His main research concerns Genetics, Genome, Diversity Arrays Technology, Genetic diversity and Genetic marker. Andrzej Kilian merges Genetics with Dart in his study. His work in Genome addresses subjects such as Chromosome, which are connected to disciplines such as Bacterial artificial chromosome, Crop species, Mendelian inheritance and Inbred strain.
His work deals with themes such as Molecular breeding, Computational biology, Molecular marker and Eucalyptus nitens, which intersect with Diversity Arrays Technology. His Genetic diversity study incorporates themes from Biotechnology, Germplasm, Panama and Race. His research investigates the connection between Synteny and topics such as Arabidopsis thaliana that intersect with issues in Botany.
His primary areas of investigation include Genetics, Diversity Arrays Technology, Genetic marker, Genome and Quantitative trait locus. His research is interdisciplinary, bridging the disciplines of Genetic diversity and Genetics. Andrzej Kilian interconnects Molecular breeding, Computational biology and Molecular marker in the investigation of issues within Diversity Arrays Technology.
The various areas that Andrzej Kilian examines in his Genetic marker study include Plant disease resistance, Triticale, Ploidy and Secale. Much of his study explores Genome relationship to Evolutionary biology. His Quantitative trait locus research is multidisciplinary, incorporating elements of Genetic analysis, Agronomy, Botany, Horticulture and Inbred strain.
His primary areas of study are Genetics, Quantitative trait locus, Diversity Arrays Technology, Evolutionary biology and Germplasm. His research related to Single-nucleotide polymorphism, Gene and Inbred strain might be considered part of Genetics. The Quantitative trait locus study combines topics in areas such as Sativum, Genetic linkage and Candidate gene.
His biological study spans a wide range of topics, including Restriction enzyme, Genome and Sequence database. His Genome study combines topics in areas such as Genetic marker and Genotyping. Andrzej Kilian combines subjects such as Genetic diversity, Domestication, Hybrid, Genetic association and Macadamia integrifolia with his study of Germplasm.
His primary scientific interests are in Evolutionary biology, Plant breeding, Germplasm, Diversity Arrays Technology and Genetic diversity. His work in Evolutionary biology addresses issues such as Genome, which are connected to fields such as Biogeography. His studies in Plant breeding integrate themes in fields like Genetic marker and Genotyping.
The study incorporates disciplines such as Chromosome regions, Plant disease resistance, Quantitative trait locus, Domestication and Gene mapping in addition to Genetic marker. His Plant disease resistance study deals with the bigger picture of Genetics. His Diversity Arrays Technology research includes themes of Condition index and Breeding program.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
The genome of the cucumber, Cucumis sativus L.
Sanwen Huang;Ruiqiang Li;Zhonghua Zhang;Li Li.
Nature Genetics (2009)
Diversity Arrays: a solid state technology for sequence information independent genotyping
Damian Jaccoud;Kaiman Peng;David Feinstein;Andrzej Kilian.
Nucleic Acids Research (2001)
The banana (Musa acuminata) genome and the evolution of monocotyledonous plants
Angélique D'hont;Jean Marc Aury;Franc Christophe Baurens.
Diversity arrays technology (DArT) for high-throughput profiling of the hexaploid wheat genome
Mona Akbari;Peter Wenzl;Vanessa Caig;Jason Carling.
Theoretical and Applied Genetics (2006)
Diversity arrays technology: a generic genome profiling technology on open platforms.
Andrzej Kilian;Peter Wenzl;Eric Huttner;Jason Carling.
Methods of Molecular Biology (2012)
A Physical Map of the 1-Gigabase Bread Wheat Chromosome 3B
Etienne Paux;Pierre Sourdille;Jérôme Salse;Cyrille Saintenac.
Finished Genome of the Fungal Wheat Pathogen Mycosphaerella graminicola Reveals Dispensome Structure, Chromosome Plasticity, and Stealth Pathogenesis
Stephen B. Goodwin;Sarrah Ben M'Barek;Braham Dhillon;Alexander H J Wittenberg.
PLOS Genetics (2011)
A high-density consensus map of barley linking DArT markers to SSR, RFLP and STS loci and agricultural traits
Peter Wenzl;Haobing Li;Jason Carling;Meixue Zhou.
BMC Genomics (2006)
Genomic selection for growth and wood quality in Eucalyptus: capturing the missing heritability and accelerating breeding for complex traits in forest trees
Marcos D. V. Resende;Marcos D. V. Resende;Márcio F. R. Resende;Carolina P. Sansaloni;Carolina P. Sansaloni;Cesar D. Petroli;Cesar D. Petroli.
New Phytologist (2012)
Diversity Arrays Technology (DArT) and next-generation sequencing combined: genome-wide, high throughput, highly informative genotyping for molecular breeding of Eucalyptus
Carolina Sansaloni;Cesar Petroli;Damian Jaccoud;Jason Carling.
BMC Proceedings (2011)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: