Pyramiding efficiency of the genes of resistance to powdery mildew (Blumeria graminis f.sp. tritici) and brown rust (Puccinia triticina) in winter wheat
Aleksandra Pietrusińska
a.pietrusinska@ihar.edu.plInstytut Hodowli i Aklimatyzacji Roślin — Państwowy Instytut Badawczy, Radzików, Krajowe Centrum Roślinnych Zasobów Genowych (Poland)
Supporting Agencies
Prace zostały wykonane w ramach badań podstawowych na rzecz postępu biologicznego w produkcji roślinnej na podstawie decyzji Ministra Rolnictwa i Rozwoju Wsi nr HOR.hn.802.19.2018, Zadanie nr 9.
Keywords:
geny odporności, hodowla odpornościowa, piramidowanie genów odporności, pszenica ozima, mączniak prawdziwy zbóż i traw, rdza brunatna zbóż i trawReferences
Cao A. Z., Wang X. E., Chen Y. P., Zou X. W., Chen P. D. 2006. A sequence-specific PCR marker linked with Pm21 distinguishes chromosomes 6AS, 6BS, 6DS of Triticum aestivum and 6VS of Haynaldia villosa. Plant Breeding 125: 201 — 205.
Czembor H. J., Czembor J. H. 2001. Resistance to powdery mildew in barley cultivars and breeding lines included in 1998–2000 Polish registration trials. Plant Breeding and Seed Science 45 (1): 21 — 41.
Helguera M., Khan I. A., Dubcovsky J. 2000. Development of PCR markers for the wheat leaf rust resistance gene Lr47. Theor. Appl. Genet. 100: 1137 — 1143.
Mains E. B., Dietz S. M. 1930. Physiologic forms of barley mildew, Erysiphe graminis hordei Marchal. Phytopathol. 20: 229 — 239.
Miranda L. M., Murphy J. P., Leath S., Marshall D. 2006. Pm34: a new powdery mildew resistance gene transferred from Aegilops tauschii Coss. to common wheat (Triticum aestivum L.). Theor. Appl. Genet. 113: 1497 — 1504.
Perugini L. D., Murphy J. P., Marshall D., Brown-Guedira G. 2008. Pm37, a new broadly effective powdery mildew resistance gene from Triticum timopheevii. Theor. Appl. Genet. 116: 417 — 425.
Singh S., Franks C. D., Huang L., Brown-Guedira G. L., Marshall D. S., Gill B. S. 2004. Lr41, Lr39, and a leaf rust resistance gene from Aegilops cylindrica may be allelic and are located on wheat chromosome 2DS. Theor. Appl. Genet. 108: 586 — 591.
Vanzetti L. S., Brevis J. C., Dubcousky J. 2006. Identification of microsatellites linked to Lr47. Electronic Journal of Biotechnology 9 (3): 267 — 271. Google Scholar
Czembor H. J., Czembor J. H. 2001. Resistance to powdery mildew in barley cultivars and breeding lines included in 1998–2000 Polish registration trials. Plant Breeding and Seed Science 45 (1): 21 — 41.
Helguera M., Khan I. A., Dubcovsky J. 2000. Development of PCR markers for the wheat leaf rust resistance gene Lr47. Theor. Appl. Genet. 100: 1137 — 1143.
Mains E. B., Dietz S. M. 1930. Physiologic forms of barley mildew, Erysiphe graminis hordei Marchal. Phytopathol. 20: 229 — 239.
Miranda L. M., Murphy J. P., Leath S., Marshall D. 2006. Pm34: a new powdery mildew resistance gene transferred from Aegilops tauschii Coss. to common wheat (Triticum aestivum L.). Theor. Appl. Genet. 113: 1497 — 1504.
Perugini L. D., Murphy J. P., Marshall D., Brown-Guedira G. 2008. Pm37, a new broadly effective powdery mildew resistance gene from Triticum timopheevii. Theor. Appl. Genet. 116: 417 — 425.
Singh S., Franks C. D., Huang L., Brown-Guedira G. L., Marshall D. S., Gill B. S. 2004. Lr41, Lr39, and a leaf rust resistance gene from Aegilops cylindrica may be allelic and are located on wheat chromosome 2DS. Theor. Appl. Genet. 108: 586 — 591.
Vanzetti L. S., Brevis J. C., Dubcousky J. 2006. Identification of microsatellites linked to Lr47. Electronic Journal of Biotechnology 9 (3): 267 — 271. Google Scholar
Pietrusińska , A. . (2019) “Pyramiding efficiency of the genes of resistance to powdery mildew (Blumeria graminis f.sp. tritici) and brown rust (Puccinia triticina) in winter wheat”, Bulletin of Plant Breeding and Acclimatization Institute, (286), pp. 35–40. doi: 10.37317/biul-2019-0007.
Authors
Aleksandra Pietrusińskaa.pietrusinska@ihar.edu.pl
Instytut Hodowli i Aklimatyzacji Roślin — Państwowy Instytut Badawczy, Radzików, Krajowe Centrum Roślinnych Zasobów Genowych Poland
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