Phosphate Transport in Neurospora. Derepression of a High-affinity Transport System During Phosphorus Starvation

Overview

Journal Biochim Biophys Acta

Specialties Biochemistry
Biophysics

Date 1975 May 21

PMID 236036

Citations 16

Authors

H S Lowendorf

G F Bazinet Jr

C W SLAYMAN

Affiliations

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Abstract

In addition to the constitutive, low-affinity phosphate-transport system described previously, Neurospora possesses a second, high-affinity system which is derepressed during phosphorus starvation. At pH 5.8, System ii has a K1/2 of about 3muM and a Jmax of 5.2 mmol/1 cell water per min. System ii reaches maximal activity after about 2 h of growth in phosphorus-free minimal medium. Its formation is blocked by cycloheximide and, once made, it appears to turn over rapidly. Addition of cycloheximide to fully derepressed cultures results in the decay of System ii with a t1/2 of 14 min, very similar to the turnoacteriol. 95, 959-966) for tryptophan transport in Neurospora. Thus, these transport systems appear to be regulated by a balance between synthesis and breakdown, as affected by intracellular pools of substrate or related compounds.

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