Publications by authors named "Cheng-Yao Chen"

Background: Occupational exposure to artificial stone, a popular material used for countertops, can cause accelerated silicosis, but the precise relationship between silica dose and disease development is unclear.

Objectives: This study evaluated the impact of silica exposure on lung function and chest imaging in artificial stone manufacturing workers.

Methods: Questionnaire and spirometry assessments were administered to workers in two plants.

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Minus 1 programmed ribosomal frameshifting (-1 PRF) is a conserved translational regulation event essential for critical biological processes, including the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) replication. Efficient -modulation of the structured RNA element crucial to -1 PRF will endow the therapeutic application. Here, we demonstrate that CRISPR RNA can stimulate efficient -1 PRF.

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Helicobacter pylori is the most infectious human pathogen that causes gastritis, peptic ulcers and stomach cancer. H. pylori DNA polymerase I (HpPol I) is found to be essential for the viability of H.

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The reversible dye-terminator (RDT)-based DNA sequencing-by-synthesis (SBS) chemistry has driven the advancement of the next-generation sequencing technologies for the past two decades. The RDT-based SBS chemistry relies on the DNA polymerase reaction to incorporate the RDT nucleotide (NT) for extracting DNA sequence information. The main drawback of this chemistry is the "DNA scar" issue since the removal of dye molecule from the RDT-NT after each sequencing reaction cycle leaves an extra chemical residue in the newly synthesized DNA.

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Next-generation sequencing (NGS) has transformed genomic research by decreasing the cost of sequencing. However, whole-genome sequencing is still costly and complex for diagnostics purposes. In the clinical space, targeted sequencing has the advantage of allowing researchers to focus on specific genes of interest.

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Next-generation sequencing (NGS) technologies have revolutionized modern biological and biomedical research. The engines responsible for this innovation are DNA polymerases; they catalyze the biochemical reaction for deriving template sequence information. In fact, DNA polymerase has been a cornerstone of DNA sequencing from the very beginning.

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Plasmodium falciparum, the major causative agent of human malaria, contains three separate genomes. The apicoplast (an intracellular organelle) contains an ∼35-kb circular DNA genome of unusually high A/T content (>86%) that is replicated by the nuclear-encoded replication complex Pfprex. Herein, we have expressed and purified the DNA polymerase domain of Pfprex [KPom1 (Klenow-like polymerase of malaria 1)] and measured its fidelity using a LacZ-based forward mutation assay.

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Article Synopsis
  • The study involved sampling three different areas in a foundry plant—molding, demolding, and bead blasting—using three types of aerosol samplers to analyze respirable dust.
  • Results showed that the uniformity of dust deposition was highest with the 25-mm aluminum cyclone, followed by nylon cyclone and IOSH cyclone.
  • The DOF XRD method estimated free silica concentrations significantly higher (1.15-2.89 times) than the standardized NIOSH 7500 XRD method, suggesting a need for improved sampling methods and conversion factors for accurate measurements in the foundry industry.
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Human alkyladenine-DNA glycosylase (AAG) initiates base excision repair (BER) of alkylated and deaminated bases in DNA. Here, we assessed the mutability of the AAG substrate binding pocket, and the essentiality of individual binding pocket amino acids for survival of methylation damage. We used oligonucleotide-directed mutagenesis to randomize 19 amino acids, 8 of which interact with substrate bases, and created more than 4.

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This study examined the characteristics of a solid phase microextraction (SPME) assembly as a passive sampler to determine the short-term exposure level (STEL) of methylene chloride. Two types of SPME fibers and six sampling-related factors were chosen and nested in an L(18) Taguchi's orthogonal array. Samples were thermally desorpted and analyzed by gas chromatograph equipped with an electron capture detector (GC/ECD).

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The steady-state levels of uracil residues in DNA extracted from strains of Escherichia coli were measured and the influence of defects in the genes for uracil-DNA glycosylase (ung), double-strand uracil-DNA glycosylase (dug), and dUTP pyrophosphatase (dut) on uracil accumulation was determined. A sensitive method, called the Ung-ARP assay, was developed that utilized E. coli Ung, T4pdg, and the Aldehyde Reactive Probe reagent to label abasic sites resulting from uracil excision with biotin.

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To investigate the role of Arginine 276 in the conserved leucine-loop of human uracil-DNA glycosylase (UNG), the effects of six R276 amino acid substitutions (C, E, H, L, W, and Y) on nucleotide flipping and enzyme conformational change were determined using transient and steady state, fluorescence-based, kinetic analysis. Relative to UNG, the mutant proteins exhibited a 2.6- to 7.

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Uracil residues are eliminated from cellular DNA by uracil-DNA glycosylase, which cleaves the N-glycosylic bond between the uracil base and deoxyribose to initiate the uracil-DNA base excision repair pathway. Co-crystal structures of the core catalytic domain of human uracil-DNA glycosylase in complex with uracil-containing DNA suggested that arginine 276 in the highly conserved leucine intercalation loop may be important to enzyme interactions with DNA. To investigate further the role of Arg(276) in enzyme-DNA interactions, PCR-based codon-specific random mutagenesis, and site-specific mutagenesis were performed to construct a library of 18 amino acid changes at Arg(276).

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Escherichia coli nucleoside diphosphate kinase (Ndk) catalyzes ATP-dependent synthesis of ribo- and deoxyribonucleoside triphosphates from the cognate diphosphate precursor. Recently, the Ndk polypeptide was reported to be a multifunctional base excision repair nuclease that processed uracil residues in DNA by acting sequentially as a uracil-DNA glycosylase inhibitor protein (Ugi)-sensitive uracil-DNA glycosylase, an apurinic/apyrimidiniclyase, and a 3'-phosphodiesterase [Postel, E. H.

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Objectives: Murine erythroblasts infected with the anemia-inducing strain of Friend virus (FVA cells) terminally differentiate to the reticulocyte stage after 48 hours of culture in vitro in response to erythropoietin (EPO). The objective of this study was to determine the possible role of proteasome-mediated proteolysis during the terminal differentiation of FVA cells.

Materials And Methods: The proteasome inhibitors MG132 and lactacystin were used to perturb the normal function of proteasomes during terminal differentiation.

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