DNA binding proteins: outline of functional classification

Abstract

AbstractDNA-binding proteins composed of DNA-binding domains directly affect genomic functions, mainly by performing transcription, DNA replication or DNA repair. Here, we briefly describe the DNA-binding proteins according to these three major functions. Transcription factors that usually bind to specific sequences of DNA could be classified based on their sequence similarity and the structure of the DNA-binding domains, such as basic, zinc-coordinating, helix-turn-helix domains, etc. Most DNA replication factors do not need a specific sequence of DNA, but instead mainly depend on a DNA structure, with the exception of the origin recognition complex in yeast orEscherichia colithat recognizes the DNA sequences at particular origins. DNA replication includes initiation and elongation. The major DNA-binding proteins involved in these two steps are briefly described. DNA repair proteins bound to DNA depend on the damaged DNA structure. They are classified to base excision repair, DNA mismatch repair, nucleotide excision repair, homologous recombination repair and non-homologous end joining. The major DNA-binding proteins involved in these pathways are briefly described. Histone and high mobility group are two examples of DNA-binding proteins that do not belong to the three categories above and are briefly described. Finally, we warn that the non-specific binding proteins might have an affinity to some non-specific medium materials such as protein A or G beads that are commonly used for immune precipitation, which can easily generate false positive signals while detecting protein-protein interaction; therefore, the results need to be carefully analyzed using positive/negative controls.