Simrit Dhaliwal scite author profile

Eukaryotic translation initiation factor-4E (eIF4E) recognizes and binds the m 7 guanosine nucleotide at the 5# end of eukaryotic messenger RNAs; this protein-RNA interaction is an essential step in the initiation of protein synthesis. The structure of eIF4E from wheat (Triticum aestivum) was investigated using a combination of x-ray crystallography and nuclear magnetic resonance (NMR) methods. The overall fold of the crystallized protein was similar to eIF4E from other species, with eight b-strands, three a-helices, and three extended loops. Surprisingly, the wild-type protein did not crystallize with m 7 GTP in its binding site, despite the ligand being present in solution; conformational changes in the cap-binding loops created a large cavity at the usual cap-binding site. The eIF4E crystallized in a dimeric form with one of the cap-binding loops of one monomer inserted into the cavity of the other. The protein also contained an intramolecular disulfide bridge between two cysteines (Cys) that are conserved only in plants. A Cys-to-serine mutant of wheat eIF4E, which lacked the ability to form the disulfide, crystallized with m 7 GDP in its binding pocket, with a structure similar to that of the eIF4E-cap complex of other species. NMR spectroscopy was used to show that the Cys that form the disulfide in the crystal are reduced in solution but can be induced to form the disulfide under oxidizing conditions. The observation that the disulfide-forming Cys are conserved in plants raises the possibility that their oxidation state may have a role in regulating protein function. NMR provided evidence that in oxidized eIF4E, the loop that is open in the ligand-free crystal dimer is relatively flexible in solution. An NMR-based binding assay showed that the reduced wheat eIF4E, the oxidized form with the disulfide, and the Cys-to-serine mutant protein each bind m 7 GTP in a similar and labile manner, with dissociation rates in the range of 20 to 100 s 21 .

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Cyclic compressive mechanical stimulation induces sequential catabolic and anabolic gene changes in chondrocytes resulting in increased extracellular matrix accumulation

Croos

et al. 2006

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The Crystal Structure of the N-terminal Region of the Alpha Subunit of Translation Initiation Factor 2 (eIF2α) from Saccharomyces cerevisiae Provides a View of the Loop Containing Serine 51, the Target of the eIF2α-specific Kinases

Dhaliwal

Hoffman

2003

Journal of Molecular Biology

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Membrane type-1 matrix metalloproteinase is induced following cyclic compression of in vitro grown bovine chondrocytes

Croos

Jang

Dhaliwal

et al. 2007

Osteoarthritis and Cartilage

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Crystal structure of translation initiation factor EIF4E from wheat

Monzingo¹,

Sadow²,

Dhaliwal³

et al. 2007

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Crystal structure of wheat C113S mutant EIF4E bound TO 7-methyl-GDP

Monzingo¹,

Dutt-Chaudhuri²,

Sadow³

et al. 2007

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crystal structure of the eIF2 alpha subunit from saccharomyces cerevisia

Dhaliwal¹,

Hoffman²

2003

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Simrit Dhaliwal

The Structure of Eukaryotic Translation Initiation Factor-4E from Wheat Reveals a Novel Disulfide Bond

Cyclic compressive mechanical stimulation induces sequential catabolic and anabolic gene changes in chondrocytes resulting in increased extracellular matrix accumulation

The Crystal Structure of the N-terminal Region of the Alpha Subunit of Translation Initiation Factor 2 (eIF2α) from Saccharomyces cerevisiae Provides a View of the Loop Containing Serine 51, the Target of the eIF2α-specific Kinases

Membrane type-1 matrix metalloproteinase is induced following cyclic compression of in vitro grown bovine chondrocytes

Crystal structure of translation initiation factor EIF4E from wheat

Crystal structure of wheat C113S mutant EIF4E bound TO 7-methyl-GDP

crystal structure of the eIF2 alpha subunit from saccharomyces cerevisia

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