Molecular detection of marine invertebrate larvae

Molecular detection of marine invertebrate larvae

The ecological patterns of many invertebrate larvae remain an ongoing mystery, in large part owing to the difficult task of detecting them in the water column. The development of nucleic-acid-based technology has the potential to resolve this issue by direct identification and monitoring of embryoni...

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Bibliographic Details
Published in:Marine biotechnology (New York, N.Y.) Vol. 8; no. 2; pp. 149 - 160
Main Authors: Goffredi, Shana K, Jones, William J, Scholin, Christopher A, Marin, 3rd, Roman, Vrijenhoek, Robert C
Format: Journal Article
Language:English
Published: United States Springer Nature B.V 01-04-2006
Subjects:
Adaptability
Air Pressure
Animals
DNA Primers - chemistry
DNA Probes - chemistry
Environmental Monitoring - methods
Female
Hybridization
In Situ Hybridization, Fluorescence - methods
Invertebrata
Invertebrates
Larva - classification
Larva - genetics
Larvae
Marine
Marine biology
Marine invertebrates
Molecular biology
Nucleic Acid Hybridization - methods
Oceans
Plankton
Plankton - classification
Plankton - genetics
Probes
RNA, Ribosomal, 18S - genetics
Sensitivity and Specificity
Spectrum Analysis - methods
Studies
Temperature
Thoracica
Thoracica - classification
Thoracica - genetics
Water column
INE, USA, California, Monterey Bay
USA, California, Monterey Bay
World Ocean
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Summary:The ecological patterns of many invertebrate larvae remain an ongoing mystery, in large part owing to the difficult task of detecting them in the water column. The development of nucleic-acid-based technology has the potential to resolve this issue by direct identification and monitoring of embryonic and larval forms in situ. We report herein on the successful development and application of nucleic-acid-based sandwich hybridization assays that detect barnacles using rRNA-targeted probes with both group-(order Thoracica) and species-(Balanus glandula) specificity. Primary results include the determination of target 18S rRNA sequences and the construction of "capture" probes for detection of larvae using hybridization techniques. In addition, we modified existing protocols for whole cell hybridization of invertebrate larvae as confirmation of the sandwich hybridization results. We used both hybridization techniques successfully in the laboratory on a plankton time series collected over 3 months, as well as a week-long in situ deployment of the technique in Monterey Bay, CA. The adaptability of this technology promises to be further applicable to various organisms and could be used to enhance our understanding of larval presence in the world's oceans.
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ISSN:1436-2228
1436-2236
DOI:10.1007/s10126-005-5016-2