References analysis of the Wikipedia article "Nilonasa" in the Spanish version

asa3.org

Cita: " Cualquier mutación genética da como resultado una alteración de rasgos ya existentes o conocidos. Las mutaciones "O" son fuentes de expresiones características de rasgos ya existentes, y no como fuente de nuevos rasgos. Las mutaciones solo resultan en cambios dentro de la estructura genética existente. John N. Moore, Roger J. Cuffey: Paleontologic evidence and organic evolution. In: Journal of the American Scientific Affiliation. Band 24, 1972, S. 160–176.

books.google.com

Joachim Schreiber: Plastisch, Elastisch, und Fantastisch. John Wiley & Sons, 2013, ISBN 978-3-527-66532-7, S. 88 ("Plastisch, Elastisch, und Fantastisch", p. 88, en Google Libros).

H. Okada, S. Negoro, S. Kinoshita: Enzymes active on unnatural synthetic compounds: nylon oligomer hydrolases controlled by a plasmid and their cloning. In: Ichiro Chibata: Enzyme Engineering. Springer Science & Business Media, 2013, ISBN 978-1-4615-9290-7, S. 491–500 ("Enzymes active on unnatural synthetic compounds: nylon oligomer hydrolases controlled by a plasmid and their cloning", p. 491, en Google Libros).

Kenneth R. Miller: Only a Theory. Penguin, 2008, ISBN 978-1-4406-3403-1, S. 64–68 ("Only a Theory", p. 64, en Google Libros).

Manyuan Long: Evolution of new genes. In: Jonathan B. Losos, David A. Baum u. a.: The Princeton Guide to Evolution. Princeton University Press, 2013, ISBN 978-1-4008-4806-5, S. 407 ("Evolution of new genes", p. 407, en Google Libros).

Alvin Allison: From Monkeys to Men and Back. AuthorHouse, 2008, ISBN 978-1-4389-3878-3, S. 110 ("From Monkeys to Men and Back", p. 110, en Google Libros).

Mark Isaak: The Counter-creationism Handbook. University of California Press, 2007, ISBN 978-0-520-24926-4, S. 305 ("The Counter-creationism Handbook", p. 305, en Google Libros).

doi.org

Seiji Negoro: Biodegradation of Nylon and other Synthetic Polyamides. Archivado el 26 de septiembre de 2015 en Wayback Machine. In: S. Matsumura, A. Steinbüchel (Hrsg.): Miscellaneous biopolymers and biodegradation of synthetic polymers. Band 9, 2005, doi:10.1002/3527600035.bpol9018, ISBN 3-527-30228-X, S. 395–415.

Shinichi Kinoshita, Sadao Kageyama, Kazuhiko Iba, Yasuhiro Yamada, Hirosuke Okada: Utilization of a Cyclic Dimer and Linear Oligomers of ε-Aminocaproic Acid by Achromobacter guttatus KI 72. In: Agricultural and Biological Chemistry. Band 39, Nummer 6, 1975, S. 1219–1223, doi:10.1271/bbb1961.39.1219

E. Tsuchida, I. Shinohara, Oligomer and Oligomerization. In: Journal of Synthetic Organic Chemistry Japan. Band 22, Nummer 33, 1964, doi:10.5059/yukigoseikyokaishi.22.33 (Artikel in japanisch)

H. Iizuka, T. Tanabe, T. Fukumura, K. Kato: Taxonomic study on the ε-caprolactam-utilizing bacteria. In: The Journal of General and Applied Microbiology. 13, 1967, S. 125–137, doi:10.2323/jgam.13.125.

T. Ohki, Y. Wakitani u. a.: Mutational analysis of 6-aminohexanoate-dimer hydrolase: relationship between nylon oligomer hydrolytic and esterolytic activities. In: FEBS Letters. Band 580, Nummer 21, 2006, S. 5054–5058, doi:10.1016/j.febslet.2006.08.031, PMID 16949580.

S. Negoro, N. Shibata u. a.: Three-dimensional structure of nylon hydrolase and mechanism of nylon-6 hydrolysis. In: The Journal of biological chemistry. Band 287, Nummer 7, 2012, S. 5079–5090, doi:10.1074/jbc.M111.321992, PMID 22187439, PMC 3281642.

S. Negoro, T. Ohki u. a.: Nylon-oligomer degrading enzyme/substrate complex: catalytic mechanism of 6-aminohexanoate-dimer hydrolase. In: Journal of molecular biology. Band 370, Nummer 1, 2007, S. 142–156, doi:10.1016/j.jmb.2007.04.043, PMID 17512009.

K. Yasuhira, N. Shibata u. a.: Crystallization and X-ray diffraction analysis of nylon-oligomer hydrolase (NylC) from Agromyces sp. KY5R. In: Acta crystallographica. Section F, Structural biology and crystallization communications. Band 67, Pt 8August 2011, S. 892–895, doi:10.1107/S1744309111022858, PMID 21821888, PMC 3151121.

K. Yasuhira, Y. Uedo u. a.: Genetic organization of nylon-oligomer-degrading enzymes from alkalophilic bacterium, Agromyces sp. KY5R. In: Journal of bioscience and bioengineering. Band 104, Nummer 6, Dezember 2007, S. 521–524, doi:10.1263/jbb.104.521, PMID 18215642.

N. R. Silvaggi, J. W. Anderson u. a.: The crystal structure of phosphonate-inhibited D-Ala-D-Ala peptidase reveals an analogue of a tetrahedral transition state. In: Biochemistry. Band 42, Nummer 5, Februar 2003, S. 1199–1208, doi:10.1021/bi0268955, PMID 12564922.

T. Ohki, N. Shibata u. a.: Two alternative modes for optimizing nylon-6 byproduct hydrolytic activity from a carboxylesterase with a beta-lactamase fold: X-ray crystallographic analysis of directly evolved 6-aminohexanoate-dimer hydrolase. In: Protein science : a publication of the Protein Society. Band 18, Nummer 8, 2009, S. 1662–1673, doi:10.1002/pro.185, PMID 19521995, PMC 2776954.

S. Negoro, T. Ohki u. a.: X-ray crystallographic analysis of 6-aminohexanoate-dimer hydrolase: molecular basis for the birth of a nylon oligomer-degrading enzyme. In: The Journal of biological chemistry. Band 280, Nummer 47, 2005, S. 39644–39652, doi:10.1074/jbc.M505946200, PMID 16162506.

Takeshi Baba, Katsumasa Kamiya u. a.: Molecular dynamics studies on the mutational structures of a nylon-6 byproduct-degrading enzyme. In: Chemical Physics Letters. 507, 2011, S. 157–161, doi:10.1016/j.cplett.2011.03.046.

K. Kamiya, T. Baba u. a.: Nylon-Oligomer Hydrolase Promoting Cleavage Reactions in Unnatural Amide Compounds. In: The journal of physical chemistry letters. Band 5, Nummer 7, 2014, S. 1210–1216, doi:10.1021/jz500323y, PMID 26274473.

Y. Kawashima, T. Ohki u. a.: Molecular design of a nylon-6 byproduct-degrading enzyme from a carboxylesterase with a beta-lactamase fold. In: The FEBS journal. Band 276, Nummer 9, Mai 2009, S. 2547–2556, doi:10.1111/j.1742-4658.2009.06978.x, PMID 19476493.

N. N. Baxi, A. K. Shah: ε-Caprolactam-degradation by Alcaligenes faecalis for bioremediation of wastewater of a nylon-6 production plant. In: Biotechnology Letters. Band 24, Nummer 14, 2002, S. 1177–1180, doi:10.1023/A:1016187103682.

H. A. Sanuth, A. Yadav u. a.: ε-Caprolactam Utilization by Proteus sp. and Bordetella sp. Isolated From Solid Waste Dumpsites in Lagos State, Nigeria, First Report. In: Indian journal of microbiology. Band 53, Nummer 2, 2013, S. 221–226, doi:10.1007/s12088-013-0356-5, PMID 24426112, PMC 3626951.

V. Johnson, S. J. Patel u. a.: Caprolactam waste liquor degradation by various yeasts. In: World journal of microbiology & biotechnology. Band 10, Nummer 5, 1994, S. 524–526, doi:10.1007/BF00367658, PMID 24421125.

K. Kato, K. Ohtsuki u. a.: A plasmid encoding enzymes for nylon oligomer degradation: nucleotide sequence and analysis of pOAD2. In: Microbiology. Band 141 (Pt 10), 1995, S. 2585–2590, doi:10.1099/13500872-141-10-2585, PMID 7582019.

A. L. Koch: Catastrophe and what to do about it if you are a bacterium: the importance of frameshift mutants. In: Critical reviews in microbiology. Band 30, Nummer 1, 2004, S. 1–6, doi:10.1080/10408410490266401, PMID 15116759 (Review).

K. Okamura, L. Feuk u. a.: Frequent appearance of novel protein-coding sequences by frameshift translation. In: Genomics. Band 88, Nummer 6, Dezember 2006, S. 690–697, doi:10.1016/j.ygeno.2006.06.009, PMID 16890400.

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nih.gov

ncbi.nlm.nih.gov

H. Okada, S. Negoro u. a.: Evolutionary adaptation of plasmid-encoded enzymes for degrading nylon oligomers. In: Nature. Band 306, Nummer 5939, 1983, S. 203–206, PMID 6646204.

S. Kinoshita, S. Negoro u. a.: 6-Aminohexanoic acid cyclic dimer hydrolase. A new cyclic amide hydrolase produced by Achromobacter guttatus KI74. In: European Journal of Biochemistry. Band 80, Nummer 2, 1977, S. 489–495, PMID 923591.

S. Negoro: Biodegradation of nylon oligomers. In: Applied Microbiology and Biotechnology. Band 54, Nummer 4, 2000, S. 461–466, PMID 11092619 (Review).

S. Kinoshita, T. Terada u. a.: Purification and characterization of 6-aminohexanoic-acid-oligomer hydrolase of Flavobacterium sp. Ki72. In: European Journal of Biochemistry. Band 116, Nummer 3, 1981, S. 547–551, PMID 7262074.

S. Negoro, S. Kakudo u. a.: A new nylon oligomer degradation gene (nylC) on plasmid pOAD2 from a Flavobacterium sp. In: Journal of bacteriology. Band 174, Nummer 24, 1992, S. 7948–7953, PMID 1459943, PMC 207530.

S. Negoro, T. Mitamura u. a.: Determination of the active-site serine of 6-aminohexanoate-dimer hydrolase. In: European Journal of Biochemistry / FEBS. Band 185, Nummer 3, 1989, S. 521–524, PMID 2512123.

I. D. Prijambada, S. Negoro u. a.: Emergence of nylon oligomer degradation enzymes in Pseudomonas aeruginosa PAO through experimental evolution. In: Applied and environmental microbiology. Band 61, Nummer 5, 1995, S. 2020–2022, PMID 7646041, PMC 167468.

R. E. Lenski, J. E. Mittler: The directed mutation controversy and neo-Darwinism. In: Science. Band 259, Nummer 5092, 1993, S. 188–194, PMID 7678468 (Review).

R. S. Kulkarni, P. P. Kanekar: Bioremediation of epsilon-caprolactam from nylon-6 waste water by use of Pseudomonas aeruginosa MCM B-407. In: Current microbiology. Band 37, Nummer 3, 1998, S. 191–194, PMID 9688819.

S. Ohno: Birth of a unique enzyme from an alternative reading frame of the preexisted, internally repetitious coding sequence. In: PNAS. Band 81, Nummer 8, 1984, S. 2421–2425, PMID 6585807, PMC 345072.

oxfordjournals.org

pcp.oxfordjournals.org

T. Fukumura: Bacterial breakdown of ε-caprolactam and its cyclic oligomers. In: Plant and Cell Physiology. Band 7, 1966, S. 93–104. (Abstract)

T. Fukumura: Splitting of ε-caprolactam and other lactams by bacteria. In: Plant and Cell Physiology. Band 7, Nummer 1, 1966, S. 105–114. (Abstract)

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«Polyamide 6». pcinylon.com (en inglés). Archivado desde el original el 9 de julio de 2015. Consultado el 5 de septiembre de 2015.

Nilonasa (Spanish Wikipedia)

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