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Items: 1 to 20 of 173

1.

Analysis of selenocysteine (Sec) tRNA([Ser]Sec) genes in Chinese hamsters.

Xu XM, Carlson BA, Kim LK, Lee BJ, Hatfield DL, Diamond AM.

Gene. 1999 Oct 18;239(1):49-53.

PMID:
10571033
2.

Overproduction of selenocysteine tRNA in Chinese hamster ovary cells following transfection of the mouse tRNA[Ser]Sec gene.

Moustafa ME, El-Saadani MA, Kandeel KM, Mansur DB, Lee BJ, Hatfield DL, Diamond AM.

RNA. 1998 Nov;4(11):1436-43.

3.

Analysis of the selenocysteine tRNA[Ser]Sec gene transcription in vitro using Xenopus oocyte extracts.

Park JM, Yang ES, Hatfield DL, Lee BJ.

Biochem Biophys Res Commun. 1996 Sep 4;226(1):231-6.

PMID:
8806619
4.

Selenium influences the turnover of selenocysteine tRNA([Ser]Sec) in Chinese hamster ovary cells.

Jameson RR, Carlson BA, Butz M, Esser K, Hatfield DL, Diamond AM.

J Nutr. 2002 Jul;132(7):1830-5.

5.
6.

Sequence and unusual 3' flanking region of the rat tRNA[Ser]Sec gene.

Kolker JD, Sharma J, Cruz R, Diamond AM.

Gene. 1995 Oct 27;164(2):375-6.

PMID:
7590363
7.

The zebrafish genome contains two distinct selenocysteine tRNA[Ser]sec genes.

Xu XM, Zhou X, Carlson BA, Kim LK, Huh TL, Lee BJ, Hatfield DL.

FEBS Lett. 1999 Jul 2;454(1-2):16-20.

8.

Variations in mitochondrial tRNA gene organization of reptiles as phylogenetic markers.

Kumazawa Y, Nishida M.

Mol Biol Evol. 1995 Sep;12(5):759-72.

PMID:
7476123
9.

Solution structure of selenocysteine-inserting tRNA(Sec) from Escherichia coli. Comparison with canonical tRNA(Ser).

Baron C, Westhof E, Böck A, Giegé R.

J Mol Biol. 1993 May 20;231(2):274-92.

PMID:
8510147
13.

Base modification pattern at the wobble position of Xenopus selenocysteine tRNA(Sec).

Sturchler C, Lescure A, Keith G, Carbon P, Krol A.

Nucleic Acids Res. 1994 Apr 25;22(8):1354-8.

14.

Selenocysteine synthesis in mammalia: an identity switch from tRNA(Ser) to tRNA(Sec).

Amberg R, Mizutani T, Wu XQ, Gross HJ.

J Mol Biol. 1996 Oct 18;263(1):8-19.

PMID:
8890909
15.

Eukaryotic selenocysteine inserting tRNA species support selenoprotein synthesis in Escherichia coli.

Baron C, Sturchler C, Wu XQ, Gross HJ, Krol A, Böck A.

Nucleic Acids Res. 1994 Jun 25;22(12):2228-33.

16.

Human transcription factor Sp3: genomic structure, identification of a processed pseudogene, and transcript analysis.

Moran KM, Crusio RH, Chan CH, Grekova MC, Richert JR.

Gene. 2004 Oct 27;341:235-47.

PMID:
15474306
17.

The murine genome contains one functional gene and two pseudogenes coding for the 16 kDa proteolipid subunit of vacuolar H(+)-ATPase.

Hayami K, Noumi T, Inoue H, Sun-Wada G, Yoshimizu T, Kanazawa H.

Gene. 2001 Aug 8;273(2):199-206.

PMID:
11595166
18.

Analysis of a conserved duplicated tRNA gene in the mitochondrial genome of blowflies.

Lessinger AC, Junqueira AC, Conte FF, Azeredo-Espin AM.

Gene. 2004 Sep 15;339:1-6.

PMID:
15363840
19.

Native bovine selenocysteine tRNA(Sec) secondary structure as probed by two plant single-strand-specific nucleases.

Gabryszuk J, Przykorska A, Monko M, Kuligowska E, Sturchler C, Krol A, Dirheimer G, Szarkowski JW, Keith G.

Gene. 1995 Aug 19;161(2):259-63.

PMID:
7665090
20.

Selenocysteine tRNAs as central components of selenoprotein biosynthesis in eukaryotes.

Park SI, Park JM, Chittum HS, Yang ES, Carlson BA, Lee BJ, Hatfield DL.

Biomed Environ Sci. 1997 Sep;10(2-3):116-24. Review.

PMID:
9315302

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