BioMed Central | Articles which cite: Dynamic evolution of selenocysteine utilization in bacteria: a balance between selenoprotein loss and evolution of selenocysteine from redox active cysteine residues.

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Dynamic evolution of selenocysteine utilization in bacteria: a balance between selenoprotein loss and evolution of selenocysteine from redox active cysteine residues.
Zhang Y, Romero H, Salinas G, Gladyshev VN
Genome Biol 2006, 7:R94
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PubMed Central articles that cite the above article:

1.	RNA-dependent conversion of phosphoserine forms selenocysteine in eukaryotes and archaea. Yuan J, Palioura S, Salazar JC, Su D, O'Donoghue P, Hohn MJ, Cardoso AM, Whitman WB, Söll D Proc Natl Acad Sci U S A 2006 Dec 12, 103:18923-7 [PubMed Central] [PubMed] [Related articles]
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4.	High content of proteins containing 21st and 22nd amino acids, selenocysteine and pyrrolysine, in a symbiotic deltaproteobacterium of gutless worm Olavius algarvensis. Zhang Y, Gladyshev VN Nucleic Acids Res 2007, 35:4952-63 [PubMed Central] [PubMed] [Related articles]
5.	Comparative genomic analyses of copper transporters and cuproproteomes reveal evolutionary dynamics of copper utilization and its link to oxygen. Ridge PG, Zhang Y, Gladyshev VN PLoS One 2008, 3:e1378 [PubMed Central] [PubMed] [Related articles]
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