Chlorophyll2010

Chlorophyll Turnover in Skeletonema costatum, a Marine Plankton Diatom.

Plant physiology

confidence

Key findings

Isotope labeling study of chlorophyll turnover in S. costatum; no clinical or biological endpoints reported.

View source on PubMed (PMID 16660913) ↗

Sample size
not_reported
Population
Skeletonema costatum, a marine plankton diatom (in vitro)
Dosing
[(3)H]- and delta-[(14)C]Aminolevulinic acids
Duration
not_reported
Route
not_reported
Blinding
not_reported
Controls
not_reported
Drug class
porphyrin pigment
Full abstract

[(3)H]- and delta-[(14)C]Aminolevulinic acids were incorporated into the chlorophylls of Skeletonema costatum, a marine plankton diatom. In the stationary phase of growth, the tetrapyrrole-based pigments reached steady-state labeling after 10 hours. Under conditions of exponential cell division and chlorophyll accumulation, (3)H was rapidly lost from the labeled chlorophylls and was replaced with (14)C derived from delta-[4-(14)C]aminolevulinic acid. The kinetics of isotope dilution suggests recycling of tetrapyrrole precursors and/or two pigment pools, containing both chlorophyll a and chlorophyllide c, one which turns over rapidly (10 hours) and another which turns over more slowly (100 hours). Calculation of turnover times varied from 3 to 10 hours for chlorophyll a and from 7 to 26 hours for chlorophyllide c. The data suggest the dynamics of chlorophyll metabolism in S. costatum and explain the diatom's ability to undergo light-shade adaptation within a generation time.

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