Isolation and Identification of Post-Transcriptional Gene Silencing-Related Micro-RNAs by Functionalized Silicon Nanowire Field-effect Transistor

Kuan I. Chen; Chien-Yuan Pan; Keng-Hui  Li; Chih Ying Huang; Chia-Wei  Lu; Chuan Yi Tang; Ya Wen Su; Wei Ling Tseng; Kun-Chang  Tseng; Chi-Yun  Lin; Chii Dong Chen; Shih-Shun  Lin; Yit-Tsong Chen

Isolation and Identification of Post-Transcriptional Gene Silencing-Related Micro-RNAs by Functionalized Silicon Nanowire Field-effect Transistor

Kuan I. Chen, Chien-Yuan Pan, Keng-Hui Li, Chih Ying Huang, Chia-Wei Lu, Chuan Yi Tang, Ya Wen Su, Wei Ling Tseng, Kun-Chang Tseng, Chi-Yun Lin, Chii Dong Chen, Shih-Shun Lin, Yit-Tsong Chen

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研究成果: Article › 同行評審

6 引文斯高帕斯（Scopus）

摘要

Many transcribed RNAs are non-coding RNAs, including microRNAs (miRNAs), which bind to complementary sequences on messenger RNAs to regulate the translation efficacy. Therefore,
identifying the miRNAs expressed in cells/organisms aids in understanding genetic control in cells organisms. In this report, we determined the binding of oligonucleotides to a receptor-modified silicon nanowire field-effect transistor (SiNW-FET) by monitoring the changes in conductance of the SiNW-FET. We first modified a SiNW-FET with a DNA probe to directly and selectively detect the complementary miRNA in cell lysates. This SiNW-FET device has 7-fold higher sensitivity than
reverse transcription-quantitative polymerase chain reaction in detecting the corresponding miRNA. Next, we anchored viral p19 proteins, which bind the double-strand small RNAs (ds-sRNAs), on the SiNW-FET. By perfusing the device with synthesized ds-sRNAs of different pairing statuses, the
dissociation constants revealed that the nucleotides at the 3′-overhangs and pairings at the terminus
are important for the interactions. After perfusing the total RNA mixture extracted from Nicotiana
benthamiana across the device, this device could enrich the ds-sRNAs for sequence analysis. Finally,
this bionanoelectronic SiNW-FET, which is able to isolate and identify the interacting protein-RNA, adds an additional tool in genomic technology for the future study of direct biomolecular interactions.

原文	American English
文章編號	17375
期刊	Scientific Reports
卷	5
出版狀態	Published - 2015

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2015 Isolation and Identification of Post-Transcriptional Gene Silencing-Related Micro- RNAs by Functionalized Silicon Nanowire Field-effect Transistor

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title = "Isolation and Identification of Post-Transcriptional Gene Silencing-Related Micro-RNAs by Functionalized Silicon Nanowire Field-effect Transistor",

abstract = "Many transcribed RNAs are non-coding RNAs, including microRNAs (miRNAs), which bind to complementary sequences on messenger RNAs to regulate the translation efficacy. Therefore,identifying the miRNAs expressed in cells/organisms aids in understanding genetic control in cells organisms. In this report, we determined the binding of oligonucleotides to a receptor-modified silicon nanowire field-effect transistor (SiNW-FET) by monitoring the changes in conductance of the SiNW-FET. We first modified a SiNW-FET with a DNA probe to directly and selectively detect the complementary miRNA in cell lysates. This SiNW-FET device has 7-fold higher sensitivity thanreverse transcription-quantitative polymerase chain reaction in detecting the corresponding miRNA. Next, we anchored viral p19 proteins, which bind the double-strand small RNAs (ds-sRNAs), on the SiNW-FET. By perfusing the device with synthesized ds-sRNAs of different pairing statuses, thedissociation constants revealed that the nucleotides at the 3′-overhangs and pairings at the terminusare important for the interactions. After perfusing the total RNA mixture extracted from Nicotianabenthamiana across the device, this device could enrich the ds-sRNAs for sequence analysis. Finally,this bionanoelectronic SiNW-FET, which is able to isolate and identify the interacting protein-RNA, adds an additional tool in genomic technology for the future study of direct biomolecular interactions.",

author = "Chen, {Kuan I.} and Chien-Yuan Pan and Keng-Hui Li and Huang, {Chih Ying} and Chia-Wei Lu and Tang, {Chuan Yi} and Su, {Ya Wen} and Tseng, {Wei Ling} and Kun-Chang Tseng and Chi-Yun Lin and Chen, {Chii Dong} and Shih-Shun Lin and Yit-Tsong Chen",

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journal = "Scientific Reports",

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T1 - Isolation and Identification of Post-Transcriptional Gene Silencing-Related Micro-RNAs by Functionalized Silicon Nanowire Field-effect Transistor

AU - Chen, Kuan I.

AU - Pan, Chien-Yuan

AU - Li, Keng-Hui

AU - Huang, Chih Ying

AU - Lu, Chia-Wei

AU - Tang, Chuan Yi

AU - Su, Ya Wen

AU - Tseng, Wei Ling

AU - Tseng, Kun-Chang

AU - Lin, Chi-Yun

AU - Chen, Chii Dong

AU - Lin, Shih-Shun

AU - Chen, Yit-Tsong

PY - 2015

Y1 - 2015

N2 - Many transcribed RNAs are non-coding RNAs, including microRNAs (miRNAs), which bind to complementary sequences on messenger RNAs to regulate the translation efficacy. Therefore,identifying the miRNAs expressed in cells/organisms aids in understanding genetic control in cells organisms. In this report, we determined the binding of oligonucleotides to a receptor-modified silicon nanowire field-effect transistor (SiNW-FET) by monitoring the changes in conductance of the SiNW-FET. We first modified a SiNW-FET with a DNA probe to directly and selectively detect the complementary miRNA in cell lysates. This SiNW-FET device has 7-fold higher sensitivity thanreverse transcription-quantitative polymerase chain reaction in detecting the corresponding miRNA. Next, we anchored viral p19 proteins, which bind the double-strand small RNAs (ds-sRNAs), on the SiNW-FET. By perfusing the device with synthesized ds-sRNAs of different pairing statuses, thedissociation constants revealed that the nucleotides at the 3′-overhangs and pairings at the terminusare important for the interactions. After perfusing the total RNA mixture extracted from Nicotianabenthamiana across the device, this device could enrich the ds-sRNAs for sequence analysis. Finally,this bionanoelectronic SiNW-FET, which is able to isolate and identify the interacting protein-RNA, adds an additional tool in genomic technology for the future study of direct biomolecular interactions.

AB - Many transcribed RNAs are non-coding RNAs, including microRNAs (miRNAs), which bind to complementary sequences on messenger RNAs to regulate the translation efficacy. Therefore,identifying the miRNAs expressed in cells/organisms aids in understanding genetic control in cells organisms. In this report, we determined the binding of oligonucleotides to a receptor-modified silicon nanowire field-effect transistor (SiNW-FET) by monitoring the changes in conductance of the SiNW-FET. We first modified a SiNW-FET with a DNA probe to directly and selectively detect the complementary miRNA in cell lysates. This SiNW-FET device has 7-fold higher sensitivity thanreverse transcription-quantitative polymerase chain reaction in detecting the corresponding miRNA. Next, we anchored viral p19 proteins, which bind the double-strand small RNAs (ds-sRNAs), on the SiNW-FET. By perfusing the device with synthesized ds-sRNAs of different pairing statuses, thedissociation constants revealed that the nucleotides at the 3′-overhangs and pairings at the terminusare important for the interactions. After perfusing the total RNA mixture extracted from Nicotianabenthamiana across the device, this device could enrich the ds-sRNAs for sequence analysis. Finally,this bionanoelectronic SiNW-FET, which is able to isolate and identify the interacting protein-RNA, adds an additional tool in genomic technology for the future study of direct biomolecular interactions.

M3 - Article

SN - 2045-2322

VL - 5

JO - Scientific Reports

JF - Scientific Reports

M1 - 17375

ER -

Isolation and Identification of Post-Transcriptional Gene Silencing-Related Micro-RNAs by Functionalized Silicon Nanowire Field-effect Transistor

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