Insights into the genetic relationships among plants of Beta section Beta using SNP markers
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[1] Gideon S. Bradburd,et al. Finding the Genomic Basis of Local Adaptation: Pitfalls, Practical Solutions, and Future Directions , 2016, The American Naturalist.
[2] S. Chao,et al. Population Structure and Genotype–Phenotype Associations in a Collection of Oat Landraces and Historic Cultivars , 2016, Front. Plant Sci..
[3] S. Manel,et al. Taxonomic, spatial and adaptive genetic variation of Beta section Beta , 2015, Theoretical and Applied Genetics.
[4] A. Łukanowski,et al. Evaluation of rhizomania-resistance segregating sequences and overall genetic diversity pattern among selected accessions of Beta and Patellifolia. Potential implications of breeding for genetic bottlenecks in terms of rhizomania resistance , 2015, Euphytica.
[5] B. Mangin,et al. Breeding patterns and cultivated beets origins by genetic diversity and linkage disequilibrium analyses , 2015, Theoretical and Applied Genetics.
[6] Jiuran Zhao,et al. Development of maizeSNP3072, a high-throughput compatible SNP array, for DNA fingerprinting identification of Chinese maize varieties , 2015, Molecular Breeding.
[7] P. Ollitrault,et al. Nuclear Species-Diagnostic SNP Markers Mined from 454 Amplicon Sequencing Reveal Admixture Genomic Structure of Modern Citrus Varieties , 2015, PloS one.
[8] J. Batley,et al. High‐throughput genotyping for species identification and diversity assessment in germplasm collections , 2015, Molecular ecology resources.
[9] J. Bonnet,et al. Genes involved in floral meristem in tomato exhibit drastically reduced genetic diversity and signature of selection , 2014, BMC Plant Biology.
[10] New insights into domestication of carrot from root transcriptome analyses , 2014, BMC Genomics.
[11] Emily J. Warschefsky,et al. Back to the wilds: tapping evolutionary adaptations for resilient crops through systematic hybridization with crop wild relatives. , 2014, American journal of botany.
[12] R. Durbin,et al. Inferring human population size and separation history from multiple genome sequences , 2014, Nature Genetics.
[13] S. Roy,et al. Evaluating contribution of ionic, osmotic and oxidative stress components towards salinity tolerance in barley , 2014, BMC Plant Biology.
[14] S. Fournet,et al. Spatial genetic structure in Beta vulgaris subsp. maritima and Beta macrocarpa reveals the effect of contrasting mating system, influence of marine currents, and footprints of postglacial recolonization routes , 2014, Ecology and evolution.
[15] Alexander Goesmann,et al. The genome of the recently domesticated crop plant sugar beet (Beta vulgaris) , 2013, Nature.
[16] F. V. van Eeuwijk,et al. Genetic diversity and linkage disequilibrium analysis in elite sugar beet breeding lines and wild beet accessions , 2013, Theoretical and Applied Genetics.
[17] L. Excoffier,et al. Robust Demographic Inference from Genomic and SNP Data , 2013, PLoS genetics.
[18] Dora Batista,et al. Biodiversity Assessment of Sugar Beet Species and Its Wild Relatives: Linking Ecological Data with New Genetic Approaches , 2013 .
[19] O. François,et al. Adaptive Genetic Variation on the Landscape: Methods and Cases , 2012 .
[20] Tobias Würschum,et al. Mapping QTL for agronomic traits in breeding populations , 2012, Theoretical and Applied Genetics.
[21] T. Kubo,et al. Mitochondrial minisatellite polymorphisms in fodder and sugar beets reveal genetic bottlenecks associated with domestication , 2012, Biologia Plantarum.
[22] P. This,et al. Novel measures of linkage disequilibrium that correct the bias due to population structure and relatedness , 2011, Heredity.
[23] Andreas Graner,et al. NGS technologies for analyzing germplasm diversity in genebanks* , 2012, Briefings in functional genomics.
[24] M. E. Dulloo,et al. Beta patula Aiton: genetic diversity analysis , 2012 .
[25] Nigel Maxted,et al. Agrobiodiversity conservation: securing the diversity of crop wild relatives and landraces. , 2012 .
[26] J. Mitchell McGrath,et al. Evaluation of genetic diversity and root traits of sea beet accessions of the Adriatic Sea coast , 2012, Euphytica.
[27] E. Biancardi,et al. Beta maritima: The Origin of Beets , 2011 .
[28] Thibaut Jombart,et al. adegenet 1.3-1: new tools for the analysis of genome-wide SNP data , 2011, Bioinform..
[29] J. Reif,et al. Genome-wide association mapping of agronomic traits in sugar beet , 2011, Theoretical and Applied Genetics.
[30] T. Kubo,et al. Molecular basis of cytoplasmic male sterility in beets: an overview , 2011, Plant Genetic Resources.
[31] T. Kubo,et al. Mitochondrial genome diversity in Beta vulgaris L. ssp. vulgaris (Leaf and Garden Beet Groups) and its implications concerning the dissemination of the crop , 2011, Genetic Resources and Crop Evolution.
[32] L. Frese. Conservation and Access to Sugarbeet Germplasm , 2010, Sugar Tech.
[33] F. Balloux,et al. Discriminant analysis of principal components: a new method for the analysis of genetically structured populations , 2010, BMC Genetics.
[34] L. Campbell. Registration of Seven Sugarbeet Germplasms Selected from Crosses between Cultivated Sugarbeet and Wild Beta Species , 2010 .
[35] C. Magorokosho,et al. Molecular characterization of global maize breeding germplasm based on genome-wide single nucleotide polymorphisms , 2009, Theoretical and Applied Genetics.
[36] P. Touzet,et al. Fine‐scale geographical structure of genetic diversity in inland wild beet populations , 2009, Molecular ecology.
[37] J. McGrath,et al. Molecular and morpho-physiological characterization of sea, ruderal and cultivated beets , 2009, Euphytica.
[38] S. Fénart,et al. Nuclear and cytoplasmic genetic diversity in weed beet and sugar beet accessions compared to wild relatives: new insights into the genetic relationships within the Beta vulgaris complex species , 2008, Theoretical and Applied Genetics.
[39] T. Kubo,et al. The distribution of normal and male-sterile cytoplasms in Chinese sugar-beet germplasm , 2008, Euphytica.
[40] P. Touzet,et al. Spatial analysis of nuclear and cytoplasmic DNA diversity in wild sea beet (Beta vulgaris ssp. maritima) populations: do marine currents shape the genetic structure? , 2007, Molecular ecology.
[41] Sarah Villain. Histoire évolutive de la section Beta : mise en évidence des phénomènes d'hybridation et de spéciation au sein de la section dans le bassin méditerranéen , 2007 .
[42] Randall L. Nelson,et al. Impacts of genetic bottlenecks on soybean genome diversity , 2006, Proceedings of the National Academy of Sciences.
[43] J. Kadereit,et al. A synopsis of Chenopodiaceae subfam. Betoideae and notes on the taxonomy of Beta , 2006 .
[44] N. Maxted,et al. Towards a definition of a crop wild relative , 2006, Biodiversity & Conservation.
[45] J. D. Pidgeon,et al. ASSESSING THE GENETIC RESOURCES TO IMPROVE DROUGHT TOLERANCE IN SUGAR BEET: AGRONOMIC TRAITS OF DIVERSE GENOTYPES UNDER DROUGHTED AND IRRIGATED CONDITIONS , 2004 .
[46] G. Luikart,et al. SNPs in ecology, evolution and conservation , 2004 .
[47] F. Viard,et al. Tracing back seed and pollen flow within the crop–wild Beta vulgaris complex: genetic distinctiveness vs. hot spots of hybridization over a regional scale , 2004, Molecular ecology.
[48] R. Petit,et al. High level of genetic differentiation for allelic richness among populations of the argan tree [Argania spinosa (L.) Skeels] endemic to Morocco , 1996, Theoretical and Applied Genetics.
[49] C. Jung,et al. Phylogenetic relationships between cultivated and wild species of the genusBeta revealed by DNA “fingerprinting” , 1993, Theoretical and Applied Genetics.
[50] S. Santoni,et al. Extramarital sex amongst the beets — Organization, instability and evolution of plant disease resistance gennes , 1992, Plant Molecular Biology.
[51] S. Santoni,et al. Two different satellite DNAs in Beta vulgaris L.: evolution, quantification and distribution in the genus , 1992, Theoretical and Applied Genetics.
[52] S. Santoni,et al. Characterization of the nuclear ribosomal DNA units and phylogeny of Beta L. wild forms and cultivated beets , 1992, Theoretical and Applied Genetics.
[53] S. G. Veprev,et al. Molecular characterization of mitochondrial DNA of different subtypes of male-sterile cytoplasms of the sugar beet Beta vulgaris L. , 1991, Theoretical and Applied Genetics.
[54] C. Minganti,et al. Assessment of the degree of genetic variation in beet based on RFLP analysis and the taxonomy of Beta , 1991, Euphytica.
[55] W. Lange,et al. Natural variation within the genus Beta and its possible use for breeding sugar beet: A review , 1990, Euphytica.
[56] G. Michaelis,et al. Comparison of chloroplast and mitochondrial DNA from five morphologically distinct Beta vulgaris cultivars: sugar beet, fodder beet, beet root, foliage beet, and Swiss chard , 1990, Theoretical and Applied Genetics.
[57] B. Ford-Lloyd,et al. Phenotypic polymorphism and allele differentiation of isozymes in fodder beet, multigerm sugar beet and monogerm sugar beet , 1989, Theoretical and Applied Genetics.
[58] Hans Eberhard Fischer,et al. Origin of the ‘Weisse Schlesische Rübe’ (white Silesian beet) and resynthesis of sugar beet , 1989, Euphytica.
[59] M. Metzlaff,et al. Comparative restriction endonuclease analysis and molecular cloning of plastid DNAs from wild species and cultivated varieties of the genus Beta (L.) , 1987, Theoretical and Applied Genetics.
[60] Karl Peter Buttler. Variation in wild populations of annual beet (Beta, Chenopodiaceae) , 1977, Plant Systematics and Evolution.
[61] K. Hammer,et al. Differential occurrence of beet cryptic viruses—A new tool for germplasm characterization and evolutionary studies in beets? , 2004, Euphytica.
[62] M. Sugiura,et al. Beta chloroplast genomes: analysis of Fraction I protein and chloroplast DNA variation , 2004, Theoretical and Applied Genetics.
[63] F. Viard,et al. Evidence for gene flow via seed dispersal from crop to wild relatives in Beta vulgaris (Chenopodiaceae): consequences for the release of genetically modified crop species with weedy lineages , 2003, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[64] J. Pidgeon,et al. Future Climate Impact on the Productivity of Sugar Beet (Beta vulgaris L.) in Europe , 2003 .
[65] I. Goldman,et al. Genetic Distance and Diversity in Table Beet and Sugar Beet Accessions Measured by Randomly Amplified Polymorphic DNA , 1999 .
[66] P. Boudry,et al. Genetic diversity and gene flow between wild, cultivated and weedy forms of Beta vulgaris L. (Chenopodiaceae), assessed by RFLP and microsatellite markers , 1999, Theoretical and Applied Genetics.
[67] J. McGrath,et al. Genetic diversity in selected, historical US sugarbeet germplasm and Beta vulgaris ssp. maritima , 1999, Theoretical and Applied Genetics.
[68] M. Senda,et al. Cytoplasmic diversity in leaf beet cultivars as revealed by mitochondrial DNA analysis. , 2004, Hereditas.
[69] B. Ford-Lloyd,et al. Genetic relationships within the genus Beta determined using both PCR-based marker and DNA sequencing techniques , 1998, Heredity.
[70] C. Halldén,et al. Genetic Variation Among Wild and Cultivated Beets of the Section Beta as Revealed by RFLP Analysis , 1994 .
[71] J. Letschert. Beta section Beta : biogeographical patterns of variation, and taxonomy , 1993 .
[72] S. Santoni,et al. Extramarital sex amongst the beets--Evidence for gene exchanges between sugar beet (Beta vulgaris L.) and wild beets: consequences for transgenic sugar beets. , 1992, Plant molecular biology.
[73] S. Santoni,et al. Rapid control of purity for the cytoplasm of male-sterile seed stocks by means of a dot hybridization assay. , 1991, Molecular and cellular probes.
[74] A. Bervillé,et al. A possible origin for the sugar beet cytoplasmic male sterility source Owen , 1989 .
[75] 阿部 純,et al. Genetic analysis for isozyme variation in the section Vulgares, genus Beta. , 1987 .
[76] J. Abe,et al. Reproductive barriers in sugar beet and its wild relatives of the section vulgares, the genus beta , 1986 .
[77] M. Sugiura,et al. Chloroplast DNA diversity in the cytoplasms of sugar beet and its related species , 1984 .