Inchul Yang scite author profile

BackgroundKlotho was originally characterized as an anti-aging gene that predisposed Klotho-deficient mice to a premature aging-like syndrome. Recently, KLOTHO was reported to function as a secreted Wnt antagonist and as a tumor suppressor. Epigenetic gene silencing of secreted Wnt antagonists is considered a common event in a wide range of human malignancies. Abnormal activation of the canonical Wnt pathway due to epigenetic deregulation of Wnt antagonists is thought to play a crucial role in cervical tumorigenesis. In this study, we examined epigenetic silencing of KLOTHO in human cervical carcinoma.ResultsLoss of KLOTHO mRNA was observed in several cervical cancer cell lines and in invasive carcinoma samples, but not during the early, preinvasive phase of primary cervical tumorigenesis. KLOTHO mRNA was restored after treatment with either the DNA demethylating agent 2'-deoxy-5-azacytidine or histone deacetylase inhibitor trichostatin A. Methylation-specific PCR and bisulfite genomic sequencing analysis of the promoter region of KLOTHO revealed CpG hypermethylation in non-KLOTHO-expressing cervical cancer cell lines and in 41% (9/22) of invasive carcinoma cases. Histone deacetylation was also found to be the major epigenetic silencing mechanism for KLOTHO in the SiHa cell line. Ectopic expression of the secreted form of KLOTHO restored anti-Wnt signaling and anti-clonogenic activity in the CaSki cell line including decreased active β-catenin levels, suppression of T-cell factor/β-catenin target genes, such as c-MYC and CCND1, and inhibition of colony growth.ConclusionsEpigenetic silencing of KLOTHO may occur during the late phase of cervical tumorigenesis, and consequent functional loss of KLOTHO as the secreted Wnt antagonist may contribute to aberrant activation of the canonical Wnt pathway in cervical carcinoma.

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Use of multiplex polymerase chain reactions to indicate the accuracy of the annealing temperature of thermal cycling

Yang

Kim

Byun

et al. 2005

Analytical Biochemistry

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A strategy for establishing accurate quantitation standards of oligonucleotides: quantitation of phosphorus of DNA phosphodiester bonds using inductively coupled plasma–optical emission spectroscopy

Yang

Han

Yim

et al. 2004

Analytical Biochemistry

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Count-based quantitation of trace level macro-DNA molecules

Lim¹,

Yoo²,

Hong³

et al. 2009

Metrologia

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Quantitation of the trace amount of DNA by counting individual DNA molecules using a high-sensitivity flow cytometric setup has been developed and evaluated for the purpose of establishing a reference analytical procedure. Model DNA molecules, represented by lambda (λ) viral DNA (48 502 bp, double-stranded), were electro-focused to form a tightly bound flow stream on a detection point situated on the centre axis of fused silica tubing measuring 50 µm × 50 µm. The individual DNA particles that were stained with a fluorescent dye were detected individually with a high-sensitivity laser-induced fluorescence (LIF) detection system. Assuming all DNA particles in a given sample volume were detected and counted ('exhaustive counting'), its molar concentration can be calculated without the need for calibration materials. The validity of the proposed measurement method was thoroughly examined and discussed.

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Expression and functional characterization of prephenate dehydrogenase from Streptococcus mutans

Ku¹,

Park²,

Yang³

et al. 2010

Process Biochemistry

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Rapid and accurate determination of deoxyribonucleoside monophosphates from DNA using micellar electrokinetic chromatography with a cationic surfactant additive

et al. 2011

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A micellar electrokinetic chromatography (MEKC) method for rapid and accurate determination of 2'-deoxyribonucleoside 5'-monophosphates (dNMPs), four structural elements of DNA, is described. MEKC separation at an optimized pH enabled complete separation of four dNMPs. The use of a cationic surfactant additive for MEKC led to the reversal of EOF, which enhanced the migration velocities of the negatively charged dNMPs. Under the optimized condition, full-baseline separation of the four dNMPs assuring accurate peak integration was obtained within 5 min. For the given separation condition, pH-mediated on-column sample stacking was optimized and applied to enhance sensitivity up to 6-fold. Analytical precision was improved by spiking iothalamate as an internal standard. The accuracy of dNMP quantitation was ensured with dNMP standard solutions determined by inductively coupled plasma-optical emission spectroscopy that measured phosphorous quantity. Performance of the proposed method was ultimately proven by accurate quantitation of a DNA oligonucleotide that was enzymatically hydrolyzed prior to dNMP analysis. The proposed MEKC method turned out to be a reliable analytical method for dNMPs that features high speed, high sensitivity, and high precision, and could be utilized for high-accuracy determination of the amount of DNA as well as the base composition of DNA.

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Performance Evaluation of Thermal Cyclers for PCR in a Rapid Cycling Condition

et al. 2008

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The performance of thermal cyclers for polymerase chain reactions (PCR) is of great concern in terms of the reliability of PCR-based assays, particularly when rapid cycling conditions are applied to small volume reactions. In this work, the precision of the temperature controls during rapid thermal cycling was measured in 19 commercial thermal cyclers of 8 different models. The temperatures of test solutions in specific locations in each thermal block were simultaneously monitored at 1 s intervals during thermal cycling. A temperature-sensitive multiplex PCR was run in parallel to assess undesirable PCR results caused by poor temperature control. Under the given conditions (20 s of annealing time and 20 microL reaction volume), a majority of the tested instruments showed prominent curving, undershooting, and/or overshooting in their temperature profiles, which substantially influenced the results of the temperature-sensitive multiplex PCR. Variations between wells were also observed in most instruments. It is strongly hoped that these problems will be addressed by manufacturers and that they will make substantial improvements in the precision and efficiency of thermal cyclers. In the meantime, users of thermal cyclers might be able to avoid unexpected poor outcomes of sensitive PCR-based assays by designing their PCR protocols with these findings in mind.

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Flow cytometric investigation on degradation of macro-DNA by common laboratory manipulations

Yoo¹,

Lim²,

Yang³

et al. 2011

JBPC

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The degree and characteristics of physical degradation of macro-DNA molecules by common laboratory manipulations are reported. With linearized lambda-phage viral DNA as the model DNA, fragmentation of macro-DNA by various indispensable laboratory manipulations were investigated using a high sensitivity flow cytometric setup. Investigated manipulations included pipetting, vortexing, rocking, freezethawing, ultrasonication and ultrafiltration. "Exhaustive counting" of the intact lambda DNA molecules following such manipulations enabled a quantitative assessment of the resulting fragmentation, which also revealed the type of degradation reflected in the fragmentation patterns. The use of high sensitivity flow cytometry was especially suited to investigate the degradation of dilute DNA solutions that may not be suitable for analysis using traditional methods. Notable findings of this study included: the boarderline-size of DNA chains in terms of susceptibility to shear stresses by such manipulations; discernable instability of nicked DNAs; shattering-fragmentation of DNAs by freezethawing or ultrasonication; effectiveness of some protection media; marked "self-protection effect" of concentrated DNA solutions. These findings support and refine our traditional knowledge on how to maintain the physical integrity of macro-DNA molecules against inevitable laboratory manipulations.

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Inchul Yang

The anti-aging gene KLOTHO is a novel target for epigenetic silencing in human cervical carcinoma

Use of multiplex polymerase chain reactions to indicate the accuracy of the annealing temperature of thermal cycling

A strategy for establishing accurate quantitation standards of oligonucleotides: quantitation of phosphorus of DNA phosphodiester bonds using inductively coupled plasma–optical emission spectroscopy

Count-based quantitation of trace level macro-DNA molecules

Expression and functional characterization of prephenate dehydrogenase from Streptococcus mutans

Rapid and accurate determination of deoxyribonucleoside monophosphates from DNA using micellar electrokinetic chromatography with a cationic surfactant additive

Performance Evaluation of Thermal Cyclers for PCR in a Rapid Cycling Condition

Flow cytometric investigation on degradation of macro-DNA by common laboratory manipulations

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