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Stein N, Perovic D, Kumlehn J, Pellio B, Stracke S,
Streng S, Ordon F, Graner A, 2005. The eukaryotic
translation initiation factor 4E confers multiallelic reces-
sive Bymovirus resistance in Hordeum vulgare (L.).
Plant
Journal
42:912-922.
Stein N, Prasad M, Scholz U, Thiel T, Zhang HN, Wolf M,
Kota R, Varshney RK, Perovic D, Grosse I, Graner A,
2007. A 1,000-loci transcript map of the barley genome:
new anchoring points for integrative grass genomics.
The-
oretical and Applied Genetics
114:823-839.
Stracke S, Presterl T, Stein N, Perovic D, Ordon F, Graner A,
2007. Effects of introgression and recombination on hap-
lotype structure and linkage disequilibrium surrounding a
locus encoding Bymovirus resistance in barley.
Genetics
175:805-817.
Suneson CA, 1955. Breeding for resistance to yellow dwarf
virus in barley.
Agronomy Journal
, 47: 283.
Talame V, Bovina R, Sanguineti MC, Tuberosa R, Lundqvist
U, Salvi S, 2008. TILLMore, a resource for the discovery
of chemically induced mutants in barley.
Plant Biotech-
nology Journal
6:477-485.
Thiel T, Michalek W, Varshney RK, Graner A, 2003. Exploit-
ing EST databases for the development and characteri-
zation of gene-derived SSR-markers in barley (
Hordeum
vulgare
L.).
Theoretical and Applied Genetics
106:411-
422.
Thompson JP, Clewett TG, Jennings RE, Sheedy JG, Owen
KJ, Persley DM, 2011. Detection of
Polymyxa graminis
in a barley crop in Australia.
Australian Plant Pathology
40:66-75.
Toojinda T, Broers LH, Chen XM, Hayes PM, Kleinhofs A,
Korte J, Kudrna, Waugh R, 2000. Mapping quantitative
and qualitative disease resistance genes in a doubled hap-
loid population of barley (
Hordeum vulgare
).
Theoretical
and Applied Genetics
101:580-589.
Turner A, Beales J, Faure S, Dunford RP, Laurie DA, 2005.
The pseudo-response regulator Ppd-H1 provides adapta-
tion to photoperiod in barley.
Science
, 310:1031-1034.
Tyrka M, Perovic D, Wardynska A, Ordon F, 2008. A new
diagnostic SSR marker for selection of the Rym4/Rym5
locus in barley breeding.
Journal of Applied Genetics
49:127-134.
Uptmoor R, Wenzel W, Ayisi K, Donaldson G, Gehringer A,
Friedt W, Ordon F, 2006. Variation of the genomic pro-
portion of the recurrent parent in BC1 and its relation to
yield performance in sorghum (
Sorghum bicolor
) breed-
ing for low-input conditions.
Plant Breeding
125:532-
534.
Vacke J, Cibulka R, 2001. Reactions of registered winter
barley varieties to wheat dwarf virus infection.
Czech
Journal of Genetics and Plant Breeding
37:50-52.
Varshney RK, Marcel TC, Ramsay L, Russell J, Roder MS,
Stein N, Waugh R, Langridge P, Niks RE, Graner A,
2007. A high density barley microsatellite consensus map
with 775 SSR loci.
Theoretical and Applied Genetics
114:1091-1103.
Vogel JP, Garvin DF, Mockler TC, Schmutz J, Rokhsar D,
Bevan MW, et al., 2010. Genome sequencing and analy-
sis of the model grass
Brachypodium distachyon
.
Nature
463:763-768.
Wenzl P, Carling J, Kudrna D, Jaccoud D, Huttner E, Klein-
hofs A, Kilian A, 2004. Diversity Arrays Technology
(DArT) for whole-genome profiling of barley.
Proc Natl
Acad Sci USA
, 101:9915-9920.
Wenzl P, Li HB, Carling J, Zhou MX, Raman H, Paul E, et al.,
2006. A high-density consensus map of barley linking
DArT markers to SSR, RFLP and STS loci and agricul-
tural traits.
BMC Genomics
7:206, doi: 10.1186/1471-
2164-7-206.
Werner K, Friedt W, Laubach E, Waugh R, Ordon F, 2003a.
Dissection of resistance to soil-borne yellow mosaic
inducing viruses of barley (BaMMV, BaYMV, BaYMV-
2) in a complex breeders cross by SSRs and simul-
taneous mapping of BaYMV/BaYMV-2 resistance of
“Chikurin Ibaraki 1”.
Theoretical Applied Genetics
106:
1425-1432.
Werner K, Friedt W, Ordon F, 2005. Strategies for pyramid-
ing resistance genes against the barley yellow mosaic
virus complex (BaMMV, BaYMV, BaYMV-2).
Molecu-
lar Breeding
16:45-55.
Werner K, Friedt W, Ordon F, 2007. Localisation and com-
bination of resistance genes against soil-borne viruses of
barley (BaMMV, BaYMV) using doubled haploids and
molecular markers.
Euphytica
158:323-329.
Werner K, Pellio B, Ordon F, Friedt W, 2000. Development
of an STS marker and SSRs suitable for marker-assisted
selection for the BaMMV resistance gene rym9 in barley.
Plant Breeding
119:517-519.
Werner K, R onnicke S, Le Gouis J, Friedt W, Ordon F, 2003b.
Mapping of a new BaMMV-resistance gene derived from
the variety “Taihoku A”.
J Plant Diseases and Protection
110:304-311.
Weyen J, Bauer E, Graner A, Friedt W, Ordon F, 1996.
RAPD-mapping of the distal portion of chromosome 3 of
barley, including the BaMMV/BaYMV resistance gene
ym4.
Plant Breeding
115:285-287.
Wicker T, Narechania A, Sabot F, Stein J, Vu GT, Graner A,
Ware D, Stein N, 2008. Low-pass shotgun sequencing of
the barley genome facilitates rapid identification of genes,
conserved non-coding sequences and novel repeats.
BMC
Genomics
9:518, doi: 10.1186/1471-2164-9-518.
Wicker T, Taudien S, Houben A, Keller B, Graner A, Platzer
M, Stein N, 2009. A whole-genome snapshot of 454
sequences exposes the composition of the barley genome
and provides evidence for parallel evolution of genome
size in wheat and barley.
Plant Journal
59:712-722.
Wicker T, Zimmermann W, Perovic D, Paterson AH, Ganal
M, Graner A, Stein N, 2005. A detailed look at 7 mil-
lion years of genome evolution in a 439 kb contiguous
sequence at the barley Hv-eIF4E locus: recombination,
rearrangements and repeats.
Plant Journal
41: 184-194.
Yu J, Hu SN, Wang J, Wong GKS, Li SG, et al., 2002. A
draft sequence of the rice genome (
Oryza sativa
L. ssp
indica
).
Science
296:79-92.
Zohary D, Hopf M, 2000.
Domestication of plants in the old
world
. Oxford University Press, Oxford.
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