ライフサイエンスコーパス: Ser-tRNA

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1 urine at position 33 (G33) in the C.albicans Ser-tRNA(CAG) anticodon loop, which replaces a conserved

2 PSTK binds both Ser-tRNA(Sec) and tRNA(Sec) with high affinity (K(d) val

3 resulted in phosphorylation of the chimeric Ser-tRNA.

4 , genome-encoded editing proteins that clear Ser-tRNA(Ala).

5 hosphoseryl-tRNA(Sec) kinase (PSTK) converts Ser-tRNA(Sec) to Sep-tRNA(Sec).

6 a, the selenocysteine synthase SelA converts Ser-tRNA(Sec), formed by seryl-tRNA synthetase, to Sec-t

7 nd tRNA(Ser) species, PSTK must discriminate Ser-tRNA(Sec) from Ser-tRNA(Ser).

8 inetics of Sep-tRNA(Sec) formation (K(m) for Ser-tRNA(Sec) of 40 nM and ATP of 2.6 mM).

9 cteria, but the mechanism of conversion from Ser-tRNA(Sec) remained unresolved for archaea and eukary

10 s, PSTK must discriminate Ser-tRNA(Sec) from Ser-tRNA(Ser).

11 e acylates tRNA(Sec) with serine to generate Ser-tRNA(Sec).

12 eine (C182 in Escherichia coli) to hydrolyze Ser-tRNA(Thr).

13 ding activity that also generates mischarged Ser-tRNA(Thr).

14 Additionally, the seryl moiety of Ser-tRNA(Sec) is not required for enzyme recognition, as

15 -tRNA synthetase (SerRS), phosphorylation of Ser-tRNA(Sec) by O-phosphoseryl-tRNA(Sec) kinase (PSTK),

16 rranged to collaboratively interact with one Ser-tRNA(Sec).

17 The enzyme phosphorylates Ser-tRNA(Sec) to produce O-phosphoseryl-tRNA(Sec) (Sep-t

18 s, O-phosphoseryl-tRNA kinase phosphorylates Ser-tRNA to form the intermediate which is then modified

19 seryl-tRNA(Sec) kinase (PSTK) phosphorylates Ser-tRNA(Sec) to produce the O-phosphoseryl-tRNA(Sec) (S

20 xt of missense suppression by Cys-tRNA(Pro), Ser-tRNA(Thr), Glu-tRNA(Gln), and Asp-tRNA(Asn).

21 selectively editing the misacylated species Ser-tRNA(Thr).

22 on both the origin of the novel Candida spp. Ser-tRNA(CAG), which has mediated CTG reassignment, and

23 Ambiguous CTG decoding by the Ser-tRNA(CAG) combined with biased AT pressure forced th

24 itro showed that air oxidation increased the Ser-tRNA(Thr) level in the presence of elongation factor

25 170 million years ago, but the origin of the Ser-tRNA(CAG) is more ancient, implying that the ancestr

26 G codon was lost after the appearance of the Ser-tRNA(CAG).

27 the C. albicans genome demonstrate that the Ser-tRNA(CAG) is derived from a serine and not a leucine

28 182 residue critical for editing, leading to Ser-tRNA(Thr) formation and protein mistranslation that

29 Hydrogen peroxide oxidizes C182, leading to Ser-tRNA(Thr) production and mistranslation of threonine

30 k deacylases that cleave Gly-tRNA, Ala-tRNA, Ser-tRNA, Pro-tRNA, and Met-tRNA.

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