2023 - Research.com Genetics in Germany Leader Award
Marion S. Röder spends much of her time researching Genetics, Microsatellite, Genetic marker, Gene mapping and Genetic linkage. Her work in Genome, Restriction fragment length polymorphism, Quantitative trait locus, Allele and Gene is related to Genetics. Her Genome study combines topics from a wide range of disciplines, such as Single-nucleotide polymorphism, Computational biology, Tetra and Sequence.
Her Microsatellite research includes elements of Dwarfing, Genetic distance, Genetic diversity, Chromosome and Locus. Her Genetic marker research incorporates themes from Molecular marker, Nucleotide, Molecular biology, Ploidy and Tandem repeat. Her Gene mapping research includes themes of Centromere, Common wheat, Triticeae and Powdery mildew.
Her primary scientific interests are in Genetics, Microsatellite, Quantitative trait locus, Genetic marker and Chromosome. All of her Genetics and Gene, Gene mapping, Locus, Allele and Genome investigations are sub-components of the entire Genetics study. The concepts of her Gene mapping study are interwoven with issues in Centromere, Glume, Restriction fragment length polymorphism and Triticeae.
Her Microsatellite research is multidisciplinary, relying on both Common wheat, Genetic diversity, Botany, Introgression and Genetic linkage. Her Quantitative trait locus research is multidisciplinary, incorporating elements of Plant disease resistance, Inbred strain and Agronomy. Her research investigates the link between Genetic marker and topics such as Hordeum vulgare that cross with problems in Linkage disequilibrium.
The scientist’s investigation covers issues in Genetics, Quantitative trait locus, Single-nucleotide polymorphism, Allele and Candidate gene. Her Genetic association, Genome-wide association study, Heritability, Gene and Genotype study are her primary interests in Genetics. Her work deals with themes such as Biotechnology, Computational biology and Genomics, which intersect with Genotype.
The study incorporates disciplines such as Selection and Agronomy, Horticulture, Hybrid in addition to Quantitative trait locus. As part of the same scientific family, she usually focuses on Single-nucleotide polymorphism, concentrating on Chromosome and intersecting with Wheat diseases and Genotyping. Allele connects with themes related to Locus in her study.
Her primary areas of study are Genetics, Quantitative trait locus, Single-nucleotide polymorphism, Genome-wide association study and Heritability. Her studies in Candidate gene and Association mapping are all subfields of Genetics research. Marion S. Röder has researched Quantitative trait locus in several fields, including Grain yield, Horticulture and Selection.
Her work carried out in the field of Single-nucleotide polymorphism brings together such families of science as Linkage, Allele, Stamen, Locus and Anthesis. Her Allele research incorporates elements of Chromosome, Genotyping, Dwarfing and Mantel test. Her Genome-wide association study research focuses on Genetic marker and how it relates to Hybrid seed, Grain quality, Best linear unbiased prediction and Plant breeding.
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Landscape of transcription in human cells
Sarah Djebali;Carrie A. Davis;Angelika Merkel;Alex Dobin.
A microsatellite map of wheat.
Marion S. Röder;Victor Korzun;Katja Wendehake;Jens Plaschke.
An integrated encyclopedia of DNA elements in the human genome
Ian Dunham;Anshul Kundaje;Shelley F. Aldred;Patrick J. Collins.
Abundance, variability and chromosomal location of microsatellites in wheat.
Marion S. Röder;Jens Plaschke;Susanne U. König;Andreas Börner.
Molecular Genetics and Genomics (1995)
Detection of genetic diversity in closely related bread wheat using microsatellite markers.
J. Plaschke;M. W. Ganal;M. S. Röder.
Theoretical and Applied Genetics (1995)
Full-genome RNAi profiling of early embryogenesis in Caenorhabditis elegans
B. Sönnichsen;L. B. Koski;A. Walsh;P. Marschall.
Isolation and mapping of microsatellite markers specific for the D genome of bread wheat.
E Pestsova;M W Ganal;M S Röder.
Mapping of quantitative trait loci determining agronomic important characters in hexaploid wheat ( Triticum aestivum L.).
A. Börner;E. Schumann;A. Fürste;H. Cöster.
Theoretical and Applied Genetics (2002)
Genetic mapping of 66 new microsatellite (SSR) loci in bread wheat.
P. K. Gupta;H. S. Balyan;K. J. Edwards;P. Isaac.
Theoretical and Applied Genetics (2002)
SNP identification in crop plants
Martin W Ganal;Thomas Altmann;Marion S Röder.
Current Opinion in Plant Biology (2009)
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