Dna binding motiffs
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Jan 27, 2021
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explanation of different binding motiffs and their structures
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DNA BINDING MOTIFFS D.INDRAJA
DNA binding motifs These are the DNA binding proteins can make specific contacts to dsDNA molecule without breaking the hydrogen bonds • DNA-binding proteins such as transcription factors recognize and bind a short nucleotide sequence usually as a result of extensive complementarity between the surface of the protein and surface features of the double helix in the region of binding Contacts occur between the DNA binding proteins and the edges of the base pairs that are exposed in the grooves of the DNA especially the major groove Several conserved structural motifs have been identified which are common to many different DNA binding proteins with quiet different specificities ,some of them are
First DNA-binding protein motif identified It comprises about 20 amino acids in two short α helices, each 7-9 amino acids residues long, separated by β-turn and is found in many proteins that regulate gene expression. First identified in 3 prokaryotic proteins: two repressor proteins ( Cro and cI ) and the E. coli catabolite activator protein (CAP). This structure generally is not stable by itself, it is simply the reactive portion of somewhat larger DNA-binding domain. One of the 2 helices is recognition helix because it usually contains many of the amino acids that interact with the DNA in a sequence specific way. When bound to DNA, the recognition helix is positioned in or nearly in the major groove. The lambda repressor and Cro proteins control bacteriophage lambda gene expression, and the tryptophan repressor and the catabolite activator protein (CAP) control the expression of sets of E. coli genes.
About 30 amino acids residues form an elongated loop held together at the base by a single Zn2+ ion, coordinated to four of the 2 residues (four Cys , or two Cys and two His). Zinc does not itself interact with DNA. The coordination of Zinc with the amino acid residues stabilizes this small structural motif. The interaction of a single Zinc finger with DNA is typically weak. DNA-binding proteins like Zif268 have multiple Zinc fingers that enhance binding by interacting simultaneously with DNA. Zinc finger domain exists in two forms: C2H2 zinc finger : A loop of 12 amino acids anchored by two cysteine and two histidine residues that tetrahedrally co- ordinate a zinc ion. This motif folds into a compact structure comprising two β- strands and one α- helix. The α- helix containing conserved basic amino acids binds in the major groove of DNA. Examples: (1) TFIIIA, the RNA Pol III transcription factor, with C2H2 zinc finger repeated 9 times. (2) SP1, with 3 copies of C2H2 zinc finger. Usually, three or more C2H2 zinc fingers are required for DNA binding
2. C4 zinc finger: zinc ion is coordinated by 4 cysteine residues. Example: Steriod hormone receptor transcription factors consisting of homo- or hetero-dimers, in which each monomer contains two C4 zinc finger.
This motif is an amphipathic α-helix with a series of hydrophobic amino acid residues concentrated on one side the hydrobhobic surface forming an area of contact between the two polypeptides of a dimer. Stricking feature : Leu residue at every seventh position form a straight chain along the hydrophobic surface. Regulatory proteins with leucine zippers DNA binding domain with a high concentration of Lsy or Arg residues interact with negatively charged phosphates of the DNA backbone Leucine zippers have been found in many eukaryotic and a few bacterial proteins
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