Ezio Rosato
Ezio Rosato
Department of Genetics & Genome Biology, University of Leicester
Verified email at
Cited by
Cited by
Natural variation in a Drosophila clock gene and temperature compensation
LA Sawyer, JM Hennessy, AA Peixoto, E Rosato, H Parkinson, R Costa, ...
Science 278 (5346), 2117-2120, 1997
Natural selection favors a newly derived timeless allele in Drosophila melanogaster
E Tauber, M Zordan, F Sandrelli, M Pegoraro, N Osterwalder, C Breda, ...
science 316 (5833), 1895-1898, 2007
A molecular basis for natural selection at the timeless locus in Drosophila melanogaster
F Sandrelli, E Tauber, M Pegoraro, G Mazzotta, P Cisotto, J Landskron, ...
Science 316 (5833), 1898-1900, 2007
Analysis of locomotor activity rhythms in Drosophila
E Rosato, CP Kyriacou
Nature protocols 1 (2), 559-568, 2006
Light-dependent interaction between Drosophila CRY and the clock protein PER mediated by the carboxy terminus of CRY
E Rosato, V Codd, G Mazzotta, A Piccin, M Zordan, R Costa, CP Kyriacou
Current Biology 11 (12), 909-917, 2001
Efficient and heritable functional knock-out of an adult phenotype in Drosophila using a GAL4-driven hairpin RNA incorporating a heterologous spacer
A Piccin, A Salameh, C Benna, F Sandrelli, G Mazzotta, M Zordan, ...
Nucleic acids research 29 (12), e55-e55, 2001
Comparative analysis of circadian clock genes in insects
F Sandrelli, R Costa, CP Kyriacou, E Rosato
Insect molecular biology 17 (5), 447-463, 2008
Seasonal behavior in Drosophila melanogaster requires the photoreceptors, the circadian clock, and phospholipase C
BH Collins, E Rosato, CP Kyriacou
Proceedings of the National Academy of Sciences 101 (7), 1945-1950, 2004
A constitutively active cryptochrome in Drosophila melanogaster
S Dissel, V Codd, R Fedic, KJ Garner, R Costa, CP Kyriacou, E Rosato
Nature neuroscience 7 (8), 834-840, 2004
An electromagnetic field disrupts negative geotaxis in Drosophila via a CRY-dependent pathway
G Fedele, EW Green, E Rosato, CP Kyriacou
Nature communications 5 (1), 4391, 2014
A second timeless gene in Drosophila shares greater sequence similarity with mammalian tim
C Benna, P Scannapieco, A Piccin, F Sandrelli, M Zordan, E Rosato, ...
Current biology 10 (14), R512-R513, 2000
The circadian clock of the fly: a neurogenetics journey through time
÷ ÷zkaya, E Rosato
Advances in genetics 77, 79-123, 2012
Genetic Analysis of Circadian Responses to Low Frequency Electromagnetic Fields in Drosophila melanogaster
G Fedele, MD Edwards, S Bhutani, JM Hares, M Murbach, EW Green, ...
PLoS genetics 10 (12), e1004804, 2014
Molecular genetics of the fruit-fly circadian clock
E Rosato, E Tauber, CP Kyriacou
European Journal of Human Genetics 14 (6), 729-738, 2006
Immune response impairs learning in free-flying bumble-bees
A Alghamdi, L Dalton, A Phillis, E Rosato, EB Mallon
Biology Letters 4 (5), 479-481, 2008
Conceptual translation of timeless reveals alternative initiating methionines in Drosophila
E Rosato, A Trevisan, F Sandrelli, M Zordan, CP Kyriacou, R Costa
Nucleic acids research 25 (3), 455-457, 1997
Is vertical migration in Antarctic krill (Euphausia superba) influenced by an underlying circadian rhythm?
E Gaten, G Tarling, H Dowse, C Kyriacou, E Rosato
Journal of genetics 87, 473-483, 2008
The period Gene Thr-Gly Polymorphism in Australian and African Drosophila melanogaster Populations: Implications for Selection
LA Sawyer, F Sandrelli, C Pasetto, AA Peixoto, E Rosato, R Costa, ...
Genetics 174 (1), 465-480, 2006
Getting rhythm: how do babies do it?
D Joseph, NW Chong, ME Shanks, E Rosato, NA Taub, SA Petersen, ...
Archives of Disease in Childhood-Fetal and Neonatal Edition 100 (1), F50-F54, 2015
The logic of circadian organization in Drosophila
S Dissel, CN Hansen, ÷ ÷zkaya, M Hemsley, CP Kyriacou, E Rosato
Current Biology 24 (19), 2257-2266, 2014
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