Expression and purification of human full-length N Oct-3, a transcription factor involved in melanoma growth.

This report describes the first purification procedure of the human full-length N Oct-3 protein in amounts suitable for structural studies and proteomic investigations. N Oct-3 is a transcription factor member of the POU protein family. It possesses a large N-terminal transactivation domain and a DNA-binding domain (DBD) which is composed of two subdomains, POUs and POUh, which are joined by a linker peptide.

Fine-tuning of intrinsic N-Oct-3 POU domain allostery by regulatory DNA targets.

The 'POU' (acronym of Pit-1, Oct-1, Unc-86) family of transcription factors share a common DNA-binding domain of approximately 160 residues, comprising so-called 'POUs' and 'POUh' sub-domains connected by a flexible linker. The importance of POU proteins as developmental regulators and tumor-promoting agents is due to linker flexibility, which allows them to adapt to a considerable variety of DNA targets. However, because of this flexibility, it has not been possible to determine the Oct-1/Pit-1 linker structure in crystallographic POU/DNA complexes.

Identification of the 'NORE' (N-Oct-3 responsive element), a novel structural motif and composite element.

N-Oct-3 is a neuronal transcription factor widely expressed in the developing mammalian central nervous system, and necessary to maintain neural cell differentiation. The key role of N-Oct-3 in the transcriptional regulation of a multiplicity of genes is primarily due to the structural plasticity of its so-called 'POU' (acronym of Pit, Oct, Unc) DNA-binding domain. We have recently reported about the unusual dual neuro-specific transcriptional regulation displayed by N-Oct-3 [Blaud,M.

Characteristic patterns of N Oct-3 binding to a set of neuronal promoters.

N Oct-3, a neurospecific POU protein, homodimerizes in a non-cooperative fashion on the neuronal aromatic l-amino acid decarboxylase gene promoter and generates heterodimers with HNF-3beta. Several other neuronal gene promoters, the corticotropin releasing hormone and the aldolase C gene promoters also contain overlapping binding sites for N Oct-3 and HNF-3beta. We have demonstrated that N Oct-3 presents a non-cooperative homodimerization on these two additional targets and can also give rise to heterodimers with HNF-3beta.

IS911 transposition is regulated by protein-protein interactions via a leucine zipper motif.

Efficient intermolecular transposition of bacterial insertion sequence IS911 involves the activities of two element-encoded proteins: the transposase, OrfAB, and a regulatory factor, OrfA. OrfA shares the majority of its amino acid sequence with the N-terminal part of OrfAB. This includes a putative helix-turn-helix and three of four heptads of a leucine zipper motif.