The symbiosis between the squid Euprymna scolopes and its luminous symbiont, Vibrio fischeri, is characterized by daily transcriptional rhythms in both partners and daily fluctuations in symbiont luminescence. In this study, we sought to determine whether symbionts affect host transcriptional rhythms. We identified two transcripts in host tissues (E. scolopes cry1 [escry1] and escry2) that enco...

Abstract Mating was observed and described in captive individuals of Sepiola affinis , intermedia Sepietta obscura (Cephalopoda: Sepiolidae) collected the Catalan Sea, western Mediterranean Sea. This is first report a mating event S. ; it also detailed description behaviour for other two species. The published literature on Sepiolinae, which includes both cursory reports in-depth descriptions e...

Animals are typically colonized by diverse bacterial symbionts, many of which are commensal and, in numerous cases, even essential for their host's proper development and growth. In exchange, the host must supply a sufficient array and quantity of nutrients to support the proliferation and persistence of its microbial community. In this investigation, we have examined such a nutritional environ...

Successful colonization of a eukaryotic host by a microbe involves complex microbe-microbe and microbe-host interactions. Previously, we identified in Vibrio fischeri a putative sensor kinase, RscS, required for initiating symbiotic colonization of its squid host Euprymna scolopes. Here, we analysed the role of rscS by isolating an allele, rscS1, with increased activity. Multicopy rscS1 activat...

Colonization of the squid Euprymna scolopes by Vibrio fischeri requires biofilm formation dependent on the 18-gene symbiosis polysaccharide locus, syp. One key regulator, SypA, controls biofilm formation by an as-yet unknown mechanism; however, it is known that SypA itself is regulated by SypE. Biofilm-proficient strains form wrinkled colonies on solid media, while sypA mutants form biofilm-def...

Animals are colonized by bacteria, and in many cases partners have co-evolved to perform mutually beneficial functions. An exciting and ongoing legacy of the past decade has been an expansion of technology to enable study of natural associations in situ/in vivo. As a result, more symbioses are being examined, and additional details are being revealed for well-studied systems with a focus on the...

19 The digestive organs in decapodiform cephalopod species morphologically vary by 20 individual lifestyle. We examined the following six species of adult decapodiformes 21 cephalopods representing different habitats: Todarodes pacificus, Loligo bleekeri, Loligo 22 edulis, Watasenia scintillans (pelagic), Sepia lycidas, and Euprymna morsei (benthic). L. 23 bleekeri and L. edulis possess a bursi...

Microbial symbioses are essential for the normal development and growth of animals. Often, symbionts must be acquired from the environment during each generation, and identification of the relevant symbiotic partner against a myriad of unwanted relationships is a formidable task. Although examples of this specificity are well-documented, the genetic mechanisms governing it are poorly characteri...

Vibrio fischeri is the sole species colonizing the light-emitting organ of the Hawaiian squid, Euprymna scolopes. Upon entering the nascent light organ of a newly hatched juvenile squid, the bacteria undergo morphological and physiological changes that include the loss of flagellation and the induction of bioluminescence. These and other events reveal a pattern of genetic regulation that is a r...