Multiplex genotyping of SNPs in genomic DNA via hydrogel-based assay mediated with MutS and polyethylene glycol

The simultaneous genotyping of multiple single nucleotide polymorphisms (SNPs) in genomic DNA derived from organisms holds significant potential for applications such as precision medicine and food product authentication. However, conventional assay technologies including qPCR-based techniques, micr...

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Bibliographic Details
Published in:Biosensors & bioelectronics 2023-12, Vol.241, p.115670-115670, Article 115670
Main Authors: Mun, Seok Joon, Jang, Wookyoung, Park, Hyun-Seung, Lim, Yong Jun, Yang, Tae-Jin, Bong, Ki Wan
Format: Article
Language:English
Subjects:
biosensors
DNA
Encoded hydrogel microparticle
face
fluorescent dyes
foods
genome
genotyping
Ligation detection reaction
microarray technology
MutS protein
Panax ginseng
Panax quinquefolius
Polyethylene glycol
precision medicine
Rolling circle amplification
Single nucleotide polymorphism
species
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Summary:The simultaneous genotyping of multiple single nucleotide polymorphisms (SNPs) in genomic DNA derived from organisms holds significant potential for applications such as precision medicine and food product authentication. However, conventional assay technologies including qPCR-based techniques, microarrays, and hydrogel-based assays face limitations in efficient multiplexing of SNPs, particularly for large-size DNA beyond kilobase scales, due to constraints in multiplex capability, specificity, or sensitivity. In this study, a hydrogel-based multiplex SNP genotyping platform specifically designed for genomic DNA is presented. This platform integrates the ligation detection reaction (LDR) and rolling circle amplification (RCA) techniques within a hydrogel-based multiplex sensing system, enabling adaptable and sensitive SNP genotyping for genomic DNA. To enhance the specificity of the assay, MutS protein and polyethylene glycol are introduced into the protocol, reducing the non-specific ligation and RCA reactions synergistically. With significant specificity improvement of over 10-fold, three types of SNPs within an artificially constructed ∼1000 bp double-stranded DNA (dsDNA) are successfully genotyped with double-digit picomolar sensitivity. Furthermore, the practical applicability of the developed process for the origin identification of raw materials is demonstrated by genotyping three types of SNPs within genomic DNA obtained from two closely related plant species, Korean ginseng (Panax ginseng) and American ginseng (Panax quinquefolius), containing ca. 3.5 gigabase genome size. Of notable significance, this study marks the premiere achievement in PCR-free multiplex genotyping of SNPs in genomic DNA using a single fluorophore.
ISSN:0956-5663
1873-4235
DOI:10.1016/j.bios.2023.115670