Ravery Sebuyoya scite author profile

DNA methylation, i.e., addition of methyl group to 5′-carbon of cytosine residues in CpG dinucleotides, is an important epigenetic modification regulating gene expression, and thus implied in many cellular processes. Deregulation of DNA methylation is strongly associated with onset of various diseases, including cancer. Here, we review how DNA methylation affects carcinogenesis process and give examples of solid tumors where aberrant DNA methylation is often present. We explain principles of methods developed for DNA methylation analysis at both single gene and whole genome level, based on (i) sodium bisulfite conversion, (ii) methylation-sensitive restriction enzymes, and (iii) interactions of 5-methylcytosine (5mC) with methyl-binding proteins or antibodies against 5mC. In addition to standard methods, we describe recent advances in next generation sequencing technologies applied to DNA methylation analysis, as well as in development of biosensors that represent their cheaper and faster alternatives. Most importantly, we highlight not only advantages, but also disadvantages and challenges of each method.

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Electrochemical bioassay coupled to LAMP reaction for determination of high-risk HPV infection in crude lysates

Izadi

Sebuyoya

Moráňová

et al. 2021

Analytica Chimica Acta

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Electrochemical DNA biosensor coupled to LAMP reaction for early diagnostics of cervical precancerous lesions

Sebuyoya¹,

Moráňová²,

Izadi³

et al. 2022

Biosensors and Bioelectronics: X

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Electrochemical biosensors for analysis of DNA point mutations in cancer research

et al. 2022

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Cancer is a genetic disease induced by mutations in DNA, in particular point mutations in important driver genes that lead to protein malfunctioning and ultimately to tumorigenesis. Screening for the most common DNA point mutations, especially in such genes as TP53, BRCA1 and BRCA2, EGFR, KRAS, or BRAF, is crucial to determine predisposition risk for cancer or to predict response to therapy. In this review, we briefly depict how these genes are involved in cancer, followed by a description of the most common techniques routinely applied for their analysis, including high-throughput next-generation sequencing technology and less expensive low-throughput options, such as real-time PCR, restriction fragment length polymorphism, or high resolution melting analysis. We then introduce benefits of electrochemical biosensors as interesting alternatives to the standard methods in terms of cost, speed, and simplicity. We describe most common strategies involved in electrochemical biosensing of point mutations, relying mostly on PCR or isothermal amplification techniques, and critically discuss major challenges and obstacles that, until now, prevented their more widespread application in clinical settings.

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Ravery Sebuyoya

DNA Methylation in Solid Tumors: Functions and Methods of Detection

Electrochemical bioassay coupled to LAMP reaction for determination of high-risk HPV infection in crude lysates

Electrochemical DNA biosensor coupled to LAMP reaction for early diagnostics of cervical precancerous lesions

Electrochemical biosensors for analysis of DNA point mutations in cancer research

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