Investigation of regulatory divergence between homoeologs in the recently formed allopolyploids, Tragopogon mirus and T. miscellus (Asteraceae)
Polyploidy is an important evolutionary process throughout eukaryotes, particularly in
flowering plants. Duplicated gene pairs (homoeologs) in allopolyploids provide additional …
flowering plants. Duplicated gene pairs (homoeologs) in allopolyploids provide additional …
Investigation of regulatory divergence between homoeologs in the recently formed allopolyploids, Tragopogon mirus and T. miscellus (Asteraceae)
MJ Yoo, J Koh, JL Boatwright… - The Plant journal …, 2024 - pubmed.ncbi.nlm.nih.gov
Polyploidy is an important evolutionary process throughout eukaryotes, particularly in
flowering plants. Duplicated gene pairs (homoeologs) in allopolyploids provide additional …
flowering plants. Duplicated gene pairs (homoeologs) in allopolyploids provide additional …
Investigation of regulatory divergence between homoeologs in the recently formed allopolyploids, Tragopogon mirus and T. miscellus (Asteraceae).
MJ Yoo, J Koh, JL Boatwright, DE Soltis… - The Plant Journal: for …, 2023 - europepmc.org
Polyploidy is an important evolutionary process throughout eukaryotes, particularly in
flowering plants. Duplicated gene pairs (homoeologs) in allopolyploids provide additional …
flowering plants. Duplicated gene pairs (homoeologs) in allopolyploids provide additional …
Investigation of regulatory divergence between homoeologs in the recently formed allopolyploids, Tragopogon mirus and T. miscellus (Asteraceae)
MJ Yoo, J Koh, JL Boatwright, DE Soltis, PS Soltis… - The Plant …, 2023 - par.nsf.gov
Polyploidy is an important evolutionary process throughout eukaryotes, particularly in
flowering plants. Duplicated gene pairs (homoeologs) in allopolyploids provide additional …
flowering plants. Duplicated gene pairs (homoeologs) in allopolyploids provide additional …