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GoPubMed Proteins lists recent and important papers and reviews for proteins. Page last changed on 19 Dec 2016.


Hairy-wing, sisB, sisterlessB
Top mentioned proteins: CAN, SET, CHIP, CIs, Histone
Papers on Hairy-wing
The insulator protein Suppressor of Hairy-wing is an essential transcriptional repressor in the Drosophila ovary.
Geyer et al., Iowa City, United States. In Development, 2013
Suppressor of Hairy-wing [Su(Hw)] is a DNA-binding factor required for gypsy insulator function and female germline development in Drosophila.
Genome-wide studies of the multi-zinc finger Drosophila Suppressor of Hairy-wing protein in the ovary.
Geyer et al., Iowa City, United States. In Nucleic Acids Res, 2012
The Drosophila Suppressor of Hairy-wing [Su(Hw)] protein is a globally expressed, multi-zinc finger (ZnF) DNA-binding protein.
Systematic evaluation of factors influencing ChIP-seq fidelity.
Liu et al., Boston, United States. In Nat Methods, 2012
Using Drosophila melanogaster S2 cells, we generated ChIP-seq data sets for a site-specific transcription factor (Suppressor of Hairy-wing) and a histone modification (H3K36me3).
Identification of Escherichia coli genes associated with urinary tract infections.
Teng et al., Tainan City, Taiwan. In J Clin Microbiol, 2012
The cjrABC-senB gene cluster, sivH, sisA, sisB, eco274, and fbpB, were identified to be associated with UTIs.
A conserved long noncoding RNA affects sleep behavior in Drosophila.
Geyer et al., Iowa City, United States. In Genetics, 2011
Data show that flies lacking yar RNAs are viable and show no overt morphological defects, consistent with maintained transcriptional regulation of the adjacent yellow (y) and achaete (ac) genes.
The role of the Suppressor of Hairy-wing insulator protein in Drosophila oogenesis.
Geyer et al., Iowa City, United States. In Dev Biol, 2011
The Drosophila Suppressor of Hairy wing [Su(Hw)] insulator protein has an essential role in the development of the female germline.
Identification of conserved Drosophila-specific euchromatin-restricted non-coding sequence motifs.
Mattick et al., Australia. In Genomics, 2010
Those exhibiting the highest information content in surrounding nucleotides were classified into five groups: tRNAs, motifs associated with histone genes, Suppressor-of-Hairy-wing binding sites, and two sets of previously unrecognized motifs (DLM3 and DLM4).
The gypsy insulator of Drosophila melanogaster, together with its binding protein suppressor of Hairy-wing, facilitate high and precise expression of transgenes in Arabidopsis thaliana.
Wang et al., Hangzhou, China. In Genetics, 2010
In addition, Suppressor of Hairy-wing [Su(Hw)], the binding protein of the gypsy insulator, was coexpressed.
Chromatin insulators specifically associate with different levels of higher-order chromatin organization in Drosophila.
Labrador et al., Knoxville, United States. In Chromosoma, 2010
Data show that the suppressor of Hairy-wing protein [Su(Hw)] is found in three structures differentially associated with insulator proteins: bands, interbands, and multi-gene domains of coexpressed genes.
Uropathogenic Escherichia coli Suppresses the host inflammatory response via pathogenicity island genes sisA and sisB.
Mobley et al., Ann Arbor, United States. In Infect Immun, 2009
Indeed, the sisA and sisB genes (shiA-like inflammation suppressor genes A and B) of uropathogenic E. coli strain CFT073, homologs of the Shigella flexneri SHI-2 pathogenicity island gene shiA, suppress the host inflammatory response.
The complex tale of the achaete-scute complex: a paradigmatic case in the analysis of gene organization and function during development.
de Celis et al., Madrid, Spain. In Genetics, 2009
Studies of the AS-C has contributed to the understanding of eukaryotic gene organization and the dissection of the developmental mechanisms underlying pattern formation.
Context differences reveal insulator and activator functions of a Su(Hw) binding region.
Geyer et al., Iowa City, United States. In Plos Genet, 2007
The Drosophila genome contains hundreds of binding sites for the Suppressor of Hairy-wing [Su(Hw)] insulator protein, corresponding to locations of the retroviral gypsy insulator and non-gypsy binding regions (BRs).
How repeatable are associations between polymorphisms in achaete-scute and bristle number variation in Drosophila?
Long et al., Irvine, United States. In Genetics, 2007
quantified the relationship between achaete-scute complex (ASC) polymorphisms and bristle number phenotypes in several new population samples
Linking pattern formation to cell-type specification: Dichaete and Ind directly repress achaete gene expression in the Drosophila CNS.
Skeath et al., Saint Louis, United States. In Proc Natl Acad Sci U S A, 2007
Dichaete can physically interact with Ind and Vnd in the Drosophila central nervous system
Delta and Hairy establish a periodic prepattern that positions sensory bristles in Drosophila legs.
Orenic et al., Chicago, United States. In Dev Biol, 2006
The general model for generation of periodic pattern in the adult leg is a process involving broad and late activation of achaete
Stem cell gene therapy, position effects and chromatin insulators.
Stamatoyannopoulos et al., Seattle, United States. In Stem Cells, 1996
We hypothesize that the important cellular function of chromatin organization is evolutionarily conserved and that human homologs to Drosophila insulator binding proteins such as the suppressor of Hairy-wing exist and can be cloned.
Genetic and molecular analysis of the gypsy chromatin insulator of Drosophila.
Corces et al., Baltimore, United States. In Proc Natl Acad Sci U S A, 1996
The suppressor of Hairy-wing [su(Hw)] protein affects enhancer function both upstream and downstream of its binding site by causing a silencing effect similar to that of heterochromatin.
Boundary and insulator elements in chromosomes.
Corces et al., Baltimore, United States. In Curr Opin Genet Dev, 1996
The suppressor of Hairy-wing and modifier of mdg4 proteins have been characterized as components of the gypsy insulator.
Interactions of retrotransposons with the host genome: the case of the gypsy element of Drosophila.
Geyer et al., Baltimore, United States. In Trends Genet, 1991
One of these loci is the suppressor of Hairy-wing, which encodes a DNA-binding protein that binds to specific sequences of the gypsy element to regulate its expression.
Excess function hairy-wing mutations caused by gypsy and copia insertions within structural genes of the achaete-scute locus of Drosophila.
Modolell et al., In Cell, 1986
They are associated with modifications of the achaete-scute complex that consist, in the mutants studied, of insertions of the transposable elements gypsy (Hw1, HwBS) or copia (HwUa).
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