Jonathan E. Cope
James Hutton Institute
5 Papers
1 Citations
Jonathan E. Cope is an academic researcher from James Hutton Institute. The author has contributed to research in topics: Biology & Hordeum vulgare. The author has an hindex of 2, co-authored 3 publications. Previous affiliations of Jonathan E. Cope include Swedish University of Agricultural Sciences.
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Papers
Identifying potential novel resistance to the foliar disease ‘Scald’ (Rhynchosporium commune) in a population of Scottish Bere barley landrace (Hordeum vulgare L.)
TL;DR: This study analysed 131 heritage cultivars and landrace lines, including 37 Bere lines, to screen for resistance using both detached leaf assays (DLAs) and field experiments, and identified a number of genomic regions associated with reduced infection symptoms.
Assessing the variation in manganese use efficiency traits in Scottish barley landrace Bere (Hordeum vulgare L.).
TL;DR: Several genomic regions for Mn use efficiency traits originating from the Bere lines were identified and further examination and validation of these regions should be undertaken to identify candidate genes for future breeding for marginal lands.
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Evaluating Variation in Germination and Growth of Landraces of Barley (Hordeum vulgare L.) Under Salinity Stress
TL;DR: In this paper , the authors analyzed 140 heritage and landrace lines of barley, including 37 Scottish Bere lines that were selected from coastal regions, to screen for tolerance to salinity stress by looking at the germination speed and early root growth during germination, and the pre-maturity biomass accumulation during early growth stages.
'2A-Like' Signal Sequences Mediating Translational Recoding: A Novel Form of Dual Protein Targeting.
Claire Roulston,Garry A. Luke,Pablo de Felipe,Lin Ruan,Jonathan E. Cope,John Nicholson,Andriy Sukhodub,Jens Tilsner,Martin D. Ryan +8 more
TL;DR: An N‐terminal oligopeptide ‘2A‐like’ sequence that is able to function both as a signal sequence and as a translational recoding element is reported that represents a newly described form of dual protein targeting.
Differential breeding targets in wheat influence non-target traits related to grain quality, but not crop nitrogen requirement
TL;DR: In this paper , the authors evaluated the relationship between breeding target traits such as grain yield and grain quality, and non-target traits for three groups of spring wheat varieties differing in breeding targets, i.e. high yield (I), organic high protein (II), and intermediate (III) wheat types.