A low affinity cis-regulatory BMP response element restricts target gene activation to subsets of Drosophila neurons

Retrograde BMP signaling and canonical pMad/Medea-mediated transcription regulate diverse target genes across subsets of Drosophila efferent neurons, to differentiate neuropeptidergic neurons and promote motor neuron terminal maturation. How a common BMP signal regulates diverse target genes across...

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Veröffentlicht in:	eLife 2020-10, Vol.9, Article 59650
Hauptverfasser:	Berndt, Anthony J. E., Othonos, Katerina M., Lian, Tianshun, Flibotte, Stephane, Miao, Mo, Bhuiyan, Shamsuddin A., Cho, Raymond Y., Fong, Justin S., Hur, Seo Am, Pavlidis, Paul, Allan, Douglas W.
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Schlagworte:	Animals Biology bmp-activated smad transcription factors Bone Morphogenetic Proteins - genetics Bone Morphogenetic Proteins - metabolism cis-regulatory bmp response element Drosophila Drosophila melanogaster - genetics Drosophila melanogaster - metabolism Drosophila Proteins - genetics Drosophila Proteins - metabolism Gene Expression Regulation Genetic aspects Life Sciences & Biomedicine Life Sciences & Biomedicine - Other Topics low affinity binding motif Neurons Neurons - metabolism Neuroscience Response Elements Science & Technology Signal Transduction Smad4 Protein - genetics Smad4 Protein - metabolism Transcription (Genetics)
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creator	Berndt, Anthony J. E. Othonos, Katerina M. Lian, Tianshun Flibotte, Stephane Miao, Mo Bhuiyan, Shamsuddin A. Cho, Raymond Y. Fong, Justin S. Hur, Seo Am Pavlidis, Paul Allan, Douglas W.
description	Retrograde BMP signaling and canonical pMad/Medea-mediated transcription regulate diverse target genes across subsets of Drosophila efferent neurons, to differentiate neuropeptidergic neurons and promote motor neuron terminal maturation. How a common BMP signal regulates diverse target genes across many neuronal subsets remains largely unresolved, although available evidence implicates subset-specific transcription factor codes rather than differences in BMP signaling. Here we examine the cis-regulatory mechanisms restricting BMP-induced FMRFa neuropeptide expression to Tv4-neurons. We find that pMad/Medea bind at an atypical, low affinity motif in the FMRFa enhancer. Converting this motif to high affinity caused ectopic enhancer activity and eliminated Tv4-neuron expression. In silico searches identified additional motif instances functional in other efferent neurons, implicating broader functions for this motif in BMP-dependent enhancer activity. Thus, differential interpretation of a common BMP signal, conferred by low affinity pMad/Medea binding motifs, can contribute to the specification of BMP target genes in efferent neuron subsets.
doi_str_mv	10.7554/eLife.59650
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E.</au><au>Othonos, Katerina M.</au><au>Lian, Tianshun</au><au>Flibotte, Stephane</au><au>Miao, Mo</au><au>Bhuiyan, Shamsuddin A.</au><au>Cho, Raymond Y.</au><au>Fong, Justin S.</au><au>Hur, Seo Am</au><au>Pavlidis, Paul</au><au>Allan, Douglas W.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>A low affinity cis-regulatory BMP response element restricts target gene activation to subsets of Drosophila neurons</atitle><jtitle>eLife</jtitle><stitle>ELIFE</stitle><addtitle>Elife</addtitle><date>2020-10-30</date><risdate>2020</risdate><volume>9</volume><artnum>59650</artnum><issn>2050-084X</issn><eissn>2050-084X</eissn><abstract>Retrograde BMP signaling and canonical pMad/Medea-mediated transcription regulate diverse target genes across subsets of Drosophila efferent neurons, to differentiate neuropeptidergic neurons and promote motor neuron terminal maturation. How a common BMP signal regulates diverse target genes across many neuronal subsets remains largely unresolved, although available evidence implicates subset-specific transcription factor codes rather than differences in BMP signaling. Here we examine the cis-regulatory mechanisms restricting BMP-induced FMRFa neuropeptide expression to Tv4-neurons. We find that pMad/Medea bind at an atypical, low affinity motif in the FMRFa enhancer. Converting this motif to high affinity caused ectopic enhancer activity and eliminated Tv4-neuron expression. In silico searches identified additional motif instances functional in other efferent neurons, implicating broader functions for this motif in BMP-dependent enhancer activity. 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subjects	Animals Biology bmp-activated smad transcription factors Bone Morphogenetic Proteins - genetics Bone Morphogenetic Proteins - metabolism cis-regulatory bmp response element Drosophila Drosophila melanogaster - genetics Drosophila melanogaster - metabolism Drosophila Proteins - genetics Drosophila Proteins - metabolism Gene Expression Regulation Genetic aspects Life Sciences & Biomedicine Life Sciences & Biomedicine - Other Topics low affinity binding motif Neurons Neurons - metabolism Neuroscience Response Elements Science & Technology Signal Transduction Smad4 Protein - genetics Smad4 Protein - metabolism Transcription (Genetics)
title	A low affinity cis-regulatory BMP response element restricts target gene activation to subsets of Drosophila neurons
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