Surviving a Genome Collision: Genomic Signatures of Allopolyploidization in the Recent Crop Species Brassica napus
Polyploidization has played a major role in crop plant evolution, leading to advantageous
traits that have been selected by humans. Here, we describe restructuring patterns in the …
traits that have been selected by humans. Here, we describe restructuring patterns in the …
[PDF][PDF] Surviving a Genome Collision: Genomic Signatures of Allopolyploidization in the Recent Crop Species Brassica napus
B Samans, B Chalhoub, RJ Snowdon - researchgate.net
Polyploidization has played a major role in crop plant evolution, leading to advantageous
traits that have been selected by humans. Here, we describe restructuring patterns in the …
traits that have been selected by humans. Here, we describe restructuring patterns in the …
Surviving a Genome Collision: Genomic Signatures of Allopolyploidization in the Recent Crop Species Brassica napus.
B Samans, B Chalhoub, RJ Snowdon - The Plant Genome, 2017 - europepmc.org
Polyploidization has played a major role in crop plant evolution, leading to advantageous
traits that have been selected by humans. Here, we describe restructuring patterns in the …
traits that have been selected by humans. Here, we describe restructuring patterns in the …
[PDF][PDF] Surviving a Genome Collision: Genomic Signatures of Allopolyploidization in the Recent Crop Species Brassica napus
B Samans, B Chalhoub, RJ Snowdon - scholar.archive.org
Polyploidization has played a major role in crop plant evolution, leading to advantageous
traits that have been selected by humans. Here, we describe restructuring patterns in the …
traits that have been selected by humans. Here, we describe restructuring patterns in the …
Surviving a genome collision: genomic signatures of allopolyploidization in the recent crop species Brassica napus
B Samans, B Chalhoub, RJ Snowdon - PLANT GENOME, 2017 - hal.science
Polyploidization has played a major role in crop plant evolution, leading to advantageous
traits that have been selected by humans. Here, we describe restructuring patterns in the …
traits that have been selected by humans. Here, we describe restructuring patterns in the …
Surviving a Genome Collision: Genomic Signatures of Allopolyploidization in the Recent Crop Species
B Samans, B Chalhoub, RJ Snowdon - 2017 - jlupub.ub.uni-giessen.de
Polyploidization has played a major role in crop plant evolution, leading to advantageous
traits that have been selected by humans. Here, we describe restructuring patterns in the …
traits that have been selected by humans. Here, we describe restructuring patterns in the …
Surviving a Genome Collision: Genomic Signatures of Allopolyploidization in the Recent Crop Species Brassica napus
B Samans, B Chalhoub, RJ Snowdon - The plant genome, 2017 - pubmed.ncbi.nlm.nih.gov
Polyploidization has played a major role in crop plant evolution, leading to advantageous
traits that have been selected by humans. Here, we describe restructuring patterns in the …
traits that have been selected by humans. Here, we describe restructuring patterns in the …
Surviving a genome collision: genomic signatures of allopolyploidization in the recent crop species brassica napus.
B Samans, B Chalhoub, RJ Snowdon - 2017 - cabidigitallibrary.org
Polyploidization has played a major role in crop plant evolution, leading to advantageous
traits that have been selected by humans. Here, we describe restructuring patterns in the …
traits that have been selected by humans. Here, we describe restructuring patterns in the …
Surviving a Genome Collision: Genomic Signatures of Allopolyploidization in the Recent Crop Species Brassica napus
B Samans, B Chalhoub, RJ Snowdon - The Plant Genome, 2017 - search.proquest.com
Polyploidization has played a major role in crop plant evolution, leading to advantageous
traits that have been selected by humans. Here, we describe restructuring patterns in the …
traits that have been selected by humans. Here, we describe restructuring patterns in the …