MutL traps MutS at a DNA mismatch.

DNA mismatch repair (MMR) identifies and corrects errors made during replication. In all organisms except those expressing MutH, interactions between a DNA mismatch, MutS, MutL, and the replication processivity factor (β-clamp or PCNA) activate the latent MutL endonuclease to nick the error-containing daughter strand. This nick provides an entry point for downstream repair proteins.

Cancer/testis antigen PAGE4, a regulator of c-Jun transactivation, is phosphorylated by homeodomain-interacting protein kinase 1, a component of the stress-response pathway.

Prostate-associated gene 4 (PAGE4) is a cancer/testis antigen that is typically restricted to the testicular germ cells but is aberrantly expressed in cancer. Furthermore, PAGE4 is developmentally regulated with dynamic expression patterns in the developing prostate and is also a stress-response protein that is upregulated in response to cellular stress. PAGE4 interacts with c-Jun, which is activated by the stress-response kinase JNK1, and plays an important role in the development and pathology of the prostate gland.

DNA repair factor MRE11/RAD50 cleaves 3'-phosphotyrosyl bonds and resects DNA to repair damage caused by topoisomerase 1 poisons.

MRE11-RAD50 is a highly conserved multifunctional DNA repair factor. Here, we show that MRE11-RAD50 cleaves the covalent 3'-phosphotyrosyl-DNA bonds that join topoisomerase 1 (Top1) to the DNA backbone and that are the hallmark of damage caused by Top1 poisons such as camptothecin. Cleavage generates a 3'-phosphate DNA end that MRE11-RAD50 can resect in an ATP-regulated reaction, to produce a 3'-hydroxyl that can prime repair synthesis.

A model for oligomeric regulation of APOBEC3G cytosine deaminase-dependent restriction of HIV.

APOBEC3G (A3G) restricts HIV-1 infection by catalyzing processive C --> U deaminations on single-stranded DNA (ssDNA) with marked 3' --> 5' deamination polarity. Here we show that A3G exists in oligomeric states whose composition is dictated primarily by interactions with DNA, with salt playing an important, yet secondary, role. Directional deaminations correlate with the presence of dimers, tetramers, and larger oligomers observed by atomic force microscopy, and random deaminations appear to correlate mainly with monomers.

Direct visualization of asymmetric adenine-nucleotide-induced conformational changes in MutL alpha.

MutL alpha, the heterodimeric eukaryotic MutL homolog, is required for DNA mismatch repair (MMR) in vivo. It has been suggested that conformational changes, modulated by adenine nucleotides, mediate the interactions of MutL alpha with other proteins in the MMR pathway, coordinating the recognition of DNA mismatches by MutS alpha and the activation of MutL alpha with the downstream events that lead to repair. Thus far, the only evidence for these conformational changes has come from X-ray crystallography of isolated domains, indirect biochemical analyses, and comparison to other members of the GHL ATPase family to which MutL alpha belongs.

Activation-induced deaminase, AID, is catalytically active as a monomer on single-stranded DNA.

Hypermutation and class switch recombination of immunoglobulin genes are antigen-activated mechanisms triggered by AID, a cytidine deaminase. AID deaminates cytidine residues in the DNA of the variable and the switch regions of the immunoglobulin locus. The resulting uracil induces error-prone DNA synthesis in the case of hypermutation or DNA breaks that activate non-homologous recombination in the case of class switch recombination.