Laboratoire Bénard
Articles évalués par des pairs
Lamberti ML, Spangler RK, Cerdeira V, Ares M, Rivollet L, Ashley GE, Ramos Coronado A, Tripathi S, Spiousas I, Ward JD, Partch CL, Bénard CY, Goya ME, and Golombek DA.
June 5, 2024
Sci Rep.,14(1):12936. doi: 10.1038/s41598-024-62303-9.
Alexander KD, Ramachandran S, Biswas K, Lambert CM, Russell J, Oliver DB, Armstrong W, Rettler M, Liu S, Doitsidou M,
Bénard C, Walker AK, Francis MM.
November 18, 2023
Nat Commun.,14(1):7520. doi: 10.1038/s41467-023-43281-4.
Desse VE, Blanchette CR, Nadour M, Perrat P, Rivollet L, Khandekar A, Bénard CY ✉
June 11, 2021
Genetics, iyab086. doi: 10.1093/genetics/iyab086
Oliver D, Norman E, Bates H, Avard R, Rettler M, Bénard CY, Francis MM, Lemons ML
August 27, 2019
J Dev Biol., 7(3). pii: E17. doi: 10.3390/jdb7030017
Blanchette CR, Thackeray A, Perrat PN, Hekimi S, Bénard CY ✉
January 9, 2017
PLoS Genet, 13(1): e1006525. doi:10.1371/journal.pgen.1006525
Goya E, Romanowski A, Caldart CS, Bénard CY ✉, Golombek D ✉
November 29, 2016
PNAS, 113(48):E7837-E7845
Bénard C ✉ and Doitsidou M ✉
2016
Springer “Ageing: Lessons from C. elegans”. Ed. A. Olsen, M.S. Gill ISBN: 978-3-319-44701-8, pages 163-189
Blanchette C, Perrat P, Thackeray A, Bénard C ✉
July 6, 2015
PLOS Biology, 13(7): e1002183
Bénard C ✉, Blanchette C*, Recio J*, Hobert O ✉
July 19, 2012
PLOS Genetics, 8(7): e1002819
Bénard C ✉, Tjoe N, Boulin T, Recio J and Hobert O ✉
September 5, 2009
Genetics, 13: 917-927
Bénard C and Hobert O
2009
Current Topics in Developmental Biology, 87: 175-194
Functional dissection of the C. elegans cell adhesion molecule SAX-7, a homologue of human L1
Pocock R, Bénard C, Shapiro L, Hobert O
August 21, 2007
Molecular and Cellular Neuroscience, 37(1): 56-68
DIG-1, a novel giant protein non-autonomously mediates maintenance of nervous system architecture
Bénard C, Boyanov A, Hall D, Hobert O
2006
Development, 133(17): 3329-3340
mau-2 acts cell-autonomously to guide axonal migrations in Caenorhabditis elegans
Bénard C, Kébir H, Takagi S, Hekimi S
2004
Development, 131(23): 5947-5958
Human CLK2 links cell cycle progression, apoptosis and telomere length regulation
Jiang N, Bénard C, Kébir H, Shoubridge EA, Hekimi S
2003
Journal of Biological Chemistry, 278(24): 21678-21684
Long-lived mutants, the rate of aging, telomeres and the germline in Caenorhabditis elegans
Bénard C, Hekimi S
2002
Mechanisms of Ageing and Development, 122: 869-880
The C. elegans maternal-effect gene clk-2 affects developmental timing, is essential for embryonic development, encodes a protein homologous to yeast Tel2p, and is required for telomere length regulation
Bénard C^, McCright B^, Zhang Y, Felkai S, Lakowski B, Hekimi S
2001
Development, 128(20): 4045-4055 (^: first coauthors)
Basolateral localization of the C. elegans EGF receptor in epithelial cells by the PDZ protein LIN-10
Whitfield CW, Bénard C, Barnes T, Hekimi S, Kim SK
1999
Molecular Biology of the Cell, 10(6): 2087-2100
Cellular and axonal migrations are misguided along both body axes in the maternal-effect mau-2 mutants of Caenorhabditis elegans.
Bénard C^, Takagi S^, Pak J, Livingstone D, Hekimi S
1997
Development, 124(24): 5115-5126 (^: first coauthors)