Purification of Recombinant Human PARG and Activity Assays.

The purification of Poly(ADP-ribose) glycohydrolase (PARG) from overexpressing bacteria Escherichia coli is described here to a fast and reproducible one chromatographic step protocol. After cell lysis, GST-PARG-fusion proteins from the crude extract are affinity purified by a Glutathione 4B Sepharose chromatographic step. The PARG proteins are then freed from their GST-fusion by overnight enzymatic cleavage using the preScission protease.

Purification of Recombinant Human PARP-3.

The purification of poly(ADP-ribose) polymerase-3 (PARP-3) from overexpressing cells (Sf9 insect cells, Escherichia coli) has been updated to a fast and reproducible two chromatographic steps protocol. After cell lysis, PARP-3 protein from the crude extract is affinity purified on a 3-aminobenzamide Sepharose™ chromatographic step. The last contaminants and the 3-methoxybenzamide used to elute PARP-3 from the previous affinity column are removed on the high-performance strong cations exchanger MonoQ™ matrix.

A cytoplasmic negative regulator isoform of ATF7 impairs ATF7 and ATF2 phosphorylation and transcriptional activity.

Alternative splicing and post-translational modifications are processes that give rise to the complexity of the proteome. The nuclear ATF7 and ATF2 (activating transcription factor) are structurally homologous leucine zipper transcription factors encoded by distinct genes. Stress and growth factors activate ATF2 and ATF7 mainly via sequential phosphorylation of two conserved threonine residues in their activation domain.

Identification of four alternatively spliced transcripts of the Ucma/GRP gene, encoding a new Gla-containing protein.

The Ucma protein (Upper zone of growth plate and cartilage matrix associated protein) has recently been described as a novel secretory protein mainly expressed in cartilage and also as a novel vitamin-K-dependent protein named GRP (Gla-rich protein). This protein has the highest Gla content of any protein known to date. In this article, we identify four alternatively spliced variants of Ucma/GRP gene transcripts in mouse chondrocytes.

p38beta2-mediated phosphorylation and sumoylation of ATF7 are mutually exclusive.

The ubiquitous activating transcription factor (ATF) 7 binds as a homodimer to the cAMP response element/TPA response element motifs present in the promoters of its target genes. ATF7 is homologous to ATF2 and heterodimerizes with Jun or Fos proteins, modulating their DNA-binding specificities. We previously demonstrated that TAF12, a component of the TFIID general transcription factor, mediates ATF7 transcriptional activity through direct interactions between the two proteins.

Sumoylation delays the ATF7 transcription factor subcellular localization and inhibits its transcriptional activity.

Over the past few years, small ubiquitin-like modifier (SUMO) modification has emerged as an important regulator of diverse pathways and activities including protein localization and transcriptional regulation. We identified a consensus sumoylation motif (IKEE), located within the N-terminal activation domain of the ATF7 transcription factor and thus investigated the role of this modification. ATF7 is a ubiquitously expressed transcription factor, homologous to ATF2, that binds to CRE elements within specific promoters.

Imaging Erg and Jun transcription factor interaction in living cells using fluorescence resonance energy transfer analyses.

Physical interactions between transcription factors play important roles in modulating gene expression. Previous in vitro studies have shown a transcriptional synergy between Erg protein, an Ets family member, and Jun/Fos heterodimer, members of the bZip family, which requires direct Erg-Jun protein interactions. Visualization of protein interactions in living cells is a new challenge in biology.