Page 183 - Advances in Textile Biotechnology
P. 183
164 Advances in textile biotechnology
benham b, kikuchi a, celebi-toprak f, kasuga m, yamaguchi-shinozaki k and
watanabe kn. 2007. Arabidopsis rd29A::DREB1A enhances freezing tolerance in
transgenic potato. Plant Cell Rep. 26(8): 1275–1282.
besseau s, hoffmann l, geoffroy p, lapierre c, pollet b and legrand m. 2007.
Flavonoid accumulation in Arabidopsis repressed in lignin synthesis affects auxin
transport and plant growth. Plant Cell 19: 148–162.
bloedon lt, balikai s, chittams j, cunnane sc, berlin ja, rader dj and szapary po.
2008. Flaxseed and cardiovascular risk factors: results from a double blind, rand-
omized, controlled clinical trial. J. Am. Coll. Nutr. 27(1): 65–74.
bohmert k, balbo i, kopka j, mittendorf v, nawrath c, poirier y, tischendorf g,
trethewey rn and willmitzer l. 2000. Transgenic Arabidopsis plants can accu-
mulate polyhydroxybutyrate to up to 4% of their fresh weight. Planta 211: 841–
845.
bretagne-sagnard b, fouilloux g and chupeau y. 1996. Induced albina mutations
as a tool for genetic analysis and cell biology in fl ax (Linum usitatissimum). J. Exp.
Bot. 47: 189–194.
chen zj, scheffl er be, dennis e, triplett ba, zhang t, guo w, chen x, stelly dm,
rabinowicz pd, town cd, et al. 2007. Towards sequencing cotton (Gossypium)
genomes. Plant Physiol. 145: 1303–1310.
christou p, mccabe de and swain wf. 1988. Stable transformation of soybean callus
by DNA-coated gold particles. Plant Physiol. 87: 671–674.
chua nh and tingey sv. 2006. Plant biotechnology: looking forward to the next ten
years. Curr. Opin. Biotech. 17: 103–104.
clark g, torres j, fi nlayson s, guan x, handley c, lee j, kays z, chen j and roux
sj. 2010. Apyrase (nucleoside triphosphate-diphosphohydrolase) and extracellu-
lar nucleotides regulate cotton fi ber elongation in cultured ovules. Plant Physiol.
152: 1073–1083.
day a, addi m, kim w, david h, bert f, mesnage p, rolando c, chabbert b, neutelings
g and hawkins s. 2005b. ESTs from the fi ber-bearing stem tissues of fl ax (Linum
usitatissimum): expression analyses of sequences related to cell-wall development.
Plant Biol. 7: 23–32.
day a, neutelings g, nolin f, grec s, habrant a, crônier d, maher b, rolando c,
david h, chabbert b and hawkins s. 2009. Caffeoyl coenzymeA O-methyltrans-
ferase down-regulation is associated with modifications in lignin and cell-wall
architecture in flax secondary xylem. Plant Physiol. Biochem. 47: 9–19.
day a, ruel k, neutelings g, cronier d, david h, hawkins s and chabbert b. 2005a.
Lignification in the flax stem: evidence for an unusual lignin in bast fi bers. Planta.
222: 234–245.
de pauw ma, vidmar jj, collins j, bennett ra and deyholos mk. 2007. Microarray
analysis of bast fibre producing tissues of Cannabis sativa identifi es transcripts
associated with conserved and specialized processes of secondary wall develop-
ment. Funct. Plant Biol. 34: 737–749.
douchiche o, driouich a and morvan c. 2010. Spatial regulation of cell-wall struc-
ture in response to heavy metal stress: cadmium-induced alteration of the methyl-
esterification pattern of homogalacturonans. Ann. Bot. 105(3): 481–491,
doi:10.1093/aob/mcp306.
downes s, mahon r and olsen k. 2007. Monitoring and adaptive resistance manage-
ment in Australia for Bt-cotton: Current status and future challenges . J. Invertebr.
Pathol. 95(3): 208–213.
© Woodhead Publishing Limited, 2010
