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Abe S., Davies E., 1995, Methods for isolation and analysis of the cyto-
skeleton, In: Galbraith D.W., Bourque D.P., Bohnert H.J. (eds), Me-
thods in Plant Cell Biology, Vol.50, Academic Press, New York,
pp.223-236
Moustafa M.F.M., Yoneda M., Abe S. and Davies E., 2003, Changes in
isotypes and enzyme activity of apyrase during germination of dark-
grown pea (
Pisum sativum
) seedlings, Physiologia Plantarum 119:
146-154
Abe S., Moustafa M.F.M., Shibata K., Yoneda M., and Davies E., 2002,
Purification and characterization of the major isotypes of apyrase from
the cytoskeleton fraction in
Pisum sativum
, Plant Physiol. Biochem., 40:
1019-1023
Schneider T., Dinkins R., Robinson K., Shellhammer J., and Meinke D.W.,
1989, An embryo-lethal mutant of
Arabidopsis thaliana
is a biotin
auxotroph, Dev. Biol., 131: 161-167
Scholte H.R., Busch H.F.M., Luyt-Houwen I.E.M., Vaandrager-Verduin
M.H.M., Przyrembel H., and Arts W.F.M., 1987, Defects in oxidative
phosphorylation. Biochemical investigations in skeletal muscle and
expression of the lesion in other cells, J. Inherit. Metab. Dis., 10: 81-97
PMid:2824921
Alban C., Baldet P., Axiotis S., and Douce R., 1993, Purification and
characterization of 3-methylcrotonyl-coenzyme A carboxylase from
higher plant mitochondria, Plant Physiol., 102: 957-965 PMid:1223
1881 PMCid:158869
Dakshinamurti K., and Chauhan J., 1989, Biotin. Vitam. Horm., 45: 337-384
Somers D.A., Keith R.A., Egli M.A., Marshall L.C., Gengenbach B.G.,
Gronwald J.W., and Wyse D.L., 1993, Expression of the Acc1 gene-
encoded acetyl-coenzyme A carboxylase in developing maize (
Zea
mays
L.) Kernels, Plant Physiol., 101: 1097-1101 PMid:12231761
PMCid:158730
Davies E., Stankovic B., Azama K., Shibata K., and Abe S., 2001, Novel
components of the plant cytoskeleton: A beginning to plant cytomics,
Plant Sci., 160: 185-196
Duncan R.F., and Song H.J.P., 1999, Striking multiplicity of eIF4E-BP1
phosphorylated isoforms identified by 2D gel electrophoresis:
regulation by heat shock, Eur. J. Biochem., 265: 728-743
PMid:10504405
Stumpf P.K., 1980, Biosynthesis of saturated and unsaturated fatty acids, In:
Stumpf P.K., Conn E.E., (eds.), The Biochemistry of Plants, Vol 4,
Academic Press, New York, pp.177-204
Wurtele E.S. and Nikolau B.J., 1990, Plants contain multiple biotin enzymes:
Discovery of 3-methylcrotonyl-CoA carboxylase, propionyl-CoA
carboxylase and pyruvate carboxylase in the plant kingdom, Arch.
Biochem. Biophys., 278: 179-186
Duval M.C., Job C., Alban C., Douce R., and Job D., 1993, Developmental
patterns of free and protein-bound biotin during maturation and
germination of seeds of
Pisum sativum
: Characterization of a novel
seed-specific biotinylated protein, Biochem. J., 299: 141-150
Zdunek-Zastocka E., Omarov R.T., Koshiba T., and Lips H.S., 2004,
Activity and protein level of AO isoforms in pea plants (
Pisum sativum
L.) during vegetative development and in response to stress conditions,
J. Exp. Bot., 55: 1361-1369
PMid:15073210
Eisenberg M.A., 1987, Biosynthesis of Biotin and Lipoic Acid. In:
Neidhardt F.C., Ingraham J.L., Low K.B., Magasanik B., Schaechter
M., and Umbarger M.E., (Eds.),
Escherichia coli
and
Salmonella
typhimurium
: Cellular and Molecular Biology, American Society of
Microbiology, New York, pp.544-550
Zempleni J., and Mock D.M., 1999, Biotin biochemistry and human
requirements, J. Nutr. Biochem., 10: 128-138
Gloeckler R., Ohsawa I., Speck D., Ledoux C., and Bernard S., 1990,
Cloning and characterization of the
Bacillus sphaericus
genes contro-
lling the bioconversion of pimelate into dethiobiotin, Gene, 87: 63-70
Gregory P.K., John V.C., 1990, Tubulin isotypes in Rye roots are altered
during cold acclimation, Plant Physiol., 93: 8388
Harwood J.L., 1988, Fatty acid metabolism, Annu. Rev. Plant Physiol., Plant
Mol. Biol., 39: 101-138
Hoppe H.H., and Zacher H., 1985, Inhibition of fatty acid biosynthesis in
isolated bean and maize chloroplasts by herbicidal phenoxy- phenol-
xypropionic acid derivatives and structurally related compounds,
Pesticide Biochem, Physiol., 24: 298-305
Jungo C., Urfer J., Zocchi A., Marison I., and von Stockar U., 2007,
Optimisation of culture conditions with respect to biotin requirement
for the production of recombinant avidin in
Pichia pastoris
, Journal of
Biotechnology, 127: 703-715
PMid:
16949696
Kerr G.P., and Carter J.V., 1990, Relationship between freezing tolerance of
root-tip cells and cold stability of microtubules in rye (
Secale cereal
L.
cv Puma), Plant Physiol., 93: 77-82
PMid:
16667470 PMCid:1062470
Knowles J.R., 1989, The mechanism of biotin-dependent enzymes, Annu.
Rev. Biochem., 58: 195-221
PMid:2673009
Kumar Swami A., Alam S.I., Sengupta N., and Sarin R., 2011, Differential
proteomic analysis of salt stress response in
Sorghum bicolor
leaves,
Environmental and Experimental Botany, 71: 321-328
Marquet A., Bui B.T.S., and Florentin D., 2001, Biosynthesis of biotin and
lipoic acid, Vitam. Horm., 61: 51-101