Y T Chang scite author profile

Y T Chang

2Publications

26Citation Statements Received

0Citation Statements Given

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National Taiwan University

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Recent Advances in Small Molecule Microarrays: Applications and Technology

Walsh¹,

Chang²

2004

CCHTS

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The field of Small Molecule Microarray's (SMM's) is an ever-expanding part of the larger microarray field. SMM's are array based detection systems that use small molecules as probes immobilized on a variety of microarray surfaces that are screened against a number of targets for purposes including, but not limited to, protein-small molecule ligand recognition and protein function profiling. This review covers the recent advances in the field with particular emphasis on the successful applications of SMM's, as well as technical advances in platform optimization and novel small molecule immobilization strategies.

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An automated microfluidic DNA microarray platform for genetic variant detection in inherited arrhythmic diseases

Huang

Chang

Juang

et al. 2018

Analyst

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In this study, we developed an automated microfluidic DNA microarray (AMDM) platform for point mutation detection of genetic variants in inherited arrhythmic diseases. The platform allows for automated and programmable reagent sequencing under precise conditions of hybridization flow and temperature control. It is composed of a commercial microfluidic control system, a microfluidic microarray device, and a temperature control unit. The automated and rapid hybridization process can be performed in the AMDM platform using Cy3 labeled oligonucleotide exons of SCN5A genetic DNA, which produces proteins associated with sodium channels abundant in the heart (cardiac) muscle cells. We then introduce a graphene oxide (GO)-assisted DNA microarray hybridization protocol to enable point mutation detection. In this protocol, a GO solution is added after the staining step to quench dyes bound to single-stranded DNA or non-perfectly matched DNA, which can improve point mutation specificity. As proof-of-concept we extracted the wild-type and mutant of exon 12 and exon 17 of SCN5A genetic DNA from patients with long QT syndrome or Brugada syndrome by touchdown PCR and performed a successful point mutation discrimination in the AMDM platform. Overall, the AMDM platform can greatly reduce laborious and time-consuming hybridization steps and prevent potential contamination. Furthermore, by introducing the reciprocating flow into the microchannel during the hybridization process, the total assay time can be reduced to 3 hours, which is 6 times faster than the conventional DNA microarray. Given the automatic assay operation, shorter assay time, and high point mutation discrimination, we believe that the AMDM platform has potential for low-cost, rapid and sensitive genetic testing in a simple and user-friendly manner, which may benefit gene screening in medical practice.

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Y T Chang

Recent Advances in Small Molecule Microarrays: Applications and Technology

An automated microfluidic DNA microarray platform for genetic variant detection in inherited arrhythmic diseases

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