A New Niche for Vibrio Logei, the Predominant Light Organ Symbiont of Squids in the Genus Sepiola

Overview

Journal J Bacteriol

Publisher American Society for Microbiology

Specialty Microbiology

Date 1998 Jan 9

PMID 9422593

Citations 44

Authors

P M Fidopiastis

S von Boletzky

E G Ruby

Affiliations

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Abstract

Two genera of sepiolid squids--Euprymna, found primarily in shallow, coastal waters of Hawaii and the Western Pacific, and Sepiola, the deeper-, colder-water-dwelling Mediterranean and Atlantic squids--are known to recruit luminous bacteria into light organ symbioses. The light organ symbiont of Euprymna spp. is Vibrio fischeri, but until now, the light organ symbionts of Sepiola spp. have remained inadequately identified. We used a combination of molecular and physiological characteristics to reveal that the light organs of Sepiola affinis and Sepiola robusta contain a mixed population of Vibrio logei and V. fischeri, with V. logei comprising between 63 and 100% of the bacteria in the light organs that we analyzed. V. logei had not previously been known to exist in such symbioses. In addition, this is the first report of two different species of luminous bacteria co-occurring within a single light organ. The luminescence of these symbiotic V. logei strains, as well as that of other isolates of V. logei tested, is reduced when they are grown at temperatures above 20 degrees C, partly due to a limitation in the synthesis of aliphatic aldehyde, a substrate of the luminescence reaction. In contrast, the luminescence of the V. fischeri symbionts is optimal above 24 degrees C and is not enhanced by aldehyde addition. Also, V. fischeri strains were markedly more successful than V. logei at colonizing the light organs of juvenile Euprymna scolopes, especially at 26 degrees C. These findings have important implications for our understanding of the ecological dynamics and evolution of cooperative, and perhaps pathogenic, associations of Vibrio spp. with their animal hosts.

Citing Articles

Cephalopod palaeobiology: evolution and life history of the most intelligent invertebrates: Honoring Sigurd von Boletzky and his contributions to cephalopod research.

Klug C, Bonnaud-Ponticelli L, Nabhitabhata J, Fuchs D, De Baets K, Cheng J Swiss J Palaeontol. 2022; 141(1):7.

PMID: 35607365 PMC: 9120081. DOI: 10.1186/s13358-022-00247-1.

Evidence of Genomic Diversification in a Natural Symbiotic Population Within Its Host.

Bongrand C, Koch E, Mende D, Romano A, Lawhorn S, McFall-Ngai M Front Microbiol. 2022; 13:854355.

PMID: 35300477 PMC: 8922018. DOI: 10.3389/fmicb.2022.854355.

Independent host- and bacterium-based determinants protect a model symbiosis from phage predation.

Lynch J, Bennett B, Merrill B, Ruby E, Hryckowian A Cell Rep. 2022; 38(7):110376.

PMID: 35172163 PMC: 8983117. DOI: 10.1016/j.celrep.2022.110376.

Host-Like Conditions Are Required for T6SS-Mediated Competition among Vibrio fischeri Light Organ Symbionts.

Speare L, Woo M, Bultman K, Mandel M, Wollenberg M, Septer A mSphere. 2021; 6(4):e0128820.

PMID: 34287008 PMC: 8386388. DOI: 10.1128/mSphere.01288-20.

A lasting symbiosis: how Vibrio fischeri finds a squid partner and persists within its natural host.

Visick K, Stabb E, Ruby E Nat Rev Microbiol. 2021; 19(10):654-665.

PMID: 34089008 PMC: 8529645. DOI: 10.1038/s41579-021-00557-0.

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