[NMR paper] Cadmium mutagenicity and human nucleotide excision repair protein XPA: CD, EXAFS and

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Cadmium mutagenicity and human nucleotide excision repair protein XPA: CD, EXAFS and (1)H/(15)N-NMR spectroscopic studies on the zinc(II)- and cadmium(II)-associated minimal DNA-binding domain (M98-F219).

Related Articles Cadmium mutagenicity and human nucleotide excision repair protein XPA: CD, EXAFS and (1)H/(15)N-NMR spectroscopic studies on the zinc(II)- and cadmium(II)-associated minimal DNA-binding domain (M98-F219).

Carcinogenesis. 2000 May;21(5):1051-7

Authors: Buchko GW, Hess NJ, Kennedy MA

Human XPA is a 31 kDa protein involved in nucleotide excision repair (NER), a ubiquitous, multi-enzyme pathway responsible for processing multiple types of DNA damage in the eukaryotic genome. A zinc-associated, C4-type motif (C105-X(2)-C108-X(17)-C126-X(2)-C129) located in the minimal DNA-binding region (M98-F219) of XPA (XPA-MBD) is essential for damaged DNA recognition. Cadmium is a known carcinogen and can displace the zinc in many metal-binding proteins. It has been suggested that the carcinogenic properties of cadmium may result from structural changes effected in XPA when Cd(2+) is substituted for Zn(2+) in the metal-binding site. The solution structure of XPA-MBD containing zinc(II) has recently been determined [Buchko et al., (1998) Nucleic Acids Res., 26, 2779-2788; Buchko et al., (1999) Biochemistry, 38, 15116-15128]. To assess the effects of cadmium(II) substitution on the structure of XPA-MBD, XPA-MBD was expressed in minimal medium supplemented with cadmium acetate to yield a protein that was almost exclusively (>95%) associated with cadmium(II) (CdXPA-MBD). Extended X-ray absorption fine structure spectra collected on ZnXPA-MBD and CdXPA-MBD in frozen (77 K) 15% aqueous glycerol solution show that the metal is coordinated to the sulfur atoms of four cysteine residues with an average metal-sulfur bond length of 2.34 +/- 0.01 and 2.54 +/- 0.01 A, respectively. Comparison of the circular dichroism, two-dimensional (1)H,(15)N-HSQC, and three-dimensional (15)N-edited HSQC-NOESY spectra of ZnXPA-MBD and CdXPA-MBD show that there are no structural differences between the two proteins. The absence of major structural changes upon substituting cadmium(II) for zinc(II) in XPA suggests that cadmium-induced mutagenesis is probably not due to structural perturbations to the zinc-binding core of XPA.

PMID: 10783332 [PubMed - indexed for MEDLINE]



Source: PubMed