Agriculture Reference
In-Depth Information
Noh, Y.S. and Amasino, R.M. 1999a. Identification of a promoter region responsible for the senescence-specific
expression of SAG12. Plant Mol. Biol., 41: 181-194.
Noh, Y.S., and Amasino, R.M. 1999b. Regulation of developmental senescence is conserved between
Arabidopsis
and
Brassica napus
. Plant Mol. Biol., 41: 195-206.
Nooden, L.D. 1988. The phenomena of senescence and aging. In:
Senescence and Aging in Plants
(ed., L.D.
Nooden), Academic Press, San Diego, pp. 281-328.
Nukui, H., Kudo, S., Yamashita, A., and Satoh, S. 2004. Repressed ethylene production in the gynoecium of
long-lasting flowers of the carnation “White Candle”: role of the gynoecium in carnation flower senescence.
J. Exp. Bot., 55: 641-650.
O'Donoghue, E.M., Eason, J.R., Somerfield, S.D., and Ryan, D.A. 2005. Galactosidases in opening, senescing
and water-stressed
Sandersonia aurantiaca
flowers. Funct. Plant Biol., 32: 911-922.
O'Donoghue, E.M., Somerfield, S.D., and Heyes, J.A. 2002. Organization of cell walls in
Sandersoniaaurantiaca
floral tissue. J. Exp. Bot., 53: 513-523.
O'Neill, S.D. 1997. Pollination regulation of flower development. Annu. Rev. Plant Physiol. Plant Mol. Biol., 48:
547-574.
Onozaki, T., Ikeda, H., and Yamaguchi, T. 2001. Genetic improvement of vase life of carnation flowers by crossing
and selection. Sci. Hort., 87: 107-120.
Orzaez, D. and Granell, A. 1997. The plant homologue of the
defender against apoptotic death
gene is down-
regulated during senescence of flower petals. FEBS Lett., 404: 275-278.
Pak, C. and van Doorn, W.G. 2005. Delay of
Iris
flower senescence by protease inhibitors. New Phytologist, 165:
473-480.
Panavas, T., Pikula, A., Reid, P.D., Rubinstein, B., and Walker, E.L. 1999. Identification of senescence-associated
genes from daylily petals. Plant Mol. Biol., 40: 237-248.
Panavas, T., Walker, E.L., and Rubinstein, B. 1998. Possible involvement of abscisic acid in senescence of daylily
petals. J. Exp. Bot., 49: 1987-1997.
Paliyath, G. and Droillard, M.J. 1992. The mechanism of membrane deterioration and disassembly during senes-
cence. Plant Physiol. Biochem., 30: 789-812.
Park, J.-H., Oh, S.A., Kim, Y.H., Woo, H.R., and Nam, H.G. 1998. Differential expression of senescence-associated
mRNAs during leaf senescence induced by different senescence-inducing factors in
Arabidopsis
. Plant Mol.
Biol., 37: 445-454.
Patterson, S.E. 2001. Cutting loose. Abscission and dehiscence in
Arabidopsis
. Plant Physiol., 126: 494-500.
Paull, R.E. and Chantrachit, T. 2001. Benzyladenine and the vase life of tropical ornamentals. Postharvest Biol.
Technol., 21: 303-310.
Quirino, B.F., Noh, Y.S., Himelblau, E., and Amasino, R.M. 2000. Molecular aspects of leaf senescence. Trends
Plant Sci., 5: 278-282.
Quirino, B.F., Normanly, J., and Amasino, R.M. 1999. Diverse range of gene activity during
Arabidopsisthaliana
leaf senescence includes pathogen-independent induction of defense-related genes. Plant Mol. Biol., 40: 267-
278.
Rashotte, A.M., Chae, H.S., Maxwell, B.B., and Kieber, J.J. 2005. The interaction of cytokinin with other signals.
Physiol. Plantarum, 123: 184-194.
Reid, M.S. 1985. Ethylene and abscission. HortScience, 20: 45-49.
Reid, M.S., Evans, R.Y., and Dodge, L.L. 1989. Ethylene and silver thiosulphate influence opening of cut rose
flowers. J. Am. Soc Hort. Sci., 114: 436-440.
Reid, M.S. and Serek, M. 1999.
GuidetoFoodTransport
—
ControlledAtmosphere
, Mercantila Publishers, Copen-
hagen, Denmark, p. 153.
Richael, C., Lincoln, J.E., Bostock, R.M., and Gilchrist, D.G. 2001. Caspase inhibitors reduce symptom de-
velopment and limit bacterial proliferation in susceptible plant tissues. Physiol. Mol. Plant Pathol., 59:
213-221.
Rodriguez, F.I., Esch, J.J., Hall, A.E., Binder, B.M., Schaller, G.E., and Bleecker, A.B. 1999. A copper cofactor
for the ethylene receptor etr1 from
Arabidopsis
. Science, 283: 996-998.
Rolland, F., Moore, B., and Sheen, J. 2002. Sugar sensing and signalling in plants. Plant Cell, 14: S185-S205.
Ronen, M. and Mayak, S. 1981. Interrelationship between abscisic acid and ethylene in the control of senescence
processes in carnation flowers. J. Exp. Bot., 32: 759-765.
Rubinstein, B. 2000. Regulation of cell death in flower petals. Plant Mol. Biol., 44: 303-318.
Saha, S., Nagar, P.K., and Sircar, P.K. 1985. Changes in cytokinin activity during flower development of
Cosmos
sulphureus
Cav. Plant Growth Regul., 3: 27-35.
Search WWH ::
Custom Search