Cite as: Cold Spring Harb. Protoc.; 2009; doi:10.1101/pdb.emo135

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emoEmerging Model Organisms

The Hawaiian Bobtail Squid (Euprymna scolopes): A Model to Study the Molecular Basis of Eukaryote-Prokaryote Mutualism and the Development and Evolution of Morphological Novelties in Cephalopods

Patricia N. Lee1,2, Margaret J. McFall-Ngai3, Patrick Callaerts4, and H. Gert de Couet1,5

1 Department of Zoology, University of Hawaii at Manoa, Honolulu, HI 96822, USA
2 Kewalo Marine Laboratory/Pacific Biosciences Research Center, University of Hawaii at Manoa, Honolulu, HI 96813, USA
3 Department of Medical Microbiology, University of Wisconsin-Madison, Madison, WI 53706-1521, USA
4 Laboratory of Developmental Genetics, K.U. Leuven and VIB, B-3000 Leuven, Belgium

5Corresponding author (couet{at}hawaii.edu).


INTRODUCTION

The Hawaiian bobtail squid, Euprymna scolopes, is a cephalopod whose small size, short lifespan, rapid growth, and year-round availability make it suitable as a model organism. E. scolopes is studied in three principal contexts: (1) as a model of cephalopod development; (2) as a model of animal-bacterial symbioses; and (3) as a system for studying adaptations of tissues that interact with light. E. scolopes embryos can be obtained continually and can be reared in the laboratory over an entire generation. The embryos and protective chorions are optically clear, facilitating in situ developmental observations, and can be manipulated experimentally. Many molecular protocols have been developed for studying E. scolopes development. This species is best known, however, for its symbiosis with the luminous marine bacterium Vibrio fischeri and has been used to study determinants of symbiont specificity, the influence of symbiosis on development of the squid light organ, and the mechanisms by which a stable association is achieved. Both partners can be grown independently under laboratory conditions, a feature that offers the unusual opportunity to manipulate the symbiosis experimentally. Molecular and genetic tools have been developed for V. fischeri, and a large expressed sequence tag (EST) database is available for the host symbiotic tissues. Additionally, comparisons between light organ form and function to those of the eye can be made. Both types of tissue interact with light, but have divergent embryonic development. As such, they offer an opportunity to study the molecular basis for the evolution of morphological novelties.


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