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Literature summary for 1.16.1.7 extracted from

  • Molassiotis, A.; Therios, I.; Dimassi, K.; Diamantidis, G.; Chatzissavvidis, C.
    Induction of Fe(III)-chelate reductase activity by ethylene and salicylic acid in iron-deficient peach rootstock explants (2005), J. Plant Nutr., 28, 669-682.
No PubMed abstract available

Activating Compound

Activating Compound Comment Organism Structure
additional information no effect: AgNO3, salicylic acid Prunus dulcis
additional information no effect: AgNO3, salicylic acid Prunus persica
additional information no effect: AgNO3, salicylic acid Prunus cerasifera

Application

Application Comment Organism
agriculture increase in ethylene production is accompanied by increase in enzyme activity. Salicylic acid, methionine and ethephon enhance ethylene production, AgNO3 inhibits. Induction of enzyme activity is accompanied by increase in iron, zinc and phosphorus concentration of explants Prunus dulcis
agriculture increase in ethylene production is accompanied by increase in enzyme activity. Salicylic acid, methionine and ethephon enhance ethylene production, AgNO3 inhibits. Induction of enzyme activity is accompanied by increase in iron, zinc and phosphorus concentration of explants Prunus persica
agriculture increase in ethylene production is accompanied by increase in enzyme activity. Salicylic acid, methionine and ethephon enhance ethylene production, AgNO3 inhibits. Induction of enzyme activity is accompanied by increase in iron, zinc and phosphorus concentration of explants Prunus cerasifera
agriculture bicarbonate induced deficiency in iron may cause more severe oxidative stress in the rootstocks, than the absence of iron. Additionally to inhibition of iron-chelate reductase, growth in presence of bicarbonate may lead to decreased activities of peroxidase and Cu/Zn superoxide dismutase, depending on the subspecies of plant Prunus persica

Inhibitors

Inhibitors Comment Organism Structure
additional information no effect: AgNO3, salicylic acid Prunus cerasifera
additional information no effect: AgNO3, salicylic acid Prunus dulcis
additional information no effect: AgNO3, salicylic acid Prunus persica
NaHCO3 growth in presence of 10 mM NaHCO3 greatly inhibits enzyme activity Prunus persica

Metals/Ions

Metals/Ions Comment Organism Structure
additional information no effect: AgNO3 Prunus dulcis
additional information no effect: AgNO3 Prunus persica
additional information no effect: AgNO3 Prunus cerasifera

Organism

Organism UniProt Comment Textmining
Prunus cerasifera
-
Myrobolan 29C
-
Prunus dulcis
-
x Prunus persica, GF-677
-
Prunus persica
-
Prunus davidiana, Cadaman
-
Prunus persica
-
investigation of rootspocks differing in their tolerance to iron deficiency when grown in absence of iron or in presence of bicarbonate. In absence of iron, ferric-chelate reductase activity is stimulated
-

Source Tissue

Source Tissue Comment Organism Textmining
leaf
-
Prunus persica
-
root rootstock Prunus dulcis
-
root rootstock Prunus persica
-
root rootstock Prunus cerasifera
-

Synonyms

Synonyms Comment Organism
Fe(III)-chelate reductase
-
Prunus dulcis
Fe(III)-chelate reductase
-
Prunus persica
Fe(III)-chelate reductase
-
Prunus cerasifera