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Genome evolution due to allopolyploidization in wheat
Moshe Feldman
*
,
Avraham A. Levy
*
Corresponding author for this work
Department of Plant and Environmental Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
236
Citations (Scopus)
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Keyphrases
Wheat
100%
Allopolyploidization
100%
Genome Evolution
100%
Allopolyploid
60%
Epigenetic Modification
40%
Genetic Changes
40%
Domestication
40%
Genome-wide Expression
20%
Genetic Modification
20%
Functional Plasticity
20%
Aegilops
20%
Evolutionary Change
20%
Chromosome Doubling
20%
Triticum
20%
Synthetic Polyploid
20%
Speciation Process
20%
Wheat Genome
20%
Genomic Changes
20%
Diploidization
20%
Revolutionary Change
20%
Allopolyploidy
20%
Genetic Structure
20%
Genetic Variation
20%
Structural Plasticity
20%
Species Evolution
20%
Biochemistry, Genetics and Molecular Biology
Allopolyploidy
100%
Allopolyploidization
100%
Genome Evolution
100%
Genetics
60%
Epigenetics
40%
Evolution
20%
Genomic Structure
20%
Genetic Variation
20%
Species Differentiation
20%
Genetic Divergence
20%
Genomics
20%