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1.
In the present study, we describe the structure of the central nervous system (CNS) of the marine gastropod Bulla gouldiana, and compare it with the structure of the CNS of the related mollusc, Aplysia californica. In addition, we performed an immunohistochemical analysis of a series of peptides, and the synaptic vesicle protein, synapsin I, in the central nervous system of B. gouldiana. The most common peptide in the B. gouldiana nervous system is the molluscan cardioexcitatory peptide (FMRFamide), which is present in a significant proportion of B. gouldiana neurons. A smaller number of neurons exhibit immunoreactivity to antisera raised against the calcitonin gene related peptide, vasopressin, vasoactive intestinal peptide, cholecystokinin, galanin and enkephalin. In some instances there is colocalization of two or more peptides. Very few neurons or axons exhibit synapsin I-like immunoreactivity. The patterns of immunoreactivity to these antisera is quite similar to the patterns that have been described in other gastropods, including Lymnaea stagnalis and Aplysia californica. These observations emphasize the importance of FMRFamide-like compounds in phylogenetically old nervous systems and indicate that compounds similar to mammalian peptides are present in the gastropod. Thus, the production of a wide variety of peptide molecules and their use in neuronal function appears to be a highly conserved phylogenetic process. 相似文献
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Fernando Dí az Herrera Fernando Bü ckle Ramirez Benjamí n Bar n Sevilla Claudia Farf n 《Journal of thermal biology》1996,21(5-6):319-322
- 1. 1. The preferred temperature of Bulla gouldiana is 26.7–28.7°C.
- 2. 2. In constant scotophase, photophase, and light and dark photoperiod the organisms do not have a diel cycle of thermoregulation.
- 3. 3. It takes the animal 6–16 h to reach the preferred temperature.
- 4. 4. The lowest and highest temperatures visited were 11 and 33°C.
- 5. 5. Spawning of the species occurred in the thermal gradient between 27 and 28.5°C.
3.
The ocular circadian rhythm in the eye of Bulla gouldiana is generated by a rhythm in membrane potential of retinal neurons that is driven by alterations in potassium conductance. Since potassium conductance may be modulated by the phosphorylation of potassium channels, the circadian rhythm may reflect rhythmic changes in protein kinase activity. Furthermore, the circadian rhythm recorded from the Bulla eye can be phase shifted by agents that affect protein synthesis and protein phosphorylation on tyrosine residues. Interestingly, the eukaryotic cell division residues. Interestingly, the eukaryotic cell division cycle is generated by similar processes. Rhythmic cell division is regulated by periodic synthesis and degradation of a protein, cyclin, and periodic tyrosine phosphorylation of a cyclin-dependent kinase (cdk), p34cdc2. The interaction between these two proteins results in rhythmic kinase activity of p34cdc2. Both cyclin and p34cdc2 are pat of two diverse gene families, some of whose members have been localized to postmitotic cell types with no function yet determined. In the current work, we identify proteins similar to the cdks and cyclin in the eye of Bulla. Neither of these ocular proteins are found in mitotic cells in Bulla, and the cdk-like protein (p40) is specific to the eye. Furthermore, the concentration of the cyclin-like protein (p66) is affected by treatments that phase shift the circadain rhythm. The identification of cdk and cyclin-like proteins in the Bulla eye is consistent with the hypothesis that the biochemical mechanism responsible for generating the ocular circadian rhythm in Bulla is related to the biochemical mechnism that regulates the eukaryotic cell division cycle. 1994 John Wiley & Sons, Inc. 相似文献
4.
《Chronobiology international》2013,30(3):163-179
This review summarizes our current understanding of the signal transduction cascade by which light causes phase shifts of the circadian oscillators found in the eye of Bulla and Aplysia. The isolated retina of these marine mollusks contains a circadian oscillator, a photoreceptor, and a light transduction pathway sufficient for entrainment. This preparation offers unique advantages for the cellular analysis of entrainment and the generation of circadian oscillations. There is evidence that similar cellular mechanisms may underlie mammalian and molluskan circadian oscillations. Thus, the models developed to explain entrainment in the molluskan retina are likely to have utility in exploring the mammalian supra-chiasmatic nucleus. 相似文献
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A review of the available data on the diet of species of Bullidae is presented. Their trophic level is reassessed through gut content analysis of worldwide species from various habitats. Gut contents were identified by light and scanning electron microscopy. The previous claims of omnivory and carnivory were not supported. Worldwide species of Bullidae feed preferentially on algae and secondarily on diatoms, and are therefore herbivorous. The influence of dietary specialization on the evolution of cephalaspidean gastropods was assessed by superimposing the diet onto a molecular family-level phylogeny. Herbivory was found to be the plesiomorphic condition, with carnivory having arisen independently two or three times. This evidence suggests that dietary specialization has played a major role in the adaptive radiation of the group. 相似文献
7.
MANUEL ANTÓNIO E. MALAQUIAS DAVID G. REID 《Zoological Journal of the Linnean Society》2008,153(3):453-543
Bullidae are a worldwide family of marine shelled cephalaspidean gastropods with a mainly tropical distribution, but also with some representatives in temperate waters. The taxonomy of the group has in the past been based only on shell characters, and the few anatomical accounts available have not addressed more than one to three species, so there has been no agreement about the number of valid species. Seventy‐two specific names and 16 varietal names have been proposed worldwide. The systematics of the family Bullidae are revised, based not only on shells but also on anatomy of all extant species and on DNA sequence data. Twelve species are recognized worldwide, including one new species here described, and all are assigned to the genus Bulla. Two species occur in the eastern Atlantic, B. striata and B. mabillei; two in the western Atlantic, B. occidentalis and B. solida; two in the eastern Pacific, B. gouldiana and B. punctulata; and six in the Indo‐West Pacific, B. ampulla, B. arabica sp. nov. , B. orientalis, B. peasiana, B. quoyii and B. vernicosa. Full synonymies and taxonomic histories are provided for each species. In order to promote taxonomic stability, neotypes are designated for B. striata, B. solida, B. nebulosa (valid name B. gouldiana) and B. vernicosa, and lectotypes for B. occidentalis, B. mabillei, B. punctulata, B. ampulla and B. quoyii. The type locality of B. ampulla is restricted to Mauritius. Bullidae show a general morphological stasis, with anatomy being very similar between species. However, there are high levels of intraspecific variability in the shell, radula and male genital system. In some cases species could only be separated based on molecular data . After defining the characters and geographical range of each species it became clear that sympatric species (a maximum of three) show distinctive shells and reproductive structures, which makes identification straightforward. This study employs an integrative approach, combining information on shells, anatomy, DNA and geographical distribution, in order to resolve the systematics of a difficult taxonomic group. © 2008 The Linnean Society of London, Zoological Journal of the Linnean Society, 2008, 153 , 453–543. 相似文献
8.
In the present study, we describe the structure of the central nervous system (CNS) of the marine gastropod Bulla gouldiana, and compare it with the structure of the CNS of the related mollusc, Aplysia californica. In addition, we performed an immunohistochemical analysis of a series of peptides, and the synaptic vesicle protein, synapsin I, in the central nervous system of B. gouldiana. The most common peptide in the B. gouldiana nervous system is the molluscan cardioexcitatory peptide (FMRFamide), which is present in a significant proportion of B. gouldiana neurons. A smaller number of neurons exhibit immunoreactivity to antisera raised against the calcitonin gene related peptide, vasopressin, vasoactive intestinal peptide, cholecystokinin, galanin and enkephalin. In some instances there is colocalization of two or more peptides. Very few neurons or axons exhibit synapsin I-like immunoreactivity. The patterns of immunoreactivity to these antisera is quite similar to the patterns that have been described in other gastropods, including Lymnaea stagnalis and Aplysia californica. These observations emphasize the importance of FMRFamide-like compounds in phylogenetically old nervous systems and indicate that compounds similar to mammalian peptides are present in the gastropod. Thus, the production of a wide variety of peptide molecules and their use in neuronal function appears to be a highly conserved phylogenetic process. 相似文献
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