An initiation factor causing dissociation of E. coli ribosomes

Purification of crude initiation factors, essential for polypeptide synthesis in cell-free systems of E. coli, yielded a fraction DF which causes dissociation of 70 S ribosomes. Its stoichiometric action on 70 S ribosomes is antagonized by increasing Mg(2+) concentrations but not by the addition of 30 S and 50 S subunits washed with high salt concentration. GTP did not stimulate this dissociating action. 2 &mgr;g of our most purified preparation caused 100% dissociation of 100 &mgr;g of 70 S ribosomes without added GTP. DF-induced dissociation is a very rapid process at 37 degrees C and is temperature-dependent in the range of 0 degrees -37 degrees C. DF, which is thermolabile factor, is much less or not effective with complexed 70 S ribosomes bearing peptidyl-tRNA and mRNA.     

Characterization of an E. coli mutant with a thermolabile initiation factor IF3 activity.

Summary A thermosensitive E. coli mutant is described which has at least two defects in vitro: a thermolabile initiation factor IF3 activity and a modified L-phenylalanine: tRNA^Phe ligase (EC 6.1.1.20) activity. These two defects cotransduce and are located near 38 min on the new E. coli map. Thermoresistant revertants showing in vitro reversion for one defect also revert in vitro for the other defect. The thermosensitive mutation is recessive to its wild type allele, and in vitro analysis of wild type/mutant heterodiploïds also show reversion for both defects.     

Superexpression and fast purification of E coli initiation factor IF2.

For the production of large quantities of E coli initiation factor IF2 we have constructed an improved overexpression system. The gene infB was cloned into the thermo-inducible runaway plasmid pCP40 [1] and subsequently transformed into the E coli strain C600[pcI857]. In this system the expression of infB is under the control of the strong promoter lambda PL and the cells carry the plasmid pcI857, which contains a thermosensible lambda cI repressor. Overexpression of IF2, which is approximately 30 times higher than the expression in wild-type-cells, is induced at 42 degrees C and continues for 2 h at 37 degrees C. From these cells pure and active IF2 was obtained using a novel 3-step FPLC-procedure consisting of ion-exchange liquid chromatography on Q-sepharose HP, MonoQ and MonoS. In approximately 8 h, 5 mg of pure and active IF2 can be obtained from 10 g overproducing cells. This corresponds to 5 mg of IF2 per litre of medium. The purification was monitored by Western immunoblotting and the activity of the purified factor was tested by measuring the stimulation of binding of the initiator fMet-tRNA(Met)f to 70S ribosomes in the presence of GTP and poly(A,U,G) as messenger RNA. Compared with previous methods our purification procedure avoids the use of materials such as DEAE-cellulose and phosphocellulose which have relatively poor flow rates. In addition to the higher flow capacity of Q-sepharose HP, this new matrix can be loaded with an S30 supernatant.(ABSTRACT TRUNCATED AT 250 WORDS)     

Structural and functional domains of E coli initiation factor IF2.

Initiation of translation in prokaryotes requires the participation of at least three soluble proteins: the initiation factors IF1, IF2 and IF3. Initiation factor 2, which is one of the largest proteins involved in translation (97.3 kDa) has been shown to stimulate in vitro the binding of fMet-tRNA(fMet) to the 30S ribosomal subunit. After formation of 70S translation initiation complex, IF2 is believed to participate in GTP hydrolysis, thereby promoting its own release. Here we review evidence which indicates the functional importance of the different structural domains of IF2, emphasizing new information obtained by in vivo experiments.     

大肠杆菌表达的人重组IL-3的纯化

本文继大肠杆菌表达含凝血酶切点的人重组IL-3融合蛋白成功的基础上进一步探讨了天然型rhIL-3的纯化。超声破碎细菌细胞得包涵体,经洗涤处理可使包涵体纯度达90％,用8mol/L尿素变性溶解包涵体沉淀后直接稀释复性,再超滤浓缩、凝血酶消化,释放天然型rhIL-3。经DEAE Sepharose Fast Flow和Sepharcyl-100 HR层析得到天然型IL-3,纯度达96％,回收率20％以上,具有刺激正常人骨髓细胞形成集落的活性。本实验为大批量重组IL-3的生产创造了条件。     

Purification and physical properties of homogeneous initiation factor MP from rabbit reticulocytes.

Initiation factor MP was purified 1570-fold with 67% recovery of total activity present in 0.5 M KCl extracts of rabbit reticulocyte ribosomes. Initiation factor MP forms a ternary complex with Met-tRNAf and GTP or a binary complex with Met-tRNAf alone, the details of which are presented in the accompanying paper (Safer, B., Adams, S. L., Anderson. W. F., and Merrick, W. C. (1975) J. Biol. Chem. 250, 9076-9082). Initiation factor MP was homogeneous by the following criteria: (a) electrophoresis as a single band in gels of 5, 6, 7, 8, 9, and 10% acrylamide; (b) equilibration as a single band during isoelectric focusing; (c) sedimentation as a single symmetrical boundary during sedimentation velocity experiments; (d) linear plots of sedimentation equilibrium data; (e) symmetrical absorbance (at 280 nm) and activity profiles during DEAE-cellulose and Sephadex G-200 chromatography, and (f) symmetrical distribution of initiation factor MP during sucrose density gradient band sedimentation. The molecular weight of the initiation factor MP monomer (0.2 mg/ml) by low speed sedimentation equilibrium was 90,800. Calculations based on the Stokes radius and sedimentation velocity show the existence of relatively stable 90,000-dalton monomers or 180,000-dalton dimers at low (0.1 mg/ml) and high (9.75 mg/ml) concentrations of initiation factor MP, respectively. Electrophoresis in sodium dodecyl sulfate gels indicates that initiation factor MP monomer is composed of two noncovalently linked subunits with molecular weights of 52,000 and 34,000. Despite a relatively normal amino acid composition and an isoelectric point of 6.4, initiation factor MP behaves as a basic protein, eluting from phosphocellulose at 650 mM KCl (pH 7.9). Both ternary complex formation and methionyl-puromycin synthesis co-purify, indicating that a single protein is required for both activities.     

Polypeptide chain initiation in eukaryotes. IV. Purification and properties of supernatant initiation factor from Artemia salina embryos

The eukaryotic supernatant initiation factor, described in earlier publications from this laboratory, has been isolated and purified over 3000-fold, to about 70 to 80% purity, from extracts of embryos of the brine shrimp Artemia salina. The native protein appears to consist of two equal subunits, each weighing approximately 74,000 daltons. Like the bacterial initiation factor IF2, its prokaryotic counterpart, the Artemia factor promotes the AUG-dependent binding of fMet-tRNA, or the poly (U)-dependent binding of N-acetyl-Phe-tRNA, to the small ribosomal subunit. However, unlike IF2, the reaction is GTP-independent and the factor functions catalytically for one molecule may promote the binding of up to 12 molecules of fMet-tRNA to 40 s subunits at 0 °C.     

Mutations that alter initiation codon discrimination by Escherichia coli initiation factor IF3.

This work describes the isolation of mutations in infC, the structural gene for IF3, using different genetic screens. Among 21 mutants characterised, seven were shown to produce stable variant IF3 proteins unable to fully complement a strain carrying a chromosomal deletion of the infC gene. The mutants were also shown to be unable to normally discriminate against several non-canonical initiation codons such as AUU and ACG. The two mutants with the strongest complementation or discrimination defects carry changes in the C-terminal domain of IF3, which is responsible for the binding of the factor to the 30 S ribosomal subunit. We show that the first mutant has an expected decreased but the second an unexpected increased capacity to bind the 30 S subunit. The in vivo defects of the second mutant are explained by its capacity to bind unspecifically to other targets, as shown by its increased affinity for the 50 S subunit, which is normally not recognised by the factor. Interestingly, this mutant corresponds to a change of an acidic residue that might play a negative discriminatory role in preventing interactions with non-cognate RNAs, as has been reported for acidic residues of aminoacyl-tRNA synthetases shown to be involved in tRNA recognition.     

Tandem translation of E. coli initiation factor IF2 beta: purification and characterization in vitro of two active forms.

Two forms of E. coli initiation factor IF2, IF2 alpha and IF2 beta, have been known for several years. Both forms are products of the gene infB with translational initiation at codon 1 (AUG) and codon 158 (GUG) in the same reading frame. In this work we demonstrate that IF2 beta exists in two forms, IF2 beta and IF2 beta' with initiation codons 158 (GUG) and 165 (AUG) and molecular masses of 79.7 kDa and 78.8 kDa respectively. We have recently described a fast purification method for IF2 alpha, using an FPLC procedure consisting of ion-exchange liquid chromatography on Q Sepharose HP, Mono Q and Mono S. After the Mono Q step, an apparently homogeneous IF2 beta was observed when analyzed by SDS-PAGE. However the chromatography on Mono S results in the elution of two peaks containing IF2 beta. The N-terminal amino acid sequence of the two proteins identified the first peak to be IF2 beta and the second as a protein which we term IF2 beta' starting seven residues downstream at the AUG codon 165. The activity in vitro of the two purified forms of IF2 beta was tested by measuring the stimulation of binding of the initiator fMet-tRNA(fMet) to 70S ribosomes in the presence of GTP and poly(A,U,G) as messenger-RNA. In this assay no difference in activity is detected.     

Purification and properties of a methionine formylmethionyl-tRNA-binding initiation factor from pig liver

(i) A factor, EIF-2, that binds methionyl-tRNA_f^Met in the presence of GTP has been isolated from pig liver. (ii) Dodecylsulfate-gel electrophoresis and sedimentation equilibrium centrifugation indicate that the factor has a molecular weight of 122,000 and that it consists of three unequal subunits. (iii) The apparent K_D for binding of methionyl-tRNA_f^Met varies with factor concentration. GTP participates in the binding with a K_D of 0.5 μm. β,γ-Methylene-guanosine triphosphate supports 40% of the binding observed with GTP. GDP is a competitive inhibitor with a K_i of 0.2 μm. The optimal, free Mg²⁺ concentration is approximately 50 μm. GTP and Mg²⁺ stabilize the factor against thermal inactivation and inactivation by N-ethyl maleimide. (iv) The factor is required for the formation of a sucrose gradient-stable complex between methionyl-tRNA_f^Met and the 40S ribosomal subunit. The presence of template is not necessary, but poly(A,U,G) increases the binding observed 1.5-fold. (v) The factor markedly stimulates synthesis in a reconstituted protein-synthesizing system with globin messenger RNA as template.     

Specific interaction of initiation factor IF2 of E. coli with formylmethionyl-tRNA f Met.

The interaction of E.coli initiation factor IF2 with formylmethionyl-tRNA_f^Met has been studied by measuring the inhibition by IF2 of the spontaneous deaminoacylation of the charged tRNA. We find that IF2 protects fMet-tRNA_f^Met against spontaneous deacylation. The formylation is an absolute requirement for this protection and no effect of GTP was found. The association constant for IF2 binding to fMet-tRNA_f^Met at 37°C and physiological ionic conditions was estimated at about 10⁶ M^?1.