Marie-Christine Broillet

Publications | Mémoires et thèses

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32 publications

2023 | 2022 | 2021 | 2020 | 2019 | 2018 | 2015 | 2014 | 2013 | 2011 | 2008 | 2007 | 2004 | 2002 | 2001 | 2000 | 1999 | 1998 | 1997 | 1996 | 1993 | 1991 |
 
Ocular Symptoms Associated with COVID-19 Are Correlated with the Expression Profile of Mouse SARS-CoV-2 Binding Sites.
Brechbühl J., Ferreira F., Lopes A.C., Corset E., Gilliand N., Broillet M.C., 2023/01/26. Viruses, 15 (2) p. 354. Peer-reviewed.
From In Vitro Data to In Vivo Interspecies Danger Communication: A Study of Chemosensing via the Mouse Grueneberg Ganglion.
Lopes A.C., Brechbühl J., Ferreira F., Amez-Droz M., Broillet M.C., 2022/02/01. Animals, 12 (3) p. 356. Peer-reviewed.
Food preference acquired by social transmission is altered by the absence of the olfactory marker protein in mice.
de Vallière A., Lopes A.C., Addorisio A., Gilliand N., Nenniger Tosato M., Wood D., Brechbühl J., Broillet M.C., 2022. Frontiers in nutrition, 9 p. 1026373. Peer-reviewed.
 
Age-dependent appearance of SARS-CoV-2 entry sites in mouse chemosensory systems reflects COVID-19 anosmia-ageusia symptoms.
Brechbühl J., Lopes A.C., Wood D., Bouteiller S., de Vallière A., Verdumo C., Broillet M.C., 2021/07/15. Communications biology, 4 (1) p. 880. Peer-reviewed.
Concentrations of Seven Phthalate Monoesters in Infants and Toddlers Quantified in Urine Extracted from Diapers.
Lucarini F., Blanchard M., Krasniqi T., Duda N., Bailat Rosset G., Ceschi A., Roth N., Hopf N.B., Broillet M.C., Staedler D., 2021/06/24. International journal of environmental research and public health, 18 (13) p. 6806. Peer-reviewed.
The Grueneberg ganglion controls odor-driven food choices in mice under threat.
Brechbühl J., de Vallière A., Wood D., Nenniger Tosato M., Broillet M.C., 2020/09/24. Communications biology, 3 (1) p. 533. Peer-reviewed.
Exposure to New Emerging Bisphenols Among Young Children in Switzerland
Lucarini Fiorella, Krasniqi Tropoja, Bailat Rosset Gaëlle, Roth Nicolas, Hopf Nancy B, Broillet Marie-Christine, Staedler Davide, 2020/07/03. International Journal of Environmental Research and Public Health, 17 (13) p. 4793. Peer-reviewed.
 
Smell, feel. Perfumers, odors, and emotions.
Beaulieu D., Benton R., Bodiou L., Boisserie B., Bouasse S., Broillet M.-C., Clouet C., Coppin G., Delplanque S., Doré J. et al., 2019/03/07., NEZ EDITIONS.
Alarm pheromone and kairomone detection via bitter taste receptors in the mouse Grueneberg ganglion.
Moine F., Brechbühl J., Nenniger Tosato M., Beaumann M., Broillet M.C., 2018/01/18. BMC biology, 16 (1) p. 12. Peer-reviewed.
Identification of pyridine analogs as new predator-derived kairomones.
Brechbühl J., Moine F., Tosato M.N., Sporkert F., Broillet M.C., 2015. Frontiers In Neuroscience, 9 p. 253. Peer-reviewed.
Morphological and physiological species-dependent characteristics of the rodent Grueneberg ganglion.
Brechbühl J., Klaey M., Moine F., Bovay E., Hurni N., Nenniger-Tosato M., Broillet M.C., 2014. Frontiers in Neuroanatomy, 8 p. 87. Peer-reviewed.
 
Mouse alarm pheromone shares structural similarity with predator scents.
Brechbühl J., Moine F., Klaey M., Nenniger-Tosato M., Hurni N., Sporkert F., Giroud C., Broillet M.C., 2013. Proceedings of the National Academy of Sciences of the United States of America, 110 (12) pp. 4762-4767.
Mouse Grueneberg ganglion neurons share molecular and functional features with C. elegans amphid neurons.
Brechbühl J., Moine F., Broillet M.C., 2013. Frontiers in Behavioral Neuroscience, 7 p. 193. Peer-reviewed.
Imaging pheromone sensing in a mouse vomeronasal acute tissue slice preparation.
Brechbühl J., Luyet G., Moine F., Rodriguez I., Broillet M.C., 2011. Journal of Visualized Experiments 58 pp. pii 3311. Peer-reviewed.
 
Grueneberg ganglion cells mediate alarm pheromone detection in mice.
Brechbühl J., Klaey M., Broillet M.C., 2008. Science, 321 (5892) pp. 1092-1095.
 
Gene cluster lock after pheromone receptor gene choice
Roppolo D., Vollery S., Kan C. D., Luscher C., Broillet M. C., Rodriguez I., 2007/07. EMBO Journal, 26 (14) pp. 3423-30.
 
Cyclic nucleotide-gated channels: multiple isoforms, multiple roles.
Broillet M.C., Firestein S., 2004. pp. 252-267 dans Molecular and cellular insights to ion channel biology, Elsevier Inc..
 
S-Nitrosylation of the cyclic nucleotide-gated channels
Broillet M. C., 2004. 169-183.
 
Pheromone detection mediated by a V1r vomeronasal receptor
Boschat C., Pelofi C., Randin O., Roppolo D., Luscher C., Broillet M. C., Rodriguez I., 2002/12. Nature Neuroscience, 5 (12) pp. 1261-2.
 
Cysteine-nitric oxide interaction and olfactory function
Broillet M. C., 2002. Methods in Enzymology, 353 pp. 209-19.
 
Detection of nitric oxide production by fluorescent indicators
Chatton J. Y., Broillet M. C., 2002. Methods in Enzymology, 359 pp. 134-48.
 
Photoactivation and calcium sensitivity of the fluorescent NO indicator 4,5-diaminofluorescein (DAF-2): implications for cellular NO imaging.
Broillet M., Randin O., Chatton J., 2001/03. FEBS Letters, 491 (3) pp. 227-232. Peer-reviewed.
 
A single intracellular cysteine residue is responsible for the activation of the olfactory cyclic nucleotide-gated channel by NO
Broillet M. C., 2000/05. Journal of Biological Chemistry, 275 (20) pp. 15135-41.
 
S-nitrosylation of proteins
Broillet M. C., 1999/07. Cellular and Molecular Life Sciences, 55 (8-9) pp. 1036-42.
 
Cyclic nucleotide-gated channels. Molecular mechanisms of activation
Broillet M. C., Firestein S., 1999/04. Annals of the New York Academy of Sciences, 868 pp. 730-40.
 
Transduction sensorielle olfactive, propriétés du canal ionique sensible aux nucléotides cycliques
Broillet M. C., 1998..
 
Beta subunits of the olfactory cyclic nucleotide-gated channel form a nitric oxide activated Ca2+ channel
Broillet M. C., Firestein S., 1997/06. Neuron, 18 (6) pp. 951-8.
 
Gaseous second messengers in vertebrate olfaction.
Broillet M.C., Firestein S., 1996/05. Journal of neurobiology, 30 (1) pp. 49-57. Peer-reviewed.
 
Direct activation of the olfactory cyclic nucleotide-gated channel through modification of sulfhydryl groups by NO compounds
Broillet M. C., Firestein S., 1996/02. Neuron, 16 (2) pp. 377-85.
 
Early effects of aldosterone on the basolateral potassium conductance of A6 cells
Broillet M. C., Berger A., Horisberger J. D., 1993/06. Pflügers Archiv : European Journal of Physiology, 424 (1) pp. 91-93.
 
Tolbutamide-sensitive potassium conductance in the basolateral membrane of A6 cells
Broillet M. C., Horisberger J. D., 1993/06. Journal of Membrane Biology, 134 (3) pp. 181-8.
 
Basolateral membrane potassium conductance of A6 cells
Broillet M. C., Horisberger J. D., 1991/10. Journal of Membrane Biology, 124 (1) pp. 1-12.
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