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1.
Virus Res ; 291: 198192, 2021 01 02.
Article in English | MEDLINE | ID: mdl-33058965

ABSTRACT

Geminiviruses cause devastating diseases in solanaceous crops, with the bipartite begomoviruses tomato yellow leaf curl Kanchanaburi virus (TYLCKaV) and pepper yellow leaf curl Thailand virus (PYLCThV) major threats in Southeast Asia. To determine the molecular mechanism of geminivirus infection, we constructed infectious clones of TYLCKaV and PYLCThV. Both constructs infected Nicotiana benthamiana, but only TYLCKaV could infect Solanum lycopersicum 'A39'. A genome-swapping of TYLCKaV with PYLCThV revealed the TYLCKaV-B genome segment as the determinant of TYLCKaV infectivity in tomato. We constructed five geminivirus clones with chimeric TYLCKaV-B and PYLCThV-B genome segments to narrow down the region determining TYLCKaV infectivity in tomato. Only chimeric clones carrying the TYLCKaV intergenic region (IR) showed infectivity in S. lycopersicum 'A39', indicating that the IR of TYLCKaV-B is essential for TYLCKaV infectivity in tomato. Our results provide a foundation for elucidating the molecular mechanism of geminivirus infection in plants.


Subject(s)
Begomovirus/genetics , Plant Diseases/virology , Plant Leaves/virology , Solanum lycopersicum/virology , Begomovirus/pathogenicity , Cloning, Molecular , DNA, Intergenic/genetics , DNA, Viral/genetics , Genome, Viral , Phylogeny , Nicotiana/virology , Virulence Factors/genetics
2.
Plant Biotechnol J ; 17(6): 1081-1093, 2019 06.
Article in English | MEDLINE | ID: mdl-30467964

ABSTRACT

The diverse colours of mature pepper (Capsicum spp.) fruit result from the accumulation of different carotenoids. The carotenoid biosynthetic pathway has been well elucidated in Solanaceous plants, and analysis of candidate genes involved in this process has revealed variations in carotenoid biosynthetic genes in Capsicum spp. However, the allelic variations revealed by previous studies could not fully explain the variation in fruit colour in Capsicum spp. due to technical difficulties in detecting allelic variation in multiple candidate genes in numerous samples. In this study, we uncovered allelic variations in six carotenoid biosynthetic genes, including phytoene synthase (PSY1, PSY2), lycopene ß-cyclase, ß-carotene hydroxylase, zeaxanthin epoxidase and capsanthin-capsorubin synthase (CCS) genes, in 94 pepper accessions by single-molecule real-time (SMRT) sequencing. To investigate the relationship between allelic variations in the candidate genes and differences in fruit colour, we performed ultra-performance liquid chromatography analysis using 43 accessions representing each allelic variation. Different combinations of dysfunctional mutations in PSY1 and CCS could explain variation in the compositions and levels of carotenoids in the accessions examined in this study. Our results demonstrate that SMRT sequencing technology can be used to rapidly identify allelic variation in target genes in various germplasms. The newly identified allelic variants will be useful for pepper breeding and for further analysis of carotenoid biosynthesis pathways.


Subject(s)
Alleles , Capsicum , Carotenoids , Genetic Variation , Pigments, Biological , Capsicum/genetics , Capsicum/metabolism , Carotenoids/metabolism , Fruit/genetics , Pigments, Biological/genetics , Sequence Analysis, DNA
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