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Título : Mutations found in the Asc1 gene that confer susceptibility to the AAL-Toxin in ancestral tomatoes from Peru and Mexico
Autor : Tsuzuki, Rin
Cabrera Pintado, Rosa María
Biondi Thorndike, Jorge Andrés
Gutiérrez Reynoso, Dina Lida
Amasifuen Guerra, Carlos Alberto
Guerrero Abad, Juan Carlos
Aragón Caballero, Liliana María
Huarhua Zaquinaula, Medali Heidi
Ureta Sierra, Cledy
Alberca Cruz, Olenka Ines
Elespuru Suna, Milca Gianira
Blas Sevillano, Raúl Humberto
Torres Arias, Ines Carolina
Flores Ticona, Joel
Cáceres de Baldárrago, Fátima
Rodoríguez Pérez, Enrique
Hozum, Takuo
Saito, Hiroki
Kotera, Shunsuke
Akagi, Yasunori
Kodama, Motoichiro
Komatsu, Ken
Arie, Tsutome
Fecha de publicación : 28-dic-2020
Resumen : Tomato susceptibility/resistance to stem canker disease caused by Alternaria alternata f. sp. lycopersici and its pathogenic factor AAL-toxin is determined by the presence of the Asc1 gene. Several cultivars of commercial tomato (Solanum lycopersicum var. lycopersicum, SLL) are reported to have a mutation in Asc1, resulting in their susceptibility to AAL-toxin. We evaluated 119 ancestral tomato accessions including S. pimpinellifolium (SP), S. lycopersicum var. cerasiforme (SLC) and S. lycopersicum var. lycopersicum “jitomate criollo” (SLJ) for AAL-toxin susceptibility. Three accessions, SP PER018805, SLC PER018894, and SLJ M5-3, were susceptible to AAL-toxin. SLC PER018894 and SLJ M5-3 had a two-nucleotide deletion (nt 854_855del) in Asc1 identical to that found in SLL cv. Aichi-first. Another mutation (nt 931_932insT) that may confer AAL-toxin susceptibility was identified in SP PER018805. In the phylogenetic tree based on the 18 COSII sequences, a clade (S3) is composed of SP, including the AAL-toxin susceptible PER018805, and SLC. AAL-toxin susceptible SLC PER018894 and SLJ M5-3 were in Clade S2 with SLL cultivars. As SLC is thought to be the ancestor of SLL, and SLJ is an intermediate tomato between SLC and SLL, Asc1s with/without the mutation seem to have been inherited throughout the history of tomato domestication and breeding.
Palabras clave : Solanum pimpinellifolium
Solanum lycopersicum var. cerasiforme
Alternaria alternata tomato pathotype
AAL-toxin
Perú
Editorial : MDPI
Citación : Tsuzuki, R.; Cabrera Pintado, R.M.; Biondi Thorndike, J.A.; Gutiérrez Reynoso, D.L.; Amasifuen Guerra, C.A.; Guerrero Abad, J.C.; Aragón Caballero, L.M.; Huarhua Zaquinaula, M.H.; Ureta Sierra, C.; Alberca Cruz, O.I.; Elespuru Suna, M.G.; Blas Sevillano, R.H.; Torres Arias, I.C.; Flores Ticona, J.; de Baldárrago, F.C.; Pérez, E.R.; Hozumi, T.; Saito, H.; Kotera, S.; Akagi, Y.; Kodama, M.; Komatsu, K.; Arie, T. Mutations found in the Asc1 gene that confer susceptibility to the AAL-Toxin in ancestral tomatoes from Peru and Mexico. Plants 2021, 10, 47. doi: 10.3390/ plants10010047
URI : http://repositorio.inia.gob.pe/handle/20.500.12955/1212
metadata.dc.identifier.doi: https://doi.org/10.3390/plants10010047
metadata.dc.subject.ocde: Biotecnología agrícola, Biotecnología alimentaria
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