PUBLICATIONS2021-12-05T14:30:48+00:00

Publications

1. Belfetmi, A & Léger-Abraham, M. (2020). 1H, 13C, and 15N backbone chemical shift assignments of m7GTP cap-bound Leishmania initiation factor 4E-1. Biomol NMR Assign.

2. Tupperwar, N., Meleppattu, S., Shrivastava, R., Baron, N., Gilad, A., Wagner, G., Léger-Abraham, M., & Shapira, M. (2020). A newly identified Leishmania IF4E-interacting protein, Leish4E-IP2, modulates the activity of cap-binding protein paralogs. Nucleic Acids Research, 48:4405-4417.

3. Meleppattu, S., Arthanari, H., Zinoviev, A., Boeszoermenyi, A., Wagner, G., Shapira, M. & Léger-Abraham, M. (2018). Structural basis for LeishIF4E-1 modulation by an interacting protein in the human parasite Leishmania major. Nucleic Acids Research, 46: 3791-3801.

4. Sekiyama, N., Boeszoermenyi, A., Arthanari, H., Wagner, G. & Léger-Abraham, M. (2017). 1H, 13C, and 15N backbone chemical shift assignments of 4E-BP144-87 and 4E-BP144-87 bound to eIF4E. Biomol NMR Assign16: 1114-1115.

5. Sekiyama, N., Arthanari, H., Papadopoulos, E., Rodriguez-Mias, R., Wagner, G., Léger-Abraham, M. (2015). Molecular mechanism of the dual activity of 4EGI-1: Dissociating eIF4G from eIF4E but stabilizing the binding of unphosphorylated 4E-BP1. Proc Natl Acad Sci USA, 112: E4036-E4045.

6. Zinoviev, A., Léger, M., Wagner, G. & Shapira, M. A novel 4E-Interacting Protein in Leishmania is involved in stage-specific translation pathway (2011). Nucleic Acids Research, 39: 8404-8415.

7. Yoffe, Y., Léger, M., Zinoviev, A., Zuberek, J., Darzynkiewicz, E., Wagner, G. & Shapira, M. (2009). Evolutionary changes in the Leishmania eIF4F complex involve variations in the eIF4E-eIF4G interactions. Nucleic Acids Research, 37: 3243-3253.

8. Léger, M., Sidani, S. & Brakier-Gingras, L. (2004). A reassessment of the response of the bacterial ribosome to the frameshift stimulatory signal of the human immunodeficiency virus type 1. RNA, 10: 1225-1235.

9. Léger, M., Dulude, D., Steinberg, S.V. & Brakier-Gingras, L. (2007). The three transfer RNAs occupying the A, P, and E sites on the ribosome are involved in viral programmed -1 ribosomal frameshift. Nucleic Acids Research, 35: 5581-5592.

10. Bélanger, F., Léger, M., Saraiya, A.A., Cunningham, P.R., Brakier-Gingras, L. (2002). Functional studies of the 900 tetraloop capping helix 27 of 16S ribosomal RNA. Journal Molecular Biology, 320: 979-989.