Systematic evaluation of split-fluorescent proteins for the direct detection of native and methylated DNA

Jennifer L. Furman; Ahmed H. Badran; Shengyi Shen; Cliff I. Stains; Jack Hannallah; David J. Segal; Indraneel Ghosh

doi:10.1016/j.bmcl.2009.04.141

Systematic evaluation of split-fluorescent proteins for the direct detection of native and methylated DNA

Jennifer L. Furman, Ahmed H. Badran, Shengyi Shen, Cliff I. Stains, Jack Hannallah, David J. Segal, Indraneel Ghosh

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

In order to directly detect nucleic acid polymers, we have designed biosensors comprising sequence-specific DNA binding proteins tethered to split-reporter proteins, which generate signal upon binding a predetermined nucleic acid target, in an approach termed SEquence-Enabled Reassembly (SEER). Herein we demonstrate that spectroscopically distinct split-fluorescent protein variants, GFPuv, EGFP, Venus, and mCherry, function effectively in the SEER system, providing sensitive DNA detection and the ability to simultaneously detect two target oligonucleotides. Additionally, a methylation-specific SEER-Venus system was generated, which was found to clearly distinguish between methylated versus non-methylated target DNA. These results will aid in refinement of the SEER system for the detection of user defined nucleic acid sequences and their chemical modifications as they relate to human disease.

Original language	English (US)
Pages (from-to)	3748-3751
Number of pages	4
Journal	Bioorganic and Medicinal Chemistry Letters
Volume	19
Issue number	14
DOIs	https://doi.org/10.1016/j.bmcl.2009.04.141
State	Published - Jul 15 2009

Keywords

DNA
Detection
GFP
Methylation
Sensor
Split-protein
Zinc-finger

ASJC Scopus subject areas

Biochemistry
Molecular Medicine
Molecular Biology
Pharmaceutical Science
Drug Discovery
Clinical Biochemistry
Organic Chemistry

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10.1016/j.bmcl.2009.04.141

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title = "Systematic evaluation of split-fluorescent proteins for the direct detection of native and methylated DNA",

abstract = "In order to directly detect nucleic acid polymers, we have designed biosensors comprising sequence-specific DNA binding proteins tethered to split-reporter proteins, which generate signal upon binding a predetermined nucleic acid target, in an approach termed SEquence-Enabled Reassembly (SEER). Herein we demonstrate that spectroscopically distinct split-fluorescent protein variants, GFPuv, EGFP, Venus, and mCherry, function effectively in the SEER system, providing sensitive DNA detection and the ability to simultaneously detect two target oligonucleotides. Additionally, a methylation-specific SEER-Venus system was generated, which was found to clearly distinguish between methylated versus non-methylated target DNA. These results will aid in refinement of the SEER system for the detection of user defined nucleic acid sequences and their chemical modifications as they relate to human disease.",

keywords = "DNA, Detection, GFP, Methylation, Sensor, Split-protein, Zinc-finger",

author = "Furman, {Jennifer L.} and Badran, {Ahmed H.} and Shengyi Shen and Stains, {Cliff I.} and Jack Hannallah and Segal, {David J.} and Indraneel Ghosh",

note = "Funding Information: Funding was obtained from the National Institutes of Health (NIH): GM077403, CA122630. J.L.F. and C.I.S. were supported by a NIH Training Grant. We thank Jennifer Lippincott-Schwartz and Roberta A. Gottlieb for plasmids containing Cerulean and mCherry, respectively. ",

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doi = "10.1016/j.bmcl.2009.04.141",

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AU - Furman, Jennifer L.

AU - Badran, Ahmed H.

AU - Shen, Shengyi

AU - Stains, Cliff I.

AU - Hannallah, Jack

AU - Segal, David J.

AU - Ghosh, Indraneel

N1 - Funding Information: Funding was obtained from the National Institutes of Health (NIH): GM077403, CA122630. J.L.F. and C.I.S. were supported by a NIH Training Grant. We thank Jennifer Lippincott-Schwartz and Roberta A. Gottlieb for plasmids containing Cerulean and mCherry, respectively.

PY - 2009/7/15

Y1 - 2009/7/15

N2 - In order to directly detect nucleic acid polymers, we have designed biosensors comprising sequence-specific DNA binding proteins tethered to split-reporter proteins, which generate signal upon binding a predetermined nucleic acid target, in an approach termed SEquence-Enabled Reassembly (SEER). Herein we demonstrate that spectroscopically distinct split-fluorescent protein variants, GFPuv, EGFP, Venus, and mCherry, function effectively in the SEER system, providing sensitive DNA detection and the ability to simultaneously detect two target oligonucleotides. Additionally, a methylation-specific SEER-Venus system was generated, which was found to clearly distinguish between methylated versus non-methylated target DNA. These results will aid in refinement of the SEER system for the detection of user defined nucleic acid sequences and their chemical modifications as they relate to human disease.

AB - In order to directly detect nucleic acid polymers, we have designed biosensors comprising sequence-specific DNA binding proteins tethered to split-reporter proteins, which generate signal upon binding a predetermined nucleic acid target, in an approach termed SEquence-Enabled Reassembly (SEER). Herein we demonstrate that spectroscopically distinct split-fluorescent protein variants, GFPuv, EGFP, Venus, and mCherry, function effectively in the SEER system, providing sensitive DNA detection and the ability to simultaneously detect two target oligonucleotides. Additionally, a methylation-specific SEER-Venus system was generated, which was found to clearly distinguish between methylated versus non-methylated target DNA. These results will aid in refinement of the SEER system for the detection of user defined nucleic acid sequences and their chemical modifications as they relate to human disease.

KW - DNA

KW - Detection

KW - GFP

KW - Methylation

KW - Sensor

KW - Split-protein

KW - Zinc-finger

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Systematic evaluation of split-fluorescent proteins for the direct detection of native and methylated DNA

Abstract

Keywords

ASJC Scopus subject areas

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