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Behavioral and Chemical Defenses of Marine Prosobranch Gastropod Calliostoma canaliculatum in Response to Sympatric Seastars (1997)

Bryan, Patrick J. ; Mcclintock, James B. ; Hamann, Mark

Springer

Journal of chemical ecology 23 (1997), S. 645-658

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ISSN: 1573-1561

Keywords: Gastropod ; predation ; chemical secretion

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract The gastropod Calliostoma canaliculatum displays a series of aggressive escape behaviors upon contact with tube feet of the predatory seastars Pycnopodia helianthoides and Pisaster giganteus. Escape behaviors are predator specific. Calliostoma canaliculatum moves away from contact with P. giganteus more frequently than P. helianthoides, clamping down with the foot or retracting the head and foot into the shell when exposed to P. helianthoides. If escape from the grasp of either seastar fails, C. canaliculatum releases a yellow-colored exudate from the hypobranchial gland and subsequently retracts both the head and foot fully into the shell. This exudate contains noxious compound(s) as evidenced by retraction of tube feet and arms away from the exudate in both seastars. Tube-foot retraction responses to dilutions of the exudate indicates that both species of seastars are able to detect the exudate at a concentration of 3.2 × 10−3 mg exudate/ml seawater. Pisaster giganteus is more responsive to the exudate than Pycnopodia helianthoides, moving away from the source as well as retracting the tube feet and arm. Snails spread the exudate over their shells with their foot, perhaps to ensure defense from predators for some time period after exudate release. The exudate was collected and extracted in chloroform–ethyl acetate (1:1), then fractionated using flash chromatography. The most bioactive fraction, as evidenced by tube-foot retraction, was soluble in ethyl acetate and appeared to contain two major compounds.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/B:JOEC.0000006401.97339.b9

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Adaptive Response to Cold Temperatures in Vibrio vulnificus (1999)

Bryan, Patrick J. ; Steffan, Robert J. ; DePaola, Angelo ; [et al.]

Springer

Current microbiology 38 (1999), S. 168-175

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ISSN: 1432-0991

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract. The effectiveness of rapid chilling or freezing of oysters to reduce Vibrio vulnificus levels in shellfish may be compromised by product handling procedures that permit cold adaptation. When a V. vulnificus culture was shifted from 35°C to 6°C conditions, it underwent transition to a non-culturable state. Cells adapted to 15°C prior to change to 6°C condition, however, remain viable and culturable. In addition, cultures adapted to 15°C were able to survive better upon freezing at −78°C compared with cultures frozen directly from 35°C. Inhibition of protein synthesis by addition of chloramphenicol in a V. vulnificus culture immediately prior to the exposure to the adaptive temperature eliminated inducible cold tolerance. These results suggest that cold-adaptive “protective” proteins may enhance survival and tolerance at cold temperatures. In addition, removal of iron from the growth medium by adding 2,2′-Dipyridyl prior to cold adaptation decreased the viability by approximately 2 logarithm levels. This suggests that iron plays an important role in adaptation at cold temperatures. Analysis of total cellular proteins on an SDS polyacrylamide gel electrophoresis, labeled with 35S-methionine during exposure at 15°C, showed elevated expressions of a 6-kDa and a 40-kDa protein and decreased expression of an 80-kDa protein. These results suggest that, for V. vulnificus, survival and tolerance at cold temperatures could be due to the expression of cold-adaptive proteins other than previously documented major cold shock proteins such as CS7.4 and CsdA. In this study, for the first time we have shown that exposure to an intermediate cold temperature (15°C) causes a cold adaptive response, helping this pathogen remain in culturable state when exposed to a much colder temperature (6°C). This adaptive nature to cold temperatures could be important for shellfish industry efforts to reduce the risk of V. vulnificus infection from consuming raw oysters.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00006782

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