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GrainGenes Author Report: Graner A

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Author
Graner A
Full Name
Graner, Andreas
Paper
[ Hide all but 1 of 96 ]
ReferenceYang P et al. (2017) Sequence diversification in recessive alleles of two host factor genes suggests adaptive selection for bymovirus resistance in cultivated barley from East Asia. Theoretical and Applied Genetics 130:331-344.
ReferenceSteuernagel B et al. (2009) De novo 454 sequencing of barcoded BAC pools for comprehensive gene survey and genome analysis in the complex genome of barley. BMC Genomics 10:547.
ReferenceMayer KF et al. (2009) Gene Content and Virtual Gene Order of Barley Chromosome 1H. Plant Physiology 151:496-505.
ReferenceThiel T et al. (2009) Evidence and evolutionary analysis of ancient whole-genome duplication in barley predating the divergence from rice. BMC Evolutionary Biology 9:209.
ReferenceWicker T et al. (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.
ReferenceHbner S et al. (2009) Strong correlation of wild barley (Hordeum spontaneum) population structure with temperature and precipitation variation. Molecular Ecology 18:1523-1536.
ReferenceStracke S et al. (2009) Association mapping reveals gene action and interactions in the determination of flowering time in barley. Theoretical and Applied Genetics 118:259-273.
ReferenceClose TJ et al. (2009) Development and implementation of high-throughput SNP genotyping in barley. BMC Genomics 10:582.
ReferenceKota R et al. (2008) EST-derived single nucleotide polymorphism markers for assembling genetic and physical maps of the barley genome. Functional and Integrative Genomics 8:223-233.
ReferenceCastillo A et al. (2008) Transferability and polymorphism of barley EST-SSR markers used for phylogenetic analysis in Hordeum chilense. BMC Plant Biology 8:97.
ReferenceSreenivasulu N et al. (2008) Barley Grain Maturation and Germination: Metabolic Pathway and Regulatory Network Commonalities and Differences Highlighted by New MapMan/PageMan Profiling Tools. Plant Physiology 146:1738.
ReferenceHaseneyer G et al. (2008) High level of conservation between genes coding for the GAMYB transcription factor in barley (Hordeum vulgare L.) and bread wheat (Triticum aestivum L.) collections. Theoretical and Applied Genetics 117:321-331.
ReferenceOrdon F et al. (2008) Molecular Breeding For Virus Resistance In Cereals. Cereal science and technology for feeding ten billion people: genomics era and beyond. Options mediterraneennes. Serie A: Seminaires Mediterraneens 81:153-157.
ReferencePerovic D et al. (2007) An integrated approach for the comparative analysis of a multigene family: the nicotianamine synthase genes of barley. Functional and Integrative Genomics 7:169.
ReferenceVarshney RK et al. (2007) A high density barley microsatellite consensus map with 775 SSR loci. Theoretical and Applied Genetics 114:1091.
ReferenceVarshney RK et al. (2007) Application of genomics to molecular breeding of wheat and barley. Advances in genetics 58:121.
ReferenceVarshney RK et al. (2007) Single nucleotide polymorphisms in rye (Secale cereale L.): discovery, frequency, and applications for genome mapping and diversity studies. Theoretical and Applied Genetics 114:1105.
ReferenceKomatsuda T et al. (2007) Six-rowed barley originated from a mutation in a homeodomain-leucine zipper I-class homeobox gene. Proceedings of the National Academy of Sciences, USA 104:1424.
ReferenceStracke S et al. (2007) Effects of introgression and recombination on haplotype structure and linkage disequilibrium surrounding a locus encoding Bymovirus resistance in barley. Genetics 175:805.
ReferenceMarcel TC et al. (2007) A high-density consensus map of barley to compare the distribution of QTLs for partial resistance to Puccinia hordei and of defence gene homologues. Theoretical and Applied Genetics 114:487-500.
ReferenceStein N et al. (2007) A 1000 loci transcript map of the barley genome - new anchoring points for integrative grass genomics Theoretical and Applied Genetics 114:823-839.
ReferenceVarshney RK et al. (2006) Genetic mapping and BAC assignment of EST-derived SSR markers shows non-uniform distribution of genes in the barley genome Theoretical and Applied Genetics 113:239-250.
ReferencePotokina E et al. (2006) Expression genetics and haplotype analysis reveal cis regulation of serine carboxypeptidase I (Cxp1), a candidate gene for malting quality in barley (Hordeum vulgare L.). Functional and Integrative Genomics 6:25.
ReferenceRostoks N et al. (2006) Recent history of artificial outcrossing facilitates whole-genome association mapping in elite inbred crop varieties. Proceedings of the National Academy of Sciences, USA 103:18656.
ReferenceWicker T et al. (2006) 454 sequencing put to the test using the complex genome of barley. BMC Genomics 7:275.
ReferenceDruka A et al. (2006) An atlas of gene expression from seed to seed through barley development. Functional and Integrative Genomics 6:202.
ReferenceZhao T et al. (2006) Mapped Ds/T-DNA launch pads for functional genomics in barley. Plant Journal 47:811.
ReferenceNissan-Azzouz F et al. (2005) Fine-mapping of the BaMMV, BaYMV-1 and BaYMV-2 resistance of barley (Hordeum vulgare) accession PI1963 Theoretical and Applied Genetics 110:212-218.
ReferencePellio B et al. (2005) High-resolution mapping of the Rym4/Rym5 locus conferring resistance to the barley yellow mosaic virus complex (BaMMV, BaYMV, BaYMV-2) in barley (Hordeum vulgare ssp. vulgare L.) Theoretical and Applied Genetics 110:283-293.
ReferenceGraner A et al. (2005) Molecular mapping in barley: shifting from the structural to the functional level. Czech Journal of Genetics and Plant Breeding 41:81-88.
ReferencePerovic D et al. (2005) Linkage mapping and transcriptional profiling of resistance to soil-borne viruses in hexaploid wheat (Triticum vulgare ssp. aestivum). Parasitica 61:79-83.
ReferenceOrdon F et al. (2005) Genetic diversity of resistance to soil-borne viruses in barley and exploitation by breeding. Parasitica 61:95-100.
ReferenceVarshney RK et al. (2005) Interspecific transferability and comparative mapping of barley EST-SSR markers in wheat, rye and rice Plant Science 168:195-202.
ReferenceWicker T et al. (2005) A detailed look at 7 million 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.
ReferenceStein N et al. (2005) The eukaryotic translation initiation factor 4E confers multiallelic recessive Bymovirus resistance in Hordeum vulgare (L.). Plant Journal 42:912.
ReferenceThiel T et al. (2004) SNP2CAPS: a SNP and INDEL analysis tool for CAPS marker development - art. no. e5 Nucleic Acids Research 32.
ReferenceEmanuel C et al. (2004) Chloroplast development affects expression of phage-type RNA polymerases in barley leaves Plant Journal 38:460-472.
ReferenceVarshney RK et al. (2004) Molecular Marker maps of barley: a resource for intra-and interspecific genomics. 229-239.
ReferenceGottwald S et al. (2004) The gibberellic-acid insensitive dwarfing gene sdw3 of barley is located on chromosome 2HS in a region that shows high colinearity with rice chromosome 7L Molecular Genetics and Genomics 271:426-436.
ReferenceVarshney RK et al. (2004) A simple hybridization-based strategy for the generation of non-redundant EST collections - a case study in barley (Hordeum vulgare L.) Plant Science 167:629-634.
ReferencePotokina E et al. (2004) Functional association between malting quality trait components and cDNA array based expression patterns in barley (Hordeum vulgare L.) Molecular Breeding 14:153-170.
ReferenceGraner A et al. (2004) Molecular Mapping: shifting from the structural to the functional level Barley Genetics IX: Proceedings of the Ninth International Barley Genetics Symposium, June 20-26, 2004, Brno, Czech Republic 49-57.
ReferenceBuck-Sorlin GH et al. (2004) Use of the functional map to identify QTLs and explore the genetics of biometric agronomic traits in the Oregon Wolfe Barleys. Barley Genetics IX: Proceedings of the Ninth International Barley Genetics Symposium, June 20-26, 2004, Brno, Czech Republic 137-143.
ReferenceVarshney RK et al. (2004) EST-derived markers and transcript map of barley: A resource for interspecific transferability and comparative mapping in cereals. Barley Genetics IX: Proceedings of the Ninth International Barley Genetics Symposium, June 20-26, 2004, Brno, Czech Republic 332-338.
ReferenceVarshney RK et al. (2004) Selection of a core set of informative gene-derived SSR and SNP markers for assaying the genetic variation in germplasm collections of barley for abiotic stress tolerance Genetic variation for plant breeding. Proceedings of the 17th EUCARPIA General Congress, Tulln, Austria, 8-11 September 2004 213-217.
ReferencePerovic D et al. (2004) An integrated approach for comparative mapping in rice and barley based on genomic resources reveals a large number of syntenic markers but no candidate gene for the Rph16 resistance locus. Functional and Integrative Genomics 4:74-83.
ReferenceGraner A et al. (2003) Molecular diversity of the barley genome Diversity in Barley: Hordeum vulgare 7:121-141.
ReferenceKota R et al. (2003) Snipping polymorphisms from large EST collections in barley (Hordeum vulgare L.) Molecular Genetics and Genomics 270:24-33.
ReferenceThiel T et al. (2003) Exploiting EST databases for the development and characterization of gene-derived SSR-markers in barley (Hordeum vulgare L.) Theoretical and Applied Genetics 106:411-422.
ReferenceKota R et al. (2002) Barley ESTs: resource for the development of a high-density transcript map Proceedings of the 12th Australasian Plant Breeding Conference, Perth Australia 89-93.
ReferenceVarshney RK et al. (2002) In silico analysis on frequency and distribution of microsatellites in ESTs of some cereal species Cellular and Molecular Biology Letters 7:537-546.
ReferenceMichalek W et al. (2002) EST analysis in barley defines a unigene set comprising 4,000 genes Theoretical and Applied Genetics 104:97-103.
ReferenceDrescher A and Graner A (2002) PCR-genotyping of barley seedlings using DNA samples from tissue prints Plant Breeding 121:228-231.
ReferencePotokina E et al. (2002) Differential gene expression during seed germination in barley (Hordeum vulgare L.). Functional and Integrative Genomics 2:28-39.
ReferenceKota R et al. (2001) Generation and comparison of EST-derived SSRs and SNPs in barley (Hordeum vulgare L.) Hereditas 135:145-151.
ReferenceSmilde WD et al. (2001) New evidence for the synteny of rice chromosome 1 and barley chromosome 3H from rice expressed sequence tags Genome 44:361-367.
ReferenceKota R et al. (2001) Application of denaturing high-performance liquid chromatography for mapping of single nucleotide polymorphisms in barley (Hordeum vulgare L.) Genome 44:523-528.
ReferenceKota R et al. (2001) Generation and comparison of EST-derived SSR and SNP markers in barley (Hordeum vulgare L.) Hereditas 135:141-151.
ReferenceGraner A et al. (2000) Molecular mapping of the leaf rust resistance gene Rph7 in barley Plant Breeding 119:389-392.
ReferenceSlilde WD et al. (2000) Development of a high resolution map for the Rhand Pt resistance on barley Chromosome 3H Barley Genetics VIII: Proceedings of the Eighth International Barley Genetics Symposium, October 22-27 2000, Adelaide, Australia 178-180.
ReferencePerovic D et al. (2000) Update of the Igri/Franka molecular marker map Barley Genetics Newsletter 30:15-19.
ReferenceMichalek W et al. (1999) Sequence analysis and gene identification in a set of mapped RFLP markers in barley (Hordeum vulgare) Genome 42:849-853.
ReferenceMano Y et al. (1999) Map construction of sequence-tagged sites (STSs) in barley (Hordeum vulgare L.). Theoretical and Applied Genetics 98:937-946.
ReferenceBorner A et al. (1999) Molecular mapping of two dwarfing genes differing in their GA response on chromosome 2H of barley. Theoretical and Applied Genetics 99:670-675.
ReferenceGraner A et al. (1999) Molecular mapping and genetic fine-structure of the rym5 locus encoding resistance to different strains of the Barley Yellow Mosaic Virus Complex. Theoretical and Applied Genetics 98:285-290.
ReferenceOrdon F et al. (1999) Application of molecular markers in breeding for resistance to the Barley yellow mosaic virus complex. Journal of Plant Diseases And Protection 106:256-264.
ReferenceIvandic V et al. (1999) Comparative mapping of a gibberellic acid-insensitive dwarfing gene (Dwf2) on chromosome 4HS in barley Theoretical and Applied Genetics 98:728-731.
ReferenceLeister D et al. (1999) RFLP- and physical mapping of resistance gene homologues in rice (O-sativa) and barley (H-vulgare). Theoretical and Applied Genetics 98:509-520.
ReferenceSchiemann A et al. (1999) Establishment of a fluorescence-based AFLP technique and rapid marker detection for the resistance locus rym5. Barley Genetics Newsletter 29:5.
Referencevan Mechelen JR et al. (1999) Molecular characterization of two lipoxygenases from barley. Plant Molecular Biology 39:1283-1298.
ReferenceGraner A et al. (1999) Molecular mapping of genes conferring resistance to soil-borne viruses in barley - an approach to promote understanding of host-pathogen interactions Journal of Plant Diseases And Protection 106:405-410.
ReferenceVoros K et al. (1998) Characterization of a methyljasmonate-inducible lipoxygenase from barley (Hordeum vulgare cv. Salome) leaves European Journal of Biochemistry 251:36-44.
ReferenceShiemann A et al. (1998) RAPD-markers linked to the BaMMV-resistance geneym9 Barley Genetics Newsletter 28:19-22.
ReferenceSayed-Tabatabaei BE et al. (1998) DNA sequencing and primer designing for RFLP clones evenly distributed in the barley genome. Barley Genetics Newsletter 28:15-18.
ReferenceGallego F et al. (1998) Comparative mapping of the two wheat leaf rust resistance loci Lr1 and Lr10 in rice and barley. Genome 41:328-336.
ReferenceLeister D et al. (1998) Rapid reorganization of resistance gene homologues in cereal genomes Proceedings of the National Academy of Sciences, USA 95:370-375.
ReferenceIvandic V et al. (1998) Molecular mapping of a new gene in wild barley conferring complete resistance to leaf rust (Puccinia hordei Otth). Theoretical and Applied Genetics 97:1235-1239.
ReferenceSchiemann A et al. (1997) Specificity enhancement of a RAPD marker linked to the BaMMV/BaYMV resistance geneym4by randomlyadded bases Barley Genetics Newsletter 27:63-65.
ReferenceBauer E et al. (1997) Molecular mapping of novel resistance genes against Barley Mild Mosaic Virus (BaMMV) Theoretical and Applied Genetics 95:1263-1269.
ReferenceGraner A and Tekauz A (1996) RFLP mapping in barley of a dominant gene conferring resistance to scald (Rhynchosporium secalis). Theoretical and Applied Genetics 93:421-425.
ReferenceGraner A et al. (1996) RFLP mapping of a gene in barley conferring resistance to net blotch (Pyrenophora teres). Euphytica 91:229-234.
ReferenceHohmann U et al. (1995) Comparison of wheat physical maps with barley linkage maps for group 7 chromosomes Theoretical and Applied Genetics 91:618-626.
ReferenceBackes G et al. (1995) Localization of quantitative trait loci (QTL) for agronomic important characters by the use of a RFLP map in barley (Hordeum vulgare L.) Theoretical and Applied Genetics 90:294-302.
ReferenceGraner A et al. (1994) Relationships among European barley germplasm. II. Comparison of RFLP and pedigree data Crop Science 34:1199-1205.
ReferenceMelchinger A et al. (1994) Relationships among European barley germplasm. I. Genetic diversity among winter and spring cultivars revealed by RFLPs Crop Science 34:1191-1199.
ReferenceMohler V and Graner A (1994) Analysis of recombination in male and female gametophytes of barley (H. vulgare) Barley Genetics Newsletter 24:92-93.
ReferenceGraner A et al. (1994) Progress of RFLP-map construction in winter barley Barley Genetics Newsletter 23:53-59.
ReferenceSchmidt D and Graner A (1994) Genomic organization and sequence diversity of the long terminal repeat (LTR) of the BARE-1 retrotransposon-family in barley Barley Genetics Newsletter 24:24-27.
ReferenceOrdon F et al. (1994) Identification of a RAPD-marker linked to the BaMMV/BaYMV resistance gene ym4 Barley Genetics Newsletter 24:123-126.
ReferenceSorokin A et al. (1994) Polymerase chain reaction mediated localization of RFLP clones to microisolated translocation chromosomes of barley Genome 37:550-555.
ReferenceKleine M et al. (1993) Construction of a barley (Hordeum vulgare L.) YAC library and isolation of a Hor1-specific clone Molecular and General Genetics 240:265-272.
ReferenceGraner A and Bauer E (1993) RFLP mapping of the ym4 virus resistance gene in barley. Theoretical and Applied Genetics 86:689-693.
ReferenceSchondelmaier J et al. (1993) Microdissection and microcloning of the barley (Hordeum vulgare L.) chromosome 1HS Theoretical and Applied Genetics 86:629-636.
ReferenceBackes G et al. (1993) Localisation of agronomically important traits in barley (Hordeum vulgare L.) by means of RFLP marker Barley Genetics Newsletter 23:60-64.
ReferenceGraner A and van Mechelen JR (1992) Genomic mapping of lipoxygenase genes. Barley Genetics Newsletter 22:15-17.
ReferenceGraner A et al. (1991) Construction of an RFLP map of barley Theoretical and Applied Genetics 83:250-256.
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Barley IxF chromosome 1H
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