Andrew Flaus
Andrew Flaus
Centre for Chromosome Biology, School of Natural Sciences, NUI Galway, Ireland
Verified email at - Homepage
Cited by
Cited by
Identification of multiple distinct Snf2 subfamilies with conserved structural motifs
A Flaus, DMA Martin, GJ Barton, T Owen-Hughes
Nucleic acids research 34 (10), 2887-2905, 2006
Characterization of nucleosome core particles containing histone proteins made in bacteria
K Luger, TJ Rechsteiner, AJ Flaus, MMY Waye, TJ Richmond
Journal of molecular biology 272 (3), 301-311, 1997
Nucleosome mobilization catalysed by the yeast SWI/SNF complex
I Whitehouse, A Flaus, BR Cairns, MF White, JL Workman, ...
Nature 400 (6746), 784-787, 1999
Generation of superhelical torsion by ATP-dependent chromatin remodeling activities
K Havas, A Flaus, M Phelan, R Kingston, PA Wade, DMJ Lilley, ...
Cell 103 (7), 1133-1142, 2000
Functional transcription promoters at DNA double-strand breaks mediate RNA-driven phase separation of damage-response factors
F Pessina, F Giavazzi, Y Yin, U Gioia, V Vitelli, A Galbiati, S Barozzi, ...
Nature cell biology 21 (10), 1286-1299, 2019
Histone H2A/H2B dimer exchange by ATP-dependent chromatin remodeling activities
M Bruno, A Flaus, C Stockdale, C Rencurel, H Ferreira, T Owen-Hughes
Molecular cell 12 (6), 1599-1606, 2003
Mechanisms for ATP-dependent chromatin remodelling: farewell to the tuna-can octamer?
A Flaus, T Owen-Hughes
Current opinion in genetics & development 14 (2), 165-173, 2004
Mechanisms for ATP-dependent chromatin remodelling
A Flaus, T Owen-Hughes
Current opinion in genetics & development 11 (2), 148-154, 2001
Mapping nucleosome position at single base-pair resolution by using site-directed hydroxyl radicals.
A Flaus, K Luger, S Tan, TJ Richmond
Proceedings of the National Academy of Sciences 93 (4), 1370-1375, 1996
Analysis of nucleosome repositioning by yeast ISWI and Chd1 chromatin remodeling complexes
C Stockdale, A Flaus, H Ferreira, T Owen-Hughes
Journal of Biological Chemistry 281 (24), 16279-16288, 2006
Evidence for DNA translocation by the ISWI chromatin-remodeling enzyme
I Whitehouse, C Stockdale, A Flaus, MD Szczelkun, T Owen-Hughes
Molecular and cellular biology 23 (6), 1935-1945, 2003
Histone modifications influence the action of Snf2 family remodelling enzymes by different mechanisms
H Ferreira, A Flaus, T Owen-Hughes
Journal of molecular biology 374 (3), 563-579, 2007
Positioning and stability of nucleosomes on MMTV 3′ LTR sequences
A Flaus, TJ Richmond
Journal of molecular biology 275 (3), 427-441, 1998
Histone Tails and the H3 αN Helix Regulate Nucleosome Mobility and Stability
H Ferreira, J Somers, R Webster, A Flaus, T Owen-Hughes
Molecular and cellular biology 27 (11), 4037-4048, 2007
Snf2 family ATPases and DExx box helicases: differences and unifying concepts from high-resolution crystal structures
H Dürr, A Flaus, T Owen-Hughes, KP Hopfner
Nucleic acids research 34 (15), 4160-4167, 2006
Mechanisms for ATP‐dependent chromatin remodelling: the means to the end
A Flaus, T Owen‐Hughes
The FEBS journal 278 (19), 3579-3595, 2011
Sin mutations alter inherent nucleosome mobility
A Flaus, C Rencurel, H Ferreira, N Wiechens, T Owen‐Hughes
The EMBO journal 23 (2), 343-353, 2004
Dynamic properties of nucleosomes during thermal and ATP-driven mobilization
A Flaus, T Owen-Hughes
Molecular and cellular biology 23 (21), 7767-7779, 2003
Nucleosomes can invade DNA territories occupied by their neighbors
M Engeholm, M De Jager, A Flaus, R Brenk, J Van Noort, T Owen-Hughes
Nature structural & molecular biology 16 (2), 151-158, 2009
Mechanisms for nucleosome mobilization
A Flaus, T Owen‐Hughes
Biopolymers: Original Research on Biomolecules 68 (4), 563-578, 2003
The system can't perform the operation now. Try again later.
Articles 1–20