[HTML][HTML] Structural basis for cooperativity in recruitment of MAML coactivators to Notch transcription complexes
Cell, 2006•cell.com
Notch receptors transduce essential developmental signals between neighboring cells by
forming a complex that leads to transcription of target genes upon activation. We report here
the crystal structure of a Notch transcriptional activation complex containing the ankyrin
domain of human Notch1 (ANK), the transcription factor CSL on cognate DNA, and a
polypeptide from the coactivator Mastermind-like-1 (MAML-1). Together, CSL and ANK
create a groove to bind the MAML-1 polypeptide as a kinked, 70 Å helix. The composite …
forming a complex that leads to transcription of target genes upon activation. We report here
the crystal structure of a Notch transcriptional activation complex containing the ankyrin
domain of human Notch1 (ANK), the transcription factor CSL on cognate DNA, and a
polypeptide from the coactivator Mastermind-like-1 (MAML-1). Together, CSL and ANK
create a groove to bind the MAML-1 polypeptide as a kinked, 70 Å helix. The composite …
Summary
Notch receptors transduce essential developmental signals between neighboring cells by forming a complex that leads to transcription of target genes upon activation. We report here the crystal structure of a Notch transcriptional activation complex containing the ankyrin domain of human Notch1 (ANK), the transcription factor CSL on cognate DNA, and a polypeptide from the coactivator Mastermind-like-1 (MAML-1). Together, CSL and ANK create a groove to bind the MAML-1 polypeptide as a kinked, 70 Å helix. The composite binding surface likely restricts the recruitment of MAML proteins to promoters on which Notch:CSL complexes have been preassembled, ensuring tight transcriptional control of Notch target genes.
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