26     Advances in textile biotechnology


              huynh  c  q and  zieler  h (1999), ‘Construction of modular and versatile plasmid
                vectors for the high-level expression of single or multiple genes in insects and
                insect cell lines’, J Mol Biol, 288(1), 13–20. doi: 10.1006/jmbi.1999.2674.
              ibrahim n a, el-hossamy m, morsy m s and eid b m (2004), ‘Development of new
                eco-friendly options for cotton wet processing’, J Appl Polym Sci, 93(4), 1825–
                1836. doi:10.1002/app.20500.
              igarashi k (1999), ‘Thermostabilization by proline substitution in an alkaline, liq-
                uefying α-amylase from Bacillus sp. Strain KSM-1378’, Biosci Biotechnol Biochem,
                63(9), 1535–1540. doi:10.1271/bbb.63.1535.
              igarashi  k,  hagihara  h and  ito  s (2003),  ‘Protein engineering of detergent
                α-amylases’, Trends Glycosci Glycotechnol, 15(82), 101–114.
              igarashi k, hatada y, ikawa k, araki h, ozawa t, kobayashi t, ozaki k and ito s
                (1998),  ‘Improved thermo-stability of a  Bacillus  α-amylase by deletion of an
                arginine-glycine residue is caused by enhanced calcium binding’, Biochem Biophys
                Res Commun, 248(2), 372–377. doi:10.1006/bbrc.1998.8970.
              ito s, kobayashi t, ara k, ozaki k, kawai s and hatada y (1998), ‘Alkaline detergent
                enzymes from alkaliphiles: enzymatic properties, genetics, and structures’,
                Extremophiles, 2(3), 185–190. doi: 10.1007/s007920050059.
              ito w, ishiguro h and kurosawa y (1991), ‘A general method for introducing a series
                of mutations into cloned DNA using the polymerase chain reaction’, Gene, 102,
                67–70.
              jaeger  k-e,  eggert  t,  eipper  a and  reetz  mt (2001), ‘Directed evolution and the
                creation of enantioselective biocatalysts’, Appl Microbiol Biotechnol, 55(5), 519–
                530. doi: 10.1007/s002530100643.
              jeltsch a, wenz c, wende w, selent u and pingoud a (1996), ‘Engineering novel
                restriction endonucleases: principles and applications’, Trends Biotechnol, 14(7),
                235–238.
              jorgensen h, morkeberg a, krogh k b r and olsson l (2005), ‘Production of cel-
                lulases and hemicellulases by three Penicillium species: effect of substrate and
                evaluation of cellulase adsorption by capillary electrophoresis’, Enzyme Microb
                Technol, 36(1), 42–48. doi:10.1016/j.enzmictec.2004.03.023.
              joyet  p,  declerck  n and  gaillardin  c (1992), ‘Hyperthermostable variants of a
                highly thermostable alpha-amylase’, Biotechnology, 10(12), 1579–1583. doi:10.1038/
                nbt1292-1579.
              kalum  l and  adersen  b  k (2000),  ‘Enzymatic treatment of denim’, U.S. Patent
                6146428.
              kammann, m, laufs j, schell j and gronenborn b, (1989), ‘Rapid insertional muta-
                genesis of DNA by polymerase chain reaction (PCR)’,  Nucleic Acids  Res,  17,
                5404–5404.
              karapinar e and sariisik m o (2004), ‘Scouring of cotton with cellulases, pectinases
                and proteases’, Fibres Text East Eur, 12(3), 79–82.

              ke  s-h and  madison  e  l (1997),  ‘Rapid and efficient site-directed mutagenesis
                by single-tube  “megaprimer” PCR method’,  Nucleic Acids  Res,  25(16), 3371–
                3372.

              kessler c and manta v (1990), ‘Specificity of restriction endonucleases and DNA

                modification methyltransferases – a review’,  Gene,  92(1–2), 1–248. doi:10.1016/
                0378-1119(90)90486-B.
              kettling  u,  koltermann  a and  eigen  m (1999),  ‘Evolutionary biotechnology –
                reflections and perspectives’, Curr Top Microbiol Immunol, 243, 173–186.



                                © Woodhead Publishing Limited, 2010