Protein biosynthesis involves the participation of a large number of macromolecules. Of particular interest are those protein factors which are involved in initiation and their interaction with ribosomes. Initiation factor-3 (IF-3) is crucial for this process by ensuring that a pool of free 30S ribosomal subunits is maintained and by stimulating the functional interaction of mRNA with the 30S subunit. The ribosomal protein components of the IF-3 binding site have been identified but to date this has not been accomplished for the 16S rRNA sequence which also comprises part of this site. In addition, little is currently known regarding the structure-function relationships of IF-3. Photochemical crosslinking of IF-3 to ribosomes has proven to be a useful technique for analysis of the IF-3 binding site. Employing this approach the 16S RNA sequences which participate in IF-3 binding will be identified. In addition, the ribosome binding site for IF-3 will be visualized directly by immunoelectron microscopy of IF-3-ribosomal subunit covalent complexes. Altered forms of IF-3 will be constructed by in vitro mutagenesis and the mutant IF-3s will be tested for functional activity. This should provide information on the composition of the active site of IF-3. The conservation of the IF-3 sequence in organisms other than E. coli at both the protein and DNA levels will be studied by heterologous hybridization and immunoblotting. In certain cases, the IF-3 homologues will be studied in greater detail with regard to both structure and function. These studies should facilitate identification of those segments of the IF-3 molecule which have been conserved and are presumably required for function. The biosynthesis of IF-3 and its regulation has not been examined in any detail. The gene encoding IF-3, infC, has been cloned in this laboratory and was shown to efficiently express IF-3. The putative promoter sequence(s) will be subcloned into a promoter fusion vector in order to study the activity and regulation of transcription which may originate from these sites. These fusion plasmids will also permit investigation of the nature of growth rate regulation of infC expression and whether this expression is subject to stringent control. The proposed experiments will result in the most comprehensive analysis of the ribosome binding site for IF-3 and a more complete description of the structure-function relationships of IF-3, as well as, clarify certain aspects of the regulation of IF-3 gene expression. Since IF-3 plays a central role in the initiation of protein synthesis, these studies will, in turn, provide for a more complete understanding of the molecular mechanism of this critical step in gene expression.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM029265-06
Application #
3276831
Study Section
Physiological Chemistry Study Section (PC)
Project Start
1980-09-01
Project End
1988-08-31
Budget Start
1986-09-01
Budget End
1987-08-31
Support Year
6
Fiscal Year
1986
Total Cost
Indirect Cost
Name
New York Medical College
Department
Type
Schools of Medicine
DUNS #
City
Valhalla
State
NY
Country
United States
Zip Code
10595
Maar, Dianna; Liveris, Dionysios; Sussman, Jacqueline K et al. (2008) A single mutation in the IF3 N-terminal domain perturbs the fidelity of translation initiation at three levels. J Mol Biol 383:937-44
Ganoza, M C; Aoki, H; Kozieradzki, I et al. (1993) Reconstruction of translation. Evidence for the involvement of the rescue protein in the association/dissociation of ribosomal subunits. Eur J Biochem 217:839-47
Liveris, D; Schwartz, J J; Geertman, R et al. (1993) Molecular cloning and sequencing of infC, the gene encoding translation initiation factor IF3, from four enterobacterial species. FEMS Microbiol Lett 112:211-6
De Bellis, D; Liveris, D; Goss, D et al. (1992) Structure-function analysis of Escherichia coli translation initiation factor IF3: tyrosine 107 and lysine 110 are required for ribosome binding. Biochemistry 31:11984-90
Liveris, D; Klotsky, R A; Schwartz, I (1991) Growth rate regulation of translation initiation factor IF3 biosynthesis in Escherichia coli. J Bacteriol 173:3888-93
De Bellis, D; Schwartz, I (1990) Regulated expression of foreign genes fused to lac: control by glucose levels in growth medium. Nucleic Acids Res 18:1311
Santer, M; Bennett-Guerrero, E; Byahatti, S et al. (1990) Base changes at position 792 of Escherichia coli 16S rRNA affect assembly of 70S ribosomes. Proc Natl Acad Sci U S A 87:3700-4
Goodman, R; Schwartz, I (1988) Kinetic analysis of an E.coli phenylalanine-tRNA synthetase mutant. Nucleic Acids Res 16:7477-86
Wertheimer, S J; Klotsky, R A; Schwartz, I (1988) Transcriptional patterns for the thrS-infC-rplT operon of Escherichia coli. Gene 63:309-20
Klotsky, R A; Schwartz, I (1987) Measurement of cat expression from growth-rate-regulated promoters employing beta-lactamase activity as an indicator of plasmid copy number. Gene 55:141-6

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