Relationship between Body Size, Growth Rate, and Maximal Enzyme Activities in the Brine Shrimp, Artemia franciscana

Relationship between Body Size, Growth Rate, and Maximal Enzyme Activities in the Brine Shrimp, Artemia franciscana

Activity-body size relationships for eight enzymes (citrate synthase, CS; lactate dehydrogenase, LDH; pyruvate kinase, PK; alanine aminotransferase, ala AT; aspartate aminotransferase, asp AT; glutamate dehydrogenase, GDH; glucose-6-phosphate dehydrogenase, G6Pdh; and nucleoside diphosphate kinase,...

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Bibliographic Details
Published in:The Biological bulletin (Lancaster) Vol. 179; no. 3; pp. 287 - 296
Main Authors: Berges, John A., Roff, John C., Ballantyne, James S.
Format: Journal Article
Language:English
Published: Woods Hole, MA Marine Biological Laboratory 01-12-1990
University of Chicago Press
Subjects:
Animals
Artemia
Artemia franciscana
Biochemistry
Biological and medical sciences
Body size
Body weights and measures
Brine shrimps
Brines
Crustacea
Cultured cells
Dehydrogenases
Dunaliella
Ecology and Evolution
Enzyme activity
Enzymes
Fundamental and applied biological sciences. Psychology
Growth
Invertebrates
Life cycle. Embryology. Development
Linear regression
Marine
Physiological aspects
Physiology. Development
Shellfish
Marine environment
Proteins
Enzymatic activity
Growth
Enzyme
Body size
Development
Brachiopoda
Invertebrata
Metabolism
Lophophoria
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Summary:Activity-body size relationships for eight enzymes (citrate synthase, CS; lactate dehydrogenase, LDH; pyruvate kinase, PK; alanine aminotransferase, ala AT; aspartate aminotransferase, asp AT; glutamate dehydrogenase, GDH; glucose-6-phosphate dehydrogenase, G6Pdh; and nucleoside diphosphate kinase, NDPK) were examined in the brine shrimp, Artemia franciscana. The animals were fed on the alga Dunaliella salina, which was provided in three concentrations representing a 25-fold range. Enzyme activities per animal (Y) were regressed against body size (M, expressed as dry mass or protein) in the form of the allometric equation, log Y = log a + b log M, where a and b are fitted constants. For all enzymes considered, the value of the scaling exponent (b) was significantly higher when dry mass was used, as a body size index, than when protein mass was used. Therefore, the index of body size chosen can influence the exponent obtained in allometric studies. Although specific growth rates of different cultures varied greatly, no significant differences in scaling relationships were found between cultures for any enzyme. For many enzymes, growth rate may not be a source of variation in scaling relationships. Unlike the other enzymes examined, the log-transformed NDPK activity versus log-transformed mass was not linear; NDPK activity reached a plateau. Variation in NDPK scaling relationships with growth may provide a means to predict growth rate in Artemia.
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content type line 23
ISSN:0006-3185
1939-8697
DOI:10.2307/1542320