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1.
Plant Dis ; : PDIS01230143RE, 2024 Apr 19.
Artigo em Inglês | MEDLINE | ID: mdl-37622270

RESUMO

Anthracnose, caused by the fungus Colletotrichum lindemuthianum, is a major disease of common bean (Phaseolus vulgaris L.) worldwide. C. lindemuthianum is genetically highly variable, and understanding the pathogen's diversity and distribution is a key step in developing common bean varieties with durable anthracnose resistance. The objectives of this study were to (i) characterize the race structure of C. lindemuthianum in Zambia and (ii) assess the molecular diversity of C. lindemuthianum in Zambia. A field survey was conducted in 20 bean-growing districts in Zambia to collect anthracnose symptomatic bean plants. A total of 103 C. lindemuthianum isolates were collected and characterized based on their reactions on 12 common bean race differential cultivars. RAM and ERIC-BOX DNA markers were used to assess molecular diversity of 60 isolates. A total of 58 races were characterized from the 103 isolates. Race 5 was the least virulent, and race 1631 was the most virulent based on their reaction on the 12 race differential cultivars. Race 19 had the highest recovery frequency (11%) and was the most extensively dispersed among the 22 bean-growing districts from where the isolates were collected. Only six races had previously been reported in Zambia, and 52 races were identified as new races reported for the first time in Zambia. Two races were virulent only on Andean cultivars, 11 races were virulent only on Middle American cultivars, and 45 races were virulent on both Andean and Middle American cultivars. No individual isolate showed pathogenicity on all the differential cultivars, and no isolate overcame the Co-4, Co-5, and Co-7 resistance gene pyramid that naturally exists in G2333. Phylogenetic analysis categorized the 60 isolates in six major clusters and six subclusters. The 60 isolates showed high genetic heterogeneity among and within a race of the same virulence. The study has revealed the existence of both Andean and Middle American races and extensive molecular diversity of C. lindemuthianum in Zambia. The knowledge on the race structure of C. lindemuthianum that this study has provided will be valuable for making breeding decisions on the host plant resistance genes required for developing common bean varieties with durable resistance to anthracnose in Zambia.

2.
Theor Appl Genet ; 136(11): 222, 2023 Oct 12.
Artigo em Inglês | MEDLINE | ID: mdl-37823979

RESUMO

KEY MESSAGE: Quantitative Trait Loci "hotspots" for drought tolerance were identified on chromosomes Pv06, Pv07 and Pv10 of common bean. Drought is a major production constraint of common bean (Phaseolus vulgaris L.) worldwide. The objective of this study was to identify the Quantitative Trait Loci (QTL) for drought tolerance in an Andean population of Recombinant Inbred Lines (RILs). A total of 155 F5:7 RILs derived from a cross between Kijivu (drought tolerant) and Bukoba (drought susceptible) were evaluated for drought tolerance in field and pot experiments. Four field experiments were conducted at three locations in Zambia in 2020 and 2021. All field trials were conducted in the dry season under irrigation. The 155 RILs were genotyped with 11,292 SNPs, and composite interval mapping was conducted to identify QTL for drought tolerance. Seed yield for Kijivu under drought stress was consistently higher than for Bukoba across all four field trials. A total of 60 QTL were identified for morphological, agronomic, and physiological traits under drought stress and non-stress conditions. However, the majority of these QTL were specific to drought stress. QTL "hotspots" for drought tolerance were identified on chromosomes Pv06, Pv07, and Pv10. Extensive co-localizations for agronomic and morpho-physiological traits under drought stress were observed at the three drought-tolerance QTL hotspots. Additionally, these three QTL hotspots overlapped with previously identified QTL for drought tolerance, while several others identified QTL are novel. The three identified QTL hotspots could be used in future marker-assisted selection for drought tolerance in common bean.


Assuntos
Phaseolus , Locos de Características Quantitativas , Phaseolus/genética , Mapeamento Cromossômico , Resistência à Seca , Fenótipo , Secas
3.
Plant Environ Interact ; 5(4): e70003, 2024 Aug.
Artigo em Inglês | MEDLINE | ID: mdl-39135746

RESUMO

Pod shattering is a major production constraint of soybean [Glycine max (L.)]. The objectives of this study were to (i) estimate heritability for pod shattering resistance, (ii) determine the frequency of the pod shattering resistance allele pdh1 in the International Institute for Tropical Agriculture (IITA) soybean germplasm and Zambian commercial varieties, and (iii) determine the effectiveness of the DNA marker for the pod shattering resistance allele pdh1. A total of 59 genotypes were evaluated for pod shattering in field trials conducted in Malawi and Zambia and genotyped with a marker for pdh1. TGx2002-8FM and TGx2002-9FM were the most resistant among genotypes in early and medium maturity classes and can be used for genetic enhancement of pod shattering resistance in these specific maturity classes. Narrow sense heritability estimates for pod shattering ranged from 0.27 to 0.80. Of the 59 genotypes, 57 (96.6%) carried the resistance allele pdh1 while only two genotypes (3.6%) carried the susceptible allele, suggesting near-fixation of the resistance allele pdh1 in the IITA germplasm. The marker for pdh1 was highly effective in selecting resistant genotypes.

4.
PLoS One ; 18(11): e0293291, 2023.
Artigo em Inglês | MEDLINE | ID: mdl-37948396

RESUMO

Anthracnose caused by Colletotrichum lindemuthianum is a major disease of common bean (Phaseolus vulgaris) worldwide. Yellow beans are a major market class of common bean especially in eastern and southern Africa. The Yellow Bean Collection (YBC), which is comprised of 255 genotypes, and has not been used previously in genetic studies on anthracnose, is an excellent genetic resource for understanding the extent of anthracnose resistance and its genetic architecture in the yellow bean market class. The objectives of this study were i) evaluate the YBC for resistance to races 5, 19, 39, 51, 81, 183, 1050 and 1105 of C. lindemuthianum. and ii) conduct genome-wide association analysis to identify genomic regions and candidate genes associated with resistance to C. lindemuthianum. The YBC was genotyped with 72,866 SNPs, and genome-wide association analysis was conducted using Mixed Linear Model in TASSEL. Andean and Middle American genotypes with superior levels of resistance to the eight races were identified. YBC278 was the only one among 255 genotypes that was highly resistant to all eight races. Resistance to anthracnose in the YBC was controlled by major-effect loci on chromosomes Pv01, Pv03, Pv04, Pv05 and Pv07. The genomic region on Pv01, which overlapped with the Andean locus Co-1 provided resistance to races 81, 1050 and 1105. Significant SNPs for resistance to race 39 were identified on Pv02. The genomic region on Pv04, which overlapped with known major-effect loci Co-3, Co-15, Co-16, Co-y and Co-z, provided resistance to races 5, 19, 51 and 183. Novel genomic regions for resistance to race 39 were identified on Pv05 and Pv07. Plant resistance genes (R genes) with NB-ARC and LRR domains, which occurred in clusters, were identified as positional candidate genes for genomic regions on Pv02 and Pv04.


Assuntos
Phaseolus , Mapeamento Cromossômico , Marcadores Genéticos , Phaseolus/genética , Resistência à Doença/genética , Estudo de Associação Genômica Ampla , Doenças das Plantas/genética
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