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Reference Report

Reference
Citation	Von Ohlen, T.L., Moses, C. (2009). Identification of Ind transcription activation and repression domains required for dorsoventral patterning of the CNS.  Mech. Dev. 126(7): 552--562. (Export to RIS)
FlyBase ID	FBrf0208241
Publication Type	Research paper
PubMed ID	19348939
PubMed Abstract	Specification of cell fates across the dorsoventral axis of the central nervous system in Drosophila involves the subdivision of the neuroectoderm into three domains that give rise to three columns of neural precursor cells called neuroblasts. Ventral nervous system defective (Vnd), intermediate neuroblasts defective (Ind) and muscle segment homeobox (Msh) are expressed in the three columns from ventral to dorsal, respectively. The products of these genes play multiple important roles in formation and specification of the embryonic nervous system. Ind, for example, is known to play roles in two important processes. First, Ind is essential for formation of neuroblasts conjunction with SoxB class transcription factors. Sox class transcription factors are known to specify neural stem cells in vertebrates. Second, Ind plays an important role in patterning the CNS in conjunction with, vnd and msh, which is also similar to how vertebrates pattern their neural tube. This work focuses two important aspects of Ind function. First, we used multiple approaches to identify and characterize specific domains within the protein that confer repressor or activator ability. Currently, little is known about the presence of activation or repression domains within Ind. Here, we show that transcriptional repression by Ind requires multiple conserved domains within the protein, and that Ind has a transcriptional activation domain. Specifically, we have identified a novel domain, the Pst domain, that has transcriptional repression ability and appears to act independent of interaction with the co-repressor Groucho. This domain is highly conserved among insect species, but is not found in vertebrate Gsh class homeodomain proteins. Second, we show that Ind can and does repress vnd expression, but does so in a stage specific manner. We conclude from this that the function of Ind in regulating vnd expression is one of refinement and maintenance of the dorsal border.
DOI	10.1016/j.mod.2009.03.008
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Description	What does this section display? This section contains items that were added to this record for each release. It currently only tracks new links between this FlyBase report and other FlyBase data classes (e.g. genes, references, stocks) or controlled vocabulary terms (e.g. GO, anatomy terms). What does this section not display? This section does not currently display links that were removed or gene model changes.
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Associated Information
Comments
Associated Files
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Secondary IDs
Language of Publication	English
Additional Languages of Abstract
Also Published As
Parent Publication
Publication Type	Journal
Abbreviation	Mech. Dev.
Title	Mechanisms of Development
Publication Year	1990-
ISBN/ISSN	0925-4773
Data from Reference
Alleles (20)
	DrScer\UAS.cIa Drer\gsx1Scer\UAS.cVa Ecol\lacZeve.ΔH3.2xScer\GAL4 Ecol\lacZNEE.vnd.cVa Ecol\lacZrho.twi.2xPE.4x55.Scer\UAS Ecol\lacZvnd.-4.7.-2.8 Ecol\lacZvnd.-8.4 ind::Drer\gsx1fusion1.Scer\UAS ind::Drer\gsx1fusion2.Scer\UAS ind::Drer\gsx1Gind.Scer\UAS indHD.eve.DBD.T:Scer\GAL4 indNT.eve.DBD.T:Scer\GAL4 indP-HD.eve.DBD.T:Scer\GAL4 indPst.eve.DBD.T:Scer\GAL4 indRR108 indScer\UAS.cVa indΔC.Scer\UAS indΔEh1.Scer\UAS indΔPst.Scer\UAS Scer\GAL4Kr.PM
Constructs (19)
	P{CRT4U(-55)-lacZ} P{eveSt2-ind.HD.GAL4-DBD} P{eveSt2-ind.NT.GAL4-DBD} P{eveSt2-ind.P-HD.GAL4-DBD} P{eveSt2-ind.Pst.GAL4-DBD} P{evestripe2-2xUAS-lacZ} P{GAL4-Kr.C} P{UAS-Gind} P{UAS-gsx1.V} P{UAS-ind.V} P{UAS-Ind.ΔC} P{UAS-ind.ΔEh1} P{UAS-Ind.ΔPst} P{UAS-IndGsh1.fusion1} P{UAS-IndGsh1.fusion2} P{UAS-msh} P{vnd.NEE-lacZ.V} P{vnd-lacZ.-4.7.-2.8} P{vnd-lacZ.-8.4}
Genes (9)
	Dr Drer\gsx1 Ecol\lacZ gro ind ind::Drer\gsx1 Scer\GAL4 T:Scer\GAL4 vnd
Natural transposons (1)
	P-element