Matthew R. Mattia scite author profile

Long terminal repeat retrotransposons (LTR-RTs) are a large portion of most plant genomes, and can be used as a powerful molecular marker system. The first citrus reference genome (Citrus x clementina) has been publicly available since 2011; however, previous studies in citrus have not utilized the whole genome for LTR-RT marker development. In this study, 3959 full-length LTR-RTs were identified in the C. x clementina genome using structure-based (LTR_FINDER) and homology-based (RepeatMasker) methods. LTR-RTs were first classified by protein domain into Gypsy and Copia superfamilies, and then clustered into 1074 families based on LTR sequence similarity. Three hundred fifty Copia families were grouped into four lineages: Retrofit, Tork, Sire, and Oryco. One hundred seventy-eight Gypsy families were sorted into six lineages: Athila, Tat, Renia, CRM, Galadriel, and Del. Most LTR-RTs (3218 or 81.3%) were anchored to the nine Clementine mandarin linkage groups, accounting for 9.74% of chromosomes currently assembled. Accessions of 25 Rutaceae species were genotyped using 17 inter-retrotransposon amplified polymorphism (IRAP) markers developed from conserved LTR regions. Sequence-specific amplified polymorphism (SSAP) makers were used to distinguish 'Valencia' and 'Pineapple' sweet oranges (C. x sinensis), and 24 sweet orange clones. LTR-RT markers developed from the Clementine genome can be transferred within the Rutaceae family demonstrating that they are an excellent tool for citrus and Rutaceae genetic analysis.

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Genome-Wide Association Study of Healthful Flavonoids among Diverse Mandarin Accessions

Mattia

et al. 2022

Plants

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Mandarins have many unique flavonoids with documented health benefits and that help to prevent chronic human diseases. Flavonoids are difficult to measure and cannot be phenotyped without the use of specialized equipment; consequently, citrus breeders have not used flavonoid contents as selection criteria to develop cultivars with increased benefits for human health or increased tolerance to diseases. In this study, peel, pulp, and seed samples collected from many mandarin accessions and their hybrids were analyzed for the presence of selected flavonoids with documented human health benefits. A genome-wide association study (GWAS) was used to identify SNPs associated with biosynthesis of flavonoids in these mandarin accessions, and there were 420 significant SNPs were found to be associated with 28 compounds in peel, pulp, or seed samples. Four candidate genes involved in flavonoid biosynthesis were identified by enrichment analysis. SNPs that were found to be associated with compounds in pulp samples have the potential to be used as markers to select mandarins with improved phytonutrient content to benefit human health. Mandarin cultivars bred with increased flavonoid content may provide value to growers and consumers.

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Matthew R. Mattia

Estimation of genetic parameters and prediction of breeding values in an autotetraploid blueberry breeding population with extensive pedigree data

LTR retrotransposons from the Citrus x clementina genome: characterization and application

Genome-Wide Association Study of Healthful Flavonoids among Diverse Mandarin Accessions

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