Sage Journals: Discover world-class research

Abstract

RNA and DNA aptamers that bind to target molecules with high specificity and affinity have been a focus of diagnostics and therapeutic research. These aptamers are obtained by SELEX often requiring many rounds of selection and amplification. Recently, we have shown the efficient binding and elution of RNA aptamers against target proteins using a microfluidic chip that incorporates 5 sol–gel binding droplets within which specific target proteins are imbedded. Here, we demonstrate that our microfluidic chip in a SELEX experiment greatly improved selection efficiency of RNA aptamers to TATA-binding protein, reducing the number of selection cycles needed to produce high affinity aptamers by about 80%. Many aptamers were identical or homologous to those isolated previously by conventional filter-binding SELEX. The microfluidic chip SELEX is readily scalable using a sol–gel microarray-based target multiplexing. Additionally, we show that sol–gel embedded protein arrays can be used as a high-throughput assay for quantifying binding affinities of aptamers.

Get full access to this article

View all access options for this article.

References

AHN

, CHO

, LEE

, PARK

, HONG

, SHIN

, JEONG

, LEE

D.K.

, KIM

2008. Sol-gel material optimization for aptamer biosensors. Mol. Cell. Toxicol., 4:100–105.

COLOMBO

2006. Conventional and novel processing methods for cellular ceramics. Philos. Transact. A Math. Phys. Eng. Sci., 364:109–124.

DIETZE

, BAYERLEIN

, PROFF

, HOFFMANN

, GEDRANGE

2006. The ultrastructure and processing properties of Straumann bone ceramic and nanobone. Folia Morphol. (Warsz)., 65:63–65.

EULBERG

, BUCHNER

, MAASCH

, KLUSSMANN

2005. Development of an automated in vitro selection protocol to obtain RNA-based aptamers: identification of a biostable substance P antagonist. Nucleic Acids Res., 33:e45.

FAN

, SHI

, ADELMAN

, LIS

J.T.

2004. Probing TBP interactions in transcription initiation and reinitiation with RNA aptamers that act in distinct modes. Proc. Natl. Acad. Sci. U. S. A., 101:6934–6939.

FRENKEL-MULLERAD

, AVNIR

2005. Sol-gel materials as efficient enzyme protectors: preserving the activity of phosphatases under extreme pH conditions. J. Am. Chem. Soc., 127:8077–8081.

GILL

, BALLESTEROS

1996. Novel sol-gel matrices for the immobilization of enzymes. Ann. N. Y. Acad. Sci., 799:697–700.

GILL

, BALLESTEROS

2000. Bioencapsulation within synthetic polymers (Part 1): sol-gel encapsulated biologicals. Trends Biotechnol., 18:282–296.

GOLD

, BROWN

, HE

, SHTATLAND

, SINGER

B.S.

, WU

1997. From oligonucleotide shapes to genomic SELEX: novel biological regulatory loops. Proc. Natl. Acad. Sci. U. S. A., 94:59–64.

10.

GORINGER

H.U.

, HOMANN

, LORGER

2003. In vitro selection of high-affinity nucleic acid ligands to parasite target molecules. Int. J. Parasitol., 33:1309–1317.

11.

HAHN

, BURATOWSKI

, SHARP

P.A.

, GUARENTE

1989. Isolation of the gene encoding the yeast TATA binding protein TFIID: a gene identical to the SPT15 suppressor of Ty element insertions. Cell, 58:1173–1181.

12.

HIGGINS

D.G.

, SHARP

P.M.

1988. CLUSTAL: a package for performing multiple sequence alignment on a microcomputer. Gene, 73:237–244.

13.

HYBARGER

, BYNUM

, WILLIAMS

R.F.

, VALDES

J.J.

, CHAMBERS

J.P.

2006. A microfluidic SELEX prototype. Anal. Bioanal. Chem., 384:191–198.

14.

KIM

, KIM

, HA

, KIM

, SOHN

, YOO

J.S.

, LEE

, KWON

J.A.

, LEE

K.N.

2006. Improved sensitivity and physical properties of sol-gel protein chips using large-scale material screening and selection. Anal. Chem., 78:7392–7396.

15.

KIM

Y.Y.

, CHAE

S.Y.

, KIM

, BYUN

, BAE

Y.H.

2005. Improved phenotype of rat islets in a macrocapsule by co-encapsulation with cross-linked Hb. J. Biomater. Sci. Polym. Ed., 16:1521–1535.

16.

KWON

J.A.

, LEE

K.N.

, CHAE

, LEE

D.K.

, KIM

2008. High diagnostic accuracy of antigen microarray for sensitive detection of hepatitis C virus infection. Clin. Chem., 54:424–428.

17.

LEE

, KIM

Y.S.

, JO

, JIN

, LEE

D.K.

, KIM

2007. Chip-based detection of hepatitis C virus using RNA aptamers that specifically bind to HCV core antigen. Biochem. Biophys. Res. Commun., 358:47–52.

18.

PARK

S.M.

, AHN

J.Y.

, JO

, LEE

D.K.

, LIS

J.T.

, CRAIGHEAD

H.G.

, KIM

2009. Selection and elution of aptamers using nanoporous sol-gel arrays with integrated microheaters. Lab. Chip, 9:1206–1212.

19.

PASTOR

, FERRER

M.L.

, LILLO

M.P.

, GOMEZ

, MATEO

C.R.

2007. Structure and dynamics of lysozyme encapsulated in a silica sol-gel matrix. J. Phys. Chem. B, 111:11603–11610.

20.

REETZ

M.T.

, ZONTA

, SIMPELKAMP

1996. Efficient immobilization of lipases by entrapment in hydrophobic sol-gel materials. Biotechnol. Bioeng., 49:527–534.

21.

SEFAH

, PHILLIPS

J.A.

, XIONG

, MENG

, VAN SIMAEYS

, CHEN

, MARTIN

, TAN

2009. Nucleic acid aptamers for biosensors and bio-analytical applications. Analyst, 134:1765–1775.

22.

SEVILIMEDU

, SHI

, LIS

J.T.

2008. TFIIB aptamers inhibit transcription by perturbing PIC formation at distinct stages. Nucleic Acids Res., 36:3118–3127.

23.

SHI

, FAN

, SEVILIMEDU

, LIS

J.T.

2007. RNA aptamers directed to discrete functional sites on a single protein structural domain. Proc. Natl. Acad. Sci. U. S. A., 104:3742–3746.

24.

WEIBEL

D.B.

, WHITESIDES

G.M.

2006. Applications of microfluidics in chemical biology. Curr. Opin. Chem. Biol., 10:584–591.

25.

WHITESIDES

G.M.

2006. The origins and the future of microfluidics. Nature, 442:368–373.

26.

YOKOMORI

, ZEIDLER

M.P.

, CHEN

J.L.

, VERRIJZER

C.P.

, MLODZIK

, TJIAN

1994. Drosophila TFIIA directs cooperative DNA binding with TBP and mediates transcriptional activation. Genes Dev., 8:2313–2323.

27.

ZHANG

D.J.

, SHAO

N.S.

, FAN

2001. [The application and prospect of SELEX technology] Sheng. Li. Ke. Xue. Jin. Zhan., 32:365–367.

28.

ZHAO

, SHI

, SEVILIMEDU

, LIACHKO

, NELSON

H.C.

, LIS

J.T.

2006. An RNA aptamer that interferes with the DNA binding of the HSF transcription activator. Nucleic Acids Res., 34:3755–3761.

29.

ZUKER

2003. Mfold web server for nucleic acid folding and hybridization prediction. Nucleic Acids Res., 31:3406–3415.

Supplementary Material

Please find the following supplemental material available below.

For Open Access articles published under a Creative Commons License, all supplemental material carries the same license as the article it is associated with.

For non-Open Access articles published, all supplemental material carries a non-exclusive license, and permission requests for re-use of supplemental material or any part of supplemental material shall be sent directly to the copyright owner as specified in the copyright notice associated with the article.

0.00 MB

4.38 MB

A Sol–Gel-Based Microfluidics System Enhances the Efficiency of RNA Aptamer Selection

Abstract

Get full access to this article

References

Supplementary Material