2022 - Research.com Best Female Scientist Award
Doreen Ware mainly focuses on Genetics, Genome, Gene, Botany and Genetic variation. Her research in Genetics intersects with topics in Sorghum and Plant breeding. Her work on Computational biology expands to the thematically related Genome.
Her work carried out in the field of Computational biology brings together such families of science as Annotation, Genome project and Reference genome. Her Botany research incorporates themes from Domestication, Arabidopsis, Genetic structure and Introgression. Her research in Genetic variation focuses on subjects like Genetic diversity, which are connected to Inbred strain, True breeding organism, Germplasm and Horticulture.
Genome, Genetics, Gene, Computational biology and Genomics are her primary areas of study. As part of one scientific family, Doreen Ware deals mainly with the area of Genome, narrowing it down to issues related to the Sequence assembly, and often Structural variation. Her studies link Evolutionary biology with Genetics.
Her Gene course of study focuses on Sorghum and Jasmonic acid. Her Computational biology study incorporates themes from Annotation, Bioinformatics, Arabidopsis, Comparative genomics and Gene Annotation. Her Ensembl study in the realm of Genomics connects with subjects such as Ontology.
Her primary areas of investigation include Genome, Computational biology, Gene, Sorghum and Annotation. Doreen Ware has researched Genome in several fields, including Haplotype and Sequence assembly. The various areas that Doreen Ware examines in her Computational biology study include Genome project, Comparative genomics, Centromere, Gene Annotation and Gene prediction.
Her Gene study results in a more complete grasp of Genetics. The Sorghum study combines topics in areas such as Lateral root, Jasmonic acid, Mutant and Apex. The study incorporates disciplines such as Reference genome and Coding region in addition to Annotation.
Her main research concerns Computational biology, Genome, Sequence assembly, Genomics and Genome project. Her Computational biology research integrates issues from Transcriptional Networks, Gene regulatory network and Candidate gene. Doreen Ware is studying Comparative genomics, which is a component of Genome.
Her Sequence assembly research focuses on Transposable element and how it relates to Heterochromatin, Sequence and Inverted repeat. Her study in Genome project is interdisciplinary in nature, drawing from both RNA-Seq, Transcriptome, Genetic variability, Identification and Alternative splicing. Her work deals with themes such as Gene Organization, Gene and Retrotransposon, which intersect with Annotation.
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The B73 Maize Genome: Complexity, Diversity, and Dynamics
Patrick S. Schnable;Doreen Ware;Robert S. Fulton;Joshua C. Stein.
The Sorghum bicolor genome and the diversification of grasses
Andrew H. Paterson;John E. Bowers;Rémy Bruggmann;Inna Dubchak.
The tomato genome sequence provides insights into fleshy fruit evolution
Shusei Sato;Satoshi Tabata;Hideki Hirakawa;Erika Asamizu.
Development and Mapping of 2240 New SSR Markers for Rice ( Oryza sativa L.)
Susan R. McCouch;Leonid Teytelman;Yunbi Xu;Katarzyna B. Lobos.
DNA Research (2002)
The Genetic Architecture of Maize Flowering Time
Edward S. Buckler;Edward S. Buckler;James B. Holland;James B. Holland;Peter J. Bradbury;Peter J. Bradbury;Charlotte B. Acharya.
Genetic properties of the maize nested association mapping population.
Michael D. McMullen;Michael D. McMullen;Stephen Kresovich;Hector Sanchez Villeda;Peter Bradbury;Peter Bradbury.
Evidence for Network Evolution in an Arabidopsis Interactome Map
Matija Dreze;Anne-Ruxandra Carvunis;Benoit Charloteaux;Mary Galli.
A first-generation haplotype map of maize
Michael A. Gore;Jer Ming Chia;Robert J. Elshire;Qi Sun.
Comparative population genomics of maize domestication and improvement
Matthew B. Hufford;Xun Xu;Joost Van Heerwaarden;Tanja Pyhäjärvi.
Nature Genetics (2012)
Genetic structure and domestication history of the grape.
Sean Myles;Adam R. Boyko;Christopher L. Owens;Patrick J. Brown.
Proceedings of the National Academy of Sciences of the United States of America (2011)
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