³ÉÈËVRÊÓƵ

Tamara Western

Title: 
Associate Professor
Academic title(s): 

Learning Innovation Specialist, Office of Science Education
* not presently accepting Graduate students

Tamara Western
Contact Information
Address: 

Stewart Biology Building, Room N8/2

Phone: 
514-398-6283
Email address: 
tamara.western [at] mcgill.ca
Research areas: 
Molecular, Cellular and Developmental Biology
Biography: 

Tamara Western joined the Biology Department at ³ÉÈËVRÊÓƵ as a faculty member in September 2003 after completing her PhD at the University of British Columbia and postdoctoral fellowships at Rutgers University and the University of British Columbia. Her field of research is the molecular genetics of cell wall production during plant development, as well as the biomechanics of plant actuation (movement). She was Associate Dean (Academic) of the ³ÉÈËVRÊÓƵ Faculty of Science from September 2014 through August 2018, and served as Associate Dean (Education) for the Faculty of Science September 2018-May 2019.

Tamara has enjoyed teaching and working with students since graduate school where she was involved both in mentoring Honours BSc students in the laboratory and in pedagogy projects with the introductory genetics professor at the University of British Columbia. Since then she has taught a range of courses in Biology, from non-major to core introductory and upper level courses. She is proud of having been awarded a joint teaching award from the Biology undergraduate and graduate societies, and has been nominated for both the Leo Yaffe award (Science) and Principal’s Prize (³ÉÈËVRÊÓƵ) for excellence in teaching. Further, she was an active participant in ³ÉÈËVRÊÓƵ’s Inquiry Network, a faculty group that investigated and promoted techniques for bringing research into undergraduate classrooms. As a research mentor, she has supervised or co-supervised 12 graduate students and 3 postdoctoral fellows, as well as over 60 undergraduate students. More recently has been creating opportunities for graduate and undergraduate students to work on course development at ³ÉÈËVRÊÓƵ.

Areas of expertise: 

CURRENT RESEARCH: Science education – Science undergraduate student research experience and effects on their identity, agency and career trajectories;

Active Learning and student support in very large undergraduate classes;

Students as Partners in developing and assessing active learning at the university level.

(FORMER RESEARCH: Plant cell walls & biomechanics - Biomechanics and the multiscale causalities of plant actuation related to tissue, cell and cell wall properties. Structure, synthesis and modification of plant cell walls using a combination of cell biology and genetics in the model plant Arabidopsis.)

Areas of interest: 

Higher education in scienceÌý

Selected publications: 

Asgari M, Brulé V, Pasini D, Western TL. (2020). Nano-indentation reveals a potential role for gradients of cell wall stiffness in directional movement of the resurrection plant Selaginella lepidophylla. .

Brulé V, Rafsanjani A, Asgari M, Western TL and Pasini D (2019). Three-dimensional functional gradients direct stem curling in the resurrection plant Selaginella lepidophylla. .

Dean G.H., Jin Z., Shi L., Esfandiari E., McGee R., Nabata K., Lee T., Kunst L., Western T.L., Haughn G.W. (2017) Identification of a seed coat-specific promoter fragment from the Arabidopsis MUCILAGE-MODIFIED4 gene. .

Faisal, T.R., Hristozov, N., Western, T.L., Rey, A.D and Pasini, D. (2017) The twist-to-bend compliance of the Rheum rhabarbarum petiole: integrated computations and experiments. .

Brulé, V., Rafsanjani, A., Pasini, D. and Western, T.L. (2016) Hierarchies of plant stiffness. .

Rafsanjani, A., Brulé, V., Western, T.L., and Pasini, D. (2015) Hydro-responsive curling of the resurrection plant Selaginella lepidophylla. .

McFarlane, H.E., Gendre, D., and Western, T.L. (2014) Seed coat ruthenium red staining assay. .

Faisal, T.R., Hristozov, N., Western, T.L., Rey, A.D., and Pasini, D. (2014) Computational study of the elastic properties of Rheum rhabarbarum tissues via surrogate models of tissue geometry. .

Kong, Y., Zhou, G, Abdeen, A.A., Schafhauser, J., Richardson, B., Atmodjo, M.A., Jung, J., Wicker, L., Mohnen, D., Western, T.L., Hahn, M.G. (2013) GALACTURONOSYLTRANSFERASE-LIKE5 is involved in the production of Arabidopsis seed coat mucilage. .

Voiniciuc, C., Dean, G.H., Griffiths, J.S., Kirchsteiger, K., Hwang, Y.T., Gillett, A., Dow, G., Western, T.L., Estelle, M. and Haughn, G.W. (2013) FLYING SAUCER 1 is a transmembrane RING E3 ubiquitin ligase that controls the degree of pectin methylesterification in Arabidopsis seed mucilage. .

Esfandiari, E., Jin, Z., Abdeen, A., Griffiths, J.S., Western, T.L. and Haughn, G.W. (2013) Identification and analysis of an outer-seed-coat-specific promoter from Arabidopsis thaliana. .

Faisal, T.R., Hristozov, N., Rey, A.D., Western, T.L. and Pasini, D. (2012) Experimental determination of Philodendron melinonii and Arabidopsis thaliana tissue microstructure and geometric modeling via Finite Edge Centroidal Voronoi Tessellation. .

Romano, J.M., Dubos, C., Prouse, M.B., Wilkins, O., Hong, H., Poole, M., Kang, K-.Y., Li, E., Douglas, C.J., Western, T.L., Mansfield, S.D., and Campbell, M.M. (2012) AtMYB61, an R2R3-MYB transcription factor, is a pleiotropic regulator via a small gene network. .

Haughn G.W. and Western, T.L. (2012) Arabidopsis seed coat mucilage is a specialized cell wall that can be used as a model for genetic analysis of plant cell wall structure and function. .

Harpaz-Saad, S., Western, T.L. and Kieber, J.J. (2012) The FEI2-SOS5 pathway and CELLULOSE SYNTHASE 5 are required for cellulose biosynthesis in the Arabidopsis seed coat and affect pectin mucilage structure. .

Western, T.L. (2012) The sticky tale of seed coat mucilages: production, genetics, and role in seed germination and dispersal. .

Harpaz-Saad, S., McFarlane, H.E., Xu, S., Divi, U.K., Forward, B., Western, T.L. and Kieber, J.J. (2011) Cellulose synthesis via the FEI2 RLK/SOS5 pathway and CELLULOSE SYNTHASE 5 is required for the structure of seed coat mucilage in Arabidopsis. .

Kaneda, M., Schuetz, M., Lin, B.S.P., Chanis, C., Hamberger, B.,ÌýWestern, T.L., Ehlting, J. and Samuels, A.L. (2011) ABC transporters coordinately expressed during lignification ofÌýArabidopsisÌýstems include a set of ABCB's associated with auxin transport.Ìý.

Pang, C-Y., Wang, H., Pang, Y., Xu, C., Jiao, Y., Qin, Y-M.,ÌýWestern, T.L., Yu, S-X. and Zhu, Y-X. (2010) Comparative proteomics indicate that biosynthesis of pectic precursors is important for cotton fiber and Arabidopsis root hair elongation.Ìý.

Arsovski, A.A., Haughn, G.W. andÌýWestern, T.L.Ìý(2010) Seed coat mucilage cells ofÌýArabidopsis thalianaÌýas a model for plant cell wall research. Plant Signalling Behav. 5, 1-6.

Arsovski, A.A., Popma, T.M., Haughn, G.W., Carpita, N.C., McCann, M.C. andÌýWestern, T.L.Ìý(2009)ÌýAtBXL1Ìýencodes a bifunctional beta-D-xylosidase/alpha-L-arabinofuranosidase required for pectic arabinan modification in Arabidopsis mucilage secretory cells.Ìý.

Arsovski, A.A., Villota, M., Rowland, O., Subramaniam, R., andÌýWestern, T.L.Ìý(2009)ÌýMUM ENHANCERSÌýare important for seed coat mucilage production and mucilage secretory cell differentiation inÌýArabidopsis thaliana.Ìý.

McEwen, L.A., Harris, D., Schmid, R.F., Vogel, J.,ÌýWestern, T.L. and Harrison, P. (2009) Evaluation of the redesign of an undergraduate cell biology course.Ìý.

Young, R.E., McFarlane, H.E., Hahn, M.G.,ÌýWestern, T.L., Haughn, G.W. and Samuels, A.L. (2008) Analysis of the Golgi apparatus inÌýArabidopsisÌýseed coat cells during polarized secretion of pectin-rich mucilage.Ìý.

Western, T.L.Ìý(2008) Tales of mucilage andÌýMEN: cell walls and cellular differentiation. Genetics Society of Canada Bulletin, 39, 65-66.

Dean, G.H., Zheng, H., Tewari, J., Huang, J., Young, Diana S., Hwang, Y.T.,ÌýWestern, T.L., Carpita, N.C., McCann, M.C., Mansfield, S.D. and Haughn, G.W. (2007) The ArabidopsisÌýMUM2Ìýgene encodes a beta-galactosidase required for the production of seed coat mucilage with correct hydration properties.Ìý.

Western, T. L.Ìý(2006) Changing Spaces: TheÌýArabidopsisÌýmucilage secretory cells as a novel system to dissect cell wall production in differentiating cells.Ìý.

Pighin, J.A. Zheng, H., Balakshin, L.J., Goodman, I.P.,ÌýWestern, T.L., Jetter, R., Kunst, L., Samuels, A.L. (2004). Plant cuticular lipid export requires an ABC transporter.Ìý.

Western T.L.,ÌýYoung, D.S., Tan, W.L., Dean, G.H., Samuels, A.L. and Haughn, G.W. (2004). MUCILAGE-MODIFIED4 encodes a putative pectin biosynthetic enzyme developmentally regultaed by APETALA2, TRANSPARENT TESTA GLABRA1 and GLABRA2 in theÌýArabidopsisÌýseed coat.Ìý.

Western, T.L.,ÌýCheng, Y., Liu, J., and Chen, X. (2002) HUA ENHANCER2, a putative DExH-box RNA helicase, maintains homeotic B and C gene expression inÌýArabidopsis.Ìý.

Western, T.L.,ÌýBurn, J., Tan, W-.L., Skinner, D.J., Martin McCaffrey, L., Moffat, B., and Haughn, G.W. (2001). Isolation and characterization of mutants defective in seed coat mucilage secretory cell development inÌýArabidopsis.Ìý.

Western, T.L.,ÌýSkinner, D.J., and Haughn, G.W. (2000). Differentiation of mucilage secretory cells of theÌýArabidopsisÌýseed coat.Ìý.

Western, T.L.,Ìýand Haughn, G.W. (1999). BELL1 and AGAMOUS genes promote ovule identity inÌýArabidopsis thaliana.Ìý.

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