-
Bushey et al., 2009, Genes Dev. 23(11): 1338--1350
Three subclasses of a Drosophila insulator show distinct and cell type-specific genomic distributions.
-
Nègre et al., 2010, PLoS Genet. 6(1): e1000814
A comprehensive map of insulator elements for the Drosophila genome.
-
Wood et al., 2011, Mol. Cell 44(1): 29--38
Regulation of chromatin organization and inducible gene expression by a Drosophila insulator.
-
Hou et al., 2012, Mol. Cell 48(3): 471--484
Gene density, transcription, and insulators contribute to the partition of the Drosophila genome into physical domains.
-
Gurudatta et al., 2013, Cell Cycle 12(10): 1605--1615
Dynamic changes in the genomic localization of DNA replication-related element binding factor during the cell cycle.
-
Yang et al., 2013, Nat. Commun. 4: 1464
A subset of Drosophila Myc sites remain associated with mitotic chromosomes colocalized with insulator proteins.
-
Kellner et al., 2013, Nucleic Acids Res. 41(20): 9274--9283
Distinct isoforms of the Drosophila Brd4 homologue are present at enhancers, promoters and insulator sites.
-
Van Bortle et al., 2014, Genome Biol. 15(5): R82
Insulator function and topological domain border strength scale with architectural protein occupancy.
-
Dale et al., 2014, Nucleic Acids Res. 42(14): 9158--9170
metaseq: a Python package for integrative genome-wide analysis reveals relationships between chromatin insulators and associated nuclear mRNA.
-
King et al., 2014, J. Cell Sci. 127(13): 2956--2966
The RNA-binding protein Rumpelstiltskin antagonizes gypsy chromatin insulator function in a tissue-specific manner.
-
Ulianov et al., 2016, Genome Res. 26(1): 70--84
Active chromatin and transcription play a key role in chromosome partitioning into topologically associating domains.