<p>The homeobox is a 60-residue motif first identified in a number ofDrosophila homeotic and segmentation proteins, but now known to be well-conserved in many other animals, including vertebrates [<cite idref="PUB00005390"/>, <cite idref="PUB00000591"/>]. Proteins containing homeobox domains are likely to play an important role in development - most are known to be sequence-specific DNA-binding transcription factors. The domain binds DNA through a helix-turn-helix (HTH) structure.</p><p>The HTH motif is characterised by 2 alpha-helices, which make intimate contacts with the DNA and are joined by a short turn. The second helix binds to DNA via a number of hydrogen bonds and hydrophobic interactions, which occur between specific side chains and the exposed bases and thymine methyl groups within the major groove of the DNA. The first helix helpsto stabilise the structure. The motif is very similar in sequence and structure in a wide range of DNA-binding proteins (for example, cro and repressor proteins, homeotic proteins, amongst others). One of the principal differences between HTH motifs in these different proteins arises from the stereo-chemical requirement for glycine in the turn (position 9 of the motif), which is needed to avoid steric interference of the beta-carbon with the main chain: for cro and repressor proteins the glycine appears to be mandatory, while for many of the homeotic and other DNA-binding proteinsthe requirement is relaxed. </p><p>This entry represents eukaryotic homeobox domais.</p> Homeobox, eukaryotic