Characterization and Use in Wheat Breeding of Leaf Rust Resistance Genes from Durable Varieties

Characterization and Use in Wheat Breeding of Leaf Rust Resistance Genes from Durable Varieties

Leaf rust is one of the most significant diseases of wheat worldwide. In Argentina, it is one of the main reasons for variety replacement that becomes susceptible after large-scale use. Some varieties showed durable resistance to this disease, including Buck Manantial and Sinvalocho MA. RILs (Recomb...

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Autores principales: María José Diéguez, Micaela López, Emiliano Altieri, María Fernanda Pergolesi, Marisol Alicia Dabove, Alba Romina Cuyeu, Nadia Justus, Mariana Kandus, Lorena Ingala, Francisco Sacco
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
wheat leaf rust
durable resistance
adult plant resistance genes
marker-assisted selection
gene introgression
fine mapping
Biology (General)
QH301-705.5
Acceso en línea:https://doaj.org/article/82c0993937684269a8bd0ba301b43a94
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Sumario:Leaf rust is one of the most significant diseases of wheat worldwide. In Argentina, it is one of the main reasons for variety replacement that becomes susceptible after large-scale use. Some varieties showed durable resistance to this disease, including Buck Manantial and Sinvalocho MA. RILs (Recombinant Inbred Lines) were developed for each of these varieties and used in genetics studies to identify components of resistance, both in greenhouse inoculations using leaf rust races, and in field evaluations under natural population infections. In Buck Manantial, the APR gene <i>LrBMP1</i> was associated with resistance in field tests. In crosses involving Sinvalocho MA, four genes were previously identified and associated with resistance in field testing: APR (Adult Plant Resistance) gene <i>LrSV1</i>, the APR genetic system <i>LrSV2</i> + <i>LrcSV2</i> and the ASR (All Stage Resistance) gene <i>LrG6</i>. Using backcrosses, <i>LrBMP1</i> was introgressed in four commercial susceptible varieties and <i>LrSV1</i>, <i>LrSV2</i> + <i>LrcSV2</i> and <i>LrG6</i> were simultaneously introgressed in three susceptible commercial varieties. The use of molecular markers for recurrent parent background selection allowed us to select resistant lines with more than 80% similarity to commercial varieties. Additionally, progress towards positional cloning of the genetic system <i>LrSV2</i> + <i>LrcSV2</i> for leaf rust APR is reported.

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