McEwen, Gayle K., Woolfe, Adam, Goode, Debbie, Vavouri, Tanya, Callaway, Heather, Elgar, Greg
Fish–mammal genomic comparisons have proved powerful in identifying conserved noncoding elements likely to be cis-regulatory in nature, and the majority of those tested in vivo have been shown to...
McEwen, Gayle K., Woolfe, Adam, Goode, Debbie, Vavouri, Tanya, Callaway, Heather, Elgar, Greg
Fish–mammal genomic comparisons have proved powerful in identifying conserved noncoding elements likely to be cis-regulatory in nature, and the majority of those tested in vivo have been shown to...
Heaney, Simon J H, Purdie, Lorna A, Li, Li, Oostra, Ben A, ...
Unequivocal identification of the full composition of a gene is made difficult by the cryptic nature of regulatory elements. Regulatory elements are notoriously difficult to locate and may reside at...
Lettice, Laura A., Heaney, Simon J.H., Purdie, Lorna A., Li, Li, De Beer, Philippe, Oostra, Ben A., ...
Unequivocal identification of the full composition of a gene is made difficult by the cryptic nature of regulatory elements. Regulatory elements are notoriously difficult to locate and may reside at...
Ancient duplicated conserved noncoding elements in vertebrates: A genomic and functional analysis
McEwen, Gayle K., Woolfe, Adam, Goode, Debbie, Vavouri, Tanya, Callaway, Heather, Elgar, Greg
Fish–mammal genomic comparisons have proved powerful in identifying conserved noncoding elements likely to be cis-regulatory in nature, and the majority of those tested in vivo have been shown to...
Ancient duplicated conserved noncoding elements in vertebrates: A genomic and functional analysis
McEwen, Gayle K., Woolfe, Adam, Goode, Debbie, Vavouri, Tanya, Callaway, Heather, Elgar, Greg
Fish–mammal genomic comparisons have proved powerful in identifying conserved noncoding elements likely to be cis-regulatory in nature, and the majority of those tested in vivo have been shown to...