Structure and DNA binding characteristics of the three‐Cys2His2 domain of mouse testis zinc finger protein |
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Authors: | Chun‐Chi Chou Yuan‐Chao Lou Tang K Tang Chinpan Chen |
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Institution: | 1. Graduate Institute of Life Sciences, National Defense Medical Center, Taipei 114, Taiwan, Republic of China;2. Institute of Biomedical Sciences, Academia Sinica, Taipei 115, Taiwan, Republic of China |
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Abstract: | The C‐terminal three‐Cys2His2 zinc‐finger domain (TZD) of mouse testis zinc‐finger protein binds to the 5′‐TGTACAGTGT‐3′ at the Aie1 (aurora‐C) promoter with high specificity. Interestingly, the primary sequence of TZD is unique, possessing two distinct linkers, TGEKP and GAAP, and distinct residues at presumed DNA binding sites at each finger, especially finger 3. A Kd value of ~10?8 M was obtained from surface plasmon resonance analysis for the TZD‐DNA complex. NMR structure of the free TZD showed that each zinc finger forms a typical ββα fold. On binding to DNA, chemical shift perturbations and the R2 transverse relaxation rate in finger 3 are significantly smaller than those in fingers 1 and 2, which indicates that the DNA binding affinity in finger 3 is weaker. Furthermore, the shift perturbations between TZD in complex with the cognate DNA and its serial mutants revealed that both ADE7 and CYT8, underlined in 5′‐ATATGTACAGTGTTAT‐3′, are critical in specific binding, and the DNA binding in finger 3 is sequence independent. Remarkably, the shift perturbations in finger 3 on the linker mutation of TZD (GAAP mutated to TGEKP) were barely detected, which further indicates that finger 3 does not play a critical role in DNA sequence‐specific recognition. The complex model showed that residues important for DNA binding are mainly located on positions ?1, 2, 3, and 6 of α‐helices in fingers 1 and 2. The DNA sequence and nonsequence‐specific bindings occurring simultaneously in TZD provide valuable information for better understanding of protein–DNA recognition. Proteins 2010. © 2010 Wiley‐Liss, Inc. |
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Keywords: | TZFP three‐Cys2His2 zinc‐finger DNA recognition shift perturbation complex model NMR |
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