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168 Advances in textile biotechnology
rashid ky. 2003. Principal diseases of flax. In: AD Muir and ND Westcott (eds). Flax:
the genus Linum. Taylor and Francis, London, UK, pp. 92–123.
roach mj and deyholos mk. 2007. Microarray analysis of fl ax (Linum usitatissimum
L.) stems identifies transcripts enriched in fibre-bearing phloem tissues. Mol.
Genet. Genomics 278(2): 149–165.
roach mj and deyholos mk. 2008. Microarray analysis of developing fl ax hypocotyls
identifies novel transcripts correlated with specific stages of phloem fi bre differ-
entiation. Ann. Bot. (Lond). 102(3): 317–330.
roland gg. 1991. An EMS-induced low-linolenic-acid mutant in McGregor fl ax
(Linum usitatissimum L.) Can. J. Plant Sci. 71: 393–396.
saito k, hirai my and yonekura-sakakibara k. 2007. Decoding genes with coexpres-
sion networks and metabolomics – ‘majority report by precogs’. Trends Plant Sci.
13(1): 36–43.
sampaio s, bishop d and shen j. 2005. Physical and chemical properties of fl ax fi bres
from stand-retted crops desiccated at different stages of maturity. Ind. Crops
Prod. 21: 275–284.
sanford jc. 1990. Biolistic plant transformation. Physiol. Plant. 79: 206–209.
sharma hss, faughey g and lyons g. 1999. Comparison of physical, chemical and
thermal characteristics of water-, dew- and enzyme-retted fl ax fi bers. J. App.
Polym. Sci. 74: 139–143.
sengupta g and palit p. 2004. Characterization of a lignified secondary phloem
fi bre-deficient mutant of jute (Corchorus capsularis). Ann. Bot. 93: 211–220.
shi yh, zhu sw, mao xz, feng jx, qin ym, zhang l, cheng j, wei lp, wang zy and
zhu yx. 2006. Transcriptome profiling, molecular biological and physiological
studies reveal a major role for ethylene in cotton fi ber cell elongation. Plant Cell
18: 651–664.
siedlecka a, wiklund s, péronne m-a, micheli f, lesniewska j, sethson i, edlund
u, richard l, sundberg b and mellerowicz ej. 2008. Pectin methyl esterase
inhibits intrusive and symplastic cell growth in developing wood cells of Populus.
Plant Physiol. 146: 554–565.
singh b, avci u, eichler inwood se, grimson mj, landgraf j, mohnen d, sørensen
i, wilkerson cg, willats wgt and haigler ch. 2009. A specialized outer layer of
the primary cell wall joins elongating cotton fibers into tissue-like bundles. Plant
Physiol. 150: 684–689.
sloan j, backhaus a, malinowski r, mcqueen-mason s and fl emming aj. 2009.
Phased control of expansin activity during leaf development identifi es a sensitiv-
ity window for expansin-mediated induction of leaf growth. Plant Physiol. 151:
1844–1854.
smith ef and townsend co. 1907. A plant tumor of bacterial origin. Science 25:
671–673.
szopa j, wróbel-kwiatkowska m, kulma a, zuk m, skórkowska-telichowska k,
dymiŃska l, maczka m, hanuza j, zebrowski j and preisner m. 2009. Chemical
composition and molecular structure of fibers from transgenic fl ax producing
polyhydroxybutyrate, and mechanical properties and platelet aggregation of
composite materials containing these fi bers. Compos. Sci. Tech. 69(14): 2438–
2446.
twyman rm and christou p. 2004. Plant transformation technology – particle bom-
bardment. In: Christou P, Klee H (eds) Handbook of plant biotechnology. John
Wiley and Sons, New York.
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