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plant sciences (21) 21
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1. Full Text QTLTableMiner++: Semantic mining of QTL tables in scientific articles
by Singh, G and Kuzniar, A and van Mulligen, E.M and Gavai, A and Bachem, C.W and Visser, Richard and Finkers, R
B M C Bioinformatics, ISSN 1471-2105, 05/2018, Volume 19, Issue 1, pp. 183 - 11
textabstractBackground: A quantitative trait locus (QTL) is a genomic region that correlates with a phenotype. Most of the experimental information about QTL... 
Ontologies | QTL | Plant breeding | Quantitative trait locus | Semantic interoperability | Table mining | Computer Graphics | Algorithms | Publications | Semantics | Lycopersicon esculentum - genetics | Software | Quantitative Trait Loci | Solanum tuberosum - genetics | Data Mining - methods | Databases, Factual | Quantitative trait loci | Research | Data mining | Methods | Ontology | Potatoes | Genomics | Genes | Headers | Texts | Mapping | Genomes | Programming languages | Mining | Java (programming language) | Tables | Recall | Tomatoes | Plant sciences | Abbreviations | Unstructured data | Automation | Phenotypes | Tools | Information retrieval | Scientific papers | Information processing | Gene mapping | Relational data bases
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2. Full Text Tomato breeding in the genomics era: insights from a SNP array
by Víquez-Zamora, M and Vosman, B and Geest, van, H and Bovy, A.G and Visser, R.G.F and Finkers, H.J and Heusden, van, A.W
BMC Genomics, ISSN 1471-2164, 2013, Volume 14, Issue 1, pp. 354 - 354
Background - The major bottle neck in genetic and linkage studies in tomato has been the lack of a sufficient number of molecular markers. This has radically... 
technologies | lycopersicon-hirsutum | backcross qtl analysis | essential derivation | dna | genus lycopersicon | l-pimpinellifolium | construction | evolutionary history | phylogenetic-relationships | Custom made infinium array | Tomato wild relatives | Single Nucleotide Polymorphisms (SNP) | LYCOPERSICON-HIRSUTUM | ESSENTIAL DERIVATION | GENUS LYCOPERSICON | TECHNOLOGIES | BACKCROSS QTL ANALYSIS | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | PHYLOGENETIC-RELATIONSHIPS | DNA | CONSTRUCTION | GENETICS & HEREDITY | L-PIMPINELLIFOLIUM | EVOLUTIONARY HISTORY | Oligonucleotide Array Sequence Analysis | Species Specificity | Breeding | Hybridization, Genetic | Lycopersicon esculentum - classification | Genomics | Lycopersicon esculentum - genetics | Chromosome Mapping | Germ Cells - cytology | Polymorphism, Single Nucleotide | Germ Cells - metabolism | Phylogeny | Genetic aspects | Plant breeding | Tomatoes | Research | Single nucleotide polymorphisms | Nucleotide sequencing | DNA sequencing | Cluster analysis | Genetics | Genomes | Bioinformatics
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3. Full Text Mapping in the era of sequencing: high density genotyping and its application for mapping TYLCV resistance in Solanum pimpinellifolium
by Viquez-Zamora, M and Caro Rios, C.M and Finkers, H.J and Tikunov, Y.M and Bovy, A.G and Visser, R.G.F and Bai, Y and Heusden, van, A.W
BMC Genomics, ISSN 1471-2164, 2014, Volume 15, Issue 1, pp. 1152 - 1152
Background A RIL population between Solanum lycopersicum cv. Moneymaker and S. pimpinellifolium G1.1554 was genotyped with a custom made SNP array.... 
mass-spectrometry | infection | genes | metabolomics | lycopersicon-pimpinellifolium | inheritance | leaf-curl-virus | tomato | recombinant inbred lines | population | Flavonoids | Hexose | TYLCV | SNPs | In silico | Genotype by sequencing (GBS) | S. pimpinellifolium | LEAF-CURL-VIRUS | RECOMBINATION | POPULATION | ESCULENTUM | METABOLOMICS | LYCOPERSICON-PIMPINELLIFOLIUM | GENOMES | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | CROSS | GENETICS & HEREDITY | INHERITANCE | TOMATO | Genome, Plant - genetics | Plant Diseases - immunology | Metabolome | Chromosome Mapping | Genotyping Techniques | Solanum - virology | Solanum - metabolism | Solanum - genetics | Plant Diseases - virology | Computer Simulation | Solanum - immunology | Alleles | Inbreeding | Polymorphism, Single Nucleotide | Plant Viruses - physiology | Sequence Analysis | Disease Resistance - genetics | Quantitative Trait Loci - genetics | Quantitative genetics | Physiological aspects | Genetic aspects | Tomatoes | Single nucleotide polymorphisms | Analysis | Flavones | Bioflavonoids | Genomics | Genomes | Research | Metabolism | Experiments | Studies | Germplasm | Population | Gene loci | Software | Genetic testing | Chromosomes | Bioinformatics | Deoxyribonucleic acid--DNA
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4. Full Text Assessing the genetic variation of Ty-1 and Ty-3 alleles conferring resistance to tomato yellow leaf curl virus in a broad tomato germplasm
by Caro Rios, C.M and Verlaan, M.G and Julian, O and Finkers, H.J and Wolters, A.M.A and Hutton, S.F and Scott, J.W and Kormelink, R.J.M and Visser, R.G.F and Diez, M.J and Perez-de-Castro, A and Bai, Y
Molecular Breeding, ISSN 1380-3743, 2015, Volume 35, Issue 6, pp. 1 - 13
Tomato yellow leaf curl virus (TYLCV) hampers tomato production worldwide. Our previous studies have focussed on mapping and ultimately cloning of the TYLCV... 
Laboratorium voor Plantenveredeling | PBR Biodiversity and genetic variation | Laboratorium voor Virologie | Plant Breeding | EPS | Laboratory of Virology | Laboratory of Plant Breeding | PBR Biodiversiteit en Genetische Variatie | Life Sciences | Plant Pathology | Resistance | RNA-dependent RNA polymerase (RDR) | Biotechnology | Tomato yellow leaf curl virus (TYLCV) | Breeding | Virus-induced gene silencing (VIGS) | Plant Physiology | Tomato | Plant Sciences | Plant Genetics & Genomics | HORTICULTURE | AGRONOMY | FORMAT | GENETICS & HEREDITY | LOCUS | PLANT SCIENCES | Allelomorphism | Genetic research | Genetic aspects | Genetic engineering | RNA | Leaf-curl | Transcription | Genes | Insertion | Amino acids | Viruses | Mapping | DNA-directed RNA polymerase | Gene sequencing | Disease resistance | Germplasm | Yellow leaf | Tomatoes | Catalysis | Cultivars | Cloning | Genetic diversity | RNA polymerase | Ribonucleic acid--RNA | RNA-directed RNA polymerase | Polymerase | Plant diseases | Gene silencing | Alleles | Gene mapping
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5. Full Text Detection of an inversion in the Ty-2 region between S. lycopersicum and S. habrochaites by a combination of de novo genome assembly and BAC cloning
by Wolters, A.M.A and Caro Rios, C.M and Dong, S and Finkers, H.J and Gao, J and Visser, R.G.F and Wang, X and Du, Y and Bai, Y
Theoretical and Applied Genetics, ISSN 0040-5752, 2015, Volume 128, Issue 10, pp. 1987 - 1997
Among tomato and its wild relatives inversions are often observed, which result in suppression of recombination. Such inversions hamper the transfer of... 
WUR PB Kwantitatieve Aspecten | Laboratorium voor Plantenveredeling | PBR Biodiversity and genetic variation | Laboratorium voor Virologie | PBR Quantitative aspects of Plant Breeding | Plant Breeding | Laboratory of Virology | Laboratory of Plant Breeding | PBR Biodiversiteit en Genetische Variatie | PBR Kwantitatieve aspecten | Life Sciences | Biochemistry, general | Biotechnology | Plant Biochemistry | Plant Breeding/Biotechnology | Agriculture | Plant Genetics & Genomics | AGRONOMY | POTATO | CURL-VIRUS-RESISTANCE | IN-SITU HYBRIDIZATION | CHROMOSOMAL REARRANGEMENTS | PLANT SCIENCES | HORTICULTURE | GENE-CLUSTER | SOLANUM | SEQUENCE | GENETICS & HEREDITY | ARTEMIS COMPARISON TOOL | HOT-SPOT | TOMATO GENOME | Lycopersicon esculentum - virology | Chromosome Mapping | Genetic Markers | Chromosomes, Plant | Solanum - virology | Chromosome Inversion | Mosaic Viruses | Sequence Analysis, DNA | Solanum - genetics | Sequence Alignment | Plant Diseases - virology | Recombination, Genetic | Chromosomes, Artificial, Bacterial | Cloning, Molecular | Lycopersicon esculentum - genetics | Plant Diseases - genetics | Disease Resistance - genetics | DNA, Plant - genetics | Genetic aspects | Tomatoes | Genetic recombination | Identification and classification | Cloning | Original
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6. Full Text Exploring genetic variation in the tomato (Solanum section Lycopersicon) clade by whole-genome sequencing
by Aflitos, S and Schijlen, E and de Jong, H and de Ridder, D and Smit, S and Finkers, R and Wang, J and Zhang, G and Li, N and Mao, L and Bakker, F and Dirks, R and Breit, T and Gravendeel, B and Huits, H and Struss, D and Swanson-Wagner, R and van Leeuwen, H and van Ham, R.C.H.J and Fito, L and Guignier, L and Sevilla, M and Ellul, P and Ganko, E and Kapur, A and Reclus, E and de Geus, B and van de Geest, H and te Lintel Hekkert, B and van Haarst, J and Smits, L and Koops, A and Sanchez-Perez, G and van Heusden, A.W and Visser, R and Quan, Z and Min, J and Liao, L and Wang, X and Wang, G and Yue, Z and Yang, X and Xu, N and Schranz, E and Smets, E and Vos, R and Rauwerda, J and Ursem, R and Schuit, C and Kerns, M and van den Berg, J and Vriezen, W and Janssen, A and Datema, E and Jahrman, T and Moquet, F and Bonnet, J and Peters, S and Tomato Genome Sequencing Consorti and 100 Tomato Genome Sequencing Consortium and The 100 Tomato Genome Sequencing Consortium
Plant Journal, ISSN 0960-7412, 2014, Volume 80, Issue 1, pp. 136 - 148
We explored genetic variation by sequencing a selection of 84 tomato accessions and related wild species representative of the Lycopersicon, Arcanum,... 
Solanum habrochaites | heterozygosity | Solanum arcanum | Solanum lycopersicum | Solanum pennellii | chromosome evolution | Solanum genetic diversity | introgression | comparative sequence analysis | phylogenomics | Comparative sequence analysis | Introgression | Chromosome evolution | Heterozygosity | Phylogenomics | FRUIT SIZE | PLANT | READ ALIGNMENT | SOLANACEAE | DOMESTICATION | GENUS LYCOPERSICON | PLANT SCIENCES | EVOLUTION | WILD TOMATOES | SINGLE-NUCLEOTIDE POLYMORPHISMS | BURROWS-WHEELER TRANSFORM | Genome, Plant - genetics | Species Specificity | Breeding | Molecular Sequence Data | Chromosome Mapping | Phylogeny | Sequence Analysis, DNA | Genetic Variation | Phenotype | Sequence Alignment | DNA, Plant - chemistry | Lycopersicon esculentum - genetics | High-Throughput Nucleotide Sequencing | Polymorphism, Single Nucleotide | DNA, Plant - genetics | Fruit - genetics | Analysis | Genomics | Plant genetics | Genetic research | Genetic aspects | Genomes | Single nucleotide polymorphisms | Nucleotide sequencing | Tomatoes | Chromosomes | DNA sequencing | Plant biology | Evolution | Genetic diversity | Quantitative Biology - Genomics | read alignment | burrows-wheeler transform | fruit size | solanaceae | domestication | plant | genus lycopersicon | wild tomatoes | evolution | single-nucleotide polymorphisms
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7. Full Text Exploring natural genetic variation in tomato sucrose synthases on the basis of increased kinetic properties
by Dinh, Quy Dung and Finkers, Richard and Westphal, Aie H and Dongen, van, Walter M.A.M and Visser, Richard G.F and Trindade, Luisa M
PLoS ONE, ISSN 1932-6203, 2018, Volume 13, Issue 10, p. e0206636
Sucrose synthase (SuSy) is one key enzyme directly hydrolyzing sucrose to supply substrates for plant metabolism, and is considered to be a biomarker for plant... 
WUR PB Kwantitatieve Aspecten | Laboratorium voor Plantenveredeling | PE&RC | PBR Quantitative aspects of Plant Breeding | Plant Breeding | EPS | Biochemistry | Laboratory of Plant Breeding | PBR Bio-based Economy | Biochemie | PBR Kwantitatieve aspecten | PBR Biobased Economy | SINK STRENGTH | ARABIDOPSIS-THALIANA | FRUIT | METABOLISM | PHOSPHORYLATION | MULTIDISCIPLINARY SCIENCES | SOLANUM-TUBEROSUM L | AFFINITY-CHROMATOGRAPHY | ACCUMULATION | MEMBRANE ASSOCIATION | PHOTOSYNTHESIS | Lycopersicon esculentum - metabolism | Phosphorylation | Genes, Plant | Lycopersicon esculentum - enzymology | Binding Sites - genetics | Glucosyltransferases - metabolism | Haplotypes - genetics | Plant Proteins - genetics | Cloning, Molecular | Lycopersicon esculentum - genetics | Genetic Variation - genetics | Plant Proteins - metabolism | Kinetics | DNA, Plant - genetics | Glucosyltransferases - genetics | Physiological aspects | Enzymes | Amino acids | Genetic aspects | Biosynthesis | Research | Tomatoes | Genetic variation
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8. Full Text Combined biotic and abiotic stress resistance in tomato
by Kissoudis, C and Chowdhury, R and Heusden, van, A.W and Wiel, van de, C.C.M and Finkers, H.J and Visser, R.G.F and Bai, Y and Linden, van der, C.G
Euphytica, ISSN 0014-2336, 2015, Volume 202, Issue 2, pp. 317 - 332
Abiotic and biotic stress factors are the major constrains for the realization of crop yield potential. As climate change progresses, the spread and intensity... 
powdery mildew | botrytis-cinerea | salt tolerance | oidium-neolycopersici | plant-disease | salinity tolerance | phenotypic plasticity | solanum-lycopersicon | abscisic-acid | climate-change | Life Sciences | Plant Pathology | Biotechnology | Stress interactions | Crosstalk | Phenotypic variation | Plant Physiology | Ion homeostasis | Plant Sciences | Plant Genetics & Genomics | Combined stress | AGRONOMY | PHENOTYPIC PLASTICITY | BOTRYTIS-CINEREA | CLIMATE-CHANGE | DROUGHT | SOLANUM-LYCOPERSICON | SALT TOLERANCE | PLANT-DISEASE | PLANT SCIENCES | HORTICULTURE | SALINITY TOLERANCE | ARABIDOPSIS | ABSCISIC-ACID | Greenhouse effect | Global temperature changes | Genotype & phenotype | Tomatoes | Selective breeding | Plant resistance
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9. Full Text Genetic analysis of metabolites in apple fruits indicates an mQTL hotspot for phenolic compounds on linkage group 16
by Sabaz Ali Khan and Pierre-Yves Chibon and Ric C.H. de Vos and Bert A. Schipper and Evert Walraven and Jules Beekwilder and Thijs van Dijk and Richard Finkers and Richard G.F. Visser and Eric W. van de Weg and Arnaud Bovy and Alessandro Cestaro and Riccardo Velasco and Evert Jacobsen and Henk J. Schouten
Journal of Experimental Botany, ISSN 0022-0957, 1/2012, Volume 63, Issue 8, pp. 2895 - 2908
Apple ( × Borkh) is among the main sources of phenolic compounds in the human diet. The genetic basis of the quantitative variations of these potentially... 
Peels | Flavonoids | Transcription factors | Metabolites | Genes | Alleles | Glycosides | Genetic loci | Genomes | RESEARCH PAPER | Fruits | mass-spectrometry | cisgenic plants | malus-pumila mill | proanthocyanidin biosynthesis | anthocyanidin reductase | flavonoid biosynthesis | developing grape berries | quantitative trait loci | microsatellite markers | x-domestica borkh | MetaNetwork | LC-MS | Untargeted and targeted mQTL mapping | Malus×domestica Borkh | MapQTL | Genetical metabolomics | MALUS-PUMILA MILL | Malusxdomestica Borkh | untargeted and targeted mQTL mapping | X-DOMESTICA BORKH | PROANTHOCYANIDIN BIOSYNTHESIS | MASS-SPECTROMETRY | PLANT SCIENCES | CISGENIC PLANTS | QUANTITATIVE TRAIT LOCI | FLAVONOID BIOSYNTHESIS | ANTHOCYANIDIN REDUCTASE | MICROSATELLITE MARKERS | DEVELOPING GRAPE BERRIES | genetical metabolomics | Humans | Genotype | Chromosome Mapping | Phenols - metabolism | Transcription Factors - genetics | Malus - genetics | Arabidopsis - genetics | Metabolic Networks and Pathways - genetics | Malus - metabolism | Genes, Plant - genetics | Fruit - metabolism | Fruit - genetics | Crosses, Genetic | Genetic Linkage | Hydrogen-Ion Concentration | Quantitative Trait Loci - genetics | Research Papers
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10. Full Text Haplotype assembly of autotetraploid potato using integer linear programing
by Siragusa, Enrico and Haiminen, Niina and Finkers, Richard and Visser, Richard and Parida, Laxmi
Bioinformatics, ISSN 1367-4803, 11/2019, Volume 35, Issue 21, pp. 4534 - 4534
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11. Full Text SolRgene: an online database to explore disease resistance genes in tuber-bearing Solanum species
by Vleeshouwers, V.G.A.A and Finkers, H.J and Budding, D.J and Vissers, M and Jacobs, M.M.J and Berloo, van, R and Pel, M and Champouret, N and Bakker, E.H and Krenek, P and Rietman, H and Huigen, D.J and Hoekstra, R and Goverse, A and Vosman, B and Jacobsen, E and Visser, R.G.F
BMC Plant Biology, ISSN 1471-2229, 2011, Volume 11, Issue 1, pp. 116 - 116
Background The cultivated potato (Solanum tuberosum L.) is an important food crop, but highly susceptible to many pathogens. The major threat to potato... 
potato genome | r-gene | bulbocastanum | late blight resistance | plant | genome sequence | tomato | venturii | homolog | phytophthora-infestans resistance | BULBOCASTANUM | PLANT | GENOME SEQUENCE | POTATO | ASSAY | VENTURII | R-GENE | PHYTOPHTHORA-INFESTANS RESISTANCE | HOMOLOG | LATE BLIGHT RESISTANCE | PLANT SCIENCES | Phytophthora infestans - immunology | Genes, Plant | Plant Diseases - immunology | Solanum tuberosum - immunology | Databases, Genetic | Molecular Sequence Data | Disease Resistance - immunology | Phylogeny | Biological Evolution | Solanum - genetics | Base Sequence | Solanum - immunology | Plant Diseases - genetics | Crops, Agricultural - genetics | Crops, Agricultural - immunology | Disease Resistance - genetics | Solanum tuberosum - genetics
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12. Full Text Mapping and characterization of novel parthenocarpy QTLs in tomato
by Gorguet, B.J.M and Eggink, P.M and Ocaña, J and Tiwari, A and Schipper, E.H and Finkers, H.J and Visser, R.G.F and Heusden, van, A.W
Theoretical and Applied Genetics, ISSN 0040-5752, 2008, Volume 116, Issue 6, pp. 755 - 767
Parthenocarpy is the development of the fruit in absence of pollination and/or fertilization. In tomato, parthenocarpy is considered as an attractive trait to... 
auxin-response-factor8 | set | identification | lycopersicon-esculentum | botrytis-cinerea | hirsutum | chromosomes | quantitative trait loci | introgression | resistance | Life Sciences | Biochemistry, general | Biotechnology | Plant Biochemistry | Plant Breeding/Biotechnology | Agriculture | Plant Genetics & Genomics | AGRONOMY | SET | BOTRYTIS-CINEREA | AUXIN-RESPONSE-FACTOR8 | CHROMOSOMES | IDENTIFICATION | LYCOPERSICON-ESCULENTUM | INTROGRESSION | PLANT SCIENCES | HORTICULTURE | QUANTITATIVE TRAIT LOCI | GENETICS & HEREDITY | RESISTANCE | HIRSUTUM | Arabidopsis Proteins - genetics | Plants, Genetically Modified - genetics | Chromosomes, Plant | DNA-Binding Proteins - genetics | Lycopersicon esculentum - physiology | Flowers - growth & development | Arabidopsis - genetics | Arabidopsis Proteins - metabolism | DNA-Binding Proteins - metabolism | Fruit - growth & development | Phenotype | Quantitative Trait Loci | Flowers - genetics | DNA, Plant - genetics | Fruit - genetics | Parthenogenesis - physiology | Original Paper
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13. Full Text The FAIR Guiding Principles for scientific data management and stewardship
by Wilkinson, Mark D and Dumontier, Michel and Aalbersberg, Ijsbrand Jan and Appleton, Gabrielle and Axton, Myles and Baak, Arie and Blomberg, Niklas and Boiten, Jan-willem and Da Silva Santos, Luiz Bonino and Bourne, Philip E and Bouwman, Jildau and Brookes, Anthony J and Clark, Tim and Crosas, Mercè and Dillo, Ingrid and Dumon, Olivier and Edmunds, Scott and Evelo, Chris T and Finkers, Richard and Gonzalez-beltran, Alejana and Gray, Alasdair J.g and Groth, Paul and Goble, Carole and Grethe, Jeffrey S and Heringa, Jaap and t Hoen, Peter A.c and Hooft, Rob and Kuhn, Tobias and Kok, Ruben and Kok, Joost and Lusher, Scott J and Martone, Maryann E and Mons, Albert and Packer, Abel L and Persson, Bengt and Rocca-serra, Philippe and Roos, Marco and Van Schaik, Rene and Sansone, Susanna-assunta and Schultes, Erik and Sengstag, Thierry and Slater, Ted and Strawn, George and Swertz, Morris A and Thompson, Mark and Van Der Lei, Johan and Van Mulligen, Erik and Velterop, Jan and Waagmeester, Ana and Wittenburg, Peter and Wolstencroft, Katherine and Zhao, Jun and Mons, Barend and Science for Life Laboratory, SciLifeLab and Teknisk-naturvetenskapliga vetenskapsområdet and Biologiska sektionen and Beräkningsbiologi och bioinformatik and Uppsala universitet and Institutionen för cell- och molekylärbiologi
Scientific Data, ISSN 2052-4463, 2016, Volume 3, Issue 1, pp. 160018 - 160018
There is an urgent need to improve the infrastructure supporting the reuse of scholarly data. A diverse set of stakeholders—representing academia, industry,... 
MULTIDISCIPLINARY SCIENCES | BIOLOGY | PROTEIN DATA-BANK | Guidelines as Topic | Reproducibility of Results | Data Collection | Research Design | Data Curation | Database Management Systems | Data- och informationsvetenskap | Naturvetenskap | Natural Sciences | Medical and Health Sciences | Computer and Information Sciences | Medicin och hälsovetenskap
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