31
nomical or developmental/morphological traits. Regarding the 
former, emphasis is placed on the elucidation the genetic ba-
sis of Bymovirus resistance in barley. after cloning of the gene 
rym4/5 in 2005, we could now, in collaboration with the Julius 
kühn institute (Jki), Quedlinburg (F. ordon et al.), isolate and 
validate the resistance gene rym11 by mutant and transgene 
(in collaboration iPk research group Plant Reproduction bio-
logy (PRb) analysis (see Fig. 10, p. 32). Similar to rym4/5, the 
rym11 locus displays a series of functional resistance alleles. in 
collaboration with the Jki high resolution mapping and isola-
tion of further resistance loci rym3, rym7 and rym13 is in pro-
gress (Ping Yang, a. Graner, n. Stein).
Exploiting environmental adaptation of cultivated barley to 
new environments: Flowering in barley is triggered by three 
major mechanisms: temperature response (vernalization), pho-
toperiod response and earliness per se. the latter is of crucial 
importance for the adaptation of barley plants to short ve-
getation periods under long days, as they are typical for high 
latitudes. the barley earliness per se locus on chromosome 2h 
(ePS2) represents a homolog of the Antirrhinum CENTRORADIA-
LIS gene (HvCEN). the gene was identified to represent a major 
genetic switch for the adaptation of cultivated barley to the 
growing conditions in northern europe, which is far outside 
its natural distribution range in the Fertile crescent. to better 
understand the genetic implications of adaptation to new en-
vironments,  HvCEN was resequenced in a large collection of 
wild barley germplasm. Signatures of divergent selection were 
identified in the highly differentiated modern-day spring and 
winter barley genepools. the distribution of HvCEN alleles in 
wild barley and land-races demonstrated that adaptation of 
cultivated germplasm was facilitated by the selection and sub-
sequent enrichment of preexisting genetic variants rather than 
the acquisition of mutations after domestication (b. kilian, n. 
Stein, in collaboration with Jhi, R. Waugh et al.). to study addi-
tional genes involved in adaptation to diverse environments, 
the Ppd-H1 locus was resequenced in a large collection of 2057 
geo-referenced wild and domesticated barleys in order to un-
cover the origin of photoperiod insensitivity in barley. contrary 
to the previous findings, we discovered that photoperiod in-
sensitivity originated after the initial domestication, outside 
the Fertile crescent (R. Sharma, a. Graner, b. kilian).
Image based estimation and genetic analysis of biomass 
development in spring barley:  the research network cRoP-
SenSe exploits non-invasive live sensor technologies for syste-
matic phenotyping. using an automated imaging system, plant 
growth can be continuously monitored under various stress 
conditions via automated image analysis.  Phenotypic data 
are analyzed in collaboration with the research group “image 
analysis”.  correlations of fresh weight and digital biomass are 
sufficiently robust (R
2
 > 0.80) to estimate the accumulation of 
above ground biomass by using image data in order to iden-
tify QtL for this trait. to this end, 100 diverse two-rowed spring 
barleys were evaluated with daily imaging (visible light). We 
estimated plant biomass development over time by calculating 
‘digital biomass’ - a pixel volume showing a high correlation to 
a minimum tilling path (MtP) of the physical map comprising 
70,000 bacs was defined as a major deliverable during physical 
map construction. the MtP was re-arrayed in a chromosome-
wise manner at cnRGV toulouse, France. it serves as the road-
map towards map-based sequencing of the seven barley chro-
mosomes. Regarding the further refinement of the genomic 
sequence, the research group has been sequencing the MtPs 
of chromosomes, 1h, 3h and 4h (in collaboration with iPk re-
search group bit). after initial sequencing on the Roche/454 
GSFLX titanium platform the protocols were established for 
taking advantage of the higher capacity of the illumina hiS-
eq2000 technology. highly multiplexed sequencing libraries 
comprising 670 individually tagged bac clones have been 
sequenced in a single hiSeq lane, which reduced sequencing 
costs dramatically. Raw sequencing data of 1h, 3h and half 
of 4h has been completed and first version draft assemblies 
were made for all sequenced clones. Sequencing of 4h will be 
completed by early March 2014. Sequencing of the remaining 
four chromosomes (2h, 5h, 6h, 7h) as well as non-anchored 
bac contigs is in progress and managed by ibSc members. 
thus MtP- sequencing of all seven barley chromosomes will be 
completed by mid 2014. Less than 5 % of the barley genome 
consists of coding sequence. For economic reasons, sequence 
analysis can be confined in the majority of studies to the gene 
space. exploiting the available genomic sequence, a liquid 
phase exome capture assay targeting about 60 Mbp of coding 
sequence (>  80  % of high confidence barley genes) was de - 
s igned in collaboration with international partners (Jhi, uMn,  
R. nimblegen). this tool allows for the exon-based re-sequen-
cing of barley accessions to harness genetic diversity from na-
tural genetic resources of barley. using this resource, a pilot 
study to re-sequence 300 wild barley and barley landrace ac-
cessions has been initiated (b. kilian, n. Stein, in collaboration 
iPk research group bit). Furthermore, the platform proved use-
ful to facilitate genetic mapping of several major genes and se-
lected QtL in barley in combination with the bulked-segregant 
strategy (a. himmelbach, n. Stein in collaboration with iPk re-
search group bit). 
Rye genomics and evolution:  next Generation Sequencing 
(Roche/454) of sorted rye chromosomes allowed gathering in-
formation of the overall gene content and gene-order of rye 
chromosomes 1R – 7R. in analogy to the work previously ac-
complished in barley and on the basis of a high-density SnP 
map of rye, virtual gene order maps (genome zippers) could be 
generated (in collaboration with MiPS, k. Mayer et al.) that allow 
a high resolution and high density view onto genome conser-
vation between related triticeae species (barley, rye) and mo-
del grass genomes like rice, Brachypodium and Sorghum. based 
on this new data and in-detail comparative genomic analyses, 
a new model of reticulate genome evolution of rye could be 
postulated (Ruonan zhou, n. Stein).
Map-based cloning of barley genes: besides our efforts of un-
locking the barley genome for whole genome sequencing we 
make efficient use of the new genomic resources in barley for 
the map-based isolation of genes underlying important eco-

Abteilung Genbank/
Department of Genebank
32
plant fresh weight. Modelling plant growth and wilting provi-
ded parameters of speed of growth and estimated maximum 
biomass as well as wilting timing and recovery speed. SnP fin-
gerprinting yielded 4873 informative SnPs which were used for 
genome wide association mapping. altogether, 48 SnPs were 
significantly associated (-Log(p)>3) with biomass development 
over time under well-watered conditions (k. neumann, S. dha-
nagond, b. kilian, a. Graner). 
Fig. 10
Resistance to Bymovirus is controlled by the gene HvPDIL5-1 at the rym11 locus 
of barley. the gene HvPDIL5-1 was identified by map-based cloning in barley as 
susceptibility factor to Bymovirus. a large deletion in the 5’-region of the gene (A), 
which can be detected by PcR amplification with primers ‘F’ and ‘R’ (B), is causing 
a complete knockout of the gene, thus conferring complete resistance. this can 
be recognized in the field by green, symptomless, and healthy plants compared 
to susceptible plants showing severe yellow mosaic leave symptoms and stunted 
growth during tillering stage (P. Yang, n. Stein).
Publications
Peer Reviewed Papers
2012
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riyadasa
, R. & n. S
tein
: advances in bac based physical mapping 
and map integration strategies in plants. J. biomed. biotech-
nol. 2012 (2012) 11 pp., article id 184854.
b
en
-i
srael
, i., b. k
ilian
, h. n
ida
 & e. F
ridman
: heterotic trait Locus 
(htL) mapping identifies intra-locus interactions that under-
lie reproductive hybrid vigor in Sorghum bicolor. PLoS one 7 
(2012) e38993.
b
uchmann
, J., t. M
atsumoto
, n. S
tein
, b. k
eller
 & t. W
icker
: interspe-
cies sequence comparison in Brachypodium reveals how 
transposon activity corrodes genome colinearity. Plant J. 71 
(2012) 550-563.
c
ockram
, J., t. t
hiel
, b. S
teuernagel
, n. S
tein
, S. t
audien
, P.c. b
ailey
 & 
d.M. o’S
ullivan
: Genome dynamics explain the evolution of 
flowering time cct domain gene families in the Poaceae. 
PLoS one 7 (2012) e45307.
c
omadran
,  J., b. k
ilian
, J. R
ussell
, L. R
amsay
, n. S
tein
, M. G
anal
, P. 
S
haw
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ayer
, W. t
homas
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arshall
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edley
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ondelli
, n. 
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ecchioni
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rancia
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orzun
, a. W
alther
 & R. W
augh
: natural 
variation in a homolog of Antirrhinum centroradialis contri-
buted to spring growth habit and environmental adaptation 
in cultivated barley. nat. Genet. 44 (2012) 1388-1392.
c
ömertpay
, G., F.S. b
aloch
, b. k
ilian
, a.c. ü
lger
 & h. Ö
zkan
: Morpho-
logical and genetic diversity among turkish maize landra-
ces. Plant Mol. biol. Rep. 30 (2012) 261-274.
F
euillet
, c., n. S
tein
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ossini
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raud
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ayer
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chulman
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e
versole
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ppels
: integrating cereal genomics to sup-
port innovation in the triticeae. Funct. integr. Genomics 12 
(2012) 573-583.
h
ouston
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ruka
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onar
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acaulay
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undquist
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rancko
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wiak
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organte
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33-45.
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übner
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ünther
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lavell
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uynh
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M
ameaux
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Plant biotechnol. J. 10 (2012) 67-82.
M
artis
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M. S
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W
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a physical, genetic and functional sequence assembly of the 
barley genome. nature 491 (2012) 711-716.
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