Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
Disease
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Query: EC:3.2.1.23 (
beta-galactosidase
)
14,648
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Murine epidermal growth factor (EGF), a 53 amino acid protein, has been modified by enzymic digestion, site-specific chemical reactions, and recombinant DNA technology. After trypsin digestion the EGF derivatives
EGF1
-48 (called EGF-T) and
EGF1
-45 (called EGF-T2) were separated from the residual EGF and the C-terminal pentapeptide by reversed-phase high-performance liquid chromatography. EGF-T competes for binding to EGF receptors with the same efficiency as EGF. The EGF-T2 derivative had no detectable receptor binding activity even at 100 nM. The in vitro mitogenic potencies of EGF and EGF-T for Balb/c 3T3 cells were indistinguishable. Treatment of EGF-T with carboxypeptidase Y yielded two derivatives, EGF-T-(des-Arg48) and EGF-T-des(Leu47-Arg48). There was only a 3-7-fold diminution in the binding efficiency and mitogenic potency for EGF-T-(des-Arg48). However, there was more than a 100-fold decrease in the binding efficiency and mitogenic activity of EGF-T-des (Leu47-Arg48). These results indicated that Leu47 is intimately involved in the formation of the ligand-receptor complex. Studies with a number of proteases indicated that the C-terminus of EGF was susceptible to enzymic digestion; however, the N-terminus appears to be folded into a conformation which prevents access to proteolytic digestion. Consequently, the N-terminus was modified by preparing an analogue with recombinant DNA technology. Oligonucleotides corresponding to EGF(3-48). Met3 Lys21 residues were ligated in frame to a
beta-galactosidase
expression vector. The beta-Gal-EGF fusion protein was cleaved with cyanogen bromide and EGF(4-48).Lys21 purified.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Murine epidermal growth factor: structure and function. 326 70
We constructed plasmids carrying tufA from which the major promoter for the rpsL-rpsG-fus-tufA operon (also called the str operon) had been removed. These plasmids continued to express tufA, as judged by the ability to complement mocimycin resistance and by electrophoretic analysis of synthesized proteins. Tn5 transpositions into fus, the gene for
elongation factor G
, which lies immediately on the 5' side of tufA, failed to obstruct the expression of tufA. The subcloning of a 2,000-base-pair PstI-SmaI DNA fragment (containing the intercistronic region between tufA and fus, the distal portion of fus, and the proximal portion of tufA) next to promoterless tetracycline resistance genes (tet) yielded a plasmid that was capable of bestowing resistance to 12 microgram of tetracycline per ml. The removal of an EcoRI fragment that lies within fus destroyed the ability of the 2,000-base-pair PstI-SmaI fragment to promote the transcription of tet. These data indicate that, in addition to the operon's major promoter rpsLp, there is an internal promoter, tufAp, which can be used for the transcription of tufA, tufAp probably lies within fus, about 50 base pairs upstream from its 3' end and 120 base pairs from the start codon of tufA. The relative activities of tufB and of tufA-from-tufAp were estimated by a comparison of
beta-galactosidase
activities of almost identical EF-Tu-
beta-galactosidase
protein fusions; they were approximately equal.
...
PMID:Evidence for an internal promoter preceding tufA in the str operon of Escherichia coli. 627 61
The ribosome translocation step that occurs during protein synthesis is a highly conserved, essential activity of all cells. The precise movement of one codon that occurs following peptide bond formation is regulated by
elongation factor G
(EF-G) in eubacteria or elongation factor 2 (EF-2) in eukaryotes. To begin to understand molecular interactions that regulate this process, a genetic selection was developed with the aim of obtaining conditional-lethal alleles of the gene (fusA) that encodes EF-G in Escherichia coli. The genetic selection depends on the observation that resistant strains arose spontaneously in the presence of sublethal concentrations of the antibiotic kanamycin. Replica plating was performed to obtain mutant isolates from this collection that were restrictive for growth at 42 degrees C. Two tightly temperature-sensitive strains were characterized in detail and shown to harbor single-site missense mutations within fusA. The fusA100 mutant encoded a glycine-to-aspartic acid change at codon 502. The fusA101 allele encoded a glutamine-to-proline alteration at position 495. Induction kinetics of
beta-galactosidase
activity suggested that both mutations resulted in slower elongation rates in vivo. These missense mutations were very near a small group of conserved amino acid residues (positions 483 to 493) that occur in EF-G and EF-2 but not EF-Tu. It is concluded that these sequences encode a specific domain that is essential for efficient translocase function.
...
PMID:In vivo selection of conditional-lethal mutations in the gene encoding elongation factor G of Escherichia coli. 828 87
We summarize in this communication the data supporting the two functions of ribosome recycling factor (RRF, originally called ribosome releasing factor). The first described role involves the disassembly of the termination complex which consists of mRNA, tRNA and the ribosome bound to the mRNA at the termination codon. This process is catalyzed by two factors,
elongation factor G
(EF-G) and RRF. RRF stimulated protein synthesis as much as eight-fold in the in vitro lysozyme synthesis system, when ribosomes were limiting. In the absence of RRF, ribosomes remain mRNA-bound at the termination codon and translate downstream codons. In the in vitro system, the site of reinitiation is the triplet codon 3' to the termination codon. RRF is an essential protein for bacterial life. Temperature sensitive (ts) RRF mutants were isolated and in vivo translational reinitiation due to inactivation of ts RRF was demonstrated using the
beta-galactosidase
reporter gene placed downstream from the termination codon. A second function of RRF involves preventing errors in translation. In polyphenylalanine synthesis programmed by polyuridylic acid, misincorporation of isoleucine, leucine or a mixture of amino acids was stimulated upto 17-fold when RRF was omitted from the in vitro system. RRF did not influence the large error (10-fold increase) induced by streptomycin. This means that RRF participates not only in the disassembly of the termination complex but also in peptide elongation. Extending this concept and its conventional role for releasing ribosomes from mRNA, involvement of RRF in the reinitiation in the 3A' system (a construct using S aureus protein A, a collaborative work with Dr Isaksson), in programmed frame shifting, in trans-translation with 10Sa RNA (collaborative work with Dr Muto), and in the reinitiation downstream from the ORF A of the IS 3 (insertion sequence of a transposon, collaborative work with Dr Sekine) are discussed on the basis of preliminary data to be published elsewhere. Finally, we review the known RRF sequences from various organisms including eukaryotes and discuss the possible mechanism for disassembly of the eukaryotic termination complex.
...
PMID:Dual functions of ribosome recycling factor in protein biosynthesis: disassembling the termination complex and preventing translational errors. 915 Aug 73
