A cytosolic carbonic anhydrase molecular switch occurs in the gills of metamorphic sea lamprey

Carbonic anhydrase plays a key role in CO 2 transport, acid-base and ion regulation and metabolic processes in vertebrates. While several carbonic anhydrase isoforms have been identified in numerous vertebrate species, basal lineages such as the cyclostomes have remained largely unexamined. Here we...

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Bibliographic Details
Published in:Scientific reports 2016-10, Vol.6 (1), p.33954-33954, Article 33954
Main Authors: Ferreira-Martins, D., McCormick, S. D., Campos, A., Lopes-Marques, M., Osório, H., Coimbra, J., Castro, L. F. C., Wilson, J. M.
Format: Article
Language:English
Subjects:
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Animals
Carbon dioxide
Carbon Dioxide - metabolism
Carbonic anhydrases
Carbonic Anhydrases - biosynthesis
Carbonic Anhydrases - genetics
Chemical analysis
Cloning
Cytoplasm - enzymology
Cytoplasm - genetics
Fish Proteins - biosynthesis
Fish Proteins - genetics
Gene Expression Regulation, Enzymologic - physiology
Genes
Genomes
Gills
Gills - enzymology
Humanities and Social Sciences
Hydration
Hypotheses
Isoforms
Juveniles
Larvae
Life history
Metabolism
Metamorphosis
multidisciplinary
Petromyzon - genetics
Petromyzon - metabolism
Phylogenetics
Phylogeny
Physiology
Polymerase chain reaction
Proteins
Science
Science (multidisciplinary)
Seawater
Synteny
Vertebrates
Water analysis
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Summary:Carbonic anhydrase plays a key role in CO 2 transport, acid-base and ion regulation and metabolic processes in vertebrates. While several carbonic anhydrase isoforms have been identified in numerous vertebrate species, basal lineages such as the cyclostomes have remained largely unexamined. Here we investigate the repertoire of cytoplasmic carbonic anhydrases in the sea lamprey ( Petromyzon marinus ), that has a complex life history marked by a dramatic metamorphosis from a benthic filter-feeding ammocoete larvae into a parasitic juvenile which migrates from freshwater to seawater. We have identified a novel carbonic anhydrase gene ( ca19 ) beyond the single carbonic anhydrase gene ( ca18 ) that was known previously. Phylogenetic analysis and synteny studies suggest that both carbonic anhydrase genes form one or two independent gene lineages and are most likely duplicates retained uniquely in cyclostomes. Quantitative PCR of ca19 and ca18 and protein expression in gill across metamorphosis show that the ca19 levels are highest in ammocoetes and decrease during metamorphosis while ca18 shows the opposite pattern with the highest levels in post-metamorphic juveniles. We propose that a unique molecular switch occurs during lamprey metamorphosis resulting in distinct gill carbonic anhydrases reflecting the contrasting life modes and habitats of these life-history stages.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep33954