Biblio
“A phylogenetically conserved sequence within viral 3' untranslated RNA pseudoknots regulates translation.”, Molecular and Cellular Biology, vol. 13, no. 9, pp. 5331 - 5347, 1993.
, “A phylogenetically conserved sequence within viral 3'untranslated RNA pseudoknots regulates translation.”, Molecular and Cellular Biology, vol. 13, pp. 5331–5347, 1993.
, “Poly(A) binds to initiation factors and increases cap-dependent translation in vitro.”, J Biol Chem, vol. 269, no. 25, pp. 17166-73, 1994.
, “The tobacco etch viral 5′ leader and poly(A) tail are functionally synergistic regulators of translation”, Gene, vol. 165, no. 2, pp. 233 - 238, 1995.
, “The effect of the length of the 3'-untranslated region on expression in plants.”, FEBS Lett, vol. 394, no. 3, pp. 285-8, 1996.
, “Isolation and characterization of the 102-kilodalton RNA-binding protein that binds to the 5′ and 3′ translational enhancers of tobacco mosaic virus RNA”, Journal of Biological Chemistry, vol. 271, pp. 14316–14322, 1996.
, “Isolation and characterization of the 102-kilodalton RNA-binding protein that binds to the 5' and 3' translational enhancers of tobacco mosaic virus RNA.”, J Biol Chem, vol. 271, no. 24, pp. 14316-22, 1996.
, “Translational efficiency is regulated by the length of the 3' untranslated region.”, Mol Cell Biol, vol. 16, no. 1, pp. 146-56, 1996.
, “The Phosphorylation State of Translation Initiation Factors Is Regulated Developmentally and following Heat Shock in Wheat”, Journal of Biological Chemistry, vol. 272, no. 2, pp. 1046 - 1053, 1997.
, “The phosphorylation state of translation initiation factors is regulated developmentally and following heat shock in wheat”, Journal of Biological Chemistry, vol. 272, pp. 1046–1053, 1997.
, “Translation initiation factors eIF-iso4G and eIF-4B interact with the poly(A)-binding protein and increase its RNA binding activity.”, J Biol Chem, vol. 272, no. 26, pp. 16247-55, 1997.
, “The wheat poly(A)-binding protein functionally complements pab1 in yeast.”, Eur J Biochem, vol. 243, no. 1-2, pp. 350-7, 1997.
, “HSP101 functions as a specific translational regulatory protein whose activity is regulated by nutrient status”, Genes & development, vol. 12, pp. 3236–3251, 1998.
, “HSP101 functions as a specific translational regulatory protein whose activity is regulated by nutrient status.”, Genes Dev, vol. 12, no. 20, pp. 3236-51, 1998.
, “Translation initiation factors are differentially regulated in cereals during development and following heat shock”, The Plant Journal, vol. 14, pp. 715–722, 1998.
, “Heat Shock Protein HSP101 Binds to the Fed-1 Internal Light Regulator y Element and Mediates Its High Translational Activity”, THE PLANT CELL ONLINE, vol. 12, no. 7, pp. 1213 - 1228, 2000.
, “Heat shock protein HSP101 binds to the Fed-1 internal light regulator y element and mediates its high translational activity.”, Plant Cell, vol. 12, no. 7, pp. 1213-27, 2000.
, “Developmental and thermal regulation of the maize heat shock protein, HSP101.”, Plant Physiol, vol. 127, no. 3, pp. 777-91, 2001.
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