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Updated understanding of the protein–DNA recognition code used by C2H2 zinc finger proteins

Xing Zhang, Robert Blumenthal, Xiaodong Cheng

2024Current Opinion in Structural Biology34 citationsDOIOpen Access PDF

Abstract

C2H2 zinc-finger (ZF) proteins form the largest family of DNA-binding transcription factors coded by mammalian genomes. In a typical DNA-binding ZF module, there are twelve residues (numbered from -1 to -12) between the last zinc-coordinating cysteine and the first zinc-coordinating histidine. The established C2H2-ZF "recognition code" suggests that residues at positions -1, -4, and -7 recognize the 5', central, and 3' bases of a DNA base-pair triplet, respectively. Structural studies have highlighted that additional residues at positions -5 and -8 also play roles in specific DNA recognition. The presence of bulky and either charged or polar residues at these five positions determines specificity for given DNA bases: guanine is recognized by arginine, lysine, or histidine; adenine by asparagine or glutamine; thymine or 5-methylcytosine by glutamate; and unmodified cytosine by aspartate. This review discusses recent structural characterizations of C2H2-ZFs that add to our understanding of the principles underlying the C2H2-ZF recognition code.

Topics & Concepts

Zinc fingerComputational biologyDNAZinc finger nucleaseZincCode (set theory)Computer scienceBiologyGeneticsChemistryProgramming languageGeneOrganic chemistrySet (abstract data type)Transcription factorRNA and protein synthesis mechanismsGenomics and Chromatin DynamicsRNA modifications and cancer