Search results for "Axolotl"

showing 10 items of 10 documents

Activation by mitogens and superantigens of axolotl lymphocytes: functional characterization and ontogenic study.

1996

Urodele amphibians have weak and slow immune responses compared to mammals and anuran amphibians. Using new culture conditions, we tested the ability of lymphocytes of a well-studied salamander, the Mexican axolotl (Ambystoma mexicanum) to proliferate in vitro with diverse mitogenic agents. We demonstrated that the axolotl has a population of B lymphocytes that proliferate specifically and with a high stimulation index to the lipopolysaccharide (LPS) known as a B-cell mitogen in mammals. This proliferative capacity is observed without significant changes throughout ontogenesis. In the presence of LPS, axolotl B lymphocytes are able to synthesize and secrete both isotopes of immunoglobulin d…

AgingLymphocyteT-LymphocytesImmunologyPopulationCell Culture TechniquesMajor histocompatibility complexLymphocyte ActivationAxolotlmedicineSuperantigenImmunology and AllergyAnimalsFunctional abilityeducationPhytohaemagglutinineducation.field_of_studyB-LymphocytesSuperantigensbiologyCell Differentiationbiology.organism_classificationCell biologyAmbystoma mexicanummedicine.anatomical_structureConcanavalin AImmunologybiology.proteinMitogensCell DivisionSpleenResearch Article

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Graduelle Gesetzmässigkeit des Regenerationstempos der Kiemenblättchen beim Axolotl (Amblystoma mexicanum Cope) [Aksolotla (Amblystoma mexicanum Cope…

1933

Teksts vācu valodā, kopsavilkums latviešu valodā.

AxolotlAnimal morphologyAksolotlu ontoģenētiskā attīstība:NATURAL SCIENCES::Biology::Organism biology::Morphology [Research Subject Categories]Amblystoma mexicanum CopeAxolotl - ontogenetische EntwicklungZooloģija eksperimentālāDzīvnieku morfoloģijaTiermorphologie

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Graduelle Gesetzmässigkeit des Regenerationstempos der Kiemen beim Axolotl (Amblystoma mexicanum Cope)

1934

Izvilkums no: Acta Zoologica, Stockholms Högskola, Bd. 15, 1934.

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Isolation of Mhc class I cDNAs from the axolotl Ambystoma mexicanum.

1997

Class I major histocompatibility complex (Mhc) cDNA clones were isolated from axolotl mRNA by polymerase chain reaction (PCR) and by screening a cDNA phage library. The nucleotide and predicted amino acid sequences show definite similarities to the Mhc class Ialpha molecules of higher vertebrates. Most of the amino acids in the peptide binding region that dock peptides at their N and C termini in mammals are conserved. Several amino acids considered to be important for the interaction of beta2-microglobulin with the Mhc alpha chain are also conserved in the axolotl sequence. The fact that axolotl class I A cDNAs are ubiquitously expressed and highly polymorphic in the alpha1 and alpha2 doma…

DNA ComplementaryImmunologyMolecular Sequence DataGene ExpressionGenes MHC Class IPeptide bindingMajor histocompatibility complexAxolotlComplementary DNASequence Homology Nucleic AcidMHC class IGeneticsAnimalsTissue DistributionAmino Acid SequenceCloning MolecularAmbystoma mexicanumGenechemistry.chemical_classificationGeneticsBinding SitesPolymorphism GeneticbiologyBase SequenceSequence Homology Amino Acidbiology.organism_classificationAmino acidProtein Structure TertiaryAmbystoma mexicanumchemistrybiology.proteinSequence AlignmentImmunogenetics

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Structure of MHC class I and class II cDNAs and possible immunodeficiency linked to class II expression in the Mexican axolotl

1998

Despite the fact that the axolotl (Ambystoma spp. a urodele amphibian) displays a large T-cell repertoire and a reasonable B-cell repertoire, its humoral immune response is slow (60 days), non-anamnestic, with a unique IgM class. The cytotoxic immune response is slow as well (21 days) with poor mixed lymphocyte reaction stimulation. Therefore, this amphibian can be considered as immunodeficient. The reason for this subdued immune response could be an altered antigenic presentation by major histocompatibility complex (MHC) molecules. This article summarizes our work on axolotl MHC genes. Class I genes have been characterized and the cDNA sequences show a good conservation of non-polymorphic …

DNA ComplementarySequence analysisGenes MHC Class IIMolecular Sequence DataImmunologyGenes MHC Class IPeptide bindingMajor histocompatibility complexEpitopeAntigenAxolotlMHC class IAnimalsHumansImmunology and AllergyAmino Acid SequenceRNA MessengerGeneticsPolymorphism GeneticBase SequencebiologyHistocompatibility Antigens Class IIbiology.organism_classificationAmbystoma mexicanumbiology.proteinAlpha chainImmunological Reviews

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Axolotl MHC class II β chain: predominance of one allele and alternative splicing of the β1 domain

2001

The axolotl MHC is composed of multiple polymorphic class I loci linked to class II B loci. In this report, evidence of the existence of one class II B locus (Amme-DAB) that codes for two different transcripts is given. A 2.1-kb transcript is translated to a complete β chain and a shorter transcript of 1.8 kb encodes a molecule lacking the β1 domain. For two complete class II B mRNA synthesized, up to one mRNA devoid of the β1 domain is synthesized. Alternative splicing involving a peptide binding domain at a class II B locus evidenced in axolotl (Ambystoma mexicanum) is also observed for A. trigrinum, the tiger salamander. Very little variability is found among various axolotl MHC class II…

GeneticsMHC class IIbiologyCD74ImmunologyAlternative splicingPeptide bindingbiology.organism_classificationMajor histocompatibility complexMolecular biologyAxolotlMHC class Ibiology.proteinImmunology and AllergyAlleleEuropean Journal of Immunology

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Natural and induced apoptosis during lymphocyte development in the axolotl

1999

Lymphocytes apoptosis was characterized in a urodele amphibian, the axolotl, by morphology using electron microscopy and by flow cytometry after propidium iodide staining, as well as by biochemical criteria with the detection of DNA ladders after glucocorticoid treatment. The morphological and biochemical features observed in treated axolotls are in accordance with the criteria of apoptosis found in different models of mammalian lymphocyte programmed cell death. The onset of natural apoptosis was then detected by DNA fragmentation in thymus and in spleen during lymphocyte development and ontogenesis. A typical DNA ladder characteristic of apoptosis is detectable in the thymus as early as 5 …

Programmed cell deathHydrocortisoneT-LymphocytesLymphocyteImmunologyApoptosisBiologyAmbystomaFlow cytometryEnterotoxinschemistry.chemical_compoundAxolotlmedicineSuperantigenAnimalsLymphocytesPropidium iodideSuperantigensmedicine.diagnostic_testCell Differentiationbiology.organism_classificationMolecular biologymedicine.anatomical_structurechemistryApoptosisLarvaDNA fragmentationDevelopmental BiologyDevelopmental & Comparative Immunology

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Axolotl MHC architecture and polymorphism.

1999

The MHC of the urodele amphibian Ambystoma mexicanum consists of multiple polymorphic class I loci linked, so far as yet known, to a single class II B locus. This architecture is very different from that of the anuran amphibian Xenopus. The number of class I loci in the axolotl can vary from 6 to 21 according to the haplotypes as shown by cDNA analysis and Southern blot studies in families. These loci can be classified into seven sequence groups with features ranging from the class Ia to the class Ib type. All individuals express genes from at least three of the seven groups, and all individuals possess the class Ia-like type.

Protein ConformationImmunologyGenes MHC Class IIMolecular Sequence DataGenes MHC Class IMajor histocompatibility complexAmbystomaEvolution MolecularMajor Histocompatibility ComplexAxolotlPolymorphism (computer science)Complementary DNAHLA-A2 AntigenImmunology and AllergyAnimalsHumansAmino Acid SequenceAmbystoma mexicanumGeneConserved SequenceSouthern blotGeneticsPolymorphism GeneticbiologyHaplotypebiology.organism_classificationBlotting Southernbiology.proteinEuropean journal of immunology

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The processes of involution in the gills of the Axolotl (Amblystoma mexicanum Cope)

1934

Izvilkums no: Latvijas Bioloģijas biedrības Raksti, sēj. 4, decembris 1934. Teksts angļu valodā, kopsavilkums latviešu valodā.

Zoology experimentalHistologyAnimal morphologyHistoloģija:NATURAL SCIENCES::Biology::Organism biology::Morphology [Research Subject Categories]Zooloģija eksperimentālāDzīvnieku morfoloģijaAksolotlu histoloģijaAxolotl histology

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Characterization of a multimeric polypeptide complex on the surface of thymus-derived cells in the Mexican axolotl.

1993

We previously raised a rabbit antiserum (L12) against a 38 kD polypeptide which is expressed on the surface of thymocytes and peripheral T cells of an Urodele Amphibian, the Mexican axolotl (Ambystoma mexicanum). Here we show that L12 antibodies immunoprecipitate several labelled molecules from surface iodinated axolotl spleen cells, including the 38 kD molecule, but also two polypeptides of 43 and 22 kD which are covalently linked to other elements. Another rabbit antiserum (L10) was raised against detergent-solubilized axolotl thymocyte membranes and shown to recognize the majority of thymocytes and about half of the splenocytes in immunofluorescence. In Western blotting, L10 antibodies r…

medicine.drug_classT-LymphocytesImmunologyBlotting WesternFluorescent Antibody TechniqueThymus GlandBiologyImmunofluorescenceMonoclonal antibodyAntigen-Antibody ReactionsMiceAxolotlAntibody SpecificitymedicineSplenocyteAnimalsAntiserumB-LymphocytesMice Inbred BALB Cmedicine.diagnostic_testAntibodies MonoclonalGeneral MedicineT lymphocytebiology.organism_classificationMolecular biologyAmbystoma mexicanumMolecular WeightThymocyteAntigens Surfacebiology.proteinElectrophoresis Polyacrylamide GelRabbitsAntibodyPeptidesBiomarkersSpleenScandinavian journal of immunology

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