EC:2.7.7.6 - FACTA Search

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

Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Operator-induced biological contamination in cell cultures is a multifaceted problem involving the unexpected introduction of other animal cells, microbial and viral contaminants. Detailed studies on animal cell cross contaminations have been performed and published. The frequency of detection of problem cultures has been as high as 36% for one service performed in the USA, with interspecific cross contamination accounting for 25% and human intraspecific contamination representing 11%. Awareness of the potential of this problem plus the application of several characterizations are key factors for its control. For example, fluorescent antibody staining, isoenzyme analyses, cytogenetic evaluations and DNA fingerprinting using molecular probes are needed for quality assurance on master seed stocks. Detection of microbial contamination is relatively straightforward, but the prevalence of mycoplasmal infections in cell cultures used in general research is still a significant problem. Detection services report frequencies of infection varying from 10% upwards, depending upon the country and laboratory of origin. The utilization of prescreened reagents and antibiotic-free cultivation, plus the application of improved procedures, such as fluorescent dyes and molecular probes for detection, provide effective means of avoiding mycoplasma infection and facilitating control. For many viruses, the presence of mycoplasma reduces immunoreactivity, suppresses transcriptase and other enzyme activities, reverses viral neutralization etc. The introduction of viral contaminants into cell cultures is perhaps the most problematic, especially where no cytopathic effect is produced. Few cases are documented where technicians infected with specific viruses have introduced these unwittingly into cultures in their care. The potential exists, however, as reports have appeared documenting the considerable stability of rhinoviruses, respiratory syncytial virus, rotaviruses and others, in aerosols on workers' hands and safety hood surfaces. The infection of cell cultures via other contaminated cells or reagents such as sera is a related problem. In this regard, the infection of transplantable tumor cell lines with lymphocytic choriomeningitis virus from host animals led to an outbreak of the disease in medical center personnel. Similar infection of rat cell lines exposed to animals harboring hantaviruses has been reported. Technical staff in US government laboratories have been infected with human immunodeficiency virus produced in cultured cells. Such serious public health hazards warrant repeated emphasis. The use of multiple cell lines in a given laboratory, including cultures known to be virally infected, compounds the problems and necessitates application of preventive methods both to avoid cross-infections and to document freedom from contamination.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Operator-induced contamination in cell culture systems. 179 20

We have previously shown that the Mycoplasma mycoides glycine tRNA (anticodon UCC) effectively reads the codons GGU and GGC in violation of the classic codon reading rules. We have attempted to elucidate what structural elements in this tRNA molecule confer this translational property and in the course of this investigation T7 RNA polymerase transcription of the corresponding gene was used to produce a tRNA devoid of modified nucleosides. Using an in vitro translation system the ability of this tRNA to read the 4 glycine codons (GGU, GGC, and GGG) was tested and it was shown to be as efficient as its normal, fully modified counterpart in the reading of all four codons. This result demonstrates that a tRNA devoid of modified nucleosides is able to efficiently sustain protein synthesis in vitro and, furthermore, that the normal modification pattern of the Mycoplasma glycine tRNA is not essential for the ability of this tRNA to read the glycine codons GGU and GGC effectively.
...
PMID:Codon reading properties of an unmodified transfer RNA. 222 50

In Mycoplasma hyopneumoniae, the single genes for 16S and 23S rRNAs are clustered in one operon from which the 5S rRNA gene is separated by more than 4 kbp. This operon, gene 2413 and gene X from M. hyopneumoniae and the 5' ends of both rRNA operons from M. capricolum were cloned and used for analysis of the following gene expression signals: promoters and terminators of the DNA-directed RNA polymerase, ribosomal binding sites of mRNA, and sites for processing of precursor rRNA. The analyses were performed by nuclease S1 protection experiments, the primer extension technique, and DNA sequencing. From these studies we conclude that putative promoter sequences in M. hyopneumoniae deviate significantly from those in Escherichia coli and Bacillus subtilis in having its -35 consensus sequence replaced by A-T rich sequences, whereas the characterized M. capricolum promoter resembles more closely a typical E. coli promoter. The other expression signals show sequences or structures similar to those found in other eubacteria, indicating related underlying principles.
...
PMID:Gene expression signals in Mycoplasma hyopneumoniae and Mycoplasma capricolum. 244 58

The single RNA operon of Mycoplasma pneumoniae was cloned into a lambda vector and subcloned into pBR322. This was carried out in order to enable the analysis of the transcription control regions of this operon. S1 nuclease mapping was used to locate the 5' ends of RNA transcripts synthesized from the operon. The 5' ends of the 23S, 16S, and a precursor RNA synthesized in vivo in M. pneumoniae were mapped on the DNA template. Preliminary in vitro transcription experiments using RNA polymerase of Escherichia coli led to the conclusion that E. coli recognizes one promoter in the 5' region of the M. pneumoniae rRNA operon. The startsite of the in vitro transcript seems to lie downstream from the 5' end of the M. pneumoniae precursor transcript. Preliminary sequencing of the 5' regions of the M. pneumoniae rRNA operon and of the M. capricolum rRNA B operon enabled their comparison to each other and to known sequences from other organisms.
...
PMID:Transcription control elements of the Mycoplasma pneumoniae rRNA operon. 244 63

RNA transcripts starting from the 5' end of the single Mycoplasma pneumoniae rRNA operon were analyzed by several methods. By primer extension analysis a start site was found 62 nucleotides upstream from the start site of the 16S rRNA. This site was preceded by a putative Pribnow box; however, a defined -35 recognition region was absent. The cloned rRNA operon was transcribed in vitro by using purified RNA polymerase of Escherichia coli. A single start site could be demonstrated within a few nucleotides of the start site found by primer extension analysis of M. pneumoniae transcripts. When fragments from the cloned operon were used as hybridization probes, S1 nuclease mapping yielded a single transcript extending approximately 193 nucleotides upstream from the 16S rRNA start site. The region surrounding this endpoint did not resemble any known promoter sequence. Dot blot hybridization of M. pneumoniae RNA to three oligonucleotides consisting of nucleotides -5 to -21, -38 to -54, and -112 to -132 (from the start of the 16S rRNA gene) indicated that most rRNA transcripts were processed at the stem site preceding the 16S rRNA gene. The majority of the longer precursor transcripts, extending beyond this point, did not extend further upstream to an oligonucleotide consisting of nucleotides -112 to -132. It was concluded that transcription of the rRNA operon of M. pneumoniae is initiated by a single promoter. The nucleotide sequence of the region is presented.
...
PMID:Promoter of the Mycoplasma pneumoniae rRNA operon. 283 65

A transfer RNA complete devoid of modified nucleosides was synthesized by in vitro transcription, and some of its properties in aminoacylation and protein synthesis in vitro were studied. For this purpose, a plasmid was constructed which contained a glycine tRNA gene from Mycoplasma mycoides under the promoter of the T7 RNA polymerase, as well as a BstNI restriction site at the 3'-end of the tRNA gene. Cleavage of plasmid DNA with BstNI followed by T7 RNA polymerase transcription in vitro yielded an RNA which was processed with M1 RNA, the catalytic subunit of ribonuclease P, to give a tRNA of mature length. The tRNA synthesized in this manner can be esterified with glycine in vitro, and the rate of aminoacylation is the same as when using the corresponding fully modified glycine tRNA from M. mycoides. Furthermore, in protein synthesis in vitro, the tRNA lacking modified nucleosides was essentially as efficient as the corresponding normal glycine tRNA. However, the Escherichia coli extract used in our protein-synthesizing system introduced one modification, pseudouridine, into the in vitro-synthesized tRNA, and it cannot be excluded that this modification has an essential role in protein synthesis.
...
PMID:Properties of a transfer RNA lacking modified nucleosides. 284 31

The 5' region of the rRNA operon, rrnA, of M. capricolum was cloned. Sequence analysis revealed two tRNA genes, tRNA(leu) and tRNA(lys), upstream to the promoter of the rRNA operon. The in vivo transcription start sites of the rRNA operon and of the tRNA genes were mapped. The same promoters used by M. capricolum RNA polymerase are also recognized by E. coli RNA polymerase both in vivo and in vitro. We find that high levels of ppGpp in E. coli, resulting from amino acid starvation or from spoT mutation, activate rather than repress the transcription of the mycoplasma rrnA operon.
...
PMID:Promoters of Mycoplasma capricolum ribosomal RNA operons: identical activities but different regulation in homologous and heterologous cells. 334 May 43

The effect of rifampin on five mollicutes (Spiroplasma citri, Spiroplasma melliferum, Spiroplasma apis, Acholeplasma laidlawii, and Mycoplasma mycoides) was compared with that on Escherichia coli. We found that, in contrast to wild-type E. coli, mollicutes were insensitive to rifampin. DNA-dependent RNA polymerases from S. melliferum and S. apis were purified to the stage where the enzymes were dependent on the addition of exogenous templates for activity. The enzymes were then tested for their sensitivity to rifampin. Spiroplasmal enzymes were at least 1,000 times less sensitive to rifampin than the corresponding E. coli enzyme. This result provides a molecular basis for the resistance of mollicutes to rifampin. The RNA polymerase of S. melliferum was further purified and its subunit composition was investigated. The RNA polymerase has one small and two large subunits. The structure of S. melliferum RNA polymerase therefore resembles that of the eubacterial enzymes in spite of its insensitivity to rifampin.
...
PMID:Probable insensitivity of mollicutes to rifampin and characterization of spiroplasmal DNA-dependent RNA polymerase. 351 81

DNA from Mycoplasma sp. Kid which was enriched for tRNA genes (containing about 10% tDNA) was transcribed by E. coli RNA polymerase. The RNA transcription product labeled with [(14)C]uridine was formed in good yield (70-fold net synthesis). After incubation of this [(14)C]uridine-labeled RNA with E. coli extracts, nucleotide analyses revealed that [(14)C]pseudouridine was formed. The experiments support the idea that the conversion of uridine to pseudouridine takes place at the macromolecular level. Furthermore, the conversion was shown to be specific for a uridine residue in tRNA-like material since neither [(14)C]polyuridylic acid nor the [(14)C]uridine-labeled RNA transcribed from lambda DNA served as substrate for the pseudouridine-forming enzyme(s).
...
PMID:In vitro biosynthesis of pseudouridine at the polynucleotide level by an enzyme extract from Escherichia coli. 494 84

Reich, Paul R. (National Institutes of Health, Bethesda, Md.), Norman L. Somerson, James A. Rose, and Sherman M. Weissman. Genetic relatedness among mycoplasmas as determined by nucleic acid homology. J. Bacteriol. 91:153-160. 1966.-A sensitive membrane filter method to detect nucleic acid homology was used to determine genetic relatedness among mycoplasma isolates. Deoxyribonucleic acid (DNA) was isolated from mycoplasmas and used as a primer for synthesis of tritium-labeled, complementary ribonucleic acid (RNA) by the enzyme RNA polymerase. DNA from each mycoplasma isolate tested was reacted separately with complementary RNA synthesized with homologous or heterologous DNA as primer. The quantity of DNA-RNA hybrids formed was assayed by the nitrocellulose membrane filter method. The amount of radioactivity bound to the membrane filter was used to measure the degree of homology between the nucleic acids. The three mycoplasma isolates from human oral cavities (DC 63, V2785, Botteicher) and the prototype strain PG21 placed in the Mycoplasma hominis type 1 group by gel diffusion and complement-fixation testing were investigated with this technique. Analysis of the data confirmed their immunological grouping with the M. hominis type 1 and their distinction from other human mycoplasmas. In contrast to the data from immunological studies, none of the four isolates tested appeared to be identical to any other. Preliminary experiments with DNA from four other mycoplasma isolates from tissue cultures inoculated with human material revealed them to be closely related, and possibly identical. The advantages of this nucleic acid homology technique for the study of relatedness among mycoplasmas are described.
...
PMID:Genetic relatedness among mycoplasmas as determined by nucleic acid homology. 590 90

1 2 3 4 Next >>