Search Results - "Pryor, A.J."

High-resolution mapping and mutation analysis separate the rust resistance genes Sr31, Lr26 and Yr9 on the short arm of rye chromosome 1 by Mago, R, Miah, H, Lawrence, G.J, Wellings, C.R, Spielmeyer, W, Bariana, H.S, McIntosh, R.A, Pryor, A.J, Ellis, J.G

“…The stem, leaf and stripe rust resistance genes Sr31, Lr26 and Yr9, located on the short arm of rye chromosome 1, have been widely used in wheat by means of…”
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Molecular analysis of the alcohol dehydrogenase (Adhl) gene of maize by Dennis, E.S., Gerlach, W.L., Pryor, A.J., Bennetzen, J.L., Inglis, A., Llewllyn, D., Sachs, M.M., Ferl, R.J., Peacock, W.J.

“…A cDNA clone of maize Adhl which contains the entire protein coding region of the gene has been constructed. The protein sequence predicted from the nucieotide…”
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Development of PCR markers for the selection of wheat stem rust resistance genes Sr24 and Sr26 in diverse wheat germplasm by Mago, R, Bariana, H.S, Dundas, I.S, Spielmeyer, W, Lawrence, G.J, Pryor, A.J, Ellis, J.G

“…The use of major resistance genes is the most cost-effective strategy for preventing stem rust epidemics in Australian wheat crops. The long-term success of…”
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Correlation of exons with structural domains in alcohol dehydrogenase by Branden, C.I, Eklund, H, Cambillau, C, Pryor, A.J

“…The intron/exon arrangement in the gene sequence of maize alcohol dehydrogenase has been compared to the three dimensional structure of liver alcohol…”
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rust-inducible gene from flax (fis1) is involved in proline catabolism by Mitchell, H.J, Ayliffe, M.A, Rashid, K.Y, Pryor, A.J

“…A gene fis1 from flax (Linum usitatissimum), which is induced in mesophyll cells at the site of rust (Melampsora lini) infection, is also expressed in vascular…”
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Aberrant mRNA processing of the maize Rp1-D rust resistance gene in wheat and barley by Ayliffe, M.A, Steinau, M, Park, R.F, Rooke, L, Pacheco, M.G, Hulbert, S.H, Trick, H.N, Pryor, A.J

“…The maize Rp1-D gene confers race-specific resistance against Puccinia sorghi (common leaf rust) isolates containing a corresponding avrRp1-D avirulence gene…”
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Resistance genes for rye stem rust (SrR) and barley powdery mildew (Mla) are located in syntenic regions on short arm of chromosome by Mago, R, Spielmeyer, W, Lawrence, G J, Ellis, J G, Pryor, A J

“…Genetic stocks were developed for the localization and eventual cloning of the stem rust resistance gene SrR that occurs in wheat lines carrying the 1RS…”
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Comparative analysis in cereals of a key proline catabolism gene by Ayliffe, M.A, Mitchell, H.J, Deuschle, K, Pryor, A.J

“…Proline accumulation and catabolism play significant roles in adaptation to a variety of plant stresses including osmotic stress, drought, temperature,…”
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unstable minichromosome generates variegated oil yellow maize seedlings by Brock, R.D, Pryor, A.J

“…An unstable minichromosome comprising part of the short arm of chromosome 10 of maize was recovered from an oil yellow variegated plant as a consequence of…”
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DNA restriction fragment length polymorphisms in the wheat stem rust fungus, Puccinia graminis tritici by Anderson, P.A. (Commonwealth Scientific and Industrial Research Organization, Canberra (Australia). Div. of Plant Industry), Pryor, A.J

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cDNA cloning and induction of the alcohol dehydrogenase gene (Adh1) of maize [Zea mays] by Gerlach, W.L, Pryor, A.J, Dennis, E.S, Ferl, R.J, Sachs, M.M, Peacock, W.J

“…cDNA clones of Adh1, one of two genes encoding alcohol dehydrogenase (ADH; alcohol:NAD+oxidoreductase, EC 1.1.1.1) in the maize genome, have been isolated…”
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Molecular analysis of the alchol dehydrogenase (Adh1) gene of maize by Dennis, E.S, Gerlach, W.L, Pryor, A.J, Bennetzen, J.L, Inglis, A

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Approaches to cloning plant genes conferring resistance to fungal pathogens by Ellis, J.G, Lawrence, G.J, Peacock, W.J, Pryor, A.J

“…Fungal diseases are known in virtually all natural populations of plants and are a major cause of reduction in yields of agricultural and horticultural plants…”
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Multiline varieties and disease control. II. The 'dirty crop' approach with components carrying two or more genes for resistance by Marshall, D.R, Pryor, A.J

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