Biologically inspired biosensors from fish chromatophores

Young, Jun

12 July 1996

This thesis explores the feasibility of using melanophore-based biosensors from Oreochromis niloticus. Melanophores are one type of pigmented cell of the scales and fins of fish that respond in a motile fashion to a diverse range of stimuli. Fish scales were employed as the first step in determining the utility of melanophores as biosensors. Responsiveness of melanophores in scales was quantitated with several bioactive agents. Experiments with depolarizing potassium ion, guanethidine, yohimbine (an adrenergic antagonist), and capsaicin (a sensory stimulant) provided evidence that melanophores are under nervous regulation. Conditions were developed to allow simplification of intact scale preparations, entailing epidermal removal and dennervation of scales. This simplification resulted in increased sensitivity and responsiveness to a larger array of bioactive agents, including a cyclic AMP analog. The simplified preparation was successfully tested for its ability to function as a biosensor using pharmaceutical eye drops; the response observed was determined to be due to naphazoline, an adrenergic agonist. Methods were developed that enabled culturing of chromatophores independent from scales. Cultured chromatophores were found to be responsive to bioactive agents with a comparable degree of sensitivity as simplified scale preparations. Attempts were undertaken to develop co-cultures of chromatophores with other cell types and with further development melanophore-based biosensors can be exploited. / Graduation date: 1997

Nile tilapia -- Sense organs

Biosensors

Melanophores

Visual behaviour of the whitefly Trialeurodes vaporariorum (Westwood) (Homoptera : Aleyrodidae) / by Peter Eric Coombe.

Coombe, Peter Eric

January 1981

Errata pasted onto front end paper. / Includes bibliographical references (50 leaves). / vii, 77, [50] leaves, [26] leaves of plates : ill. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Entomology, 1981

595.752 21

Trialeurodes Sense organs.

Trialeurodes Behavior.

The encoding properties of gyroscopic mechanosensory neurons in Lepidoptera /

Dieudonné, Alexandre.

January 2008

Thesis (Ph. D.)--University of Washington, 2008. / Vita. Includes bibliographical references (leaves 88-93).

Water Transport in the Lateral Line Canal of the Intertidal Fish <i>Xiphister mucosus</i> (Girard 1858) and Its Significance to Evaporative Water with Preliminary Observations of the Metabolic Consequences of Water Loss

Gayer, Whitney Anne

12 January 2018

The lateral line canal system is a sensory organ found in all teleost fish that has a wide range of morphological variation. Variation in morphology may often be the result of evolutionary necessity where the need for function dictates form. Xiphister mucosus is an amphibious Stichaeid fish that inhabits the rocky intertidal zone of the northeastern Pacific Ocean. The rocky intertidal is considered an extreme environment where crashing waves and ebbing tides may require the specialization of adaptations for surviving the many abiotic stressors encountered there. The lateral line trunk canal of Xiphister is regarded as unique among teleosts with multiple, branching, zigzag shaped canals that are morphologically complex. The X. mucosus canal was found to not serve as a mechanosensory organ, rather the findings presented here suggest a new role as a water transport organ. This may be an exaptation to help X. mucosus avoid desiccation during low tides when the fish remain upon the rocky shore and exposed to dehydration. While emersed, Xiphister relies on cutaneous respiration as its primary means of aerial respiration.

Lateral line organs

Intertidal fishes

Fishes -- Sense organs

Animal Structures

Biology

Sense Organs

Comparative Morphology of Sensilla Styloconica on the Proboscis of North American Nymphalidae and Other Selected Taxa: Systematic and Ecological Considerations.

Petr, Daniel

12 1900

Sensilla styloconica on the proboscis of 107 species of North American and tropical butterflies were comparatively studied using the scanning electron microscope. Focus was on 76 species of North American Nymphalidae representing 45 genera and 11 subfamilies. Nomenclature for generalized and specific types of nymphalid sensilla is proposed. Written descriptions and micrographs are presented for each species studied. Morphological features were generally consistent for all or most species within genera and sometimes within subfamilies, with specified exceptions. Statistical analysis revealed significant differences for six of eight variables tested between two distinct feeding guilds of North American Nymphalidae. Average number, density, extent of proboscis coverage with sensilla, their total length, and shoulder spine length were all significantly greater in the non-nectar feeding guild than in nectar feeders, and may indicate adaptation for greater efficiency in feeding on flat surfaces. The greater frequency of apical shoulder spines in non-nectar feeders may represent adaptation for protection of sensory pegs from mechanical abrasion during feeding, or for anchoring the flexible proboscis tip to the surface. Correlation analysis revealed 9 out of 28 positive correlations in nectar feeders and 5 out of 28 in non-nectar feeders. Results of preliminary cladistic analysis were not considered to be meaningfully robust due to few available characters. The stylar characters identified in this study should be more useful in future analyses when included with characters from other lines of evidence. The presence of sensilla styloconica in all subfamilies of Nymphalidae, except Danainae, largely supports Ehrlich's (1958) higher classification concept for the family. The presence of less conspicuous sensilla in the Danainae, and other characteristics are presented as further evidence that they should be reconsidered for full family status. Sensilla styloconica in nymphalid butterflies appear to function as extensions that provide greater sensory reach during feeding. The role of these sensilla in liquid uptake, pollen feeding, and host plant selection is discussed.

Butterflies -- Sense organs.

Butterflies -- Morphology.

Nymphalidae -- Sense organs.

Nymphalidae -- Morphology.

Lepidoptera -- Sense organs.

Lepidoptera -- Morphology.

Scanning electron microscope

Micrographs

Sensilla styloconica

Nymphalidae

Butterflies

The effects of deuterating an attractant of the American cockroach, Periplaneta americana L., as a test for the frequency theory of olfaction

Kuo, Chung-Kuo

January 2011

Vita. / Digitized by Kansas Correctional Industries

CockroachesUnited States--Control

Insect baits and repellents

Sense organs--Insects

Development of campaniform sensilla on the wing of the tobacco hornworm, Manduca sexta

Gaines, Ronald Lynn.

January 1979

Call number: LD2668 .T4 1979 G34 / Master of Science

Sense organs--Insects.

Insects--Embryology.

Tobacco hornworm.

Masters theses

Evaluation of the olfactory capabilities of western flower thrips towards volatiles from present and putative ancestral hosts

Abdullah, Zayed Saud

January 2013

No description available.

500

Electroreception in the obligate freshwater stingray, Potamotrygon motoro

Unknown Date

Elasmobranch fishes use electroreception to detect electric fields in the environment, particularly minute bioelectric fields produced by potential prey. A single elasmobranch family (Potamotrygonidae) is composed of obligate freshwater stingrays endemic to the Amazon River. A freshwater existence has imposed morphological adaptions on their electrosensory system due to life in a high impedance medium. Because their electrosensory morphology differs from their marine relatives, freshwater stingrays may demonstrate corresponding differences in behavioral sensitivity. The objective of this study was to quantify behavioral sensitivity of the obligate freshwater stingray Potamotrygon motoro to prey-simulating voltage. The voltage produced by common teleost prey of P. motoro were measured and replicated for behavioral trials. The best response was 10.62 cm, and the smallest voltage gradient detected was 0.005 mVcm-1. This sensitivity is reduced compared to marine species. The conductivity of the medium, more so than ampullary morphology, may dictate sensitivity of the elasmobranch electrosensory system. / by Lindsay L. Harris. / Thesis (M.S.)--Florida Atlantic University, 2013. / Includes bibliography. / Mode of access: World Wide Web. / System requirements: Adobe Reader.

Fishes--Sense organs

FIshes--Physiology

Stingrays--Physiology

Fish culture

Embryonic development of the olfactory system in Drosophila melanogaster

Prieto Godino, Laura Lucía

January 2011

No description available.

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