María F. Rodríguez-García scite author profile

María F. Rodríguez-García

4Publications

39Citation Statements Received

63Citation Statements Given

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Affiliations

Instituto Nacional de Investigaciones Forestales Agrícolas y Pecuarias, Colegio de Postgraduados

Publications

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Adult Plant Slow Rusting Genes Confer High Levels of Resistance to Rusts in Bread Wheat Cultivars From Mexico

et al. 2020

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Rust diseases continuously threaten global wheat production: stem rust, leaf rust, and yellow rust caused by Puccinia graminis f. sp. tritici, Puccinia triticina, and Puccinia striiformis f. sp. tritici, respectively. Recent studies indicated that the average losses from all these three rusts reached up to 15.04 million tons per year, which is equivalent to an annual average loss of around US $2.9 billion per year. The major focus of Mexican and worldwide breeding programs is the release of rust resistant cultivars, as this is considered the best option for controlling rust diseases. In Mexico, the emphasis has been placed on genes that confer partial resistance in the adult plant stage and against a broad spectrum of rust races since the 1970s. In this study, a set of the first-generation tall varieties developed and released in the 1940s and 1950s, the first semi-dwarfs, and other releases in Mexico, all of which showed different levels of rust resistance have been phenotyped for the three rust diseases and genotyped. Results of the molecular marker detection indicated that Lr34, Lr46, Lr67, and Lr68 alone or in different gene combinations were present among the wheat cultivars. Flag leaf tip necrosis was present in all cultivars and most were positive for brown necrosis or Pseudo Black Chaff associated with the Sr2 stem rust resistance complex. The phenotypic responses to the different rust infections indicate the presence of additional slow rusting and race-specific resistance genes. The study reveals the association of the slow rusting genes with durable resistance to the three rusts including Ug99 in cultivars bred before the green revolution such as Frontera,

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Resistance evaluation of oat genotypes to stem rust (Puccinia graminis f. sp. avenae)

Espino¹,

Ramírez-Ramírez²,

Leyva-Mir³

et al. 2022

RMF

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The resistance in seedling and adult plant of 13 varieties and 37 lines of oats against stem rust caused by Puccinia graminis f. sp. avenae was evaluated. TNQ and TFQ races and isolates AMEX18.21.1.1 and AMEX18.18.1.1 for seedling evaluation; and AMEX18.18.1.1 isolate in adult plants were used. The Diamante, Menonita, Karma and Turquesa varieties were resistant in seedling to the TFQ race, but susceptible to TNQ and the isolates AMEX18.21.1.1 and AMEX18.18.1.1, the other varieties were susceptible to the two races and isolates. All varieties were susceptible to isolate AMEX18.18.1.1, in seedling, but in adult plants these were classified as susceptible, intermediate and only Teporaca was resistant. The 37 lines were classified into 17 groups by final severity and sister lines. Genotypes 25, 28, 34, 39 and 48 were seedling resistant to AMEX18.18.1.1, and the rest were susceptible. In the field all the lines were resistant and only genotype 19 of group 14, reached a 20% infection. From its response in seedlings and in adult plants of the advanced lines, it is inferred that resistance is conditioned by adult plant genes.

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Mejoramiento genético de avena en México

Villaseñor-Mir

Huerta-Espin

Rodríguez-García

et al. 2021

Remexca

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Con la creación del Instituto Nacional de Investigaciones Agrícolas (INIA), se inicia el mejoramiento genético de avena en México en el ahora Campo Experimental Valle de México (CEVAMEX). Inició con la introducción de germoplasma de EUA y Canadá, en 1962 se realizaron las primeras cruzas y en 1967 se liberan las variedades (Chihuahua y Cuauhtémoc). En los años 60’s a 80’s se implementó la rotación de segregantes en diversos ambientes, obtener dos ciclos de selección al año, el método de selección masal gravimétrico y establecimiento de ensayos de rendimiento en ambientes contrastados. Actualmente el Instituto Nacional de Investigaciones Agrícolas y Pecuarias (INIFAP-CEVAMEX) cumple 61 años y ha liberado 33 variedades (18 como INIFAP). Durante 1985 al 2019 se ha incrementado el área sembrada de avena de aproximadamente 400 000 a 900 000 ha, debido a la productividad de las variedades actuales, destacando recientemente ‘Turquesa’ que ha superado en temporal las 8 t ha-1 de grano y que en los últimos 12 años se ha sembrado en 540 000 ha, lo cual arrojó un beneficio de $1 350 millones. Los retos a corto, mediano y largo plazo son incrementar la producción en temporales, fortalecer investigaciones en control genético de la roya del tallo, tolerancia a sequía y calidad nutricional del grano; y sembrar variedades con alto valor nutricional para consumo humano.

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GENÉTICA DE LA RESISTENCIA A ROYA AMARILLA CAUSADA POR Puccinia striiformis f. sp. tritici W. EN TRES GENOTIPOS DE TRIGO (Triticum aestivum L.)

et al. 2019

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La roya amarilla del trigo causada por Puccinia striiformis f. sp. tritici se ha convertido en una enfermedad de importancia a nivel mundial en los últimos años. La resistencia genética en variedades es la estrategia más efectiva para el control de esta enfermedad. En la actualidad existen genotipos de trigo que han mostrado resistencia en diferentes años y ambientes de producción. El objetivo del presente estudio fue determinar el tipo de resistencia y estimar el número de genes que condicionan la resistencia a roya amarilla en los genotipos Glenlea, Romero 73 y Bonza 63. Se utilizó como progenitor susceptible a Avocet-YrA, se generaron tres poblaciones, las cuales se avanzaron hasta obtener familias F5. Las poblaciones se evaluaron en un ensayo con un diseño experimental de bloques completos al azar, bajo epidemias artificiales del hongo causante de la roya amarilla, en la estación experimental del INIFAP-CEVAMEX en Chapingo, México, durante el ciclo primavera-verano (P-V) 2015. La formación de rocío al 100 % y temperaturas entre 10 y 20 ºC fueron favorables para el desarrollo de la enfermedad, lo que permitió determinar que la resistencia de Bonza 63, Glenlea y Romero 73 se debe al efecto de genes menores de tipo cuantitativo. El comportamiento de las familias y el análisis de X2 indicó la presencia de tres genes que confieren resistencia de planta adulta (RPA) a roya amarilla en los genotipos Bonza 63 y Romero 73. Se determinó que la variedad Glenlea posee de cuatro a cinco genes de RPA. Bonza 63, Glenlea y Romero 73 poseen altos niveles de resistencia en planta adulta a las diversas razas presentes en las principales regiones trigueras de México y son adecuados para usarse como progenitores en los programas de mejoramiento para lograr una resistencia durable a roya amarilla.

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