistant control is the commercial cultivar C. annuum ‘PM Singang’
Susceptible control is the commercial cultivar C. annuum ‘Bukang’
VK515’ 102 F2:3 families were derived from a ‘VK515 R’ × ‘VK515 S’ cross
Inoculum preparation and disease infection
Infectious ‘Bukang’ and ‘VK515 S’ plants were kept around F2:3 plants grown in plastic trays (50 cell trays) at one-tray intervals.
Disease resistance scoring
Localization of the PMR1 gene on a pepper linkage map
Genotyping was performed with the Fluidigm® EP1TM system and Dynamic Array Chip
Genotyping-by-sequencing (GBS)
CLC genomics workbench
Disestion: PstI and MseI
Sequencing: Illumina Hiseq 2000
Genetic mapping of PMR1 locus
CarthaGene Software and MapChart 2.3 software
Comparison of GBS SNP data between C. annuum and C. chinense
Genome: C. annuum L_Zunla-1, C. chinense v.1.2
Figure 2. Analysis of molecular markers. A) PCR analysis of ZL1_1826 SCAR marker and CZ2_11628 CAPS marker. B) Normalized HRM curves of SNP based markers, HRM4.1.6 and HRM2_A4. RR: genotype of resistant line, rr: genotype of susceptible line, Rr: genotype of heterozygous F1 plants.
Results and Discussion
Inheritance analysis of the PMR1 gene
Segregating analysis of the 102 ‘VK515’ F2:3 families showed 24 resistant, 48 segregating, and 30 susceptible phenotypes, which fit to a 1:2:1 ratio. Phenotype analysis were performed in the 1,932 F3 population derived from F2 individuals (Fig 1). Out of 897 F3 showed 652 resistant and 245 susceptible plants which fit a 3:1 ratio. This results suggested that resistant to powdery mildew is controlled by a single dominant gene (Table 1).
Figure 1. Comparison of phenotype of resistant, susceptible parental lines and commercial pepper cultivar infected with L. taurica. A) ‘VK515 R’ resistant parental line, B) ‘VK515 S’ susceptible parental line, C) ‘PM Singang’ resistant cultivar, D) ‘Bukang’ susceptible cultivar. E) Inoculum preparation where ‘Bukang’ seedlings were surrounded by infectious old ‘Bukang’ plants, F) VK515 F2:3 families surrounded by ‘Bukang’ plants with disease.
Figure 3. Comparative genetic linkage and physical maps of the powdery mildew resistance gene PMR1. A) Physical location of linked scaffolds in C. chinense v.0.0. B) Physical location of linked markers in Zunla-1 genome chromosome 0. C) Genetic map of VK515 F2:3 families.
Table 1. Segregation analysis of powdery mildew resistance in VK515 families
Population
No. of plants
Phenotype
Expected ratio χ2
P-value R H S
VK515 R 20
VK515 S
‘VK515’ F2
102 24 48 30
1:2:1
1.06
0.589
‘VK515’ F3 population
897
652
245
3:1
2.56
0.110
R, Resistant; H, heterozygote; S, susceptible
References
Kang JH, Yang HB, Jeong HS, Choe P, Kwon JK, Kang BC (2014) Single nucleotide polymorphism marker discovery from transcriptome sequencing for marker-assisted backcrossing in Capsicum. Kor J Hortic Sci 32:
Kim DH, Park JH, Lee JS, Han KS, Han YK, Hwang JH (2009) Effect of temperature, relative humidity on germination and development of powdery mildew (Leveillula taurica) on pepper and its inoculation method. Res Plant Dis 15:
Acknowledgement
This research was supported by the Golden Seed Project ( CG900), Ministry of Agriculture, Food and Rural Affairs (MAFRA), Ministry of Oceans and Fisheries (MOF), Rural Development Administration (RDA), and Korea Forest Service (KFS), Republic of Korea.