Gene/Protein
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Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Enzyme
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Query: UNIPROT:P01350 (
gastrin
)
9,683
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Out of more than 500 sequenced cytosolic tRNAs, there is only one with an unmodified adenosine in the wobble position (position 34). The reason for this rare occurrence of A34 is that it is mostly deaminated to inosine-34 (I34). I34 is a common constituent in the wobble position of tRNAs and has a decoding capacity different from that of A34. We have isolated a mutant (proL207) of Salmonella typhimurium, in which the wobble nucleoside
G34
has been replaced by an unmodified A in tRNA(Pro)(GGG), which is the only tRNA that normally reads the
CCC
codon. Thus, this mutant apparently has no tRNA that is considered cognate for the codon
CCC
. Despite this, the mutant grows normally. As expected, Pro-tRNA selection at the
CCC
codon in the A-site in a mutant deleted for the proL gene, which encodes the tRNA(Pro)(GGG), was severely reduced. However, in comparison this rate of selection was only slightly reduced in the proL207 mutant with its A34 containing tRNA(Pro)(AGG) suggesting that this tRNA reads
CCC
. Moreover, measurements of the interference by a tRNA residing in the P-site on the apparent termination efficiency at the A-site indicated that indeed the A34 containing tRNA reads the
CCC
codon. We conclude that A34 in a cytosolic tRNA is not detrimental to the cell and that the mutant tRNA(Pro)(AGG) is able to read the
CCC
codon like its wild-type counterpart tRNA(Pro)(GGG). We suggest that the decoding of the
CCC
codon by a 5'-AGG-3' anticodon occurs by a wobble base-pair between a protonated A34 and a C in the mRNA.
...
PMID:A cytosolic tRNA with an unmodified adenosine in the wobble position reads a codon ending with the non-complementary nucleoside cytidine. 1195 4
According to Crick's wobble hypothesis, tRNAs with uridine at the wobble position (position 34) recognize A- and G-, but not U- or C-ending codons. However, U in the wobble position is almost always modified, and Salmonella enterica tRNAs containing the modified nucleoside uridine-5-oxyacetic acid (cmo(5)U34) at this position are predicted to recognize U- (but not C-) ending codons, in addition to A- and G-ending codons. We have constructed a set of S. enterica mutants with only the cmo(5)U-containing tRNA left to read all four codons in the proline, alanine, valine, and threonine family codon boxes. From the phenotypes of these mutants, we deduce that the proline, alanine, and valine tRNAs containing cmo(5)U read all four codons including the C-ending codons, while the corresponding threonine tRNA does not. A cmoB mutation, leading to cmo(5)U deficiency in tRNA, was introduced. Monitoring A-site selection rates in vivo revealed that the presence of cmo(5)U34 stimulated the reading of CCU and
CCC
(Pro), GCU (Ala), and GUC (Val) codons. Unexpectedly, cmo(5)U is critical for efficient decoding of G-ending Pro, Ala, and Val codons. Apparently, whereas
G34
pairs with U in mRNA, the reverse pairing (U34-G) requires a modification of U34.
...
PMID:The wobble hypothesis revisited: uridine-5-oxyacetic acid is critical for reading of G-ending codons. 1794 42
