Abstract
Slow darkening (SD) is a trait that helps to maintain a brighter seed coat appearance in certain market classes of dry beans. The aim of this study was to generate new fluorescence-based markers and validate previously identified microsatellite markers for linkage to the SD trait in lines of the carioca market class. Four segregating populations were generated by Embrapa, the Brazilian Agricultural Research Corporation, from crosses between the SD cultivar BRSMG Madrepérola and the regular-darkening cultivars BRS Estilo, BRS Cometa, BRS Notável and BRS Sublime. These populations were screened with the simple-sequence markers Pvsd-1158 and PVM02TC116 and with a TaqMan™ marker designed for the single-nucleotide polymorphism (SNP) PvbHLHp12804. A KASP marker was also designed for the PvbHLHp12804 marker for testing on advanced carioca lines developed by the University of Saskatchewan. In the carioca lines developed by Embrapa, PVM02TC116 proved unsuitable for marker-assisted selection (MAS). Both the Pvsd-1158 and PvbHLHp12804 markers were found to be tightly linked to the gene responsible for the SD trait, with genetic distances calculated at 2.8 cM for Pvsd-1158 and 2.0 and 3.1 cM for PvbbHLHp12804, respectively. These markers presented more than 97% of selection efficiency. The genotypic scoring using the PvbHLHp12804 KASP marker was perfectly correlated with the phenotype in all lines of the University of Saskatchewan. The results of this study validates the use of Pvsd-1158 as a gel-based marker for SD in carioca beans. The new fluorescence-based SNP PvbHLHp12804 markers exhibited very tight linkage to SD in carioca and pinto bean lines. These markers will be ideal for MAS for the SD trait in these market classes.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alvares RC, Silva FC, Melo LC, Melo PGS, Pereira HS (2016) Estimation of genetic parameters and selection of high-yielding, upright common bean lines with slow seed-coat darkening. Genet Mol Res 15:gmr15049081
Alves FC (2014). Eficiência da seleção assistida por marcadores moleculares para o escurecimento tardio de grãos em feijão-comum. 2014. 64 f. Dissertação (Mestrado em Genética e Melhoramento de Plantas), Universidade Federal de Lavras, Lavras
Araújo LCA, Ramalho MAP, Abreu AFB (2012) Estimates of genetic parameters of late seed-coat darkening of carioca type dry beans. Ciência Agrotecnol 36:156–162
Bett KE, Vandenberg A, Banniza S, Lu Q, Barlow B, Ife S (2014) CDC WM-2 common bean. Can J Plant Sci 94:469–471
Carneiro MS, Vieira ML (2002) Mapas genéticos em plantas. Bragantia 61:89–100
Carneiro JES, Abreu AFB, Ramalho MAP, Paula Júnior TJ, Del Peloso MJ, Melo LC, Pereira HS, Pereira Filho IA, Martins M, Vieira RF, Martins FAD, Coelho MAO, Carneiro PCS, Moreira JAA, Santos JB, Faria LC, Costa JGC, Teixeira H (2012) BRSMG Madrepérola: common bean cultivar with late-darkening Carioca grain. Crop Breed Appl Biotechnol 4:281–284
Couto KR, Santos JB, Ramalho MAP, Silva GS (2010) Identificação de marcadores moleculares microssatélites relacionados ao escurecimento de grãos em feijão. Pesqui Agropecu Bras 45:1268–1274
Cruz CD (2013) Genes: a software package for analysis in experimental statistics and quantitative genetics. Acta Sci Agron 35:271–276
Doyle JJ, Doyle JL (1990) Isolation of plant DNA from freshtissue. Focus 12:13–15
Elsadr HT, Wright LC, Pauls KP, Bett KE (2011) Characterization of seed coat post-harvest darkening in common bean (Phaseolus vulgaris L.). Theor Appl Genet 123:1467–1472
Embrapa Arroz e Feijão (2018) Home page. https://www.embrapa.br/arroz-e-feijao/produtos-processos-e-servicos. Accessed 22 Feb 2018
Faria LC, Del Peloso MJ, Melo LC, Costa JGC, Rava CA, Díaz JLC, Faria JC, Silva HT, Sartorato A, Bassinelo PZ, Trovo BF (2008) BRS Cometa: a carioca common bean cultivar with erect growth habit. Crop Breed Appl Biotechnol 2:167–169
Felicetti E, Song Q, Jia G, Cregan P, Bett KE, Miklas PN (2012) Simple sequence repeats linked with slow darkening trait in pinto bean discovered by single nucleotide polymorphism assay and whole genome sequence. Crop Sci 52:1600–1608
Junk-Knievel DC, Vandenberg A, Bett KE (2007) An accelerated postharvest seed-coat darkening protocol for pinto beans grown across diferent environments. Crop Sci 47:694–702
Junk-knievel DC, Vanderberg A, Bett KE (2008) Slow darkening in pinto bean (Phaseolus vulgaris L.) seed coats is controlled by a single major gene. Crop Sci 48:189–193
Kosambi DD (1944) The estimation of map distances from recombination values. Ann Eugen 12:172–175
McClean PE, Bett KE, Stonehouse R, Lee R, Pflieger S, Moghaddam SM, Geffroy V, Miklas P, Mamidi S (2018) White seed color in common bean (Phaseolus vulgaris) results from convergent evolution in the P (pigment) gene. New Phytol 219:1112–1123
Melo LC, Del Peloso MJ, Pereira HS, Faria LC, Costa JGC, Díaz JLC, Rava CA, Wendland A, Abreu AFB (2010) BRS Estilo – Common bean cultivar with Carioca grain, upright growth and high yield potential. Crop Breed Appl Biotechnol 10:377–379
Osorno JM, VanderWal AJ, Kloberdanz M, Pasche JS, Schroder S, Miklas PN (2017) A new slow-darkening pinto bean with improved agronomic performance: registration of ‘ND-Palomino’. J Plant Regist 12:25–30. https://doi.org/10.3198/jpr2017.05.0026cr
Pereira HS, Almeida VM, Melo LC, Wendland A, Faria LC, Del Peloso MJ, Magaldi MCS (2012a) Influência do ambiente em cultivares de feijoeiro-comum em cerrado com baixa altitude. Bragantia 71:165–172
Pereira HS, Wendland A, Melo LC, Del Peloso MJ, Faria LC, Costa JGC, Nascente AS, Díaz JLC, Carvalho HWL, Almeida VM, Melo CLP, Costa AF, Posse SCP, Souza JF, Abreu AFB, Magaldi MCS, Guimarães CM, Oliveira JP (2012b) BRS Notável: a médium-early-maturing, disease-resistant Carioca common bean cultivar with high yield potential. Crop Breed Appl Biotechnol 12:220–223
Silva LC, Cruz CD, Moreira MA, Barros EG (2007) Simulation of population size and genome saturation level for genetic map** of recombinant inbred lines (RILs). Genet Mol Biol 30:1101–1108
Silva GS, Ramalho MAP, Abreu AFB, Silva FB (2008) Genetic control of early grain darkening of carioca common bean. Crop Breed Appl Biotechnol 8:299–304
Silva FC, Melo PGS, Pereira HS, Melo LC (2014) Genetic control and estimation of genetic parameters for seed-coat darkening of carioca beans. Genet Mol Res 13:6486–6496
Silva FC, Pereira HS, Melo PGS, Melo LC (2018) Seleção de genitores e populações segregantes de feijoeiro-comum com alto potencial agronômico e escurecimento lento dos grãos. Pesqui Agropecu Trop 48:75–82
Singh SP, Téran H, Lema M, Dennis MF, Hayes R (2006) Registration of slow darkening pinto bean germplasm line SDIP-1. Crop Sci 46:2726–2727
Siqueira BS, Pereira WJ, Batista K, Oomah BD, Fernandes KF, Bassinelo PZ (2014) Influence of storage on darkening and hardening of slow- and regular-darkening carioca bean (Phaseolus vulgaris L.) genotypes. J Agric Stud 2:87–104
Wendland A, Pereira HS, Faria LC, Souza TLPO, Del Peloso MJ, Costa JGC, Díaz JLC, Magaldi MCS, Almeida VM, Carvalho HWL, Melo CLP, Costa AF, Abreu AFB, Melo LC (2018) BRS sublime: common bean cultivar with carioca grain, resistance to angular leaf spot and high nutritional quality. Crop Breed Appl Biotechnol 18:440–445
Author information
Authors and Affiliations
Corresponding author
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Alvares, R.C., Stonehouse, R., Souza, T.L.P.O. et al. Generation and validation of genetic markers for the selection of carioca dry bean genotypes with the slow-darkening seed coat trait. Euphytica 215, 141 (2019). https://doi.org/10.1007/s10681-019-2461-y
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s10681-019-2461-y