In molecular biology helix-hairpin-helix (HHH) is a DNA-binding protein structural motif found in proteins that interact with DNA in a non-sequence-specific manner.
The helix-hairpin-helix motif consists of two anti-parallel ñ-helices connected by a short hairpin loop involved in interactions with DNA which usually contains a consensus glycine-hydrophobic amino acid-glycine sequence pattern (GhG). The two ñ-helices are packed at an acute angle of ~25âÂÂ50ð that dictates the characteristic pattern of hydrophobicity in the sequences, while other DNA-binding structures like the helix-turn-helix (HTH) motif, which is also formed by a pair of helices, can be easily distinguished by the packing of the helices at an almost right angle.
Many proteins containing the helix-hairpin-helix motif mediate non-sequence-specific DNA binding through hydrogen bonds between protein backbone nitrogens and DNA phosphate groups. The HHH motif differs from other DNA-binding motifs like helix-turn-helix, which typically bind DNA in a sequence-specific manner.
The helix-hairpin-helix motif is found in a wide variety of proteins involved in DNA-related processes such as DNA synthesis, repair, recombination, and degradation. The HHH motif in these proteins typically functions as a non-sequence-specific DNA-binding module, allowing them to interact with the DNA sugar-phosphate backbone. Some of the proteins known to contain this motif include:
The helix-hairpin-helix motif likely emerged early in protein evolution as a simple structural solution for non-sequence-specific DNA interaction, utilising backbone hydrogen bonding to phosphate groups rather than base-specific contacts.