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1

Characterization of the suppressor gene of powdery mildew resistance gene Pm8 in common wheat (Triticum aestivum L.) cv. Regina

100%
Hanusova R., Bartosi P., Zeller F.
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vol. 38
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issue 1
11-17
EN
The Czech winter wheat cv. Regina which does not possess specific genes for powdery mildew resistance except Pm5 was crossed with the cvs. Florida, Tjelvar, Agra, Olymp and Sabina, all possessing T1BL?1RS and the dominant suppressor SuPm8, with Riebesel 47/51 possessing substitution 1R 1B and SuPm8 and with the T1BL?1RS cvs. Sparta, Iris, Mona without SuPm8. Powdery mildew isolates avirulent on Pm8 and virulent on other Pm genes were used in the trials. Tests for resistance were carried out either on seedlings at the first leaf stage or on detached leaves cultured on benzimidazolagar. No segregation for resistant plants in F2 of all crosses of the cv. Regina with cultivars possessing T1BL?1RS and SuPm8 indicates that Regina has SuPm8. The segregation ratio 3 resistant : 13 susceptible in the F2 population of crosses between the cv. Regina and cultivars possessing T1BL?1RS and no SuPm8 also confirms the presence of SuPm8 in the cv. Regina. The obtained results also indicate that expression of Pm2 and Pm4b is not affected by SuPm8 and that SuPm8 does not affect stem rust resistance gene Sr31 located on 1RS segment.
2

Identification of powdery mildew resistance genes in common wheat (Triticum aestivum L. em. Thell.). X. Cultivars grown in Belarus and neighbouring countries

100%
Gordei S. I., Hsam S. L. K., Zeller F. J.
Journal of Applied Genetics
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1998
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vol. 39
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issue 1
1-8
EN
Sixty-six wheat cultivars grown in Belarus, Poland, Russia and the Ukraine were tested for mildew response to a collection of 11 different isolates of Erysiphe graminis DC f. sp. tritici Marchal. Nineteen cultivars have shown a susceptible reaction and eighteen were characterized by susceptible or intermediate responses. Fourteen cultivars revealed isolate-specific response patterns that could be attributed to major known resistance genes or gene combinations. Twelve cultivars have one documented gene: Pm5 in eight cultivars, Pm2 in two cultivars and Pm8 also in two cultivars. One cultivar has two genes (Pm2 + Pm6), while another cultivar carries a combination of three genes (Pm1 + Pm2 + Pm6). Fifteen cultivars were characterized by response patterns not documented so far or by a known resistance response combined with an undocumented resistance. Apparently three cultivars with the T1BL.1RS wheat-rye translocation have a gene suppressing the Pm8 mildew resistance. One cultivar was resistant to all the used isolates. Its resistance might be conditioned by an unknown major gene or combination of genes.
3

DNA polymorphism among barley NILs of cv. Pallas, carrying genes for resistance to powdery mildew (Blumeria graminis f. sp. hordei)

100%
Czembor P. C., Czembor J. H.
Journal of Applied Genetics
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2004
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vol. 45
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issue 2
183-187
EN
Barley powdery mildew, caused by the pathogen Blumeria graminis f. sp. hordei is an important disease of barley (Hordeum vulgare L.). The random amplified polymorphic DNA (RAPD) method was used to detect DNA polymorphism among 7 Pallas near-isogenic lines (NILs) carrying Mla3, Mla12, Mlk, Mlp, Mlat, Mlg and MlLa genes for resistance to B. graminis f. sp. hordei. From among 500 random 10-mer primers tested, 3 were specific for NIL P2 (Mla3), 1 for P10 (Mla12), 6 for P17 (Mlk), 46 for P19 (Mlp), 4 for P20 (Mlat), 6 for P21 (Mlg), and 4 for P23 (MlLa). The results of this study demonstrated that the RAPD technique is a useful tool for detecting DNA polymorphism among Pallas NILs.
4

Transfer to wheat (Triticum aestivum) of small chromosome segments from rye (Secale cereale) carrying disease resistance genes

88%
Fu S., Tang Z., Ren Z., Zhang H.
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vol. 51
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issue 2
115-121
EN
One hundred wheat lines, derived from monosomic additions of chromosome 1R of rye inbred line R12 (Chinese rye), were detected by PCR amplification using rye-specific primer pairs. Only 5 wheat lines, 1R296, 1R330, 1R314, 1R725, and 1R734, were determined to contain rye chromatin. While 1R296 and 1R330 were highly susceptible to stripe rust and powdery mildew, 1R314, 1R725 and 1R734 were highly resistant to both diseases. Acid-polyacrylamide gel electrophoresis showed that the ?secalin bands were absent in 1R314, but present in the other 4 wheat lines. Genomic in situ hybridization indicated that 1R296, 1R330, and 1R725 contained translocations involving the whole short arm of chromosome 1R. However, 1R314 and 1R734 contained a pair of wheat chromosomes with small, terminal, rye-derived chromosome segments. The results suggest that the translocation breakpoint of 1RS in 1R314 was located between the Sec-1 locus and the disease-resistance loci, while in line 1R734, the breakpoint was located between the Sec-1 locus and the centromere. Taking account of the improved disease resistance of 1R725, 1R314 and 1R734, the chromosome arm 1RS of R12 may represent new and valuable disease resistance resources for wheat improvement.
5

Genes for resistance to wheat powdery mildew

88%
Chen Y., Chelkowski J.
Journal of Applied Genetics
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1999
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vol. 40
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issue 4
317-334
EN
Three approaches to identification of powdery mildew resistance genes in wheat - comparison of reaction patterns based on host-pathogen interaction, chromosomal location of resistance genes by means of genetic and cytogenetic assessment, and molecular identification - are reviewed in this paper. The paper covers publications published mostly in the nineties. The derivation and current status of twenty-five Pm genes in wheat are presented. RAPD, RFLP and STS markers closely linked to some specific resistance genes, from recent reports, are listed. These can be useful to phytopathologists and breeders who are interested in the practical application of wheat powdery mildew resistance genes.
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