Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0162871 (abdominal aortic aneurysm)
 8,664 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of the plasmid gene cat-86 is induced in Bacillus subtilis by two antibiotics, chloramphenicol and the nucleoside antibiotic amicetin. We proposed that induction by either drug causes the destabilization of a stem-loop structure in cat-86 mRNA that sequesters the ribosome-binding site for the cat coding sequence. The destabilization event frees the ribosome-binding site, permitting the initiation of translation of cat-86 mRNA. cat-86 induction is due to the stalling of a ribosome in a leader region of cat-86 mRNA, which is located 5' to the RNA stem-loop structure. A stalled ribosome that is active in cat-86 induction has its aminoacyl site occupied by leader codon 6. To test the hypothesis that a leader site 5' to codon 6 permits a ribosome to stall in the presence of an inducing antibiotic, we inserted an extra codon between leader codons 5 and 6. This insertion blocked induction, which was then restored by the deletion of leader codon 6. Thus, induction seems to require the maintenance of a precise spatial relationship between an upstream leader site(s) and leader codon 6. Mutations in the ribosome-binding site for the cat-86 leader, RBS-2, which decreased its strength of binding to 16S rRNA, prevented induction. In contrast, mutations that significantly altered the sequence of RBS-2 but increased its strength of binding to 16S rRNA did not block induction by either chloramphenicol or amicetin. We therefore suspected that the proposed leader site that permitted drug-mediated stalling was located between RBS-2 and leader codon 6. This region of the cat-86 leader contains an eight-nucleotide sequence (conserved region I) that is largely conserved among all known cat leaders. The codon immediately 5' to conserved region I differs, however, between amicetin-inducible and amicetin-noninducible cat genes. In amicetin-inducible cat genes such as cat-86, the codon 5' to conserved region I is a valine codon, GTG. The same codon in amicetin-noninducible cat genes is a lysine codon, either AAA or AAG. When the GTG codon immediately 5' to conserved region I in cat-86 was changed to AAA, amicetin was no longer active in cat-86 induction, but chloramphenicol induction was unaffected by the mutation. The potential role of the GTG codon in amicetin induction is discussed.
 ...
PMID:Site in the cat-86 regulatory leader that permits amicetin to induce expression of the gene. 313 55

The constraints on nucleotide sequences of highly and weakly expressed genes from Escherichia coli have been analysed and compared. Differences in synonymous codon spectra in highly and weakly expressed genes lead to different frequencies of nucleotides (in the first and third codon positions) and dinucleotides in the two groups of genes. It has been found that the choice of synonymous codons in highly expressed genes depends on the nucleotides adjacent to the codon. For example, lysine is preferably encoded by the AAA codon if guanosine is 3' to the lysine codon (AAA-G, P less than 10(-9)). And, on the contrary, AAG is used more often than AAA (P less than 0.001) if cytidine is 3' adjacent to lysine. Guanosine occurs more frequently than adenosine 5' to all the lysine codons (AAR, P less than 10(-5), i.e. NNG codons are preferred over the synonymous NNA codons 5' to the positions of lysine in the genes. The context effect was observed in nonsense and missense suppression experiments. Therefore, a hypothesis has been suggested that the efficiency of translation of some codons (for which the constraints on the adjacent nucleotides were found) can be modulated by the codon context. The rules for preferable synonymous codon choice in highly expressed genes depending on the nucleotides surrounding the codon are presented. These rules can be used in the chemical synthesis of genes designed for expression in E. coli.
 ...
PMID:Constraints on codon context in Escherichia coli genes. Their possible role in modulating the efficiency of translation. 352 48

The nucleotide sequence of a 3849-bp fragment of starfish mitochondrial genome was determined. The genes for NADH dehydrogenase subunits 3, 4, 5, and COIII, and three kinds of (tRNA(UCNSer), tRNA(His), and tRNA(AGYSer) were identified by comparing with the genes of other animal mitochondria so far elucidated. The gene arrangement of starfish mitochondrial genome was different from those of vertebrate and insect mitochondrial genomes. Comparison of the protein-encoding nucleotide sequences of starfish mitochondria with those of other animal mitochondria suggested a unique genetic code in starfish mitochondrial genome; both AGA and AGG (arginine in the universal code) code for serine, AUA (isoleucine in the universal code but methionine in most mitochondrial systems) for isoleucine, and AAA (lysine) for asparagine. It was also inferred that these AGA and AGG codons are decoded by serine tRNA(AGYSer) originally corresponding to AGC and AGU codons. This situation is similar to the case of Drosophila mitochondrial genome. Variations in the use of AGA and AGG codons were discussed on the basis of the evolution of animals and decoding capacity of various tRNA(AGYSer) species possessing different sizes of the dihydrouridine (D) arm.
 ...
PMID:Unusual genetic codes and a novel gene structure for tRNA(AGYSer) in starfish mitochondrial DNA. 367 36

The site-specific function in translation of several naturally occurring mammalian transfer RNAs has been studied in a series of investigations with some similarities to studies in other laboratories of tRNAs in suppression. Equal amounts of aminoacyl-tRNA isoacceptors with contrasting isotopes were added in pairs to reticulocyte lysates and allowed to incorporate their amino acids into rabbit globin. Rates of incorporation from unlimiting amounts of each isoacceptor into the corresponding amino-acid-containing sites were determined. The tRNAs of each isoacceptor pair differed as to post-transcriptional base modifications. The natural occurrence of these isoacceptors can be correlated with rates of cellular division, with more rapidly dividing and neoplastic cells containing hypomodified tRNA. The overall incorporation of lysine into globin from a fully modified tRNALys that decodes AAG is faster by 25 to 30% than from the corresponding hypomodified tRNALys. There is considerable scatter in values for incorporation ratios at different lysine-containing sites, with the hypomodified isoacceptor even being preferred at one site. The AAG decoding isoacceptors are capable of translating AAA although much more slowly than AAG. In translating AAA, in contrast to translating AAG, the hypomodified tRNALys isoacceptor is preferred. A Y base-deficient hypomodified tRNAPhe isoacceptor found only in some kinds of rapidly dividing tumor cells donates its phenylalanine preferentially to globin in competition with the fully modified Y-containing tRNAPhe of liver by 15 to 17%. There is a considerable range of incorporation ratios at the different phenylalanine-containing sites of the globin subunits. No correlation can be made between the isoacceptor preferred and the phenylalanine codon being translated. The incorporation of histidine from a fully modified tRNAHis-containing Q base in its anticodon, compared with that from the hypomodified counterpart isoacceptor that lacks Q base and that occurs in rapidly dividing cells, showed no difference in their ability to incorporate overall or into individual histidine-containing sites. There is little evidence that adjacent bases or codons in messenger RNA affect the tRNAs preferred in the translation of most sites. A striking pattern of tRNA preference was observed in three cases in which there are tandem codons, with the same codon appearing twice in succession.(ABSTRACT TRUNCATED AT 400 WORDS)
 ...
PMID:Effects of post-transcriptional base modifications on the site-specific function of transfer RNA in eukaryote translation. 378 86

DNA isolated from cell line Mel Swift, a human melanoma cell line, transforms NIH3T3 cells. Southern blot analysis of DNA from secondary foci revealed conserved 8.8- and 7.8-kilobase EcoRI fragments which hybridized with a human repetitive sequence clone, blur 8. The activated transforming gene was identified as N-ras, and the 8.8-kilobase EcoRI fragment from a secondary transformant was cloned. Synthetic 17-mer oligonucleotides which spanned either the normal codon 61 (CAA) or a mutant codon 61 (AAA) were used for hybridization. Cloned N-ras from melanoma cell line Mel Swift hybridized to the mutant (AAA) oligonucleotide. From this we predicted a glutamine-to-lysine substitution in amino acid 61, a change confirmed by conventional sequencing of the first and second exons of N-ras from cell line Mel Swift. Transfection experiments showed that only those recombinant clones with the mutation in position 61 were biologically active.
 ...
PMID:Activation of N-ras in a human melanoma cell line. 388 33

The objective of this study was to examine the effects of dietary additions of analogues of large neutral amino acids (LNAA), previously shown to inhibit entry of natural LNAA into brain, on food intake, growth and tissue concentrations of specific amino acids in young rats. A mixture of norleucine, norvaline, alpha-aminophenylacetate and alpha-aminooctanote (atypical amino acids, AAA) markedly depressed food intake and growth of rats fed a 6% protein diet (LP) for 10 d but not of rats fed a 50% protein diet (HP). Except in rats fed HP, dietary AAA usually decreased concentrations of LNAA more than of small neutral amino acids (SNAA) or lysine, especially in brain. Concentrations of LNAA, especially in brain and muscle of rats adapted to LP or HP meals and fed one LP-AAA meal were lower than in similar rats fed one LP meal without AAA; feeding an HP-AAA meal to such rats generally prevented or lessened these changes. AAA-induced changes in SNAA and lysine were usually small in meal-fed rats. When AAA induced decreases in LNAA, the branched-chain amino acids were usually most affected; valine and isoleucine sometimes were undetected in brain and muscle. Serotonin and dopamine concentrations were not low in brain despite low levels of tryptophan and tyrosine. Changes in tissue LNAA concentrations would appear to reflect in part competition by large neutral AAA for transport of natural LNAA from the blood.
 ...
PMID:Food intake, growth and tissue amino acids in rats fed acid analogues. 403 66

The H-ras gene of the BALB murine sarcoma virus (BALB-MSV) was placed under the transcriptional control of the tightly regulated PL promoter of bacteriophage lambda in the expression vectors pEV-vrf-1 and pRC23. Upon derepression of the PL promoter, large amounts (10-20% of total cellular protein) of the H-ras gene product p21 are synthesized in Escherichia coli. We constructed three H-ras gene expression vectors, designated pJCL-H5, pJCL-E30, and pJCL-33. pJCL-H5 directs the synthesis of p21, a fusion protein whose four amino-terminal residues are replaced by eight amino acids coded for by plasmid sequences. The 13 5' coding nucleotides of the BALB-MSV H-ras gene missing in pJCL-H5 were regenerated in pJCL-E30 by inserting a pair of complementary synthetic oligodeoxynucleotides. As a result, pJCL-E30 encodes a p21 protein, p21T, of sequence identical to that of the transforming p21 protein of BALB-MSV. pJCL-33 is a derivative of pJCL-E30 in which the 12th codon, AAA, a lysine codon, was replaced by GGA, a glycine codon. Thus, pJCL-33 directs the synthesis of a p21 protein, p21N, whose sequence corresponds to that of a normal cellular p21 protein. We report the purification of H-ras p21 proteins to apparent homogeneity by a method involving solubilization with chaotropic agents followed by reverse-phase high-performance liquid chromatography.
 ...
PMID:Expression of normal and transforming H-ras genes in Escherichia coli and purification of their encoded p21 proteins. 608 91

Balbiani rings in Chironomus are large puffs on salivary gland polytene chromosomes that contain functionally related, but nonidentical genes that code for tissue-specific secretory polypeptides. In situ hybridization was used to select a recombinant plasmid (pCtBR1-1) that contained an insert of Chironomus tentans genomic DNA that originated from Balbiani ring 1. Mapping with restriction endonucleases demonstrated that the insert was 385 bp (base pair) and it contained duplicate clusters of certain cleavage sites about 250 bp apart. This repeat was shown to be part of tandem sequence arrays in the genome by hybridization of radioactive pCtBR1-1 to nitrocellulose blots containing limit and partial restriction endonuclease digests of nuclear DNA. Subsequent sequence analysis of the cloned DNA confirmed the presence of one complete copy of a 246-bp repeat comprised of a 114-bp internally nonrepeating segment and a 132-bp segment containing four 33-bp subrepeats. The subrepeats apparently evolved from a simple 9-bp sequence encoding a consensus tripeptide (Lys-Pro-Ser) in which the first two codons (AAA-CCA) were highly conserved at the nucleotide level. Comparisons between intragenic and interspecific (BRb in Chironomus thummi) copies of corresponding sequences revealed that, during the evolution of these tandemly repeated protein-coding sequences, internally nonrepeated segments were highly conserved and most likely became interspersed by variable segments containing subrepeats that arose from reduplication and divergence of 9-bp repeats.
 ...
PMID:Repeated nucleotide sequence arrays in Balbiani ring 1 of Chironomus tentans contain internally nonrepeating and subrepeating elements. 630 53

The tRNALys population from tissue culture cells contains several isoaccepting species which are not present in the tRNALys population from tissue sources. These isoacceptors were isolated from mouse LM cells and tested for their coding properties in ribosomal binding assays and their ability to incorporate lysine into protein in a reticulocyte lysate. tRNALys5A and tRNALys6 eluted in the area of tRNALys5. All three species coded preferentially for AAA and bound with equal efficiency. tRNALys1, tRNALys3, tRNALys4, and tRNALys6 all transferred lysine into protein at a slower rate than tRNALys2 and tRNALys5, which are the native species. Several purified growth factors were tested for their ability to affect the levels of tRNALys4, a tRNA possibly associated with cell division. When Balb/c 3T3 cells were grown in medium containing plasma instead of serum, there was a decrease in tRNALys2, tRNALys3, tRNALys4 and an increase in tRNALys5 and tRNALys6. The addition of either FGF or PDGF returned the tRNALys profile to normal. The extent of the tRNALys changes depended upon the concentration of growth factor added. FGF was able to cause a 35% decrease in the tRNALys5 peak with a corresponding increase in tRNALys2 within 1 h of the addition of the factor. These data suggest that competence factors have the ability to stimulate the modification of specific tRNALys isoacceptors.
 ...
PMID:The effects of growth factors on tRNALys modification. 634 71

Eleven isoaccepting lysine tRNAs from mammalian sources are demonstrable by RPC-5 chromatography and polyacrylamide gel electrophoresis. The appearance and amounts of these isoacceptors varies with the source and growth state of cells. One isoacceptor, tRNALys6, observed in preparations of tRNA from some virus-transformed cells in culture, has been characterized by determining functional properties, cellular location, and its nucleotide sequence. tRNALys6 responds primarily to the lysine codon AAA, but it is not used efficiently in a wheat germ translational system in vitro. Compared with lysine isoacceptors 1, 2, 4, 5a, and 5, [3H]lysine appears in vivo in tRNALys6 with a delay of about 3 h. This delay may in part be a result of a less functional tRNA, but a compartmented state of tRNALys6 also appears to be important. tRNALys6 is associated with mitoplasts prepared from KA31 fibroblasts. The nucleotide sequence of tRNALys6 was determined by rapid postlabeling procedures involving limited hydrolysis in formamide, 32P-labeling of 5' ends of fragments with polynucleotide kinase, separation of the nested set of fragments in polyacrylamide denaturing gels, release of 5'-labeled nucleotides with RNase T2, and identification of the released nucleotides by chromatography on PEI cellulose. Confirmation of the positions of major nucleotides was done by using limited digestions by RNases of tRNALys6 labeled with 32P on the 3' terminus in a gel readout procedure. The nucleotide sequence of tRNALys6 differs from that of cytoplasmic lysine tRNAs and mammalian mitochondrial lysine tRNAs. It contains U*, an unidentified modified uridine occurring in the anticodon of some mitochondrial tRNAs. tRNALys6 appears to occur in very limited amounts, or not at all, in most cells unless stressed, but when present it is associated with mitochondria, although it is probably coded in the nucleus.
 ...
PMID:Perturbation of the mitochondrial lysine tRNA population by virus-induced transformation or stress of mammalian cells: functional properties and nucleotide sequence of a mitochondrially associated lysine tRNA. 634 72


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>