Susan E. Carberry scite author profile

The binding of analogues of the 7-methylguanosine-containing cap, m7GTP and m7GpppG, to eIF-4E from human erythrocytes as a function of pH, temperature, and ionic strength is described. From the pH-dependent binding of m7GTP and m7GpppG to eIF-4E, a new model describing the nature of the cap.eIF-4E interaction is proposed. The thermodynamic values and ionic strength dependence of binding are consistent with a binding site which is primarily hydrophobic. Fluorescence and circular dichroism data indicate that tryptophan residues may be involved in base-stacking interactions with the cap in a somewhat buried environment. The model presented here confirms the earlier proposal [Rhoads et al. (1983) Biochemistry 22, 6084-6088] that the enolate tautomer of the cap is preferred for interaction and further proposes that the interaction is with a protonated amino acid residue, such as histidine, while stacking with an aromatic amino acid, such as tryptophan.

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A comparison of the binding of methylated cap analogs to wheat germ protein synthesis initiation factors 4F and (iso) 4F

Carberry¹,

Darżynkiewicz²,

Goss³

1991

Biochemistry

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The binding of the 5'-terminal cap analogues m7GpppG and m7GTP to wheat germ protein synthesis initiation factors eIF-4F and eIF-(iso)4F as a function of pH, ionic strength, and temperature is described. Equilibrium binding data indicate that eIF-4F and eIF-(iso)4F have different mechanisms for interacting with the 5'-cap structure, but the complexes formed between m7GpppG and wheat germ factor eIF-(iso)4F more closely resemble complexes formed between this cap analogue and either mammalian eIF-4E or eIF-4F. The binding of these initiation factors to the hypermethylated cap analogues m2,7GMP, m2,7GpppG, and m2,2,7GpppG is also investigated. The differences in affinity of eIF-4F and eIF-(iso)4F for the hypermethylated 5'-terminal cap structures suggest that these factors may have discriminatory activity.

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Differences in unwinding of supercoiled DNA induced by the two enantiomers ofanti-benzo[a]pyrene diol epoxide

Xu¹,

Birke²,

Carberry³

et al. 1992

Nucl Acids Res

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The unwinding of supercoiled phi X174 RFI DNA induced by the tumorigenic (+) and non-tumorigenic (-) enantiomers of trans-7,8-dihydroxy-anti-9,10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene (BPDE) has been investigated by agarose slab-gel and ethidium titration tube gel electrophoresis. The differences in adduct conformations were verified by flow linear dichroism techniques. Both enantiomers cause a reversible unwinding by the formation of noncovalent intercalative complexes. The effects of covalently bound BPDE residues on the electrophoretic mobilities of the RF I DNA form in agarose gels were investigated in detail in the range of binding ratios rb approximately 0.0-0.06 (covalently bound BPDE residues/nucleotide). In this range of rb values, there is a striking difference in the mobilities of (+)-BPDE- and (-)-BPDE-adducted phi X174 DNA in agarose slab-gels, the covalently bound (+)-BPDE residues causing a significantly greater retardation than (-)-BPDE residues. Increasing the level of covalent adducts beyond rb approximately 0.06 in the case of the (+)-BPDE enantiomer, leads to further unwinding and a minimum in the mobilities (corresponding to comigration of the nicked form and the covalently closed relaxed modified form) at rb 0.10 +/- 0.01; at still higher rb values, rewinding of the modified DNA in the opposite sense is observed. From the minimum in the mobility, a mean unwinding angle (per BPDE residue) of theta = 12 +/- 1.5 degrees is determined, which is in good agreement the value of theta = 11 +/- 1.8 degrees obtained by the tube gel titration method. Using this latter method, values of theta = 6.8 +/- 1.7 degrees for (-)-BPDE-phi X174 adducts are observed. It is concluded that agarose slab gel techniques are not suitable for determining unwinding angles for (-)-BPDE-modified phi X174 DNA because the alterations in the tertiary structures for rb < 0.06 are too small to cause sufficiently large changes in the electrophoretic mobilities. The major trans (+)-BPDE-N2-guanosine covalent adduct is situated at external binding sites and the mechanisms of unwinding are therefore different from those relevant to noncovalent intercalative BPDE-DNA complexes or to classical intercalating drug molecules; a flexible hinge joint and a widening of the minor groove at the site of the lesion may account for the observed unwinding effects. The more heterogeneous (-)-BPDE-nucleoside adducts (involving cis and trans N2-guanosine, and adenosine adducts) are less effective in causing unwinding of supercoiled DNA for reasons which remain to be elucidated.

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A spectroscopic study of the binding of N-7-substituted cap analogs to human protein synthesis initiation factor 4E

Carberry¹,

Darżynkiewicz²,

Stępiński³

et al. 1990

Biochemistry

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The binding of N-7-substituted cap analogues to eIF-4E from human erythrocytes is described. Data presented here indicate that there is a correlation between the tightness of binding of these cap analogues to eIF-4E and their potency as inhibitors of protein synthesis. This result indicates that the inhibitory activity of the cap analogues is strictly a function of the affinity of the analogue for eIF-4E under equilibrium conditions. The pH dependence of binding of the cap analogues to eIF-4E indicates that the enolate form of the cap is preferred, as originally postulated by Rhoads et al. [(1983) Biochemistry 22, 6084-6088]. Data indicate that there are differences in the mode of binding of alkyl-substituted and aryl-substituted cap analogues to eIF-4E arising from favorable interactions of the phenyl ring with the guanosine moiety. These differences may explain the enhanced recognition of the aryl-substituted cap analogues by eIF-4E.

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Wheat germ initiation factors 4F and (iso) 4F interact differently with oligoribonucleotide analogs of rabbit .alpha.-globin mRNA

Carberry¹,

Goss²

1991

Biochemistry

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The binding of capped oligoribonucleotide analogues of the 5' terminus of rabbit alpha-globin mRNA to wheat germ protein synthesis initiation factors eIF-4F and eIF-(iso)4F was measured by direct fluorescence techniques. An analysis of the equilibrium association constants (Keq) indicates that both eIF-4F and eIF-(iso)4F recognize primarily the m7G cap structure but differ in the recognition of other structural features. eIF-4F is sensitive to the position and sequence of hairpin structures within the oligoribonucleotide, while eIF-(iso)4F shows a preference for linear sequences. These differences suggest that wheat germ eIF-4F and eIF-(iso)4F may have discriminatory activity for mRNA recognition.

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Susan E. Carberry

A spectroscopic study of the binding of m7GTP and m7GpppG to human protein synthesis initiation factor 4E

A comparison of the binding of methylated cap analogs to wheat germ protein synthesis initiation factors 4F and (iso) 4F

Differences in unwinding of supercoiled DNA induced by the two enantiomers ofanti-benzo[a]pyrene diol epoxide

A spectroscopic study of the binding of N-7-substituted cap analogs to human protein synthesis initiation factor 4E

Wheat germ initiation factors 4F and (iso) 4F interact differently with oligoribonucleotide analogs of rabbit .alpha.-globin mRNA

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