[HTML][HTML] Cofactor binding evokes latent differences in DNA binding specificity between Hox proteins
Members of transcription factor families typically have similar DNA binding specificities yet
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
Cofactor binding evokes latent differences in DNA binding specificity between Hox proteins
M Slattery, T Riley, P Liu, N Abe, P Gomez-Alcala… - Cell, 2011 - pubmed.ncbi.nlm.nih.gov
Members of transcription factor families typically have similar DNA binding specificities yet
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
[PDF][PDF] Cofactor Binding Evokes Latent Differences in DNA Binding Specificity between Hox Proteins
M Slattery, T Riley, P Liu, N Abe, P Gomez-Alcala… - Cell, 2011 - core.ac.uk
Members of transcription factor families typically have similar DNA binding specificities yet
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
[HTML][HTML] Cofactor binding evokes latent differences in DNA binding specificity between Hox proteins
M Slattery, T Riley, P Liu, N Abe, P Gomez-Alcala… - Cell, 2011 - ncbi.nlm.nih.gov
Members of transcription factor families typically have similar DNA binding specificities yet
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
[引用][C] Cofactor Binding Evokes Latent Differences in DNA Binding Specificity between Hox Proteins
M Slattery, T Riley, P Liu, N Abe, P Gomez-Alcala… - Cell, 2011 - cir.nii.ac.jp
[PDF][PDF] Cofactor Binding Evokes Latent Differences in DNA Binding Specificity between Hox Proteins
M Slattery, T Riley, P Liu, N Abe, P Gomez-Alcala… - Cell, 2011 - cell.com
Members of transcription factor families typically have similar DNA binding specificities yet
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
[PDF][PDF] Cofactor Binding Evokes Latent Differences in DNA Binding Specificity between Hox Proteins
M Slattery, T Riley, P Liu, N Abe, P Gomez-Alcala… - Cell, 2011 - rohslab.cmb.usc.edu
Members of transcription factor families typically have similar DNA binding specificities yet
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
[PDF][PDF] Cofactor Binding Evokes Latent Differences in DNA Binding Specificity between Hox Proteins
M Slattery, T Riley, P Liu, N Abe, P Gomez-Alcala… - Cell, 2011 - rohslab.usc.edu
Members of transcription factor families typically have similar DNA binding specificities yet
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
[HTML][HTML] Cofactor Binding Evokes Latent Differences in DNA Binding Specificity between Hox Proteins
M Slattery, T Riley, P Liu, N Abe, P Gomez-Alcala… - Cell, 2011 - Elsevier
Members of transcription factor families typically have similar DNA binding specificities yet
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
Cofactor binding evokes latent differences in DNA binding specificity between Hox proteins.
M Slattery, T Riley, P Liu, N Abe, P Gomez-Alcala… - Cell, 2011 - europepmc.org
Members of transcription factor families typically have similar DNA binding specificities yet
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …
execute unique functions in vivo. Transcription factors often bind DNA as multiprotein …