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1. Full Text Chromosomes in the flow to simplify genome analysis
by Doležel, Jaroslav and Vrána, Jan and Šafář, Jan and Bartoš, Jan and Kubaláková, Marie and Šimková, Hana
Functional & Integrative Genomics, ISSN 1438-793X, 8/2012, Volume 12, Issue 3, pp. 397 - 416
Nuclear genomes of human, animals, and plants are organized into subunits called chromosomes. When isolated into aqueous suspension, mitotic chromosomes can be... 
Biochemistry, general | Chromosome genomics | Flow cytometry | Chromosome sorting | Chromosome-specific BAC libraries | Plant Genetics & Genomics | Cell Biology | Life Sciences | Genome complexity reduction | Microbial Genetics and Genomics | Chromosome sequencing | Bioinformatics | Physical mapping | Animal Genetics and Genomics | SORTED PLANT CHROMOSOMES | HIGH-RESOLUTION ANALYSIS | TRITICUM-AESTIVUM L | HUMAN METAPHASE CHROMOSOMES | DNA LIBRARIES | BEAN VICIA-FABA | CYTOMETRIC ANALYSIS | BREAD WHEAT | GENETICS & HEREDITY | INSITU HYBRIDIZATION | CICER-ARIETINUM L | Chromosome Structures - chemistry | Chromosome Structures - genetics | Flow Cytometry - methods | Gene Library | Mitosis | Oligonucleotide Array Sequence Analysis - methods | Humans | Chromosome Painting - methods | Animals | Plants - genetics | Chromosomes - genetics | Physical Chromosome Mapping - methods | Chromosomes - chemistry | Plants - chemistry | Genome, Human | Genomics - methods | Karyotype | Chromosomes | Genomics | Nucleotide sequence | Ultrastructure | Light scattering | Fluorescence in situ hybridization | Fluorescence | Karyotypes | Genomes | Gene mapping | Peptide mapping | DNA sequencing | Review
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2. Full Text Coupling amplified DNA from flow-sorted chromosomes to high-density SNP mapping in barley
by Šimková, Hana and Svensson, Jan T and Condamine, Pascal and Hřibová, Eva and Suchánková, Pavla and Bhat, Prasanna R and Bartoš, Jan and Šafář, Jan and Close, Timothy J and Doležel, Jaroslav
BMC Genomics, ISSN 1471-2164, 06/2008, Volume 9, Issue 1, pp. 294 - 294
Background: Flow cytometry facilitates sorting of single chromosomes and chromosome arms which can be used for targeted genome analysis. However, the recovery... 
WHOLE-GENOME AMPLIFICATION | TRITICUM-AESTIVUM L | MITOTIC CHROMOSOMES | VICIA-FABA | HIGH-THROUGHPUT | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | BREAD WHEAT | DISPLACEMENT AMPLIFICATION | GENETICS & HEREDITY | SINGLE-NUCLEOTIDE POLYMORPHISM | SAMPLES | MAP | Flow Cytometry | Nucleic Acid Amplification Techniques - methods | Physical Chromosome Mapping - methods | Polymerase Chain Reaction | Polymorphism, Single Nucleotide | Genetic Markers | Chromosomes, Plant - genetics | Hordeum - genetics | DNA, Plant - genetics | Flow cytometry | Usage | Physiological aspects | Single nucleotide polymorphisms | Research | Chromosomes | Methods
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3. Full Text Shifting the limits in wheat research and breeding using a fully annotated reference genome
by Appels, Rudi and Appels, Rudi and Eversole, Kellye and Eversole, Kellye and Feuillet, Catherine and Keller, Beat and Rogers, Jane and Rogers, Jane and Stein, Nils and Stein, Nils and Pozniak, Curtis J and Stein, Nils and Choulet, Frédéric and Choulet, Frédéric and Eversole, Kellye and Distelfeld, Assaf and Rogers, Jane and Poland, Jesse and Ronen, Gil and Sharpe, Andrew G and Barad, Omer and Baruch, Kobi and Stein, Nils and Keeble-Gagnère, Gabriel and Barad, Omer and Choulet, Frédéric and Mascher, Martin and Keeble-Gagnère, Gabriel and Ben-Zvi, Gil and Josselin, Ambre-Aurore and Sharpe, Andrew G and Himmelbach, Axel and Ben-Zvi, Gil and Stein, Nils and Balfourier, François and Gutierrez-Gonzalez, Juan and Rogers, Jane and Balfourier, François and Hayden, Matthew and Gutierrez-Gonzalez, Juan and Koh, Chu Shin and Muehlbauer, Gary and Josselin, Ambre-Aurore and Pasam, Raj K and Koh, ChuShin and Muehlbauer, Gary and Paux, Etienne and Pasam, Raj K and Rigault, Philippe and Tibbits, Josquin and Pozniak, Curtis J and Tiwari, Vijay and Sharpe, Andrew G and Spannagl, Manuel and Tibbits, Josquin and Lang, Daniel and Rogers, Jane and Gundlach, Heidrun and Choulet, Frédéric and Haberer, Georg and Lang, Daniel and Mayer, Klaus F. X and Gundlach, Heidrun and Ormanbekova, Danara and Keeble-Gagnère, Gabriel and Prade, Verena and Mayer, Klaus F X and Paux, Etienne and Wicker, Thomas and Swarbreck, David and Prade, Verena and Šimková, Hana and Rimbert, Hélène and Felder, Marius and Wicker, Thomas and Swarbreck, David and Guilhot, Nicolas and Kaithakottil, Gemy and Rimbert, Hélène and Keilwagen, Jens and Felder, Marius and Guilhot, Nicolas and Leroy, Philippe and Lux, Thomas and Kaithakottil, Gemy and Twardziok, Sven and Lang, Daniel and Venturini, Luca and Leroy, Philippe and Juhasz, Angela and Lux, Thomas and Twardziok, Sven and Abrouk, Michael and Fischer, Iris and Appels, Rudi and Juhász, Angéla and Uauy, Cristobal and Borrill, Philippa and Appels, Rudi and Fischer, Iris and ... and RefSeq Genome Structure Gene and Recombination Anal and 1B BAC Sequencing Assembly and Transposable Elements and WAK Gene Family and Flowering Iocus C FLC Gene Team and Genome Size Anal and 2AS Phys Mapping and Optical Mapping and Prolamin Gene Family and 4A Phys Mapping BAC Sequencing Ass and Whole-genome Sequencing Assembly and Subgenome Comparative Anal and IWGSC Whole-Genome Assembly Prin and BAC Chromosome MTP IWGSC-Bayer W and 7DS BAC Sequencing Assembly and Manual Gene Curation and Chromosome LTC Mapping Phys Map and PPR Gene Family and 6B BAC Sequencing Assembly and Hi-C Data-based Scaffolding and BAC Libraries Chromosome Sorting and NLR Gene Family and Manuscript Writing Team and 3AL Phys Mapping and 2B 2D 4B 5BL 5DL IWGSC Bayer Wh and Phys Maps BAC-based Sequences 1A and IWGSC Sequence Data Repository and CBF Gene Family and 7A Phys Mapping BAC Sequencing and 3DL BAC Sequencing Assembly and Automated Annotation and Whole-genome Assembly Quality and Dehydrin Gene Family and Whole-genome Methylome and RH Mapping and Transcriptome Anal RNA-seq Data and Pseudomolecule Assembly and Stem Solidness SSt1 QTL Team and Figures and 3DS Phys Mapping BAC and 7B Phys Mapping BAC Sequencing and Genetic Maps Mapping and 5BS BAC Sequencing Assembly and MicroRNA tRNa Annotation and 2AL Phys Mapping and Gene Family Anal and BAC Pooling BAC Lib Repository and 1D 4D 6D Phys Mapping and IWGSC RefSeq Principal and IWGSC and Phylogenomic Anal and 7DL Phys Mapping BAC Sequencing and Histone Mark Anal and Transposable elements and IWGSC whole-genome assembly principal investigators and CBF gene family and 1D, 4D, and 6D physical mapping and Physical maps and BAC-based sequences and 7DS BAC sequencing and assembly and Manuscript writing team and Dehydrin gene family and 7DL physical mapping and BAC sequencing and MicroRNA and tRNA annotation and 1A BAC sequencing and assembly and PPR gene family and Phylogenomic analyses and Automated annotation and Optical mapping and 5BS BAC sequencing and assembly and 7A physical mapping and BAC sequencing and 6B BAC sequencing and assembly and International Wheat Genome Sequencing Consortium (IWGSC) and 4A physical mapping, BAC sequencing, assembly, and annotation and Subgenome comparative analyses and Whole-genome sequencing and assembly and Recombination analyses and RefSeq genome structure and gene analyses and 2AS physical mapping and Whole-genome methylome and Genome size analysis and 2AL physical mapping and IWGSC RefSeq principal investigators and Transcriptome analyses and RNA-seq data and Genetic maps and mapping and Manual gene curation and 3DL BAC sequencing and assembly and BAC pooling, BAC library repository, and access and Histone mark analyses and WAK gene family and Pseudomolecule assembly and BAC chromosome MTP IWGSC–Bayer Whole-Genome Profiling (WGP) tags and BAC libraries and chromosome sorting and Prolamin gene family and IWGSC sequence and data repository and access and 1B BAC sequencing and assembly and Flowering locus C (FLC) gene team and RH mapping and Gene family analyses and Chromosome LTC mapping and physical mapping quality control and Whole-genome assembly quality control and analyses and 2B, 2D, 4B, 5BL, and 5DL IWGSC–Bayer Whole-Genome Profiling (WGP) physical maps and 3DS physical mapping and BAC sequencing and assembly and 3AL physical mapping and NLR gene family and Hi-C data-based scaffolding and 7B physical mapping, BAC sequencing, and assembly and Stem solidness (SSt1) QTL team and The International Wheat Genome Sequencing Consortium (IWGSC)
Science, ISSN 0036-8075, 08/2018, Volume 361, Issue 6403, pp. 661 - 661
An annotated reference sequence representing the hexaploid bread wheat genome in 21 pseudomolecules has been analyzed to identify the distribution and genomic... 
DRAFT GENOME | MULTIDISCIPLINARY SCIENCES | ADAPTATION | GENES | TISSUES | LOCUS | KEY | REVEALS | RICE | Multigene Family | Atlases as Topic | Breeding | Molecular Sequence Annotation | Triticum - anatomy & histology | Transcriptome | Triticum - growth & development | Genome, Plant | Phylogeny | Bread | Triticum - genetics | Reference Standards | Gene Expression Regulation, Developmental | Gene Expression Regulation, Plant | Quantitative Trait Loci | Triticum - classification | Usage | Plant breeding | Growth | Genetically modified crops | Genetic aspects | Nucleotide sequencing | Research | Wheat | DNA sequencing | Networks | Agricultural research | Communities | Genomics | Innovations | Editing | Genomes | Biology | Regulatory sequences | Gene sequencing | Consortia | Human populations | Annotations | Developmental stages | Quality | Agronomy | Agricultural production | Assembling | Flowering | Bioinformatics | Chromosomes | Crop yield | Assembly | Deoxyribonucleic acid--DNA | Adaptation | CRISPR | Population growth | Nucleotide sequence | Food sources | Gene families | Crops | Plant protection | Global economy | Gene expression | Loci | Calories | Quantitative trait loci | Insects | Gene mapping | Life Sciences | Biotechnology
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4. Full Text Intraspecific sequence comparisons reveal similar rates of non-collinear gene insertion in the B and D genomes of bread wheat
by Bartoš, Jan and Vlček, Čestmír and Choulet, Frédéric and Džunková, Mária and Cviková, Kateřina and Šafář, Jan and Šimková, Hana and Pačes, Jan and Strnad, Hynek and Sourdille, Pierre and Bergès, Hélène and Cattonaro, Federica and Feuillet, Catherine and Doležel, Jaroslav
BMC Plant Biology, ISSN 1471-2229, 08/2012, Volume 12, Issue 1, pp. 155 - 155
Background: Polyploidization is considered one of the main mechanisms of plant genome evolution. The presence of multiple copies of the same gene reduces... 
Allopolyploidy | Non-collinear genes | BAC sequencing | Gene duplication | Wheat | Homoeologous genomes | BRACHYPODIUM-DISTACHYON | TRITICUM-AESTIVUM L | PLANT GENOMES | MAIZE GENOME | PLANT SCIENCES | EVOLUTION | AEGILOPS-TAUSCHII | ANNOTATION | CHROMOSOME 3B | POLYPLOID WHEAT | EXPRESSION | Gene Duplication | Polyploidy | Genome, Plant - genetics | Genetic Loci - genetics | Brachypodium - genetics | Phylogeny | Sequence Analysis, DNA | Triticum - genetics | Pseudogenes - genetics | Oryza - genetics | Chromosomes, Artificial, Bacterial | Contig Mapping | Mutagenesis, Insertional | Chromosomes, Plant - genetics | DNA, Plant - genetics | Evolution, Molecular | Genomes | Genetic aspects | Nucleotide sequencing | Insertion elements, DNA | Properties | Methods | DNA sequencing | Transposons | Genes | Genomics | Plant genetics | Plants | Bread | Analysis | Evolution | Genetics | Chromosomes | Life Sciences
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5. Full Text Whole‐genome profiling and shotgun sequencing delivers an anchored, gene‐decorated, physical map assembly of bread wheat chromosome 6A
by Poursarebani, Naser and Nussbaumer, Thomas and Šimková, Hana and Šafář, Jan and Witsenboer, Hanneke and Oeveren, Jan and Doležel, Jaroslav and Mayer, Klaus F.X and Stein, Nils and Schnurbusch, Thorsten
The Plant Journal, ISSN 0960-7412, 07/2014, Volume 79, Issue 2, pp. 334 - 347
Summary Bread wheat (Triticum aestivum L.) is the most important staple food crop for 35% of the world's population. International efforts are underway to... 
linear topological contigs | bread wheat chromosome 6A | whole‐genome profiling | anchored physical map | technical advance | bacterial artificial chromosome contigs | whole-genome profiling | RECOMBINATION | COMPLEX | DRAFT GENOME | TRITICUM-AESTIVUM | CLIMATE-CHANGE | PLANT SCIENCES | ORGANIZATION | FUSARIUM HEAD BLIGHT | LINEAR TOPOLOGICAL CONTIGS | RESISTANCE | PROVIDES | REVEALS | Chromosomes, Artificial, Bacterial - genetics | Triticum - genetics | Chromosomes, Plant - genetics | Physical Chromosome Mapping | Genetic markers | Analysis | Genes | Long-term care of the sick | Genomics | Genomes | Wheat | Chromosomes | Technical Advance
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6. Full Text A novel resource for genomics of Triticeae: BAC library specific for the short arm of rye (Secale cereale L.) chromosome 1R (1RS)
by Šimková, Hana and Šafář, Jan and Suchánková, Pavla and Kovářová, Pavlína and Bartoš, Jan and Kubaláková, Marie and Janda, Jaroslav and Číhalíková, Jarmila and Mago, Rohit and Lelley, Tamas and Doležel, Jaroslav
BMC Genomics, ISSN 1471-2164, 05/2008, Volume 9, Issue 1, pp. 237 - 237
Background: Genomics of rye (Secale cereale L.) is impeded by its large nuclear genome (IC similar to 7,900 Mbp) with prevalence of DNA repeats (> 90%). An... 
LINKAGE MAP | RESISTANCE GENES | MOLECULAR MARKERS | MITOTIC CHROMOSOMES | HEXAPLOID WHEAT | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | BREAD WHEAT | DNA | BARLEY | GENETICS & HEREDITY | FLOW-CYTOMETRY | AESTIVUM L | Translocation, Genetic | Genomic Library | In Situ Hybridization, Fluorescence | Genome, Plant | Chromosomes, Artificial, Bacterial - genetics | Triticum - genetics | Secale - genetics | Flow Cytometry | Karyotyping | Plant Diseases - genetics | Chromosomes, Plant - genetics | DNA, Plant - genetics | DNA, Plant - isolation & purification | Cloning | Genetic aspects | Research | Grasses | Chromosomes | Identification and classification | Methods
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7. Full Text Can a late bloomer become an early bird? Tools for flowering time adjustment
by Milec, Zbyněk and Valárik, Miroslav and Bartoš, Jan and Šafář, Jan
Biotechnology Advances, ISSN 0734-9750, 01/2014, Volume 32, Issue 1, pp. 200 - 214
The transition from the vegetative to reproductive stage followed by inflorescence is a critical step in plant life; therefore, studies of the genes that... 
Biotechnology | Arabidopsis | Genomics | Vernalization | Flowering | Photoperiod | Wheat | Rice | TRITICUM-AESTIVUM L | HIGH-TEMPERATURE STRESS | EUROPEAN WINTER WHEATS | QUANTITATIVE TRAIT LOCI | BARLEY HORDEUM-VULGARE | PSEUDO-RESPONSE-REGULATOR | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | SINGLE NUCLEOTIDE POLYMORPHISM | NARROW-SENSE EARLINESS | MADS-BOX GENES | GENOME-WIDE ASSOCIATION | Crops, Agricultural - physiology | Plants, Genetically Modified - physiology | Genetic Engineering | Plants, Genetically Modified - genetics | Breeding | Crops, Agricultural - genetics | Flowers - physiology | Flowers - genetics | Animal behavior | Winter | Genes | Crops | Genetics | Plants (organisms) | Scientists
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8. Full Text Divergence between bread wheat and Triticum militinae in the powdery mildew resistance QPm.tut-4A locus and its implications for cloning of the resistance gene
by Janáková, Eva and Janáková, Eva and Jakobson, Irena and Jakobson, Irena and Peusha, Hilma and Peusha, Hilma and Abrouk, Michael and Abrouk, Michael and Škopová, Monika and Škopová, Monika and Šimková, Hana and Šimková, Hana and Šafář, Jan and Šafář, Jan and Vrána, Jan and Vrána, Jan and Doležel, Jaroslav and Doležel, Jaroslav and Järve, Kadri and Järve, Kadri and Valárik, Miroslav and Valárik, Miroslav
Theoretical and Applied Genetics, ISSN 0040-5752, 4/2019, Volume 132, Issue 4, pp. 1061 - 1072
A segment of Triticum militinae chromosome 7G harbors a gene(s) conferring powdery mildew resistance which is effective at both the seedling and the adult... 
Life Sciences | Biochemistry, general | Biotechnology | Plant Biochemistry | Plant Breeding/Biotechnology | Plant Genetics and Genomics | Agriculture | RUST | DOMAIN | AGRONOMY | PROTEIN | HEXAPLOID WHEAT | RAPID CLONING | CHROMOSOMES | IDENTIFICATION | CELL-DEATH | PLANT SCIENCES | HORTICULTURE | EVOLUTION | GENETICS & HEREDITY | ADULT-PLANT | Triticum - immunology | Ascomycota - physiology | Genes, Plant | Molecular Sequence Annotation | Plant Diseases - immunology | Plant Diseases - microbiology | Chromosome Mapping | Genetic Loci | Bread | Genetic Variation | Triticum - genetics | Cloning, Molecular | Plant Diseases - genetics | Chromosomes, Plant - genetics | Disease Resistance - genetics | Triticum - microbiology | Genetic markers | Wheat | Analysis | Genes | Cloning | Recombination | Nucleotide sequence | Chromosome 7 | Mildew | Powdery mildew | Seedlings | Original
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9. Full Text A first survey of the rye (Secale cereale) genome composition through BAC end sequencing of the short arm of chromosome 1R
by Bartoš, Jan and Paux, Etienne and Kofler, Robert and Havránková, Miroslava and Kopecký, David and Suchánková, Pavla and Šafář, Jan and Šimková, Hana and Town, Christopher D and Lelley, Tamas and Feuillet, Catherine and Doležel, Jaroslav
BMC Plant Biology, ISSN 1471-2229, 2008, Volume 8, Issue 1, pp. 95 - 95
Background: Rye (Secale cereale L.) belongs to tribe Triticeae and is an important temperate cereal. It is one of the parents of man-made species Triticale and... 
DRAFT SEQUENCE | RICE GENOME | SSR MARKERS | REPETITIVE ELEMENTS | BREAD WHEAT | DNA | TRANSFERABILITY | MICROSATELLITE MARKERS | FLOW-CYTOMETRY | PLANT SCIENCES | Gene Library | Genes, Plant | Physical Chromosome Mapping | Computational Biology | Molecular Sequence Data | In Situ Hybridization, Fluorescence | Genetic Markers | Genome, Plant | Sequence Homology, Nucleic Acid | Secale - genetics | Base Sequence | Chromosomes, Artificial, Bacterial | Repetitive Sequences, Nucleic Acid | Chromosomes, Plant - genetics | DNA, Plant - genetics | Genetic aspects | Research | Nucleotide sequence | Genes | Rye | Life Sciences | Vegetal Biology
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10. Full Text Multiple horizontal transfers of nuclear ribosomal genes between phylogenetically distinct grass lineages
by Mahelka, Václav and Krak, Karol and Kopecký, David and Fehrer, Judith and Šafář, Jan and Bartoš, Jan and Hobza, Roman and Blavet, Nicolas and Blattner, Frank R
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 02/2017, Volume 114, Issue 7, pp. 1726 - 1731
The movement of nuclear DNA from one vascular plant species to another in the absence of fertilization is thought to be rare. Here, nonnative rRNA gene... 
Hordeum | Panicoideae | Transposable elements | Triticeae | Horizontal gene transfer | RDNA | MULTIDISCIPLINARY SCIENCES | HORDEUM POACEAE | INFERENCE | WHEAT | horizontal gene transfer | EVOLUTION | GENOMES | transposable elements | PARASITIC PLANT | HYBRID | Biological Sciences
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