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Query: EC:6.3.4.6 (
urease
)
7,490
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Molecular cloning and sequencing showed that Mycoplasma gallisepticum, like Mycoplasma capricolum, contains both tRNA(
UCA
) and tRNA(
CCA
) genes, while Mycoplasma pneumoniae and Mycoplasma genitalium each appear to have only a tRNA(
UCA
) gene. Therefore, these mycoplasma species contain a tRNA with the anticodon
UCA
that can translate both UGA and UGG codons.
...
PMID:Evidence that UGA is read as a tryptophan codon rather than as a stop codon by Mycoplasma pneumoniae, Mycoplasma genitalium, and Mycoplasma gallisepticum. 210 12
Mycoplasma capricolum uses two tryptophan codons, the "universal" nonsense codon UGA and the universal codon UGG. The bacterium contains two tryptophan tRNAs, one with anticodon
UCA
, (U: 2'-O-methyl U derivative), and the other with
CCA
(5'-C: partially 2'-O-methylated). tRNAUCA would translate codons UGA and probably UGG by wobbling. tRNACCA is much less charged by tryptophan in the cells than tRNAUCA, and the intracellular amount of tRNACCA is 5-10 times lower than that of tRNAUCA. The genes for these two tRNAs are separated by a terminator-like structure in a single operon. In vitro transcription experiments suggest that the predominance of tRNAUCA over tRNACCA results from the attenuation of transcription by this terminator-like structure.
...
PMID:Evolutionary dynamics of tryptophan tRNAs in Mycoplasma capricolum. 340 3
Mycoplasma capricolum was previously found to use UGA instead of UGG as its codon for tryptophan and to contain 75% A + T in its DNA. The codon change could have been due to mutational pressure to replace C + G by A + T, resulting in the replacement of UGA stop codons by UAA, change of the anticodon in tryptophan tRNA from
CCA
to
UCA
, and replacement of UGG tryptophan codons by UGA. None of these changes should have been deleterious.
...
PMID:A change in the genetic code in Mycoplasma capricolum. 393 37
We have cloned and sequenced the wild-type and suppressor alleles of the S. pombe sup8 tRNA gene. The wild-type allele has a leucine UAA anticodon and the suppressor (sup8-e) carries the opal suppressor anticodon
UCA
. The gene has a 16 base pair intervening sequence that, in the RNA, is predicted to form a secondary structure which involves base pairing to the 5', rather than the usual 3' side of the 5' splice site. When incubated in Saccharomyces cerevisiae cell-free extracts both alleles are efficiently transcribed, the 5' leader and 3' trailer sequences are removed and
CCA
is added to the 3' processed end; however, the intervening sequence is not excised. This finding implies that the structural requirements of the splicing endonucleases in the two yeasts have diverged. No other tRNA genes with related sequences were detected in S. pombe DNA by hybridization, suggesting that other UUA isoacceptors may be structurally dissimilar to sup8 or that the UUA codon may be decoded by a UUG leucine isoacceptor.
...
PMID:The sup8 tRNALeu gene of Schizosaccharomyces pombe has an unusual intervening sequence and reduced pairing in the anticodon stem. 659 38
The sequence and presumptive structure of a tRNA trp gene from Paramecium tetraaurelia are given. The gene is located 1,500 bp downstream from the 13S rRNA gene, in about the middle of the genome. Paramecium tRNA trp has a completely normal TpsiC loop and stem, however its anticodon (
UCA
) constitutes an alteration in the "universal" genetic code, similar to those seen in fungal and mammalian mitochondria. Most features of Paramecium tRNA trp resemble other mitochondrial counterparts; however, its sequence is more homologous to the "unaltered" tRNA trp (anticodon
CCA
) from E. coli. Paramecium mitochondria may resemble a primitive stage of organelle evolution.
...
PMID:Altered genetic code in Paramecium mitochondria: possible evolutionary trends. 696 Feb 26
The
CCA
trinucleotide is a universally conserved feature of the 3' end of tRNAs, where it serves as the site of amino acid attachment. Despite this extreme conservation, we have isolated functional mutants of tRNA(His) and tRNA(Val1) with altered
CCA
ends. A mutant that leads to de-repression of the histidine biosynthetic operon in Salmonella typhimurium has been characterized and found to have the
CCA
end of the sole tRNA(His) species mutated to
UCA
. However, constructed mutants of tRNA(His) with ACA or GCA ends appeared to be nonfunctional in vivo. Mutants of Escherichia coli tRNA(Val1) with GCA or ACA ends were isolated on the basis of their ability to promote frameshifting at a specific sequence. These same tRNA(Val1) mutants also caused read-through of stop codons that were one, or in some instances two, codons downstream of the valine codon decoded by the mutant tRNA. A startling implication of these data is that disruption of interactions between the
CCA
end of the tRNA and the large ribosomal subunit promotes these aberrant codon-anticodon interactions on the small ribosomal subunit.
...
PMID:Functional tRNAs with altered 3' ends. 768 77
Peptidyl transfer is a key step in the process of protein biosynthesis. To examine the role of the universal
CCA
terminal sequence of tRNA in the process of peptidyl transfer, various mutant transcripts of Escherichia coli valine tRNA were constructed. Peptidyl transferase activity, monitored by the 'fragment reaction' with a slight modification, was decreased by mutation at any one base of
CCA
. The effect of mutation was moderate in the
UCA
, CUA and CCG mutants. Replacement of A76 by a pyrimidine nucleotide, or replacement of either C74 or C75 by a purine nucleotide caused a marked decrease in the activity. These findings suggested that the universal
CCA
terminus of tRNA makes a functional interaction with ribosomal RNA by base-pairing.
...
PMID:The role of the CCA sequence of tRNA in the peptidyl transfer reaction. 792 46
Intron-encoded U17 RNA is a member of the H/ACA box class of small nucleolar RNAs (snoRNAs) involved in ribosomal RNA (rRNA) maturation. U17 snoRNA shows typical characteristics of guide RNAs, which specify sites of pseudouridylation on the precursor rRNA (pre-rRNA). However, in spite of the presence of H and ACA boxes and short regions complementary to the pre-rRNA, its secondary structure does not show any evident pseudouridylation pocket. Moreover, its length is larger than the typical one of snoRNAs and it shows a more complex secondary structure compared to the canonical hairpin-hinge-hairpin-tail architecture. Greater knowledge of eukaryotic U17 snoRNA structure is needed to understand its precise function. Comparative molecular studies of this snoRNA with different vertebrates is still limited to a few cases. With the aim of increasing our understanding of the U17 snoRNA secondary structure, we cloned the U17 snoRNA coding sequence from 10 additional vertebrate taxa. On the basis of structure homology derived from sequence comparison and thermodynamic prediction, we propose a vertebrate consensus secondary structure and novel conserved sequence boxes for U17 snoRNA. Host gene localization of U17 coding sequence and its ability to serve as a guide sequence for RNA/RNA interaction has been evolutionarily traced from fish to mammals. It is interesting to note that turtle U17 snoRNAs show a noncanonical ACA box, mainly consisting in the GCA box. Microinjections in X. laevis oocytes of in vitro synthesized turtle transcripts containing the U17 RNA sequence which have canonical ACA, wild-type GCA, and mutated
CCA
and
UCA
boxes resulted in efficient production of mature U17 snoRNA.
...
PMID:Comparative structure analysis of vertebrate U17 small nucleolar RNA (snoRNA). 1182 10
Kinetoplastids encode a single nuclear tryptophanyl tRNA that contains a
CCA
anticodon able to decode the UGG codons used in cytoplasmic protein synthesis but cannot decode the mitochondrial UGA codons. Following mitochondrial import, this problem is circumvented in Trypanosoma brucei by specifically editing the tRNA(Trp) anticodon to
UCA
, which can now decode the predominant mitochondrial UGA tryptophan codons. This tRNA also undergoes an unusual thiolation at position 33 of the anticodon loop, the only known modification at U33 in any tRNA. In other organisms, tRNA thiolation is mediated by the cysteine desulfurase, Nfs1 (IscS). However, T. brucei encodes two Nfs homologues, one cytoplasmic and the other mitochondrial. We show by a combination of RNA interference and Northern and Western analyses that the mitochondria-targeted TbNfs, and not TbNfs-like protein, is essential for thiolation of both cytosolic and mitochondrial tRNAs. Given the exclusive mitochondrial localization of TbNfs, how it mediates thiolation in the cytoplasm remains unclear. Furthermore, thiolation specifically affects thiolated tRNA stability in the cytoplasm but more surprisingly acts as a negative determinant for the essential C to U editing in T. brucei. This provides a first line of evidence for mitochondrial C to U editing regulation in this system.
...
PMID:Thiolation controls cytoplasmic tRNA stability and acts as a negative determinant for tRNA editing in mitochondria. 1957 16
Understanding of codon usage bias of Fritillaria cirrhosa can provide theoretical basis for heterologous biosynthesis of F. cirrhosa alkaloids by genetic engineering technology. A total of 9 843 full length coding sequences (CDS) from the F. cirrhosa transcriptome data were used for the analysis of codon usage bias. The GC and GC3s contents, effective number of codons(ENC) and relative synonymous codon usage (RSCU) were calculated using the CodonW software. The results show that the codon usage bias value is low in the CDS of F. cirrhosa. A total of 15 codons, including UUG, CUU, AUU, GUU,
UCA
, CCU,
CCA
, ACU, ACA, GCA, UAU, CAU, AAU, AGA and GGA, were identified as optimal codons in F. cirrhosa. The optimal codons generally end with A/T at the third codon position. By the transcriptome annotation, we found 26 CDSs possibly involved in the biosynthesis of alkaloids in the F. cirrhosa. The proportion of rare codons of Escherichia coli and Saccharomyces cerevisiae are low in these CDSs. We also proposed a method for the codonoptimization in these target genes. Our work lays the foundation for further study on the biosynthesis of alkaloids of the F. cirrhosa in heterologous species.
...
PMID:[Analysis of codon usage bias based on Fritillaria cirrhosa transcriptome]. 2890 Nov 1
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