Bei Bei Zhu scite author profile

Patients with Alzheimer's disease (AD) exhibit higher levels of 8-oxo-guanine (8-oxoG) DNA lesions in their brain, suggesting a reduced or defective 8-oxoG repair. To test this hypothesis, this study investigated 14 AD patients and 10 age-matched controls for mutations of the major 8-oxoG removal gene OGG1. Whereas no alterations were detected in any control samples, four AD patients exhibited mutations in OGG1, two carried a common single base (C796) deletion that alters the carboxyl terminal sequence of OGG1, and the other two had nucleotide alterations leading to single amino acid substitutions. In vitro biochemical assays revealed that the protein encoded by the C796-deleted OGG1 completely lost its 8-oxoG glycosylase activity, and that the two single residue-substituted OGG1 proteins showed a significant reduction in the glycosylase activity. These results were consistent with the fact that nuclear extracts derived from a limited number of AD patients with OGG1 mutations exhibited greatly reduced 8-oxoG glycosylase activity compared with age-matched controls and AD patients without OGG1 alterations. Our findings suggest that defects in OGG1 may be important in the pathogenesis of AD in a significant fraction of AD patients and provide new insight into the molecular basis for the disease.

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In vitro and in vivo modulations of benzo[c]phenanthrene-DNA adducts by DNA mismatch repair system

Zhu

et al. 2003

Nucleic Acids Research

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Benzo[c]phenanthrene dihydrodiol epoxide (B[c] PhDE) is well known as an important environmental chemical carcinogen that preferentially modifies DNA in adenine residues. However, the molecular mechanism by which B[c]PhDE induces tumorigenesis is not fully understood. In this report, we demonstrate that DNA mismatch repair (MMR), a genome maintenance system, plays an important role in B[c]PhDE-induced carcinogensis by promoting apoptosis in cells treated with B[c]PhDE. We show that purified human MMR recognition proteins, MutS(alpha) and MutSbeta, specifically recognized B[c]PhDE-DNA adducts. Cell lines proficient in MMR exhibited several-fold more sensitivity to killing than cell lines defective in either MutS(alpha) or MutL(alpha) by B[c]PhDE; the nature of this sensitivity was shown to be due to increased apoptosis. Additionally, wild-type mice exposed to B[c]PhDE had intestinal crypt cells that underwent apoptosis significantly more often than intestinal crypt cells found in B[c]PhDE-treated Msh2(-/-) or Mlh1(-/-) mice. These findings, combined with previous studies, suggest that the MMR system may serve as a general sensor for chemical-caused DNA damage to prevent damaged cells from mutagenesis and carcinogenesis by promoting apoptosis.

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Deficiency of a novel mismatch repair activity in a bladder tumor cell line

Zhu

et al. 2002

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We demonstrate here that a cell line derived from a bladder cancer is defective in strand-specific mismatch repair. The mismatch repair deficiency in this cell line is associated with microsatellite instability and blocks an early step in the repair pathway. Since the addition of a known mismatch repair component hMutSalpha, hMutSbeta, hMutLalpha, replication protein A or proliferating cellular nuclear antigen could not restore mismatch repair to the mutant extract, the bladder tumor cell line is likely to be defective in an uncharacterized repair component. However, the repair in the mutant extract could be complemented by a partially purified activity derived from HeLa nuclear extracts. Therefore, in addition to revealing that a loss of mismatch repair function is associated with bladder cancer, this study provides information implicating a new mismatch repair activity.

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Single particle tracking in dissecting lipid droplet biology

Zhu

et al. 2023

TrAC Trends in Analytical Chemistry

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Fast Degradation of Chlorpyrifos in Soil by Strain <i>Cupriavidus taiwanensis</i> X1 Labeled with LuxAB

Zhu

Wang

Yuan

et al. 2011

AMR

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For researching ecological behaviors of Cupriavidus taiwanensis X1 which has strong hydrolysis activity on chlorpyrifos(CP), reporter gene luxAB was successfully introduced into cells by electroporation. The labeled strain X1-lux with genetic stability and fluorescence was obtained. Both of strain X1 and X1-lux could completely degrade 200 mg/l CP within 12h in minimal salt medium, and experimental results showed that introduction of luxAB did not affect strain X1 growth and degradation on CP. The cells of X1-lux and X1 were inoculated into soil with 500 mg/l CP, the cell concentration and CP residual was detected, and data revealed that strain X1 could absolutely removed CP in 12d and survive in soil. Strain X1 is a potential excellent choice for bioremediation of organophosphorus polluted environments.

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Bei Bei Zhu

Identification and characterization of OGG1 mutations in patients with Alzheimer's disease

In vitro and in vivo modulations of benzo[c]phenanthrene-DNA adducts by DNA mismatch repair system

Deficiency of a novel mismatch repair activity in a bladder tumor cell line

Single particle tracking in dissecting lipid droplet biology

Fast Degradation of Chlorpyrifos in Soil by Strain <i>Cupriavidus taiwanensis</i> X1 Labeled with LuxAB

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