| 4,110 |
Li H.J., Conner R.L., Liu Z.Y. et al. Characterization of wheat-triticale lines resistant to powdery mildew, stem rust, stripe rust, wheat curl mite, and limitation on spread of WSMV //Plant Dis. 2007. Vol. 91: 368-374.
|
| 4,109 |
Li Z.F., Xia X.C., He Z.H. et al. Seedling and Slow Rusting Resistance to Leaf Rust in Chinese Wheat Cultivars //Plant Dis. 2010. Vol. 94: 45-53.
|
| 4,108 |
Herrera-Foessel S.A., Singh R.P., Huerta-Espino J. et al. New genes for leaf rust resistance in CIMMYT durum wheats //Plant Dis. 2005. V. 89: 809-814.
|
| 4,107 |
Chartrain L., Brading P.A., Brown J.K.M. Presence of the Stb6 genefor resistance to septoria tritici blotch (Mycosshaerella graminicola) in cultivars used in wheat-breeding programmes worldwide //Plant Pathology. 2005. V. 54: 134-143.
|
| 4,106 |
Kolmer J.A., Long D.L, Hughes M.E. Physiologic specialization of Puccinia triticina on wheat in the United States in 2009. //Plant Dis. 2011. Vok. 95 (8): 935-940.
|
| 4,105 |
McIntosh R.A., Dubcovsky J., Rogers W.J. Catalogue of gene symbolsfor wheat: 2012 Supplement //Ann. Wheat Newslet. 2012. V. 58: 72-74.
|
| 4,104 |
Mohler V., Bauer A., Bauer C. et al. Genetic analysis of powdery mildew resistance in German winter wheat cultivar Cortez //Plant Breeding. 2011. V. 130 (1): 35-40.
|
| 4,103 |
Semillas Batlle - Cereales Invierno.
|
| 4,102 |
Societa Produttori Sementy (www.prosementi.com)
|
| 4,101 |
Sivasamy M., Kumar J., Jayprakash P. et al. Molecular and phenotypic diagnostics applied to verify the presence of rust resistance genes Lr24, Yr15, and Sr2 in a high-yielding bread wheat genotype suited for cultivation in Central India //Ann. Wheat Newslett. 2012. V. 58: 81-84.
|
| 4,100 |
Items from Hungary. Agric. Institute, Centre for Agric. Research, Hungarian Academy of Sciences. Breeding //Ann. Wheat Newslet. 2012. V. 58: 72-74.
|
| 4,099 |
Chang C., Zhang H.-P., Zhao Q.-X. et al. Rich allelic variations of Viviparous-1A and their associations with seed dormancy/pre-harvest sprouting ofcommon wheat //Euphytica. 2011. V. 179: 343-353.
|
| 4,098 |
Borlaug Global Rust Initiative. A resource for scientists and policymakers about the rusts of wheat (www.globalrust.org/traction).
|
| 4,097 |
Risser P. Mapping of quantitative-trait loci (QTL)for adult-plant resistance to Septoria tritici in five wheat populations (Triticum aestivum L.) - Dissertation zur Erlangung des Grades eines Doktors der Agrarwissenschaften. Stuttgart-Hohenheim, 2010.
|
| 4,096 |
Zeller F.J., Kong L., Hartl L. et al. Chromosomal location of genes for resistance to powdery mildew in common wheat (Triticum aestivum L. em Thell.) 7. Gene Pm29 in line Pova //Euphytica. 2002. V. 123 (2): 187-194.
|
| 4,095 |
Jianbin Yu. Identification of new sources and mapping of QTL for FHB resistance in Asian wheat germplasm //Abstr. diss. Dr.Ph. Kansas, 2007. 103 p.
|
| 4,094 |
Khabaz-Saberi H., Rengel Z., Wilson R. et al. Variation of tolerance to manganese toxicity in Australian hexaploid wheat //J. Plant Nutr. Soil Sci. 2010. V. 173: 103-112.
|
| 4,093 |
Jin H., Yan J., Pena R.J. et al. Molecular detection of high- and low-molecular-weight glutenin subunit genes in common wheat cultivars from 20 countries using allele-specific markers //Crop and Pasture Science. 2011. V. 62 (9): 746-754. Supplementary Material (CSIRO 2011).
|
| 4,092 |
Kaul K., Shaner G. Effect of temperature on adult-plant resistanceto leaf rust in wheat //Phytopathology. 1989. V. 79 (4): 391-394.
|
| 4,091 |
Xiao Yong-gui, Yin Gui-hong, Li Hui-hui et al. Genetic Diversity and Genome-Wide Association Analysis of Stripe Rust Resistance Among the Core Wheat Parent Zhou 8425B and Its Derivatives //Scientia Agricultura Sinica. 2011. V. 44 (19): 3919-3929.
|
