The BOY NAMED SUE Quantitative Trait Locus Confers Increased Meiotic Stability to an Adapted Natural Allopolyploid of Arabidopsis
Whole-genome duplication resulting from polyploidy is ubiquitous in the evolutionary history
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
[HTML][HTML] The BOY NAMED SUE Quantitative Trait Locus Confers Increased Meiotic Stability to an Adapted Natural Allopolyploid of Arabidopsis
IM Henry, BP Dilkes, A Tyagi, J Gao, B Christensen… - The Plant …, 2014 - ncbi.nlm.nih.gov
Whole-genome duplication resulting from polyploidy is ubiquitous in the evolutionary history
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
The BOY NAMED SUE quantitative trait locus confers increased meiotic stability to an adapted natural allopolyploid of Arabidopsis
IM Henry, BP Dilkes, A Tyagi, J Gao… - The Plant …, 2014 - pubmed.ncbi.nlm.nih.gov
Whole-genome duplication resulting from polyploidy is ubiquitous in the evolutionary history
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
BOY NAMED SUE Quantitative Trait Locus Confers Increased Meiotic Stability to an Adapted Natural Allopolyploid of Arabidopsis.
IM Henry, BP Dilkes, A Tyagi, J Gao… - Plant …, 2014 - search.ebscohost.com
Whole-genome duplication resulting from polyploidy is ubiquitous in the evolutionary history
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
The BOY NAMED SUE quantitative trait locus confers increased meiotic stability to an adapted natural allopolyploid of Arabidopsis.
IM Henry, BP Dilkes, A Tyagi, J Gao, B Christensen… - The Plant …, 2014 - europepmc.org
Whole-genome duplication resulting from polyploidy is ubiquitous in the evolutionary history
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
The BOY NAMED SUE quantitative trait locus confers increased meiotic stability to an adapted natural allopolyploid of Arabidopsis.
IM Henry, BP Dilkes, A Tyagi, GJ Gao Jian… - 2014 - cabidigitallibrary.org
Whole-genome duplication resulting from polyploidy is ubiquitous in the evolutionary history
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
[PDF][PDF] The BOY NAMED SUE Quantitative Trait Locus Confers Increased Meiotic Stability to an Adapted Natural
IM Henry, BP Dilkes, A Tyagi, J Gao, B Christensen… - researchgate.net
Whole-genome duplication resulting from polyploidy is ubiquitous in the evolutionary history
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
The BOY NAMED SUE Quantitative Trait Locus Confers Increased Meiotic Stability to an Adapted Natural Allopolyploid of Arabidopsis
IM Henry, BP Dilkes, A Tyagi, J Gao, B Christensen… - The Plant Cell, 2014 - JSTOR
Whole-genome duplication resulting from polyploidy is ubiquitous in the evolutionary history
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …
of plant species. Yet, polyploids must overcome the meiotic challenge of pairing …