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The fate of excess sulfur in higher plants [Essential nutrients, nutritional status]
RENNENBERG, H
Annu. Rev. Plant Physiol.; (United States), 1984-01, Vol.35 (1), p.121-153
Palo Alto, CA: Annual Reviews
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Título:
The fate of excess sulfur in higher plants [Essential nutrients, nutritional status]
Autor:
RENNENBERG, H
Materias:
560303 - Chemicals Metabolism & Toxicology- Plants- (-1987)
;
ABSORPTION
;
AMINO ACIDS
;
BIOCHEMISTRY
;
BIOLOGICAL ACCUMULATION
;
BIOLOGICAL ADAPTATION
;
Biological and medical sciences
;
CARBOXYLIC ACIDS
;
CHEMISTRY
;
CYSTEINE
;
DOCUMENT TYPES
;
DRUGS
;
ELEMENTS
;
FOLIAR UPTAKE
;
Fundamental and applied biological sciences. Psychology
;
GLUTATHIONE
;
INJURIES
;
METABOLISM
;
NONMETALS
;
ORGANIC ACIDS
;
ORGANIC COMPOUNDS
;
ORGANIC SULFUR COMPOUNDS
;
PEPTIDES
;
Plant physiology and development
;
PLANTS
;
POLYPEPTIDES
;
PROTEINS
;
RADIATION, THERMAL, AND OTHER ENVIRON. POLLUTANT EFFECTS ON LIVING ORGS. AND BIOL. MAT
;
RADIOPROTECTIVE SUBSTANCES
;
REVIEWS
;
ROOT ABSORPTION
;
SULFUR
;
THIOLS
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UPTAKE
;
Water and solutes. Absorption, translocation and permeability
Es parte de:
Annu. Rev. Plant Physiol.; (United States), 1984-01, Vol.35 (1), p.121-153
Notas:
F60
F
AC02-76ER01338
Descripción:
The mechanisms which have evolved in higher plants to cope with excess sulfur in their environments are reviewed. Survival in a sulfur-rich environment is seldom achieved through avoidance of the intake of sulfur. The presence of excess sulfur in the soil or in the air usually results in an intake of excess sulfur into plants. An immediate injury by the excess sulfur taken up is, however, prevented by a series of metabolic processes. Storage of excess sulfur in a metabolically inactive compartment, i.e. the vacuole, appears to occur in most plants. The finding of a storage of glutathione is several investigations suggests that with increasing accumulation of sulfate its reduction also increases. Under these conditions the cysteine concentration in different compartments of the cell may still be maintained at a low level by the incorporation of the excess cysteine synthesized into glutathione. This peptide appears to be the storage form of reduced sulfur in higher plants. 167 references, 2 figures.
Editor:
Palo Alto, CA: Annual Reviews
Idioma:
Inglés
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