[HTML][HTML] Nuclear genomic signals of the 'microturbellarian'roots of platyhelminth evolutionary innovation
Flatworms number among the most diverse invertebrate phyla and represent the most
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
[HTML][HTML] Nuclear genomic signals of the 'microturbellarian'roots of platyhelminth evolutionary innovation
CE Laumer, A Hejnol, G Giribet - eLife, 2015 - ncbi.nlm.nih.gov
Flatworms number among the most diverse invertebrate phyla and represent the most
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
[PDF][PDF] Nuclear genomic signals of the 'microturbellarian'roots of platyhelminth evolutionary innovation
CE Laumer, A Hejnol, G Giribet - researchgate.net
Flatworms number among the most diverse invertebrate phyla and represent the most
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
Nuclear genomic signals of the 'microturbellarian'roots of platyhelminth evolutionary innovation
CE Laumer, H Andreas, G Gonzalo - eLife, 2015 - search.proquest.com
Flatworms number among the most diverse invertebrate phyla and represent the most
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
Nuclear genomic signals of the'microturbellarian'roots of platyhelminth evolutionary innovation.
CE Laumer, A Hejnol, G Giribet - Elife, 2015 - europepmc.org
Flatworms number among the most diverse invertebrate phyla and represent the most
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
Nuclear genomic signals of the 'microturbellarian'roots of platyhelminth evolutionary innovation
CE Laumer, A Hejnol, G Giribet - eLife, 2015 - par.nsf.gov
Flatworms number among the most diverse invertebrate phyla and represent the most
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
Nuclear genomic signals of the 'microturbellarian'roots of platyhelminth evolutionary innovation
CE Laumer, A Hejnol, G Giribet - eLife, 2015 - dash.harvard.edu
Flatworms number among the most diverse invertebrate phyla and represent the most
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
Nuclear genomic signals of the “microturbellarian” roots of platyhelminth evolutionary innovation
CE Laumer, A Hejnol, G Giribet - 2015 - bora.uib.no
Flatworms number among the most diverse invertebrate phyla and represent the most
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
Nuclear genomic signals of the 'microturbellarian'roots of platyhelminth evolutionary innovation
CE Laumer, A Hejnol, G Giribet - eLife, 2015 - cir.nii.ac.jp
抄録< jats: p> Flatworms number among the most diverse invertebrate phyla and represent
the most biomedically significant branch of the major bilaterian clade Spiralia, but to date …
the most biomedically significant branch of the major bilaterian clade Spiralia, but to date …
Nuclear genomic signals of the'microturbellarian'roots of platyhelminth evolutionary innovation
CE Laumer, A Hejnol, G Giribet - eLife, 2015 - pubmed.ncbi.nlm.nih.gov
Flatworms number among the most diverse invertebrate phyla and represent the most
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …
biomedically significant branch of the major bilaterian clade Spiralia, but to date, deep …