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Optogenetic Control of Gene Expression in Drosophila

To study the molecular mechanism of complex biological systems, it is important to be able to artificially manipulate gene expression in desired target sites with high precision. Based on the light dependent binding of cryptochrome 2 and a cryptochrome interacting bHLH protein, we developed a split...

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Published in:	PloS one 2015-09, Vol.10 (9), p.e0138181-e0138181
Main Authors:	Chan, Yick-Bun, Alekseyenko, Olga V, Kravitz, Edward A
Format:	Article
Language:	English
Subjects:	Amino acids Animal development Animals Animals, Genetically Modified Cell culture Cells, Cultured Cloning Cryptochromes - genetics Cryptochromes - metabolism Deoxyribonucleic acid Developmental stages DNA Drosophila Drosophila melanogaster Drosophila melanogaster - genetics Drosophila melanogaster - radiation effects Drosophila Proteins - genetics Drosophila Proteins - metabolism Embryo, Nonmammalian Embryos Excitation Gene expression Gene Expression Regulation, Developmental - radiation effects Genetic aspects Genetics Green Fluorescent Proteins - genetics Green Fluorescent Proteins - metabolism Insects Light Medical research Nervous system Neurobiology Neurons - metabolism Neurosciences Optogenetics Physiological aspects Proteins Transcription activation Transcription factors Transcriptional Activation - radiation effects Transgenes - radiation effects Zebrafish
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description	To study the molecular mechanism of complex biological systems, it is important to be able to artificially manipulate gene expression in desired target sites with high precision. Based on the light dependent binding of cryptochrome 2 and a cryptochrome interacting bHLH protein, we developed a split lexA transcriptional activation system for use in Drosophila that allows regulation of gene expression in vivo using blue light or two-photon excitation. We show that this system offers high spatiotemporal resolution by inducing gene expression in tissues at various developmental stages. In combination with two-photon excitation, gene expression can be manipulated at precise sites in embryos, potentially offering an important tool with which to examine developmental processes.
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Based on the light dependent binding of cryptochrome 2 and a cryptochrome interacting bHLH protein, we developed a split lexA transcriptional activation system for use in Drosophila that allows regulation of gene expression in vivo using blue light or two-photon excitation. We show that this system offers high spatiotemporal resolution by inducing gene expression in tissues at various developmental stages. In combination with two-photon excitation, gene expression can be manipulated at precise sites in embryos, potentially offering an important tool with which to examine developmental processes.</description><identifier>ISSN: 1932-6203</identifier><identifier>EISSN: 1932-6203</identifier><identifier>DOI: 10.1371/journal.pone.0138181</identifier><identifier>PMID: 26383635</identifier><language>eng</language><publisher>United States: Public Library of Science</publisher><subject>Amino acids ; Animal development ; Animals ; Animals, Genetically Modified ; Cell culture ; Cells, Cultured ; Cloning ; Cryptochromes - genetics ; Cryptochromes - metabolism ; Deoxyribonucleic acid ; Developmental stages ; DNA ; Drosophila ; Drosophila melanogaster ; Drosophila melanogaster - genetics ; Drosophila melanogaster - radiation effects ; Drosophila Proteins - genetics ; Drosophila Proteins - metabolism ; Embryo, Nonmammalian ; Embryos ; Excitation ; Gene expression ; Gene Expression Regulation, Developmental - radiation effects ; Genetic aspects ; Genetics ; Green Fluorescent Proteins - genetics ; Green Fluorescent Proteins - metabolism ; Insects ; Light ; Medical research ; Nervous system ; Neurobiology ; Neurons - metabolism ; Neurosciences ; Optogenetics ; Physiological aspects ; Proteins ; Transcription activation ; Transcription factors ; Transcriptional Activation - radiation effects ; Transgenes - radiation effects ; Zebrafish</subject><ispartof>PloS one, 2015-09, Vol.10 (9), p.e0138181-e0138181</ispartof><rights>COPYRIGHT 2015 Public Library of Science</rights><rights>2015 Chan et al. This is an open access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.</rights><rights>2015 Chan et al 2015 Chan et al</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c758t-509fe15399f730a55639451cccad6cab1af68e650c4cde2810bed00ef7acf7793</citedby><cites>FETCH-LOGICAL-c758t-509fe15399f730a55639451cccad6cab1af68e650c4cde2810bed00ef7acf7793</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://www.proquest.com/docview/1719288500/fulltextPDF?pq-origsite=primo$$EPDF$$P50$$Gproquest$$Hfree_for_read</linktopdf><linktohtml>$$Uhttps://www.proquest.com/docview/1719288500?pq-origsite=primo$$EHTML$$P50$$Gproquest$$Hfree_for_read</linktohtml><link.rule.ids>230,314,727,780,784,885,25753,27924,27925,37012,37013,44590,53791,53793,75126</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/26383635$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><contributor>Roman, Gregg</contributor><creatorcontrib>Chan, Yick-Bun</creatorcontrib><creatorcontrib>Alekseyenko, Olga V</creatorcontrib><creatorcontrib>Kravitz, Edward A</creatorcontrib><title>Optogenetic Control of Gene Expression in Drosophila</title><title>PloS one</title><addtitle>PLoS One</addtitle><description>To study the molecular mechanism of complex biological systems, it is important to be able to artificially manipulate gene expression in desired target sites with high precision. Based on the light dependent binding of cryptochrome 2 and a cryptochrome interacting bHLH protein, we developed a split lexA transcriptional activation system for use in Drosophila that allows regulation of gene expression in vivo using blue light or two-photon excitation. We show that this system offers high spatiotemporal resolution by inducing gene expression in tissues at various developmental stages. In combination with two-photon excitation, gene expression can be manipulated at precise sites in embryos, potentially offering an important tool with which to examine developmental processes.</description><subject>Amino acids</subject><subject>Animal development</subject><subject>Animals</subject><subject>Animals, Genetically Modified</subject><subject>Cell culture</subject><subject>Cells, Cultured</subject><subject>Cloning</subject><subject>Cryptochromes - genetics</subject><subject>Cryptochromes - metabolism</subject><subject>Deoxyribonucleic acid</subject><subject>Developmental stages</subject><subject>DNA</subject><subject>Drosophila</subject><subject>Drosophila melanogaster</subject><subject>Drosophila melanogaster - genetics</subject><subject>Drosophila melanogaster - radiation effects</subject><subject>Drosophila Proteins - genetics</subject><subject>Drosophila Proteins - metabolism</subject><subject>Embryo, Nonmammalian</subject><subject>Embryos</subject><subject>Excitation</subject><subject>Gene expression</subject><subject>Gene Expression Regulation, Developmental - radiation effects</subject><subject>Genetic aspects</subject><subject>Genetics</subject><subject>Green Fluorescent Proteins - genetics</subject><subject>Green Fluorescent Proteins - metabolism</subject><subject>Insects</subject><subject>Light</subject><subject>Medical research</subject><subject>Nervous system</subject><subject>Neurobiology</subject><subject>Neurons - metabolism</subject><subject>Neurosciences</subject><subject>Optogenetics</subject><subject>Physiological aspects</subject><subject>Proteins</subject><subject>Transcription activation</subject><subject>Transcription factors</subject><subject>Transcriptional Activation - radiation effects</subject><subject>Transgenes - radiation effects</subject><subject>Zebrafish</subject><issn>1932-6203</issn><issn>1932-6203</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><sourceid>PIMPY</sourceid><sourceid>DOA</sourceid><recordid>eNqNkl1r2zAUhs3YWLtu_2BshsHYLpLpw5Klm0HJui5QCOzrVijykaOgWJ5lj_bfV2ncEo9eDF_YHD3nPXqP3yx7jdEc0xJ_2oaha7Sft6GBOcJUYIGfZKdYUjLjBNGnR98n2YsYtwgxKjh_np0QTgXllJ1mxartQw0N9M7ki9D0XfB5sPllKuUX120HMbrQ5K7Jv3QhhnbjvH6ZPbPaR3g1vs-yX18vfi6-za5Wl8vF-dXMlEz0M4akBcyolLakSDPGqSwYNsboihu9xtpyAZwhU5gKiMBoDRVCYEttbFlKepa9Pei2PkQ1Go4Kl1gSIRhCiVgeiCrorWo7t9PdjQraqbtC6Gqlu2TNg-JCYkJLBpKlWxgisakMFQQEL41B-2mfx2nDegeVgbQM7Sei05PGbVQd_qqClQxTmgQ-jAJd-DNA7NXORQPe6wbCcHdvLgtEBE_ou3_Qx92NVK2TAdfYkOaavag6L4hETCZPiZo_QqWngp0zKR3Wpfqk4eOkITE9XPe1HmJUyx_f_59d_Z6y74_YDWjfb2LwQ58CFKdgcQBNilTswD4sGSO1D_f9NtQ-3GoMd2p7c_yDHpru00xvAauM8no</recordid><startdate>20150918</startdate><enddate>20150918</enddate><creator>Chan, Yick-Bun</creator><creator>Alekseyenko, Olga V</creator><creator>Kravitz, Edward A</creator><general>Public Library of Science</general><general>Public Library of Science (PLoS)</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>IOV</scope><scope>ISR</scope><scope>3V.</scope><scope>7QG</scope><scope>7QL</scope><scope>7QO</scope><scope>7RV</scope><scope>7SN</scope><scope>7SS</scope><scope>7T5</scope><scope>7TG</scope><scope>7TM</scope><scope>7U9</scope><scope>7X2</scope><scope>7X7</scope><scope>7XB</scope><scope>88E</scope><scope>8AO</scope><scope>8C1</scope><scope>8FD</scope><scope>8FE</scope><scope>8FG</scope><scope>8FH</scope><scope>8FI</scope><scope>8FJ</scope><scope>8FK</scope><scope>ABJCF</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>ARAPS</scope><scope>ATCPS</scope><scope>AZQEC</scope><scope>BBNVY</scope><scope>BENPR</scope><scope>BGLVJ</scope><scope>BHPHI</scope><scope>C1K</scope><scope>CCPQU</scope><scope>D1I</scope><scope>DWQXO</scope><scope>FR3</scope><scope>FYUFA</scope><scope>GHDGH</scope><scope>GNUQQ</scope><scope>H94</scope><scope>HCIFZ</scope><scope>K9.</scope><scope>KB.</scope><scope>KB0</scope><scope>KL.</scope><scope>L6V</scope><scope>LK8</scope><scope>M0K</scope><scope>M0S</scope><scope>M1P</scope><scope>M7N</scope><scope>M7P</scope><scope>M7S</scope><scope>NAPCQ</scope><scope>P5Z</scope><scope>P62</scope><scope>P64</scope><scope>PATMY</scope><scope>PDBOC</scope><scope>PIMPY</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>PTHSS</scope><scope>PYCSY</scope><scope>RC3</scope><scope>7X8</scope><scope>5PM</scope><scope>DOA</scope></search><sort><creationdate>20150918</creationdate><title>Optogenetic Control of Gene Expression in Drosophila</title><author>Chan, Yick-Bun ; Alekseyenko, Olga V ; Kravitz, Edward A</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c758t-509fe15399f730a55639451cccad6cab1af68e650c4cde2810bed00ef7acf7793</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2015</creationdate><topic>Amino acids</topic><topic>Animal development</topic><topic>Animals</topic><topic>Animals, Genetically Modified</topic><topic>Cell culture</topic><topic>Cells, Cultured</topic><topic>Cloning</topic><topic>Cryptochromes - genetics</topic><topic>Cryptochromes - metabolism</topic><topic>Deoxyribonucleic acid</topic><topic>Developmental stages</topic><topic>DNA</topic><topic>Drosophila</topic><topic>Drosophila melanogaster</topic><topic>Drosophila melanogaster - genetics</topic><topic>Drosophila melanogaster - radiation effects</topic><topic>Drosophila Proteins - genetics</topic><topic>Drosophila Proteins - metabolism</topic><topic>Embryo, Nonmammalian</topic><topic>Embryos</topic><topic>Excitation</topic><topic>Gene expression</topic><topic>Gene Expression Regulation, Developmental - radiation effects</topic><topic>Genetic aspects</topic><topic>Genetics</topic><topic>Green Fluorescent Proteins - genetics</topic><topic>Green Fluorescent Proteins - metabolism</topic><topic>Insects</topic><topic>Light</topic><topic>Medical research</topic><topic>Nervous system</topic><topic>Neurobiology</topic><topic>Neurons - metabolism</topic><topic>Neurosciences</topic><topic>Optogenetics</topic><topic>Physiological aspects</topic><topic>Proteins</topic><topic>Transcription activation</topic><topic>Transcription factors</topic><topic>Transcriptional Activation - 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subjects	Amino acids Animal development Animals Animals, Genetically Modified Cell culture Cells, Cultured Cloning Cryptochromes - genetics Cryptochromes - metabolism Deoxyribonucleic acid Developmental stages DNA Drosophila Drosophila melanogaster Drosophila melanogaster - genetics Drosophila melanogaster - radiation effects Drosophila Proteins - genetics Drosophila Proteins - metabolism Embryo, Nonmammalian Embryos Excitation Gene expression Gene Expression Regulation, Developmental - radiation effects Genetic aspects Genetics Green Fluorescent Proteins - genetics Green Fluorescent Proteins - metabolism Insects Light Medical research Nervous system Neurobiology Neurons - metabolism Neurosciences Optogenetics Physiological aspects Proteins Transcription activation Transcription factors Transcriptional Activation - radiation effects Transgenes - radiation effects Zebrafish
title	Optogenetic Control of Gene Expression in Drosophila
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