. (2002). 22nd Amino Acid IdentifiedChemical and Engineering News. 80 (21): pag.: 13 Internetpagina: on discovery of pyrrolysine geraadpleegd op 28 september 2015
Bing Hao, Gong, Ferguson, James, Krzycki, Chan. (2002). A New UAG-Encoded Residue in the Structure of a Methanogen MethyltransferaseScience. 296 (5572): pag.: 1462–1466DOI:10.1126/science.1069556 PubMed: 12029132
J.A. Soares, L. Zhang, R.L. Pitsch, N.M. Kleinholz, R.B. Jones, J.J. Wolff, J. Amster, K.B. Green-Church, J.A. Krzycki. (2005). The residue mass of L-pyrrolysine in three distinct methylamine methyltransferasesThe Journal of Biological Chemistry. 280 (44): pag.: 36962–36969DOI:10.1074/jbc.M506402200 Internetpagina: L-pyrrolysine
Marsha A. Gaston, Zhang, Green-Church, Krzycki. (2011). The complete biosynthesis of the genetically encoded amino acid pyrrolysine from lysineNature. 471 (7340): pag.: 647–650DOI:10.1038/nature09918 PubMed: 21455182
g. Srinivasan, C.M. James, J.A. Krzycki. (2002-05-24). Pyrrolysine encoded by UAG in Archaea: charging of a UAG-decoding specialized tRNAScience. 296 (5572): pag.: 1459–1462DOI:10.1126/science.1069588 PubMed: 12029131
M. Rother, J.A.Krzycki. (2010). Selenocysteine, pyrrolysine, and the unique energy metabolism of methanogenic archaeaArchaea. 453642pag.: 1DOI:10.1155/2010/453642 PubMed: 20847933
Théobald-Dietrich, Giegé, Rudinger-Thirion (2005). Evidence for the existence in mRNAs of a hairpin element responsible for ribosome dependent pyrrolysine insertion into proteinsBiochimie. 87 (9-10): pag.: 813–917DOI:10.1016/j.biochi.2005.03.006 PubMed: 16164991
B. Hao, g. Zhao, P.T. Kang, J.A. Soares, T.K. Ferguson, J. Gallucci, J.A. Krzycki, M.K. Chan. (2004). Reactivity and chemical synthesis of L-pyrrolysine- the 22(nd) genetically encoded amino acidChem.Biol.. 11 (9): pag.: 1317–1324DOI:10.1016/j.chembiol.2004.07.011 PubMed: 15380192
W.T. Li, A. Mahapatra, D.G. Longstaff, J. Bechtel, G. Zhao, P.T. Kang, M.K. Chan, J.A. Krzycki. (2009). Specificity of pyrrolysyl-tRNA synthetase for pyrrolysine and pyrrolysine analogsJ.Mol.Biol.. 385 (4): pag.: 1156–1164DOI:10.1016/j.jmb.2008.11.032 PubMed: 19063902
T. Fekner, X. Li, M.M. Lee, M.K. Chan. (2009). A pyrrolysine analogue for protein click chemistryAngew.Chem.Int.Ed.Engl.. 48 (9): pag.: 1633–1635DOI:10.1002/anie.200805420 PubMed: 19156778
P.R. Chen, D. Groff, J. Guo, W. Ou, S. Cellitti, B.H. Geierstanger, P.G. Schultz. (2009). A facile system for encoding unnatural amino acids in mammalian cellsAngew.Chem.Int.Ed.Engl.. 48 (22): pag.: 4052–4055DOI:10.1002/anie.200900683 PubMed: 19378306
D.G. Longstaff, R.C. Larue, J.E. Faust, A. Mahapatra, L. Zhang, K.B. Green-Church, J.A. Krzycki. (2007). A natural genetic code expansion cassette enables transmissible biosynthesis and genetic encoding of pyrrolysineProc.Natl.Acad.Sci.USA. 104 (3): pag.: 1021–1026DOI:10.1073/pnas.0610294104 PubMed: 17204561
Y. Zhang, P.V. Baranov, J.F. Atkins, V.N. Gladyshev. (2005). Pyrrolysine and selenocysteine use dissimilar decoding strategiesJ.Biol.Chem.. 280 (21): pag.: 20740–20751DOI:10.1074/jbc.M501458200
Y. Zhang, V.N. Gladyshev. (2007). High content of proteins containing 21st and 22nd amino acids, selenocysteine and pyrrolysine, in a symbiotic deltaproteobacterium of gutless worm Olavius algarvensisNucleic Acids Research. 35 (15): pag.: 4952–4963DOI:10.1093/nar/gkm514
A. Ambrogelly, S. Gundllapalli, S. Herring, C. Polycarpo, C. Frauer, D. Söll. (2007). Pyrrolysine is not hardwired for cotranslational insertion at UAG codonsPNAS. 104 (9): pag.: 3141–3146DOI:10.1073/pnas.0611634104 PubMed: 17360621
K. Nozawa, P. O'Donoghue, S. Gundllapalli, Y. Araiso, R. Ishitani, T. Umehara, D. Söll, O. Nureki. (2009). Pyrrolysyl-tRNA synthetase:tRNAPyl structure reveals the molecular basis of orthogonalityNature. 457 (7233): pag.: 1163–1167DOI:10.1038/nature07611 PubMed: 19118381
C. Polycarpo, A. Ambrogelly, A. Bérubé, S.M. Winbush, J.A. McCloskey, P.F. Crain, J.L. Wood, D. Söll. (2004). An aminoacyl-tRNA synthetase that specifically activates pyrrolysineProc.Natl.Acad.Sci USA. 101 (34): pag.: 12450–12454DOI:10.1073/pnas.0405362101 PubMed: 15314242
A. Mahapatra, G. Srinivasan, K.B. Richter, A. Meyer, T. Lienard, J.K. Zhang, G. Zhao, P.T. Kang, M. Chan, G. Gottschalk, W.W. Metcalf, J.A. Krzycki. (2007). Class I and class II lysyl-tRNA synthetase mutants and the genetic encoding of pyrrolysine in Methanosarcina sppMol. Microbiol.. 64 (5): pag.: 1306–1318DOI:10.1111/j.1365-2958.2007.05740.x PubMed: 17542922
jbc.org
J.A. Soares, L. Zhang, R.L. Pitsch, N.M. Kleinholz, R.B. Jones, J.J. Wolff, J. Amster, K.B. Green-Church, J.A. Krzycki. (2005). The residue mass of L-pyrrolysine in three distinct methylamine methyltransferasesThe Journal of Biological Chemistry. 280 (44): pag.: 36962–36969DOI:10.1074/jbc.M506402200 Internetpagina: L-pyrrolysine
Bing Hao, Gong, Ferguson, James, Krzycki, Chan. (2002). A New UAG-Encoded Residue in the Structure of a Methanogen MethyltransferaseScience. 296 (5572): pag.: 1462–1466DOI:10.1126/science.1069556 PubMed: 12029132
Marsha A. Gaston, Zhang, Green-Church, Krzycki. (2011). The complete biosynthesis of the genetically encoded amino acid pyrrolysine from lysineNature. 471 (7340): pag.: 647–650DOI:10.1038/nature09918 PubMed: 21455182
g. Srinivasan, C.M. James, J.A. Krzycki. (2002-05-24). Pyrrolysine encoded by UAG in Archaea: charging of a UAG-decoding specialized tRNAScience. 296 (5572): pag.: 1459–1462DOI:10.1126/science.1069588 PubMed: 12029131
M. Rother, J.A.Krzycki. (2010). Selenocysteine, pyrrolysine, and the unique energy metabolism of methanogenic archaeaArchaea. 453642pag.: 1DOI:10.1155/2010/453642 PubMed: 20847933
Théobald-Dietrich, Giegé, Rudinger-Thirion (2005). Evidence for the existence in mRNAs of a hairpin element responsible for ribosome dependent pyrrolysine insertion into proteinsBiochimie. 87 (9-10): pag.: 813–917DOI:10.1016/j.biochi.2005.03.006 PubMed: 16164991
B. Hao, g. Zhao, P.T. Kang, J.A. Soares, T.K. Ferguson, J. Gallucci, J.A. Krzycki, M.K. Chan. (2004). Reactivity and chemical synthesis of L-pyrrolysine- the 22(nd) genetically encoded amino acidChem.Biol.. 11 (9): pag.: 1317–1324DOI:10.1016/j.chembiol.2004.07.011 PubMed: 15380192
W.T. Li, A. Mahapatra, D.G. Longstaff, J. Bechtel, G. Zhao, P.T. Kang, M.K. Chan, J.A. Krzycki. (2009). Specificity of pyrrolysyl-tRNA synthetase for pyrrolysine and pyrrolysine analogsJ.Mol.Biol.. 385 (4): pag.: 1156–1164DOI:10.1016/j.jmb.2008.11.032 PubMed: 19063902
T. Fekner, X. Li, M.M. Lee, M.K. Chan. (2009). A pyrrolysine analogue for protein click chemistryAngew.Chem.Int.Ed.Engl.. 48 (9): pag.: 1633–1635DOI:10.1002/anie.200805420 PubMed: 19156778
P.R. Chen, D. Groff, J. Guo, W. Ou, S. Cellitti, B.H. Geierstanger, P.G. Schultz. (2009). A facile system for encoding unnatural amino acids in mammalian cellsAngew.Chem.Int.Ed.Engl.. 48 (22): pag.: 4052–4055DOI:10.1002/anie.200900683 PubMed: 19378306
D.G. Longstaff, R.C. Larue, J.E. Faust, A. Mahapatra, L. Zhang, K.B. Green-Church, J.A. Krzycki. (2007). A natural genetic code expansion cassette enables transmissible biosynthesis and genetic encoding of pyrrolysineProc.Natl.Acad.Sci.USA. 104 (3): pag.: 1021–1026DOI:10.1073/pnas.0610294104 PubMed: 17204561
A. Ambrogelly, S. Gundllapalli, S. Herring, C. Polycarpo, C. Frauer, D. Söll. (2007). Pyrrolysine is not hardwired for cotranslational insertion at UAG codonsPNAS. 104 (9): pag.: 3141–3146DOI:10.1073/pnas.0611634104 PubMed: 17360621
K. Nozawa, P. O'Donoghue, S. Gundllapalli, Y. Araiso, R. Ishitani, T. Umehara, D. Söll, O. Nureki. (2009). Pyrrolysyl-tRNA synthetase:tRNAPyl structure reveals the molecular basis of orthogonalityNature. 457 (7233): pag.: 1163–1167DOI:10.1038/nature07611 PubMed: 19118381
C. Polycarpo, A. Ambrogelly, A. Bérubé, S.M. Winbush, J.A. McCloskey, P.F. Crain, J.L. Wood, D. Söll. (2004). An aminoacyl-tRNA synthetase that specifically activates pyrrolysineProc.Natl.Acad.Sci USA. 101 (34): pag.: 12450–12454DOI:10.1073/pnas.0405362101 PubMed: 15314242
A. Mahapatra, G. Srinivasan, K.B. Richter, A. Meyer, T. Lienard, J.K. Zhang, G. Zhao, P.T. Kang, M. Chan, G. Gottschalk, W.W. Metcalf, J.A. Krzycki. (2007). Class I and class II lysyl-tRNA synthetase mutants and the genetic encoding of pyrrolysine in Methanosarcina sppMol. Microbiol.. 64 (5): pag.: 1306–1318DOI:10.1111/j.1365-2958.2007.05740.x PubMed: 17542922
qmul.ac.uk
chem.qmul.ac.uk
. (2009). Newsletter 2009 Ed.: Richard Cammack Biochemical Nomenclature Committee of IUPAC and NC-IUBMB Internetpagina: Pyrrolysine geraadpleegd op 28 september 2015