Add to ORKGgrantor: University of TorontoGKH-Fos/Jun is a hybrid protein designed to contain a metal binding motif in the form of a GKH tripeptide at the N-terminus of Fos bZIP domain dimerized with the Jun bZIP domain. We examined the effect of the addition of positively charged GKH motif to Fos on the DNA binding characteristics of the Fos/Jun heterodimer. Comparison of the apparent dissociation constants of the unmodified control Fos/Jun (cFos/Jun) and GKH-Fos/Jun heterodimers reveals that GKH-Fos/Jun binds the AP-1 site with a 6 fold decreased affinity than does cFos/Jun. In addition, GKH-Fos/Jun exhibits a 4 fold increased affinity for nonspecific DNA in comparison to cFos/Jun. Furthermore, helical phasing analysis indicates that GKH-F...
We wish to understand the role of electrostatics in DNA stiffness and bending. The DNA charge collap...
Essential cell division protein FtsZ forms the bacterial cytokinetic ring and is a target for new an...
Transcription factors are proteins that bind at promoter and enhancer sites to regulate gene express...
grantor: University of TorontoGKH-Fos/Jun is a hybrid protein designed to contain a metal...
Many eukaryotic transcription regulatory proteins form heterodimers that bind palindromic recognitio...
The oncogenic transcription factor activator protein-1 (AP-1) is a DNA-binding protein that assemble...
Various members of the bZip and bHLH-Zip families of eukaryotic transcription factors, including Jun...
The Fos and Jun family of transcription factors contain an invariant sequence motif lysine-cysteine-...
The abundant Fis nucleoid protein selectively binds poorly related DNA sequences with high affinitie...
I have examined the structure, mechanism, and functional relevance of two DNA-binding proteins in th...
Like c-Fos, HBZ (HTLV-I bZIP factor) is able to interact with c-Jun but differs considerably from c-...
DNA bending has been implicated as an important regulatory mechanism in several processes involving ...
ABSTRACT: The bZIP proteins Fos and Jun bind DNA rapidly and with high affinity, forming a heteromer...
ABSTRACT: Recently many attempts have been made to design high-affinity DNA-binding proteins by link...
DNA bending by DNA binding proteins is required to facilitate a myriad of essential cellular process...
We wish to understand the role of electrostatics in DNA stiffness and bending. The DNA charge collap...
Essential cell division protein FtsZ forms the bacterial cytokinetic ring and is a target for new an...
Transcription factors are proteins that bind at promoter and enhancer sites to regulate gene express...
grantor: University of TorontoGKH-Fos/Jun is a hybrid protein designed to contain a metal...
Many eukaryotic transcription regulatory proteins form heterodimers that bind palindromic recognitio...
The oncogenic transcription factor activator protein-1 (AP-1) is a DNA-binding protein that assemble...
Various members of the bZip and bHLH-Zip families of eukaryotic transcription factors, including Jun...
The Fos and Jun family of transcription factors contain an invariant sequence motif lysine-cysteine-...
The abundant Fis nucleoid protein selectively binds poorly related DNA sequences with high affinitie...
I have examined the structure, mechanism, and functional relevance of two DNA-binding proteins in th...
Like c-Fos, HBZ (HTLV-I bZIP factor) is able to interact with c-Jun but differs considerably from c-...
DNA bending has been implicated as an important regulatory mechanism in several processes involving ...
ABSTRACT: The bZIP proteins Fos and Jun bind DNA rapidly and with high affinity, forming a heteromer...
ABSTRACT: Recently many attempts have been made to design high-affinity DNA-binding proteins by link...
DNA bending by DNA binding proteins is required to facilitate a myriad of essential cellular process...
We wish to understand the role of electrostatics in DNA stiffness and bending. The DNA charge collap...
Essential cell division protein FtsZ forms the bacterial cytokinetic ring and is a target for new an...
Transcription factors are proteins that bind at promoter and enhancer sites to regulate gene express...