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Enzymatic treatment of wool and silk fi bres 191
prins m w (2009), ‘Advances in wool spinning technology’, in Johnson N A G and
Russell I, Advances in wool technology, Woodhead Publishing Ltd, Cambridge,
UK, pp. 86–105.
robson r m (1985), ‘Silk composition, structure and properties’ in Lewin M and
Pearce E M, Fiber chemistry, handbook of fibre science and technology: Volume
IV, Mercel Dekker Inc, New York, pp. 647–700.
sedelnik n (2003), ‘Biotechnology to improve the quality of wool’, Res J Text
Apparel, 7(2), 1–10.
shen j (2009), ‘Wool finishing and the development of novel finishes’ in Johnson N
A G and Russell I, Advances in wool technology, Woodhead Publishing Ltd,
Cambridge, UK, pp. 147–182.
shen j, bishop d, heine e and hollfelder b (1999), ‘Some factors affecting the
control of proteolytic enzyme reactions on wool’, J Text Inst, 90, Part 1, No.3,
404–411.
shen j, rushforth m, cavaco-paulo a, guebitz g and lenting h (2007), ‘Develop-
ment and industrialisation of enzymatic shrink-resist process based on
modified proteases for wool machine washability’, Enzyme Microb Technol, 40,
1656–1661.
shukla s r, mathur m, narayan a and saligram a n (1992), ‘Effi ciencies of silk
degumming process’, Colourage, 39(4), 31–33.
silva c j s m, gübitz g and cavaco-paulo a (2005), ‘Optimization of a serine prote-
ase coupling to Eudragit S-100 by experimental design techniques’, J Chem
Technol Biotechnol, 81, 8–16.
silva c j s m, sousa f, gübitz g and cavaco-paulo a (2004), ‘Chemical modifi cations
on proteins using glutaraldehyde’, Food Technol Biotechnol, 42(1), 51–56.
silva c j s m, zhang q, shen j, gubitz g and cavaco-paulo a (2006), ‘Immobilization
of proteases with a water soluble-insoluble reversible polymer for treatment of
wool and enzyme recycling’, Enzyme Microb Technol, 39, 634–640.
smith e, farrand b and shen j (2010), ‘The removal of lipid from the surface of
wool to promote the subsequent enzymatic process with modified protease for
wool shrink-resistance’, Biocatal Biotransform, in press.
smith e, zhang q, farrand b, kokol v and shen j, ‘The development of a bio-
scouring process for raw wool using protease’, unpublished work.
smith e, zhang q, shen j, schroeder m and silva c (2008), ‘Modifi cation of Esperase
by covalent bonding to Eudragit polymers L 100 and S 100 for wool fi bre surface
treatment’, Biocatal Biotransform, 26(5), 391–398.
sonthisombat a (1993), Silk degumming using trypsin, alkali with and without
surface active agents followed by trypsin, and alkali alone, investigated by gravi-
metric and scanning electron microscope methods, MSc thesis, The University of
Leeds, UK.
takahashi y, gehoh m and yuzuriha k (1999), ‘Structure refi nement and
diffuse streak scatting of silk (Bombyx mori)’, Int J Biol Macromol, 24(2), 127–
138.
tsukada m (1986), ‘Effect of α-chymotrypsin on the structure of silk fi broin’, J Seric
Sci Jpn, 55, 126–130.
wang p, cui l, wang q, fan x, zhao x and wu j (2010), Combined use of mild oxida-
tion and cutinase/lipase pretreatments for enzymatic processing of wool fabrics,
Eng Life Sci, 10(1): 19–25.
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