Pascale Legault
RNA and molecular medicine
- Directrice de département
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Faculté de médecine - Département de biochimie et médecine moléculaire
Pavillon J.-Armand-Bombardier, room 2039
- Professeure titulaire
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Faculté de médecine - Département de biochimie et médecine moléculaire
Profile
Research expertise
Many fundamental biochemical processes are governed by specific RNA/RNA and RNA/protein interactions. For example, RNA is involved in RNA cleavage (ribozymes and siRNA), regulation of translation (miRNA), RNA modification (snoRNA), and RNA splicing (snRNA). Even certain viruses carry their genomic material in the form of RNA, including the hepatitis C virus, which leads to chronic liver disease; the human immunodefiency virus (HIV) responsible of the Acquired Immuno-Deficiency Syndrome (AIDS); and the SARS-CoV a coronavirus responsible for the global outbreak of the Severe Acute Respiratory Syndrome (SARS).
Just like proteins, RNAs fold to form complex three-dimensional structures. The complexity in RNA function generally translates to the complexity of RNA structure. Our research focuses on NMR spectroscopic studies of RNA / RNA and RNA / protein complexes in order to gain a better structural understanding of RNA function. In addition, our research will bring new information on RNA structure and recognition, and this information will be useful in the design of drugs for the treatment of cancer and viral infections.
Although the main technique used for our studies is NMR spectroscopy, other biophysical methods (X-ray crystallography, UV spectroscopy, etc.) and biochemical studies are performed to complement the NMR studies. The research projects can be grouped along 4 main axes:
- Structure, Function and Engineering of the Neurospora VS Ribozyme;
- Structure and Function of Interactions Regulating the Human RNAPII CTD Phosphatase FCP1;
- Structure of Viral RNAs and Proteins;
- Functional Genomics and Drug Screening.
Affiliations and responsabilities
Teaching and supervision
Teaching
Courses taught (current session only)
Programs
- 123510 – Baccalauréat en sciences biologiques
- 146511 – Baccalauréat en biochimie et médecine moléculaire
- 146811 – Baccalauréat en bio-informatique
- 146811 – Baccalauréat en bio-informatique
- 148110 – Baccalauréat en santé publique environnementale et sécurité du travail
- 148410 – Baccalauréat en sciences biomédicales
- 150010 – Baccalauréat en microbiologie et immunologie
Student supervision
Theses and dissertation supervision (Papyrus Institutional Repository)
L’α-synucléine : un regard sur les miARN menant à sa surexpression
Cycle : Doctoral
Grade : Ph. D.
Processing activity of the miRNA maturation endonucleases Drosha and Dicer toward let-7 substrates
Cycle : Doctoral
Grade : Ph. D.
Systematic prediction of feedback regulatory network motifs
Cycle : Master's
Grade : M. Sc.
Études structurales et ingénierie du ribozyme VS de Neurospora
Cycle : Doctoral
Grade : Ph. D.
Étude de la relation entre structure, dynamique et fonction de l’ARN par l’ingénierie du ribozyme VS de Neurospora
Cycle : Doctoral
Grade : Ph. D.
Régulation de l’activité de Dicer par TRBP dans la biogénèse des micro-ARN
Cycle : Doctoral
Grade : Ph. D.
Études d'ingénierie du ribozyme VS de Neurospora
Cycle : Doctoral
Grade : Ph. D.
Caractérisation structurale et thermodynamique de la reconnaissance du substrat par le ribozyme VS de Neurospora
Cycle : Doctoral
Grade : Ph. D.
Adaptations de la méthode de purification d’ARN par affinité avec l’étiquette ARiBo
Cycle : Master's
Grade : M. Sc.
Études structurales par résonance magnétique nucléaire du ribozyme VS de Neurospora
Cycle : Doctoral
Grade : Ph. D.
Caractérisation de l’interaction entre la protéine Lin28 et le précurseur du microARN let-7g
Cycle : Doctoral
Grade : Ph. D.
Purification par affinité et marquage isotopique spécifique pour études d’ARN fonctionnels
Cycle : Master's
Grade : M. Sc.
Études Structurales par Résonance Magnétique Nucléaire (RMN) du Site Actif du Ribozyme VS de Neurospora.
Cycle : Master's
Grade : M. Sc.
Projects
Research projects
Maturation of microRNAs targeting alpha-synuclein
Maturation of let-7 miRNAs
Multiscale 3D cryo-imaging: From organs to molecules
STRUCTURAL BIOLOGY AT THE CROSSROADS OF BIOLOGY AND MEDECINE
FGR-CRSNG_2018-2019_Plateforme de Biologie Structurale
Structural and Engineering Studies of Ribozymes and Riboswitches
CHARACTERIZATION OF MACROMOLECULAR COMPLEXES REGULATING LET7 MICRORNA BIOGENESIS
Supplément COVID-19 CRSNG_Maturation of let-7 miRNAs
Macromolecular interaction analysis using a surface plasmon resonance biosensor
STRUCTURAL BIOLOGY AT THE CROSSROADS OF BIOLOGY AND MEDECINE
MicroRNA-protein interactions regulating alpha-synuclein
Programme de bourse d'été et d'initiation à la recherche au premier cycle IVADO. Candidat: Aurélie Guilbault / Interaction ARN-protéines dans la maturation des microARN
FGR CRSNG ; 2016-2017_FONDS D'URGENCE IRSC
STRUCTURAL AND ENGINEERING STUDIES OF RIBOZYMES AND ROBOSWITCHES
MICRORNA/PROTEIN INTERACTIONS IN THE REGULATION OF GENE EXPRESSION
THE ARIBO TECHNOLOGY FOR ISOLATION OF RIBONUCLEOPROTEIN COMPLEXE
THE ARIBO TECHNOLOGY FOR ISOLATION OF RIBONUCLEOPROTEIN COMPLEXE
STRUCTURAL AND ENGINEERING STUDIES OF RIBOZYMES AND ROBOSWITCHES
STRUCTURAL BIOLOGY OF RNA
BIOGENESIS OF MICRORNAS ASSOCIATED WITH PARKINSON'S DISEASE
LOW-VOLUME ITC FOR INVESTIGATING BIOMOLECULAR INTERACTIONS
MICRORNA/PROTEIN INTERACTIONS IN THE REGULATION OF GENE EXPRESSION
A MOLECULAR IMAGER FOR QUANTITATIVE BIOCHEMISTRY
Outreach
Publications and presentations
Publications
- Di Tomasso G, Miller Jenkins LM, Legault P. (2016) « ARiBo pull-down for riboproteomic studies based on label-free quantitative mass spectrometry » RNA. 22; 1760-1770.
- Lacroix-Labonté J, Girard N, Dagenais P, Legault P. (2016) « Rational engineering of the Neurospora VS ribozyme to allow substrate recognition via different kissing-loop interaction» Nucleic Acids Research, 44(14); 6924-6934.
- Bonneau, E., Girard, N, Lemieux, S. and Legault, P. (2015) « The NMR structure of the II-III-VI three-way junction from the Neurospora VS ribozyme reveals a critical tertiary interaction and provides new insight into the global ribozyme structure » RNA. 21; 1621-1632.
- Bouchard, P. and Legault P. (2014) « A remarkably stable kissing-loop interaction defines substrate recognition by the Neurospora Varkud Satelitte ribozyme »RNA. 20(9); 1451-1464.
- Desjardins, A., Bouvette, J. and Legault, P. (2014) « Stepwise assembly of multiple Lin28 proteins on the terminal loop of let-7 miRNA precursors » Nucleic Acids Research, 42(7); 4615-4628.
- Di Tomasso, G., Salvail-Lacoste, A. Bouvette, J. and Legault, P. (2014) « Affinity purification of in vitro transcribed RNA with homogenuous ends using a 3′-ARiBo tag » Methods in Enzymology Vol. 549: Riboswitch Discovery, Structure and Function.
- Bouchard, P. and Legault P. (2014) « Structural insights into substrate recognition by the Neurospora Varkud Satellite ribozyme: importance of U-turns at the kissing-loop junction » Biochemistry. 53(1); 258-269.
- Salvail-Lacoste, A., Di Tomasso G., Piette, B.L. and Legault P. (2013) « Affinity purification of T7 RNA transcripts with homogenous ends using ARiBo and CRISPR tags » RNA. 19(7): 1003-1014.
- Salvail-Lacoste, A., Di Tomasso G., Piette, B.L. and Legault P. (2013) « Affinity purification of T7 RNA transcripts with homogenous ends using ARiBo and CRISPR tags » RNA. 19(7): 1003-1014.
- Lacroix-Labonté, J., Girard, N., Lemieux, S. and Legault, P. (2012) « Helix-length compensation studies reveal the adaptability of the VS ribozyme architecture » Nucleic Acids Research. 40(5): 2312-2329.
- Desjardins, A., Yang, A., Bouvette, J., Omichinski, J.G. and Legault, P. (2012) « Importance of the NCp7-like domain in the recognition of the let-7g precursor miRNA by the pluripotency factor Lin28 » Nucleic Acids Research. 40(4): 1767-1777.
- Di Tomasso, G., Lampron, P., Dagenais, P., Omichinski, J.G. and Legault, P. (2011) « The ARiBo tag: a reliable tool for affinity purification of RNAs under native conditions » Nucleic Acids Res. 39; 3 doi:10.1093/nar/gkp1084.
- Delfosse, V., Bouchard, P., Bonneau, E., Dagenais, P., Lemay, J.-F., Lafontaine, D. A., Legault, P. (2010) « Riboswitch structure: an internal residue mimicking the purine ligand » Nucleic Acids Res. 38(6); 2057-68
Disciplines
- Molecular Medicine
- Biochemistry
- Chemistry
- Bioinformatics
Areas of expertise
- Nucleic Acids
- Biotechnology
- Enzymes and Proteins
- Biological and Biochemical Mechanisms
- Carcinogenesis
- Gene Regulation and Expression
- Neurodegenerative Diseases (Aging)
- Modelization and Simulation
- Proteomics
- Virus
- COVID-19
- COVID19