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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
91

Crustacean phylogenetic systematics and opsin evolution /

Porter, Megan L., January 2005 (has links) (PDF)
Thesis (Ph. D.)--Brigham Young University. Dept. of Microbiology and Molecular Biology, 2005. / Includes bibliographical references (p. 163-189).
92

Colour and polarised light vision in stomatopods : a neuroanatomical study

Strain, Eleanor Violet January 1998 (has links)
The mantis shrimp Gonodactylus oerstedii is known to possess eyes capable of colour and polarised light vision. The apposition compound eyes of these creatures are highly mobile and their ommatidia are specialised to analyse the spectral and e-vector qualities of light in a central strip of the eye called the midband. The retina of the midband of Rows 1-4 is tiered with each row being sensitive to a narrow region of the colour spectrum. Row 5 and 6 ommatidia possess many structural features designed to allow the e-vector direction of light to be detected. This thesis investigates the neuroanatomy in the neuropile regions below the retina in an attempt to elucidate the mechanisms which allow colour and polarised light vision to take place. In Chapter 2 the retina-lamina projection of the retinal axons is studied in an ommatidium in Row 3 of the midband, and the findings suggest that the stomatopod is similar to all other crustacea so far studied, despite its unusual retina. Chapter 3 investigates the neuroanatomy of the medulla neuropile regions. A novel region of the medulla externa which deals with colour information is discovered. In Chapter 4 the lamina of Rows 1-4 is looked at in more detail, with the number of monopolar cells and the detailed arrangements of the retinular cell terminals being ascertained. The terminals sensitive to different regions of the spectrum are located in different areas of the lamina cartridge. Chapter 5 looks at many of the issues above but this time in relation to rows 5 and 6 of the midband, which are specialised for polarisation vision. The lamina neuropile is very different to that of Rows 1-4 and again a specialised region of the medulla externa is found which processes information from these rows. This thesis provides evidence that the optic lobes of Gonodactylus oerstedii are comparable to other crustacea but nevertheless may possess some intriguing specialisations related to their extraordinary colour and polarised light vision.
93

Taxonomy of some Australian serolid and sphaeromatid isopods (Crustacea)

Harrison, Keith January 1982 (has links)
The taxonomy of marine isopod crustaceans belonging to the families Serolidae and Sphaeromatidae is considered. All known Australian serolids are discussed and a new species is described from Victoria. The Serolis minuta-group (sensu Monod, 1971) is shown to exhibit great morphological variation and the differentiation of distinct species within this group is not currently possible. The differences between the minuta-group and other Australian species are described and a key to all known serolids from Australia is provided. All known sphaeromatids from the Queensland coast of Australia are redescribed, and 8 genera and 25 species new to science are described from this region. A further 1 new genus and 3 new species of Sphaeromatidae are described from southern and western Australian coasts. The morphology of ovigerous female sphaeromatids is reviewed for all known genera world-wide. The expansion of the maxilliped is shown to be directly related to brood pouch form, and some relationship is indicated between brood pouch structure and environment. Twenty different forms of brood pouch are described. For adult male sphaeromatids, an illustrated key to all known genera world-wide is provided and the known geographical distributions of the genera are listed. A preliminary revision at the species level of the entire family Sphaeromatidae is briefly attempted and the need for a natural classification within this family (especially at the generic level) is emphasised, some of the current genera being obviously artificial groups. It is shown that the families Sphaeromatidae and Serolidae are not as closely related phylogenetically as was previously thought, and the opinion is rendered that the genera Ancinus Milne Edwards, Bathycopea Tattersall and Tecticeps Richardson should probably be removed from the Sphaeromatidae.
94

THE USE OF CHEMICAL CUES BY SARGASSUM SHRIMPS LEANDER TENUICORNIS AND LATREUTES FUCORUM IN ESTABLISHING AND MAINTAINING A SYMBIOSIS WITH SARGASSUM ALGAE

Unknown Date (has links)
A mutualistic symbiosis exists between the alga Sargassum spp. and two shrimp species, L. tenuicornis and L. fucorum. But little is known about how the shrimp locate their host alga. Both visual and chemical cues are potentially available. Visual cues would be presumably restricted at night but chemical cues are potentially available continuously. Additionally, a previous study has looked at both cue variables with results that are mixed. This current research elaborates on the previous study in an attempt to fully understand Sargassum shrimp chemoreception. A y-maze and four-chambered apparatus were used to test if the shrimp were able to detect Sargassum cues, conspecific cues, and Dimethylsulfoniopropionate (DMSP) cues. Neither shrimp species showed a strong directional response to any of the chemical cues, but the Sargassum and DMSP cues did cause more shrimp to exhibit searching behavior. Additionally, several differences in response between male and female shrimp were found for each cue. A weaker dilution of DMSP was tested in an attempt to determine sensitivity of L. fucorum shrimp to the chemical cue. This weaker dilution also caused L. fucorum to exhibit searching behavior, but the sensitivity to the cue was not found and further research is needed to fully answer this question. These results show the shrimp are able to detect chemical cues in their environment and help determine more accurately the role of chemoreception in initiating and maintaining this shrimp/algal association. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2019. / FAU Electronic Theses and Dissertations Collection
95

Rozhodovací proces u raků: problematika chování a reprodukce

KUBEC, Jan January 2019 (has links)
This thesis provides an overview of case studies investigating the behaviour of freshwater crayfish, including social and reproductive interactions, decision making, and channels for recognition or processing of environmental stimuli. We described relationships between the environment and the organism and relationships among conspecifics and heterospecifics. These aspects are important, given that every decision and interaction has consequences for crayfish survival and reproduction, i.e. individual and even species success. For ethological studies in aquatic ecosystems, crustaceans, and especially crayfish, represent practical model organisms. Crayfish are advantageous over other invertebrates given their high level of social interaction in both the field and the laboratory. They exhibit unique eco- ethological behaviour in variety of feeding habits, activity cycles, habitat selection, and resource utilization at the level of species, sex, and age. Similar to vertebrates, crayfish demonstrate unique behaviours throughout their life. Subsequently, pollution impacts on native crayfish stock can result in ecosystem instability. The different reproductive strategies of females and males demonstrate that females rely on some familiarity of sexual partners as a reliable guarantee for successful mating. Crayfish females are choosier than males because of their higher energy costs for reproduction (oogenesis, incubation, parental care). While male reproduction prioritises securing their genetic information by searching for as many mates as possible. Crayfish mate preferences was analysed by facing the choosing crayfish with two equal sized mature counterparts from the same or different origin. Our conclusions could be applied in conservation research, captive breeding, and recovery programs as well as in aquaculture. The success of biological invaders has been described as the outcome from intra- and interspecific interactions. The marbled crayfish, known as parthenogenetic species with high adaptability, fast growth, early maturation, and high fecundity, established dominant status in more cases by interspecific combat victories. Fight intensity and aggressiveness decreased after dominance was established in particular pairs. Marbled crayfish seem to have an ability to conserve energy by increasing activity only at times of danger. Based on known species-specific abilities, the marbled crayfish is capable of outcompeting aggressive species, such as the red swamp crayfish. This parthenogenetic species poses a substantial threat to native ecosystems and biodiversity of aquatic environments, since it can establish not only in crayfish free habitats, but is also capable of outcompeting resident species. Recently, dilute concentrations of contaminants such as pharmaceuticals, daily-care products and pesticides have been reported to indirectly affect aquatic organisms. We found that selected pharmaceuticals can alter the behavioural patterns of crayfish, event at the very low concentration. The risks associated with surface water pollutants stresses the importance of research investigating their ecological impacts and their different/specific mechanisms of action. Prolonged exposure to the low concentrations of two pesticides exhibited changes in crayfish behavioural patterns. Various alterations in locomotion were observed after treatment in pesticide-free water. In the wild, decreased movement and activity can be a challenge for crayfish survival because of predation, even foraging to compensate for energy loss could be very difficult for less active individuals. This study suggests that crayfish behaviour assessment is a practical approach not only for investigating basic biology, or intra- and inter-specific interactions, but also for assessing the risks associated with micro-pollutants.
96

Phylogeography and Ecology of New Zealand Freshwater Amphipoda (Paracalliope, Paraleptamphopus, and Phreatogammarus)

Sutherland, Darin Lee January 2006 (has links)
ABSTRACT This thesis examines phylogenetic patterns in three New Zealand amphipod taxa in relation to current geographic distributions and historical climatic (e.g. glaciation, marine inundation) and geological (e.g. mountain building) events using DNA sequencing and distributional data. It also examines how recognition behaviour can be used to delineate potential species boundaries and to assess the role of sexual selection. The endemic genus Phreatogammarus has been found in only a limited number of sites and is not very abundant. An analysis of the genetic variation of two species within the genus using allozyme electrophoresis revealed high levels of genetic differentiation among populations but low levels within populations. This suggested that limited dispersal occurred among habitats with one population possibly representing a cryptic species. The endemic freshwater genus Paraleptamphopus is thought to contain a large number of undescribed species with a number of these existing in small waterbodies such as seepages. Examination of the phylogeographic patterns using both mtDNA (CO1) and nuclear DNA (28S) showed that a number of distinct genetic lineages exist, with CO1 revealing 21 haplotypes with genetic distance of over 20%. Using a molecular clock rate of 2.4%, most haplotypes diverged approximately 8-12 million years ago during the Miocene era, possibly as a result of greater land availability increasing habitat diversity or by allopatric speciation. Morphological and genetic differences were not congruent, with morphologically similar taxa appearing among highly genetically distinct lineages, and some morphologically distinct forms appearing within single lineages. The distribution and habitat variables of 419 sites were analysed to determine what was affecting the presence or absence of Paraleptamphopus. The presence of native vegetation in catchments had a positive affect on Paraleptamphopus distribution suggesting that large anthropogenic changes in catchment vegetation could have a negative effect on their abundance. I found smaller waterbodies to be more important than larger ones highlighting the need to study such sites as rare taxa may be ignored. A better understanding is needed on the role of small waterbodies in promoting overall species diversity in catchments. Examination of Paracalliope fluviatilis phylogenetic patterns using the mtDNA gene CO1 showed that a number of separate clades existed suggesting long term isolation and limited dispersal among catchments. Due to the large genetic divergences among some populations there was the possibility that cryptic species might exist. Species recognition experiments were conducted on seven populations to help determine whether cryptic species were present. For the three most genetically divergent crosses there was bias against inter-population pairings, suggesting that there were between two or three separate species. Using a combined field and laboratory approach, size assortative mating was examined in Paracalliope fluviatilis. The field study showed positive size assortative mating and that larger females carried more eggs, suggesting they were more fecund. A series of laboratory experiments examining four existing theories explaining the phenomenon found that none adequately explained positive size assortative mating in P. fluviatilis. I therefore presented two new explanations to explain size assortative mating: a combination of female resistance and size-related variation in a male's capacity to amplex larger females or a form of indirect intra-sexual competition.
97

The biology of Dendrogaster (Crustacea, Ascothoracida), parasitic in sea stars from Otago, New Zealand

Palmer, Penny L, n/a January 2009 (has links)
Little is known of the biology of the parasite Dendrogaster (Crustacea: Ascothoracida), an obligate endoparasite of sea stars. There are some 25 species of Dendrogaster reported worldwide. The highly modified females live within the coelomic cavity of the host, and heterochronous males are parasitic within the mantle cavity of the female. Two sea star species from the Otago Coast were found to be infected with two species of Dendrogaster. These parasite populations were studied from July 1993 to December 1994 to investigate specific aspects of their biology and the interactions between these parasites and their hosts. The parasite found in Allostichaster insignis (Asteridae) was identified as Dendrogaster argentinensis Grygier and Salvat 1984, and Asterodon miliaris (Odontasteridae) was found to contain a previously unknown species, herein described and named Dendrogaster otagoensis n. sp. The structure and function of the mantle of female Dendrogaster sp were determined using light, scanning and transmission electron microscopy. The ultrastructure of the mantle is modified, sharing characteristics found in Rhizocephala (Crustacea: Cirripedia), copepods, and Ulophysema oeresundense (Ascothoracida: Dendrogasteridae), which enable these crustaceans to absorb nutrients. Such modifications include a very thin, crenulated epicuticle, a soft, unscleratinised procuticle, and infoldings of the apical plasma membrane. In Dendrogaster the gut is likely to retain the capacity to absorb nutrients. In general, aspects of infestation of Dendrogaster argentinensis and D. otagoensis are the same. Prevalence of Dendrogaster sp. in Otago sea stars is high and parasitism occurs throughout the year. Seventy-seven point five percent of Asterodon miliaris are infected with D. otagoensis and 97.4% of Allostichaster insignis are infected with D. argentinensis. Up to 144 females are found in a single host, and as many as 34 males in a single female. Mean number of parasites per host changes little over time, but began to decrease in D. argentinensis towards the end of the sample period. The female population is dominated by small individuals, with maximum size likely to depend on space available within the host. Males achieve a large size quickly, but their growth is also restricted by the size of the female they are within. The size and number of females per host are not related to size of the host. Females acquire new males and males grow larger with an increase in female size. Males occur in females of all reproductive stages, but occur with the greatest frequency in brooding females. Reproduction is spread evenly through females in less heavily infected hosts, and there is a reduction in mean size of females as the number of females per host increases, indicative of the crowding effect. Three indices of aggregation show that both sexes of Dendrogaster are highly aggregated in their hosts, with few hosts harbouring most of the parasites. Dendrogaster is a parasitic castrator. Infected hosts have parasite loads ranging from 0.1% - 112% total sea star wet weight. Infected sea stars have smaller pyloric caecae and gonads, however, no gonads were present in uninfected Allostichaster insignis. Effect on the gonads and pyloric caecae increases as parasite load increases. Rather than directly affecting the germinal tissue of the host, Dendrogaster castrates its host indirectly through crowding and/or competitive castration. This castration is variable among hosts in Asterodon miliaris, but is important in Allostichaster insignis. The presence of D. argentinensis in A. insignis is associated with an increase in the incidence of asexual reproduction among larger (R>25mm) individuals. Specific growth rates of intact and regenerating arms in fed and starved A. insignis are lower in infected individuals. Larvae are brooded in the mantle cavity of the female until reaching the infective, swimming ascothoracid II stage. The larval development of Dendrogaster argentinensis and D. otagoensis is abbreviated. Larvae moult directly from the egg into the metanauplius. Metanauplii moult into ascothoracid I stage, which moult into the ascothoracid II stage immediately upon release from the female. Ultrastructure confirms the putative sensory function of the lattice organs. Other larval cuticular structures are also sensory. Histological examination revealed that Dendrogaster has unique system of ovulation among Crustacea. The ovarian membrane contains primary oocytes, early vitellogenic and vitellogenic oocytes, but not maturing oocytes, which are found outside the ovarian membrane. The ovarian membrane forms follicles from which vitellogenic oocytes burst into the surrounding mesodermal tissue. These oocytes mature within the mantle wall tissue until entering the mantle cavity, where they are fertilised. Ovaries are absent in most brooding females. Spermatogenesis takes place within the males posterior protrusions and is continuous. Dendrogaster are likely to be labile hermaphrodites, as sperm are found in 20% of ovaries. Female Dendrogaster display asynchronous reproduction, with females of all sizes at different stages throughout the year. Females within one host are also at different stages. Spermatogenesis is present in males of all sizes. The presence of spent males in some females is indicative of a females outliving the males.
98

Intraspecific relationships among the stygobitic shrimp Typhlatya mitchelli, by analyzing sequence data from mitochondrial DNA

Webb, Michael Scott 30 September 2004 (has links)
Intraspecific relationships among the anchialine cave shrimp Typhlatya mitchelli were examined by sequencing a total of 1505 bp from portions of three mitochondrial DNA genes. Cytochrome b, cytochrome oxidase I, and 16S rRNA were partially sequenced and analyzed for specimens from six different cenotes (water-filled caves) across the Yucatan Peninsula, Mexico. The conspecific Typhlatya pearsei that is sympatric with T. mitchelli was also sequenced and used as the outgroup. Comparisons among specimens of T. mitchelli yielded low sequence divergence values (0-1.7%), with the majority being less than 0.4%. Phylogenetic tree topologies reconstructed with neighbor-joining, maximum likelihood, and maximum parsimony were in agreement in regards of the resolution of deep branches. Also, there was no obvious geographic differentiation among the majority of T. mitchelli samples, with the exception of specimens from Cenote San Antonio Chiich (Yokdzonot, Yucatan, Mexico) which all clustered into an extremely well supported monophyletic group. The level of differentiation of this group, together with the nearly total absence of differentiation among T. mitchelli from distant cave systems, suggests that this is an Evolutionary Significant Unit (ESU), which may correspond to a new species. This unidentified Typhlatya from Cenote San Antonio Chiich was helpful in establishing a period in which the epigean ancestor colonized the cenotes. Based on pairwise distance data and previously published shrimp molecular clocks (Baldwin et al., 1998), T. mitchelli and the putative new Typhlatya species last shared a common ancestor between 3-5 million years ago (mya), during the mid-Pliocene era, while T. mitchelli and T. pearsei was approximately 7-10 mya (middle to late Miocene). The ancestor to T. mitchelli and the unidentified Typhlatya species abandoned its shallow coastal water existence in the early Pliocene and eventually expanded its range across the peninsula. Approximately 4 mya, Cenote San Antonio Chiich became isolated from the remaining gene pool thereby halting gene flow. As the regional water table fluctuated in response to the rise and fall of Pleistocene sea levels, T. mitchelli actively colonized the peninsula. The discovery of a single, continuous subterranean freshwater system provides for a better understanding of anchialine biogeography within the Yucatan Peninsula.
99

Identification of Tropomyosin as the Major Cross-Reacting Crustacean Allergen

Shanti, K.N. 06 1900 (has links)
Seafood including crustaceans, on ingestion, are known to provoke gastrointestinal as well as systemic allergic reactions. Crustaceans are aquatic arthropods with a chitinous exoskeleton and include shrimp, lobster, prawn and crab. Earlier studies in our laboratory have led to the identification and characterization of three allergens from shrimp, designated as Sa-I, Sa-I1 and Sa-III. The former two were shown to be heat stable proteins with a mol. wt. of 8.4 and 34 kDa respectively, while Sa-III was identified as tRNA Arg and TRNATyr ). Sa-II was found to be the major allergen contributing to more than 50% of the allergenic activity. There are several reports on the existence of cross-reactivity among atopic allergens, in particular food allergens. It is well known that individuals with shrimp allergy often complain of adverse reactions following the ingestion of other re1ated crustaceans. Recognition of crustacea as a group causing adverse reactions in sensitive individuals has a basis in the close phylogenetic relationship of shrimp, lobster, crab and prawn. Thus, one could expect appreciable similarity in the IgE binding epitopes of the offending allergens from related crustaceans. The present study was, therefore, aimed towards the identification of the major cross-reacting crustacean allergen and localization of its IgE binding epitopes. Cross-reactivity among a1lergens from shrimp, prawn, crab and lobster was evaluated by immunochemical methods. Antigenic cross-reactivity was established by immunodiffusion using shrimp-specific rabbit IgG. Competitive ELlSA inhibition experiments using sera of shrimp sensitive patients revealed a high degree of allergenic cross-reactivity between different crustaceans. SDSPAGE and immunoblot analysis using the sera of shrimp sensitive patients have identified a 34 kDa protein as the cross-reacting crustacean allergen. Using shrimp as a model system and Sa-II as a representative crustacean allergen, further studies were carried out to get an insight into the structural and molecular basis of allergenic cross-reactivity. The strategies adopted were, (1) to raise allergen specific anti-idiotypic antibodies and explore the possibility of using these anti-idiotypic antibodies as surrogate allergens for diagnosis of crustacea allergy and (2) to identify the IgE binding epitopes on the major shrimp allergen Sa-II, which may be shared by the 34 kDa allergen from the related crustaceans. In order to explore idiotypic, anti-idiotypic and anti-anti-idiotypic responses to Sa-II, Balb/c mice were immunized with affinity purified human idiotypic antibodies directed against the purified allergen. This resulted in the production of anti-idiotypic antibodies which were quantitated using rabbit idiotypic antibodies raised against the same allergen. The mouse anti-idiotypic antibodies recognized shrimp-specific human idiotypic antibodies of the IgE isotype from 18 of 20 individuals, and IgG antibodies from 14 of 20 shrimp sensitive patients. Immunization of Balb/ c mice with affinity purified, allergen-specific anti-idiotypic antibodies induced anti-allergen IgE and IgG responses in the absence of the allergen. The induction of anti-anti-idiotypic antibodies functionally identical to allergen-specific idiotypic antibodies confirmed that the anti-idiotypic antibodies generated, are indeed a mirror image of the allergen. The present study thus provides evidence that anti-idiotypic antibodies raised against allergen-specific idiotypic antibodies may substitute for the original allergen in the induction of allergen-specific idiotypic antibodies. The demonstration of shared idiotopes on IgG and IgE antibodies in the sera of shrimp sensitive patients supports the use of allergen-specific anti-idiotypic antibodies as surrogate allergens. These anti-anti-idiotypic antibodies not only recognized Sa-II, but also the 34 kDa allergen from prawn, lobster and crab. Cross-reactivity studies using polyclonal sera of shrimp sensitive patients and Sa-II anti-anti-idiotypic antibodies have attributed the allergenic cross-reactivity observed among the related crustaceans to the presence of highly conserved IgE binding epitopes on the 34 kDa crossreacting allergen from shrimp, crab, lobster and prawn. In order to identify the igE binding epitopes on Sa-11, it was subjected to limited tryptic digestion and the peptides were separated by reverse phase HPLC. Amino acid sequence analysis of these peptides and several other peptides generated by Asp N and Lys C treatment revealed an 861 homology with the muscle protein tropomyosin from the fruit fly Drosophila melanogaster, suggesting that the major shrimp allergen is tropomyosin. To establish that Sa-II is indeed tropomyosin, the latter was isolated from shrimp and its physicochemical and immunochemical properties were compared with those of Sa-II. Both tropomyosin and Sa-II had the same molecular mass and focused in the isoelectric pH range of 4.8-5.4. In the presence of 6 M urea, the mobility of both Sa-I1 and shrimp tropomyosin shifted to give an apparent molecular mass of 50 kDa, which is a characteristic property of tropomyosins. Shrimp tropomyosin bound to specific IgE antibodies in the sera of shrimp sensitive patients as assessed by competitive ELISA inhibition and immunoblot analysis. Tropomyosin, similar to Sa-I1 was subjected to limited tryptic digestion and the tryptic maps of both Sa-II and tropomyosin as obtained by reverse phase HPLC were found to be super imposable. Dot blot immunoassay and competitive ELISA inhibition assay using the sera of shrimp sensitive patients identified two peptides, 6 and 9 that exhibited allergenic activity. Both the peptides were purified to homogeneity and sequenced. Peptide 6 is a nonapeptide corresponding to the amino adds 153-161 and peptide 9 has 17 amino acids corresponding to the aminoacid residues 50-66. The peptides individually blocked upto 50% the binding of allergen-specific IgE to hropomyosin. Sa-II specific mouse anti-anti-idiotypic antibodies recognized not only tropomyosin, but also the two allergenic peptides, thus confirming that these peptides represent the major IgE binding epitopes. The IgG binding activity was found to be associated with peptides 6 and 9 as assessed by dot blot immunoassay using the sera of shrimp sensitive patients. Thus, it was found that both IgG and IgE binding epitopes on shrimp tropomyosin are identical. Tropomyosins from both phylogenetically related and unrelated species were assessed for allergenic activity using the sera of shrimp sensitive patients. It was found that allergenic activity was associated with tropomyosins from related crustaceans and from Drosophila melanogaster which shares 86% homology with shrimp tropornyosin. However, tropomyosins from totally unrelated species like yeast, chicken, bovine, rat, rabbit and human did not exhibit allergenic activity. A comparison of the amino acid sequence of shrimp tropomyosin in the region of IgE binding epitopes with the corresponding regions of bopomyosins from different species confirmed lack of allergenic cross-reactivity. The allergenic peptides 6 and 9 were able to inhibit the binding of tropomyosins from related crustaceans to shrimp tropomyosin-specific IgE antibodies to the same extent, confirming the presence of highly conserved IgE binding epitopes. It has been established for the first time that the major crustacean allergen is the heat stable muscle protein, tropomyosin, and extensive cross-reactivity between different members of crustacea is due to the presence of highly conserved IgE binding epitopes on tropomyosins from these sources. Thus, from the present study, information with respect to the amino acid sequence of tropomyosin and localization of its 1gE binding epitopes, could be used to design synthetic peptides corresponding to the B cell and T cell epitopes which would find application in the diagnosis and desensitization of individuals allergic to crustacea.
100

The role of predation by the red rock crab, Cancer productus, on the invasive European green crab, Carcinus maenas, in Yaquina Bay, Oregon /

Hunt, Christopher Erik. January 2001 (has links)
Thesis (M.S.)--Oregon State University, 2002. / Typescript (photocopy). Includes bibliographical references (leaves 63-105). Also available via the World Wide Web.

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