Ramdzan, ZM., Vickridge, E., Li, L., Faraco, CCF., Djerir, B., Leduy, L., Maréchal, A. and Nepveu, A (2021) CUT Domains Stimulate Pol B Enzymatic Activities to Accelerate Completion of Base Excision Repair., Journal of Molecular Biology, 433:166806.
Desgagnés, V., Guérin, R., Guay, SP., Boyer, M., Hutchins, E., Picard, S., Maréchal, A., Corbin, F., Keuren-Jensen, KV., Arsenault, BJ. and Bouchard, L. (2019) Human high-density lipoprotein microtranscriptome is unique and suggests an extended role in lipid metabolism, Epigenomics, 1:917-934.
Yates, M. and Maréchal, A., (2018) Ubiquitylation at the Fork : Making and Breaking Chains to Complete DNA Replication. International Journal of Molecular Sciences, doi: 10.3390/ijms19102909. *Special Issue on DNA Replication Stress
Lashgari, A., Fauteux, M., Maréchal, A. and Gaudreau L., (2018) Cellular Depletion of BRD8 Causes p53-Dependent Apoptosis and Induces a DNA Damage Response in Non-Stressed Cells. Scientific Reports, 8:14089. doi:10.1038/s41598-018-32323-3.
Findlay, S., Heath, J., Luo, VM., Malina, A., Morin, T., Coulombe, Y., Djerir, B., Samiei, A., Simo-Cheyou, E., Karam, M., Bagci, H., Rahat, D., Grapton, D., Lavoie, EG., Dove, C., Khaled, H., Kuasne, H., Mann, KK., Klein, KO., Greenwood, CM., Tabach, Y., Park, M., Côté, JF., Masson, JY., Maréchal, A. and Orthwein, A., (2018) SHLD2/FAM35A co-operates with REV7 to coordinate DNA double-strand break repair pathway choice. EMBO Journal, 37: e100158.
*Gaudreau-Lapierre, A., *Garneau, D., *Djerir, B., Coulombe, F., Morin, T. and Maréchal, A., (2018) Investigation of Protein Recruitment to DNA Lesions Using 405 nm Laser Micro-irradiation. Journal of Visualized Experiments (133), e57410, doi:10.3791/57410.
*Dubois, JC., *Yates, M., Gaudreau-Lapierre, A., Clément, G., Cappadocia, L., Gaudreau, L., Zou, L. and Maréchal, A., (2017) A Phosphorylation-and-Ubiquitylation Circuitry Driving ATR Activation and Homologous Recombination, Nucleic Acids Research, doi:10.1093/nar/gkx571.
Cox, KE., Maréchal, A. and Flynn RL., (2016) SMARCAL1 Resolves Replication Stress at ALT Telomeres, Cell Reports 14:1032-1040.
Maréchal, A. and Zou, L., (2015) RPA-Coated Single-Stranded DNA As a Platform for Post-translational Modifications in the DNA Damage Response, Cell Research 25: 9-23.
Maréchal, A. and Zou, L., (2014) A LARGe Surprise Links ATR and Rho, Cell Cycle 13: 3627.
Wu, CS., Ouyang, J., Mori, E., Nguyen, HD., Maréchal, A., Hallet, A., Chen, DJ. and Zou, L., (2014) SUMOylation of ATRIP Potentiates DNA Damage Signaling by Boosting Multiple Protein Interactions in the ATR Pathway, Genes and Development 28: 1472-1484.
Maréchal, A., Li, J-M, Ji, XY, Wu, CS., Yazinski, SA., Nguyen, HD., Liu, S., Jiménez, AE., and Zou, L., (2014) The PRP19 splicing factor transforms into a sensor of RPA-ssDNA after DNA damage and drives ATR activation via a ubiquitin-mediated circuitry. Molecular Cell. 23: 235-246.
Highlighted in : Wrighton, KH, (2014) A ligase makes sense of DNA damage. Nature Reviews Molecular Cell Biology. 15: 76-77.
Maréchal, A. and Zou L. (2013) DNA Damage Sensing by the ATM and ATR kinases. Cold Spring Harbor Perspectives in Biology 5: doi:pii: a012716. 10.11 01 /cshperspec t.a012716.
Shiotani, B., Nguyen, HD., Håkansson, P., Maréchal, A., Ho, CK, Tse, A, Tahara, H, and Zou, L. (2013) Two distinct modes of ATR activation orchestrated by Rad17 and Nbs1. Cell Reports 3:1651-1662.
Liu, S., Shiotani, B., Lahiri, M., Maréchal, A., Tse, A., Leung, CC., Glover, JN., Yang, XH. and Zou, L., (2011) ATR Autophosphorylation as a Molecular Switch for Checkpoint Activation. Molecular Cell. 43:192-202.
Cappadocia, L., Maréchal, A., Parent, J-S., Lepage, É., Sygusch, J. and Brisson, N., (2010), Crystal Structures of DNA-Whirly Complexes and their Role in Arabidopsis Organelle Genome Repair. Plant Cell. 22:1849-1867.
Maréchal, A. and Brisson, N., (2010) Recombination and the maintenance of plant organelle genome stability. New Phytologist. 186:299-317.
*Maréchal, A., *Parent, J-S., Véronneau-Lafortune, F., Joyeux, A., Lang, BF., Brisson, N. (2009), Whirly Proteins Maintain Plastid Genome Stability in Arabidopsis. Proceedings of the National Academy of Sciences USA. 106:14693-14698.
Parent, J-S., Cappadocia, L., Maréchal, A., Fobert, PR. and Brisson, N. (2009) Transcription Factor Families in Plant Defense: From Discovery to Structure. In Molecular Plant Interactions. CABI Ed.
Maréchal, A., Parent, J-S., Sabar, M., Véronneau-Lafortune, F., Abou-Rached, C. and Brisson, N. (2008), Overexpression of mtDNA-associated AtWhy2 compromises mitochondrial function. BMC Plant Biology, 8:42.
Desveaux, D., Maréchal, A. and Brisson, N. (2005), Whirly transcription factors: defense gene regulation and beyond. Trends in Plant Science. 10(2):95-102.
*Maréchal, A., *Tanguay, P-L., Callejo, M., Guérin, R., Boileau, G. and Rokeach, LA. (2004) Cell viability and secretion of active proteins in Schizosaccharomyces pombe do not require the chaperone function of calnexin. Biochemical Journal. 380:441-448.
Desgagnés, V., Guérin, R., Guay, SP., Boyer, M., Hutchins, E., Picard, S., Maréchal, A., Corbin, F., Keuren-Jensen, KV., Arsenault, BJ. and Bouchard, L. (2019) Human high-density lipoprotein microtranscriptome is unique and suggests an extended role in lipid metabolism, Epigenomics, 1:917-934.
Yates, M. and Maréchal, A., (2018) Ubiquitylation at the Fork : Making and Breaking Chains to Complete DNA Replication. International Journal of Molecular Sciences, doi: 10.3390/ijms19102909. *Special Issue on DNA Replication Stress
Lashgari, A., Fauteux, M., Maréchal, A. and Gaudreau L., (2018) Cellular Depletion of BRD8 Causes p53-Dependent Apoptosis and Induces a DNA Damage Response in Non-Stressed Cells. Scientific Reports, 8:14089. doi:10.1038/s41598-018-32323-3.
Findlay, S., Heath, J., Luo, VM., Malina, A., Morin, T., Coulombe, Y., Djerir, B., Samiei, A., Simo-Cheyou, E., Karam, M., Bagci, H., Rahat, D., Grapton, D., Lavoie, EG., Dove, C., Khaled, H., Kuasne, H., Mann, KK., Klein, KO., Greenwood, CM., Tabach, Y., Park, M., Côté, JF., Masson, JY., Maréchal, A. and Orthwein, A., (2018) SHLD2/FAM35A co-operates with REV7 to coordinate DNA double-strand break repair pathway choice. EMBO Journal, 37: e100158.
*Gaudreau-Lapierre, A., *Garneau, D., *Djerir, B., Coulombe, F., Morin, T. and Maréchal, A., (2018) Investigation of Protein Recruitment to DNA Lesions Using 405 nm Laser Micro-irradiation. Journal of Visualized Experiments (133), e57410, doi:10.3791/57410.
*Dubois, JC., *Yates, M., Gaudreau-Lapierre, A., Clément, G., Cappadocia, L., Gaudreau, L., Zou, L. and Maréchal, A., (2017) A Phosphorylation-and-Ubiquitylation Circuitry Driving ATR Activation and Homologous Recombination, Nucleic Acids Research, doi:10.1093/nar/gkx571.
Cox, KE., Maréchal, A. and Flynn RL., (2016) SMARCAL1 Resolves Replication Stress at ALT Telomeres, Cell Reports 14:1032-1040.
Maréchal, A. and Zou, L., (2015) RPA-Coated Single-Stranded DNA As a Platform for Post-translational Modifications in the DNA Damage Response, Cell Research 25: 9-23.
Maréchal, A. and Zou, L., (2014) A LARGe Surprise Links ATR and Rho, Cell Cycle 13: 3627.
Wu, CS., Ouyang, J., Mori, E., Nguyen, HD., Maréchal, A., Hallet, A., Chen, DJ. and Zou, L., (2014) SUMOylation of ATRIP Potentiates DNA Damage Signaling by Boosting Multiple Protein Interactions in the ATR Pathway, Genes and Development 28: 1472-1484.
Maréchal, A., Li, J-M, Ji, XY, Wu, CS., Yazinski, SA., Nguyen, HD., Liu, S., Jiménez, AE., and Zou, L., (2014) The PRP19 splicing factor transforms into a sensor of RPA-ssDNA after DNA damage and drives ATR activation via a ubiquitin-mediated circuitry. Molecular Cell. 23: 235-246.
Highlighted in : Wrighton, KH, (2014) A ligase makes sense of DNA damage. Nature Reviews Molecular Cell Biology. 15: 76-77.
Maréchal, A. and Zou L. (2013) DNA Damage Sensing by the ATM and ATR kinases. Cold Spring Harbor Perspectives in Biology 5: doi:pii: a012716. 10.11 01 /cshperspec t.a012716.
Shiotani, B., Nguyen, HD., Håkansson, P., Maréchal, A., Ho, CK, Tse, A, Tahara, H, and Zou, L. (2013) Two distinct modes of ATR activation orchestrated by Rad17 and Nbs1. Cell Reports 3:1651-1662.
Liu, S., Shiotani, B., Lahiri, M., Maréchal, A., Tse, A., Leung, CC., Glover, JN., Yang, XH. and Zou, L., (2011) ATR Autophosphorylation as a Molecular Switch for Checkpoint Activation. Molecular Cell. 43:192-202.
Cappadocia, L., Maréchal, A., Parent, J-S., Lepage, É., Sygusch, J. and Brisson, N., (2010), Crystal Structures of DNA-Whirly Complexes and their Role in Arabidopsis Organelle Genome Repair. Plant Cell. 22:1849-1867.
Maréchal, A. and Brisson, N., (2010) Recombination and the maintenance of plant organelle genome stability. New Phytologist. 186:299-317.
*Maréchal, A., *Parent, J-S., Véronneau-Lafortune, F., Joyeux, A., Lang, BF., Brisson, N. (2009), Whirly Proteins Maintain Plastid Genome Stability in Arabidopsis. Proceedings of the National Academy of Sciences USA. 106:14693-14698.
Parent, J-S., Cappadocia, L., Maréchal, A., Fobert, PR. and Brisson, N. (2009) Transcription Factor Families in Plant Defense: From Discovery to Structure. In Molecular Plant Interactions. CABI Ed.
Maréchal, A., Parent, J-S., Sabar, M., Véronneau-Lafortune, F., Abou-Rached, C. and Brisson, N. (2008), Overexpression of mtDNA-associated AtWhy2 compromises mitochondrial function. BMC Plant Biology, 8:42.
Desveaux, D., Maréchal, A. and Brisson, N. (2005), Whirly transcription factors: defense gene regulation and beyond. Trends in Plant Science. 10(2):95-102.
*Maréchal, A., *Tanguay, P-L., Callejo, M., Guérin, R., Boileau, G. and Rokeach, LA. (2004) Cell viability and secretion of active proteins in Schizosaccharomyces pombe do not require the chaperone function of calnexin. Biochemical Journal. 380:441-448.