Summary
Soil-borne mosaic inducing viruses, i.e., barley mild mosaic virus (BaMMV), barley yellow mosaic virus (BaYMV), and BaYMV-2, cause one of the most important diseases of winter barley in Western Europe. Since resistance of all commercial European barley cultivars is due to a single recessive gene (ym4) which is not effective against BaYMV-2, exotic barley germplasms (Hordeum vulgare L., H. spontaneum Koch) were screened for resistance to the different viruses and analyzed for genetic diversity concerning BaMMV resistance. In these studies it turned out that resistance to BaMMV is entirely inherited recessively and that a high degree of genetic diversity concerning resistance is present within the barley gene pool at least to BaMMV. Therefore, exotic barley germplasms are a very useful source for the incorporation of different resistance genes into barley breeding lines, thereby enabling the breeder to create cultivars adapted to cultivation in the growing area of fields infested by soil-borne viruses. Furthermore, in order to obtain more information on these germplasms they were evaluated for agronomic traits and isozyme, RFLP and RAPD analyses were carried out on these varieties to detect markers linked to the respective resistance genes and to obtain information on the genetic similarity between yellow mosaic resistant barley accessions derived from different parts of the world. Actual results of these studies are briefly reviewed.
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References
Erdogan, M., F. Ordon & W. Friedt, 1994. Genetics of resistance of Hordeum spontaneum Koch from Turkey to the barley yellow mosaic virus complex. Barley Genet Newsletter 23: 41–43.
Friedt, W., 1983. Mechanical transmission of soil-borne barley yellow mosaic virus. Phytopath Z 106: 16–22.
Friedt, W., F. Ordon, R. Götz & R. Kaiser, 1990. Bodenbärtige Krankenheiten, eine fortdauernde Herausforderung für die Pflanzenzüchtung-beleuchtet am Beispiel der Gelbmosaikvirose der Gerste. Ber Arbeitstag Saatzuchtl Gumpenstein 40: 27–38.
Götz, R. & W. Friedt, 1993. Resistance to the barley yellow mosaic virus complex - Differential genotypic reactions and genetics of BaMMV resistance of barley (Hordeum vulgare L.). Plant Breeding 111: 125–131.
Graner, A. & E. Bauer, 1993. RFLP mapping of the ym4 virus resistance gene in barley. Theor Appl Genet 86: 689–693.
Graner, A., E. Bauer, A. Kellermann, G. Proeseler, G. Wenzel & F. Ordon, 1995. RFLP analysis of resistance to the barley yellow mosaic virus complex. Agronomie 15: 475–479.
Huth, W., 1990. The yellow mosaic inducing viruses of barley in Germany. p. 113–115. In: R. König (Ed). Proc 1st Symp Int Working Group on Plant Virus with Fungal Vectors. Schriftenreihe Dt Phytomed Ges.
Huth, W. & D.E. Lesemann, 1978. Eine für die Bundesrepublik neue Virose an Wintergerste. Nachrichtenbl Deut Pflanzenschutzd 30: 184–185.
Huth, W. & M.J. Adams, 1990. Barley yellow mosaic virus (BaYMV) and BaYMV-M: two different viruses. Intervirology 31: 38–42.
Ikata, A. & I. Kawai, 1940. Studies on wheat yellow mosaic disease. Noji Kairyo Shiryo 154: 1–123.
Kaiser, R. & W. Friedt, 1989. Chromosomal location of resistance to barley yellow mosaic virus in German winter barley identified by trisomie analysis. Theor Appl Genet 77: 241–245.
Kaiser, R. & W. Friedt, 1992. Gene for resistance to barley mild mosaic virus in German winter barley located on chromosome 3L. Plant Breeding 108: 169–172.
Kashiwazaki, S., K. Nomura, K. Watanabe, I. Toshima, Y. Lida, T. Usugi, K. Ogawa, H. Hibino & T. Tsuchizaki, 1990. Barley yellow mosaic virus and barley mild mosaic virus: strains and host resistance. p. 105–108. In: R. König (Ed). Proc 1st Symp Int Working Group on Plant Virus with Fungal Vectors. Schriftenreihe Dt Phytomed Ges.
Konishi, T., N. Kawada, H. Yoshida & K. Soutome, 1989. Linkage relationships between two loci for the barley yellow mosaic resistance of Mokusekko 3 and esterase isozymes in barley (Hordeum vulgare L.). Japan J Breed 39: 423–430.
Le Gouis, J., M. Erdogan, W. Friedt & F. Ordon, 1995. Potential and limitations of isozymes for chromosomal localization of resistance genes against barley mild mosaic virus ( BaMMV ). Euphytica 82: 25–30.
Nei, M. & W.H. Li, 1979. Mathematical model for studying genetic variation in terms of restriction endonucleases. Proc Natl Acad Sci USA 76: 5269–5273.
Ordon, F. & W. Friedt, 1993. Mode of inheritance and genetic diversity of BaMMV resistance of exotic barley germplasms carrying genes different from ‘ym4’. Theor Appl Genet 86: 229–233.
Ordon, F. & W. Friedt, 1994. Agronomic traits of exotic barley germplasms resistant to soil-borne mosaic-inducing viruses. Genetic Resources and Crop Evolution 41: 43–46.
Ordon, F., M. Erdogan & W. Friedt, 1992. Genetics of resistance of barley to soil-borne viruses. Reproductive Biology and Plant Breeding, Book of Poster Abstracts, XIIIth EUCARPIA Congress, 6–11 July. Angers, France, pp 707–708.
Ordon, F., R. Götz & W. Friedt, 1993. Genetic stocks resistant to barley yellow mosaic virus (BaMMV, BaYMV, BaYMV-2). Barley Genet Newsletter 22: 46–50.
Ordon, F., E. Bauer, W. Friedt & A. Graner, 1995a. Marker-based selection for the ym4 BaMMV-resistance gene in barley using RAPDs. Agronomie 15: 481–485.
Ordon, F., E. Bauer, K.J. Dehmer, A. Graner & W. Friedt, 1995. Identification of a RAPD-marker linked to the BaMMV/BaYMV resistance gene ym4. Barley Genet Newsletter 24: 123–126.
Schiemann, A., K.J. Dehmer, W. Friedt & F. Ordon, 1995. Characterization of barley germplasms resistant to soil-borne mosaic inducing viruses by oligo and PCR fingerprinting. Proc Int Symp 75 Years of Pytopathological and Resistance Research at Aschersleben, Züchtungsforschung 2: 152–155.
Takahashi, R., J. Hayashi, T. Inouye, I. Moriya & C. Hirao, 1973. Studies on resistance to yellow mosaic disease in barley. I. Tests for varietal reactions and genetic analysis of resistance to the disease. Ber Ohara Inst 16: 1–17.
Toyama, A. & T. Kusaba, 1970. Transmission of soil-borne barley yellow mosaic virus. 2. Polymyxa graminis Led. as vector. Ann Phytopath Soc Japan 36: 223–229.
Ukai, Y., 1984. Genetic analysis of a mutant resistant to barley yellow mosaic virus. Barley Genet Newsletter 14: 31–33.
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© 1997 Springer Science+Business Media Dordrecht
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Ordon, F., Weyen, J., Korell, M., Friedt, W. (1997). Exotic barley germplasms in breeding for resistance to soil-borne viruses. In: Tigerstedt, P.M.A. (eds) Adaptation in Plant Breeding. Developments in Plant Breeding, vol 4. Springer, Dordrecht. https://doi.org/10.1007/978-94-015-8806-5_37
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DOI: https://doi.org/10.1007/978-94-015-8806-5_37
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