Genome-wide association mapping reveals new loci associated with light-colored seed coat at harvest and slow darkening in carioca beans

Caléo Panhoca de Almeida; Isabella Laporte Santos; Jean Fausto de Carvalho Paulino; Caio Cesar Ferrari Barbosa; Cássia Cristina Augusto Pereira; Cassia Regina Limonta Carvalho; Gabriel de Moraes Cunha Gonçalves; Qijian Song; Sérgio Augusto Morais Carbonell; Alisson Fernando Chiorato; Luciana Lasry Benchimol-Reis

doi:10.1186/s12870-021-03122-2

Genome-wide association mapping reveals new loci associated with light-colored seed coat at harvest and slow darkening in carioca beans

BMC Plant Biol. 2021 Jul 20;21(1):343. doi: 10.1186/s12870-021-03122-2.

Affiliations

¹ Common Bean Genetic Group, Natural Center of Plant Genetics, Agronomic Institute (IAC), Campinas, SP, Brazil.
² Common Bean Breeding Group, Grain and Fiber Center, Agronomic Institute (IAC), Campinas, SP, Brazil.
³ USDA-ARSSoybean Genomics and Improvement Lab, Beltsville, MD, USA.
⁴ Common Bean Genetic Group, Natural Center of Plant Genetics, Agronomic Institute (IAC), Campinas, SP, Brazil. luciana.reis@sp.gov.br.

Abstract

Background: Common bean (Phaseolus vulgaris L.) is a legume whose grain can be stored for months, a common practice among Brazilian growers. Over time, seed coats become darker and harder to cook, traits that are undesirable to consumers, who associate darker-colored beans with greater age. Like commercial pinto and cranberry bean varieties, carioca beans that have darker seeds at harvest time and after storage are subject to decreased market values.

Results: The goal of our study was to identify the genetic control associated with lightness of seed coat color at harvest (HL) and with tolerance to post-harvest seed coat darkening (PHD) by a genome-wide association study. For that purpose, a carioca diversity panel previously validated for association mapping studies was used with 138 genotypes and 1,516 high-quality SNPs. The panel was evaluated in two environments using a colorimeter and the CIELAB scale. Shelf storage for 30 days had the most expressive results and the L* (luminosity) parameter led to the greatest discrimination of genotypes. Three QTL were identified for HL, two on chromosome Pv04 and one on Pv10. Regarding PHD, results showed that genetic control differs for L* after 30 days and for the ΔL* (final L*-initial L*); only ΔL* was able to properly express the PHD trait. Four phenotypic classes were proposed, and five QTL were identified through six significant SNPs.

Conclusions: Lightness of seed coat color at harvest showed an oligogenic inheritance corroborated by moderate broad-sense heritability and high genotypic correlation among the experiments. Only three QTL were significant for this trait - two were mapped on Pv04 and one on Pv10. Considering the ΔL, six QTL were mapped on four different chromosomes for PHD. The same HL QTL at the beginning of Pv10 was also associated with ΔL* and could be used as a tool in marker-assisted selection. Several candidate genes were identified and may be useful to accelerate the genetic breeding process.

Keywords: CIELAB scale; Late seed coat darkening; Phaseolus vulgaris L.; Seed coat lightness.

Publication types

Comparative Study

MeSH terms

Brazil
Chromosome Mapping
Crops, Agricultural / genetics
Crops, Agricultural / growth & development
Crosses, Genetic
Fruit
Gene Expression Regulation, Plant
Genes, Plant
Genetic Variation
Genome-Wide Association Study
Genotype
Phaseolus / genetics*
Phaseolus / growth & development*
Phenotype
Pigmentation / genetics*
Plant Breeding
Quantitative Trait Loci
Seeds / genetics*
Seeds / growth & development*
Time Factors