GATA zinc finger
In molecular biology, GATA zinc fingers are zinc-containing domains found in a number of transcription factors. Some members of this class of zinc fingers specifically bind the DNA sequence GATA in the regulatory regions of genes., giving rise to the name of the domain. In these domains, a single zinc ion is coordinated by 4 cysteine residues. NMR studies have shown the core of the Znf to comprise 2 irregular anti-parallel beta-sheets and an alpha-helix, followed by a long loop to the C-terminal end of the finger. The N-terminal part, which includes the helix, is similar in structure, but not sequence, to the N-terminal zinc module of the glucocorticoid receptor DNA-binding domain. The helix and the loop connecting the 2 beta-sheets interact with the major groove of the DNA, while the C-terminal tail wraps around into the minor groove. Interactions between the Znf and DNA are mainly hydrophobic, explaining the preponderance of thymines in the binding site; a large number of interactions with the phosphate backbone have also been observed. Two GATA zinc fingers are found in GATA-family transcription factors. However, there are several proteins that only contain a single copy of the domain.
It is also worth noting that many GATA-type Znfs have not been experimentally demonstrated to be DNA-binding domains. Furthermore, several GATA-type Znfs have been demonstrated to act as protein-recognition domains. For example, the N-terminal Znf of GATA1 binds specifically to a zinc finger from the transcriptional coregulator FOG1.