Agriculture Reference
In-Depth Information
McKersie, B. D. (1991). In E. J. Pell & K. L. Steffen (Eds.),
Active Oxygen/Oxidative Stress
and Plant Metabolism.
Current Topics in Plant Physiology
(Vol. 6, pp. 107-118).
American Society of Plant Physiologists.
McNeil, S. D., Nuccio, M. L. & Hanson, A. D. (1999). Betaines and related osmoprotectants.
Targets for metabolic engineering of stress resistance.
Plant Physiol.,
120, 945-949.
Miransari, M., Bahrami, H. A., Rejali, F. & Malakouti, M. J. (2008). Using arbuscular
mycorrhiza to alleviate the stress of soil compaction on wheat (
Triticum aestivum
L.)
growth.
Soil Biol. Biochem
., 40, 1197-1206.
Monakhova, O. F. & Chernyad'ev, I. I. (2007). A protector effect of cytokinin preparations
on the photosynthetic apparatus of wheat plants under water deficiency conditions.
Appl.
Biochem. Microbiol.,
43, 641-649.
Moody, J. D., Heinze, T. M., Hansen Jr., E. B. & Cerniglia, C. E. (2000). Metabolism of the
ethanolamine-type antihistamine diphenhydramine (Benadryl)
TM
by the fungus
Cunninghamella elegans
.
Appl. Microbiol. Biotechnol.,
53, 310-315.
Morgan, J. M. (1991). A gene controlling differences in osmoregulation in wheat.
Aust. J.
Plant Physiol.,
18, 249-257.
Morgan, J. M. (1995). Growth and yield of wheat lines with differing osmoregulative
capacity at high soil water deficit in seasons of varying evaporative demand.
Field Crops
Res.,
40, 143-152.
Mullet, J. E. & Whitsitt, S. (1996). Plant cellular response to water deficit.
Plant Growth
Regul.,
20, 119-124.
Oota, S. (1974). Removal of the sugar inhibition of flowering in
Lemna gibba
G3 by
catecholamines.
Plant Cell Physiol.,
15, 63-68.
Rabbani, M., Maruyama, K., Abe, H., Khan, M., Katsura, K., Ito, Y., Yoshiwara, K., Seki,
M., Shinozaki, K. & Yamaguchi-Shinozaki, K. (2003). Monitoring expression profiles of
rice genes under cold, drought, and high-salinity stresses and abscisic acid application
using cDNA microarray and RNA gel-blot analyses.
Plant Physiol.,
133, 1755-1767.
Rajam, M. V., Dagar, S., Waie, B., Yadav, J. S., Kumar, P. A., Shoeb, F. & Kumria, R.
(1998). Genetic engineering of polyamine and carbohydrate metabolism for osmotic
stress tolerance in higher plants.
J. Biosci.,
23, 473-482.
Rontein, D., Rhodes, D. & Hanson, A. D. (2003). Evidence from engineering that
decarboxylation of free serine is the major source of ethanolamine moieties in plants.
Plant Cell Physiol.,
44, 1185-1191.
Ryan, C. A. (1992). The search for the proteinase inhibitor-inducing factor, PIIF.
Plant
Molec. Biol.,
19, 123-133.
Santarius, K. A., Heber, U. & Krause, G. H. (1979). Untersuchungen über die physiologisch-
biochemischen Ursachen von Empfindlichkeit und Resistenz von Biomembranen
gegenüber extremen Temperaturen und hohen Salzkonzentrationen.
Ber. dt. bot. Ges.,
Berlin,
209-223.
Schlee, D (1992).
Ökologische Biochemie der Pflanzen.
Jena, Germany: Gustav Fischer.
Siripornadulsil, S., Traina, S., Verma, D. & Sayre, R. (2002). Molecular mechanisms of
proline-mediated tolerance to toxic heavy metals in transgenic microalgae.
Plant Cell,
14,
2837-2847.
Smirnoff, N. (1998). Plant resistance to environmental stress.
Curr. Opin. Biotechnol.,
9, 214-
219.
Smith, T. A. (1985). Polyamines.
Annu. Rev. Plant Physiol.
, 36, 117-143.
Search WWH ::
Custom Search