Sea Urchins
Mostrando 13-24 de 61 artigos, teses e dissertações.
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13. Cellular and biochemical responses to environmental and experimentally induced stress in sea urchin coelomocytes
Coelomocytes are considered to be immune effectors of sea urchins. Subpopulations of coelomocytes can be purified from a total cell suspension. The proportion of each cell type can vary not only among species, but also between individuals of the same species, according to their size and physiological conditions. We tested the hypothesis that coelomocytes pla
Cell Stress Society International.
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14. Generation, Annotation, Evolutionary Analysis, and Database Integration of 20,000 Unique Sea Urchin EST Clusters
Together with the hemichordates, sea urchins represent basal groups of nonchordate invertebrate deuterostomes that occupy a key position in bilaterian evolution. Because sea urchin embryos are also amenable to functional studies, the sea urchin system has emerged as one of the leading models for the analysis of the function of genomic regulatory networks tha
Cold Spring Harbor Laboratory Press.
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15. Expression of the vitellogenin gene in female and male sea urchin.
Expression of vitellogenin, the yolk protein precursor, is strictly regulated during development. In previous studies on a variety of organisms, vitellogenin gene expression has been shown to be restricted to one or two tissues in adult female animals. In this report we show that, in contrast, sea urchin vitellogenin is synthesized in both females and males.
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16. Comparison of sea urchin and human mtDNA: evolutionary rearrangement.
Clones of full-length mtDNA have been isolated from a Strongylocentrotus franciscanus recombinant DNA library by screening a cDNA clone of cytochrome oxidase subunit 1 mRNA. Restriction fragment cross-hybridization analysis shows the following difference in gene arrangement between sea urchin and human mtDNA. The 16S rRNA and cytochrome oxidase subunit 1 gen
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17. Organization and evolution of the actin gene family in sea urchins.
Genomic libraries of the sea urchins Strongylocentrotus franciscanus and Lytechinus pictus were screened with an actin cDNA clone from Strongylocentrotus purpuratus. Four nonoverlapping clones were isolated and characterized from the S. franciscanus library; three were isolated and characterized from the L. pictus library. Linked genes having the same transc
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18. Retroviral-like element in a marine invertebrate.
Retroviral-like elements (RL elements) include retroviruses and long terminal repeat (LTR)-containing retrotransposons. We report the presence of sea urchin RL elements (termed SURL) in eight species of sea urchins and find that these RL elements belong to several subfamilies. The complete DNA sequence of one SURL element in Tripneustes gratilla is 5266 base
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19. Severe granulomatous arthritis due to spinous injury by a "sea mouse" annelid worm.
A case of destructive arthritis and soft tissue granulomatous inflammation occurred in a 25 year old man who had injured his right index finger while snorkelling in the Mediterranean. It was initially thought that he had fallen on a sea-urchin. He removed some spines at the time of injury but the finger became stiff, swollen, and painful, and after eight mon
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20. Transcription of sea urchin histone genes in Escherichia coli.
DNA fragments comprising units of the repeated histone genes form the sea urchins Psammechinus miliaris and Echinus esculentus were placed under the control of bacteriophage Lambda promoters by cloning into lambda replacement vectors. Although promoter-like regions exist within the cloned fragments, transcription of the histone genes is controlled mainly, bu
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21. Gene regulatory networks for development
The genomic program for development operates primarily by the regulated expression of genes encoding transcription factors and components of cell signaling pathways. This program is executed by cis-regulatory DNAs (e.g., enhancers and silencers) that control gene expression. The regulatory inputs and functional outputs of developmental control genes constitu
National Academy of Sciences.
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22. Postembryonic segregation of the germ line in sea urchins in relation to indirect development.
The four small micromeres of the sea urchin embryo contribute only to the coelomic sacs, which produce major components of the adult body plan during postembryonic development. To test the proposition that the small micromeres are the definitive primordial germ cell lineage of the sea urchin, we deleted their 4th cleavage parents, and raised the deleted embr
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23. Histone genes are clustered but not tandemly repeated in the chicken genome.
The recombinant chicken DNA library was screened for histone genes by using pSp17, a recombinant sea urchin DNA probe containing the H2a and H3 genes of Strongylocentrotus purpuratus. Three of the isolated lambda recombinants have been analyzed by restriction enzyme mapping and Southern blotting; one histone H3 gene-encoding recombinant was further analyzed
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24. Internal organization of long repetitive DNA sequences in sea urchin genomes.
In keeping with earlier reports, we have found that reassociated long repeat DNA from sea urchins is thermostable, indicating the absence of evolutionarily diverged families of repeated sequences. However, we found that when fragments of radiolabeled long repeat DNA were denatured and reassociated with intact long repeat driver DNA, then sheared to 350 basep