EC:3.2.1.23 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:3.2.1.23 (beta-galactosidase)
14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We initiated a genetic reversion analysis at the HIS4 locus to identify components of the translation initiation complex that are important for ribosomal recognition of an initiator codon. Three unlinked suppressor loci, suil, sui2, and SUI3, that restore expression of both HIS4 and HIS4-lacZ in the absence of an AUG initiator codon were identified. In previous studies, it was demonstrated that the sui2 and SUI3 genes encode mutated forms of the alpha and beta subunits, respectively, of eukaryotic translation initiation factor 2 (eIF-2). In this report, we describe the molecular and biochemical characterizations of the sui1 suppressor locus. The DNA sequence of the SUI1+ gene shows that it encodes a protein of 108 amino acids with a calculated Mr of 12,300. The sui1 suppressor genes all contain single base pair changes that alter a single amino acid within this 108-amino-acid sequence. sui1 suppressor strains that are temperature sensitive for growth on enriched medium have altered polysome profiles at the restrictive temperature typical of those caused by alteration of a protein that functions during the translation initiation process. Gene disruption experiments showed that the SUI1+ gene encodes an essential protein, and antibodies directed against the SUI1+ coding region identified a protein with the predicted Mr in a ribosomal salt wash fraction. As observed for sui2 and SUI3 suppression events, protein sequence analysis of His4-beta-galactosidase fusion proteins produced by sui1 suppression events indicated that a UUG codon is used as the site of translation initiation in the absence of an AUG start codon in HIS4. Changing the penultimate proline codon 3' to UUG at his4 to a Phe codon (UUC) blocks aminopeptidase cleavage of the amino-terminal amino acid of the His4-beta-galactosidase protein, as noted by the appearance of Met in the first cycle of the Edman degradation reaction. The appearance of Met in the first cycle, as noted, in either a sui1 or a SUI3 suppressor strain showed that the mechanism of suppression is the same for both suppressor genes and allows the initiator tRNA to mismatch base pair with the UUG codon. This suggests that the Sui1 gene product performs a function similar to that of the beta subunit of eIF-2 as encoded by the SUI3 gene. However, the Sui1 gene product does not appear to be a required subunit of eIF-2 on the basis of purification schemes designed to identify the GTP-dependent binding activity of eIF-2 for the initiator tRNA. In addition, suppressor mutations in the sui1 gene, in contrast to suppressor mutations in the sui2 or SUI3 gene, do not alter the GTP-dependent binding activity of the eIF-2. The simplest interpretation of these studies is that the sui1 suppressor gene defines an additional factor that functions in concert with eIF-2 to enable tRNAiMet to establish ribosomal recognition of an AUG initiator codon.
...
PMID:The suil suppressor locus in Saccharomyces cerevisiae encodes a translation factor that functions during tRNA(iMet) recognition of the start codon. 172 2

Somatic mutation in immunoglobulin genes is localized to a 2-kilobase region of DNA surrounding and including rearranged variable (V), diversity, and joining (J) gene segments encoding heavy and light chains. To examine the structural basis for targeted mutation, we developed an assay to score mutation on plasmid substrates by using a reporter gene: a bacterial gene encoding an amber-suppressor tRNA molecule was placed 3' of a rearranged kappa VJ gene within the boundaries of mutation. The reporter gene is exquisitely suited for mutational analysis because it is only 200 base pairs (bp), which should not greatly disrupt structure of the immunoglobulin locus, and gene function depends on secondary structure, which means mutation can be scored in many different nucleotide positions. The plasmid was used to make transgenic mice, which were then immunized. The shuttle vector was retrieved by plasmid rescue into an indicator strain of Escherichia coli that contained an amber mutation in its beta-galactosidase gene. Integrity of the tRNA molecule was monitored by colony color, which permitted many transformants to be screened visually. Mutations were not seen in DNA from a transfected B-cell line grown in vitro or in DNA from nonlymphoid tissue of transgenic mice, indicating that the reporter gene was stable during cell division and DNA manipulations. However, when the transgenic mice were immunized, DNA from splenic B cells contained point mutations in the reporter gene at a frequency of 10(-3) per transformant. Sequence analysis of 17 mutated transgenes revealed that the mutations were 1- and 2-bp deletions in the tRNA gene, and one plasmid had an additional 2-bp deletion in the V gene. In contrast, previous studies have shown that mutations in endogenous VJ genes are predominantly nucleotide substitutions and have only 6% deletions. Two other plasmid constructs were analyzed in transgenic lines: no mutations were found when the tRNA gene was placed distal to the VJ gene, and no mutations were seen when the immunoglobulin promoter was deleted. Although we lack direct evidence that the deletions in the tRNA gene are caused by the same mechanism that acts on VJ genes, we have shown that mutations in this assay occur in a manner consistent with immunoglobulin-specific mutation in that they are found in splenic B cells and not in tail tissue, depend on position next to the VJ gene, and require transcription of the VJ gene.
...
PMID:Mutation in a reporter gene depends on proximity to and transcription of immunoglobulin variable transgenes. 190 16

A set of 32 different codons were introduced in a lacZ expression vector (pPTK400) immediately 3' from the AUG initiation codon. Expression of the lacZ gene was determined in Saccharomyces cerevisiae by measuring the amount of beta-galactosidase fusion protein using immuno-gel electrophoresis. A 5.3-fold difference in expression was found among the various constructs. It was found that there was no preference for a certain nucleotide in any position of the second codon and there was no distinct correlation between the level of tRNA corresponding to any particular second codon and expression. No correlation could be found between the local secondary structure and expression. When the overall codon usage in yeast and the codon usage in the second position of the mRNA is compared, there is no obvious significant difference in preference. This indicates that in yeast, in contrast to Escherichia coli, the codon choice at the beginning of the mRNA does not deviate from the one further downstream and is determined by the requirements for optimal translation elongation. Important determinants of the optimal context for an initiation codon in yeast therefore must be located mainly 5' from this codon.
...
PMID:Influence of the codon following the initiation codon on the expression of the lacZ gene in Saccharomyces cerevisiae. 190 58

A simple quantitative in vivo assay has been developed for measuring the efficiency of translation of one or other of the three termination codons. UAA, UAG and UGA in Saccharomyces cerevisiae. The assay employs a 3-phosphoglycerate kinase-beta-galactosidase gene fusion, carried on a multicopy plasmid, in which the otherwise retained reading frame is disrupted by one or other of the three termination codons. Termination readthrough is thus quantitated by measuring beta-galactosidase in transformed strains. Using these plasmids to quantitate the endogenous levels of termination readthrough we show that readthrough of all three codons can be detected in a non-suppressor (sup+) strain of S. cerevisiae. The efficiency of this endogenous readthrough is much higher in a [psi+] strain than in a [psi-] strain with the UGA codon being the leakiest in the nucleotide context used. The utility of the assay plasmids for studying genetic modifiers of nonsense suppressors is also shown by their use to demonstrate that the cytoplasmic genetic determinant [psi+] broadens the decoding properties of a serine-inserting UAA suppressor tRNA (SUQ5) to allow it to translate the other two termination codons in the order of efficiency UAA greater than UAG greater than UGA.
...
PMID:Quantitation of readthrough of termination codons in yeast using a novel gene fusion assay. 190 59

We describe the effect of mutations in the acceptor stem of Escherichia coli initiator tRNA on its function in vivo. The acceptor stem mutations were coupled to mutations in the anticodon sequence from CAU----CUA to allow functional studies on the mutant tRNAs in initiation and in elongation in vivo. We show that, with one exception, there is a good correlation between the kinetic parameters for formylation of the mutant tRNAs in vitro (preceding paper, Lee, C.P., Seong, B. L., and RajBhandary, U.L. (1991) J. Biol. Chem. 266, 18012-18017) and their activity in initiation in vivo. These results suggest an important role for formylation of initiator tRNA in its function in initiation, at least when it is aminoacylated with glutamine as is the case with the mutant tRNAs used here. Mutant tRNAs that have a base pair between nucleotides 1 and 72 at the top of the acceptor stem function as elongators, as analyzed by their ability to suppress an amber mutation in the E. coli beta-galactosidase gene. One of these mutants is also quite active in initiation. Thus, activities of a tRNA in initiation and elongation steps of protein synthesis are not mutually exclusive. Using a mRNA with two in frame UAG codons, we show that this mutant tRNA can both initiate protein synthesis from the upstream UAG and suppress the down-stream UAG. We discuss the potential use of tRNAs with such "dual" functions in tightly regulated expression of genes for proteins in E. coli.
...
PMID:Mutants of initiator tRNA that function both as initiators and elongators. 191 40

We describe the generation of Dictyostelium discoideum cell lines that carry different suppressor tRNA genes. These genes were constructed by primer-directed mutagenesis changing a tRNA(Trp)(CCA) gene from D. discoideum to a tRNA(Trp)(amber) gene and changing a tRNA(Glu)(UUC) gene from D. discoideum to a tRNA(Glu)(ochre) as well as a tRNA(Glu)(amber) gene. These genes were stably integrated into the D. discoideum genome together with a reporter gene. An actin 6::lacZ gene fusion carrying corresponding translational stop signals served as a reported. Active beta-galactosidase is expressed only in D. discoideum strains that contain, in addition to the reporter, a functional suppressor tRNA. Both amber suppressors are active in D. discoideum without interfering significantly with cell growth and development. We failed, however, to establish cell lines containing a functional tRNA(Glu)(ochre) suppressor. This may be due to the fact that nearly every message from D. discoideum known so far terminates with UAA. Therefore a tRNA capable of reading this termination codon may not be compatible with cell growth.
...
PMID:Nonsense suppression in Dictyostelium discoideum. 209 17

We present a rapid assay for tRNA suppression in living Escherichia coli. An amber, ochre, or opal nonsense mutation in a cloned luxB gene from the bacterium Vibrio harveyi was suppressed. Because luciferase (Lux) activity depends completely on the appearance of the full-length luxB gene product, the amount of light produced was proportional to tRNA-mediated nonsense suppression in the cell. This luminometric assay was notably quicker, easier, and more sensitive than a traditional colorimetric assay employing beta-galactosidase. Assays required only one addition to a growing culture and were complete within 1 min. Light output was directly proportional to the amount of bacterial luciferase in a sample over a range of greater than or equal to 40,000-fold. Fewer than 100 cells were required for detection of Lux with ordinary instrumentation; assays were 80-fold more sensitive than simultaneous beta-galactosidase measurements. Assayed cells survived and could be recovered as colony formers. The beta-galactosidase colorimetric assay and the luciferase assay were similarly reproducible. Light from colonies expressing Lux was visible to the dark-adapted eye and useful for screening. A rapid assay that does not depend on the formation of permanent transformants can be based on electroporation followed by luminometry.
...
PMID:A simple and sensitive in vivo luciferase assay for tRNA-mediated nonsense suppression. 210 99

AGA and AGG codons for arginine are the least used codons in Escherichia coli, which are encoded by a rare tRNA, the product of the dnaY gene. We examined the positions of arginine residues encoded by AGA/AGG codons in 678 E. coli proteins. It was found that AGA/AGG codons appear much more frequently within the first 25 codons. This tendency becomes more significant in those proteins containing only one AGA or AGG codon. Other minor codons such as CUA, UCA, AGU, ACA, GGA, CCC and AUA are also found to be preferentially used within the first 25 codons. The effects of the AGG codon on gene expression were examined by inserting one to five AGG codons after the 10th codon from the initiation codon of the lacZ gene. The production of beta-galactosidase decreased as more AGG codons were inserted. With five AGG codons, the production of beta-galactosidase (Gal-AGG5) completely ceased after a mid-log phase of cell growth. After 22 hr induction of the lacZ gene, the overall production of Gal-AGG5 was 11% of the control production (no insertion of arginine codons). When five CGU codons, the major arginine codon were inserted instead of AGG, the production of beta-galactosidase (Gal-CGU5) continued even after stationary phase and the overall production was 66% of the control. The negative effect of the AGG codons on the Gal-AGG5 production was found to be dependent upon the distance between the site of the AGG codons and the initiation codon. As the distance was increased by inserting extra sequences between the two codons, the production of Gal-AGG5 increased almost linearly up to 8 fold. From these results, we propose that the position of the minor codons in an mRNA plays an important role in the regulation of gene expression possibly by modulating the stability of the initiation complex for protein synthesis.
...
PMID:Suppression of the negative effect of minor arginine codons on gene expression; preferential usage of minor codons within the first 25 codons of the Escherichia coli genes. 210 7

The tyrS genes from Escherichia coli and Bacillus stearothermophilus were toxic to E. coli when they were carried by plasmids with very high copy numbers (pEMBL8 and pEMBL9). We quantified this effect by comparing the efficiencies of plating of E. coli derivatives harboring recombinant plasmids in various experimental conditions. The toxicity was apparent at both 30 and 37 degrees C. It increased with the growth temperature, the strength of the tyrS promoter, and the copy number of the plasmidic vector. Two- to threefold enhancement of tyrS expression raised the toxicity 300-fold. Point mutations in tyrS that prevent interaction between its product, tyrosyl-tRNA synthetase, and tRNA(Tyr) but do not alter the rate of formation of tyrosyl-adenylate abolished the toxicity. Thus, the toxic effect was due to high cellular levels of synthetase activity. At 30 degrees C, the cellular concentration of tyrosyl-tRNA synthetase reached 55% of that of soluble proteins and led to decreased beta-galactosidase stability. We discuss possible causes of this toxic effect and describe its applications to the study of the recognition and interaction between the synthetase and tRNA(Tyr).
...
PMID:Overproduction of tyrosyl-tRNA synthetase is toxic to Escherichia coli: a genetic analysis. 211 14

We describe a series of plasmid vectors which contain modular features particularly useful for studying gene expression in eukaryotic systems. The vectors contain the Escherichia coli beta-galactosidase (beta Gal)-encoding region (the lacZ gene) flanked by unique polylinker segments on the 5' and 3' ends, and several combinations of a variety of modules: a selectable marker (an amber suppressor tRNA), a translational initiation region, a synthetic intron segment, the early polyadenylation signal from SV40, and 3' regions from two nematode genes. A segment encoding the nuclear localization peptide from the SV40 T antigen is incorporated into many of the constructs, leading to beta Gal accumulation in nuclei, which can facilitate identification of producing cells in complex tissues. To make functional beta Gal fusions to secreted proteins, we constructed plasmids with an alternate module encoding a synthetic transmembrane domain upstream from lacZ. This domain is designed to stop transfer of secreted proteins across the membrane during secretion, allowing the beta Gal domain of the fusion polypeptide to remain in the cytoplasm and thus function in enzymatic assays. We have used the vectors to analyze expression of several genes in the nematode Caenorhabditis elegans, and have demonstrated in these studies that lacZ can be expressed in a wide variety of different tissues and cell types. These vectors should be useful in studying gene expression both in C. elegans and in other experimental systems.
...
PMID:A modular set of lacZ fusion vectors for studying gene expression in Caenorhabditis elegans. 212 10

<< Previous 1 2 3 4 5 6 7 8 9 Next >>