Literature DB >> 21277325

The genus Xenopus as a multispecies model for evolutionary and comparative immunobiology of the 21st century.

Jacques Robert1, Nicholas Cohen.   

Abstract

The Xenopus model for immunological research offers a collection of invaluable research tools including MHC-defined clones, inbred strains, cell lines, and monoclonal antibodies. Further, the annotated full genome sequence of Xenopus tropicalis and its remarkable conservation of gene organization with mammals, as well as ongoing genome mapping and mutagenesis studies in X. tropicalis, add a new dimension to the study of immunity. In this paper, we review uses of this amphibian model to study: the development of the immune system; vascular and lymphatic regeneration; immune tolerance; tumor immunity; immune responses to important emerging infectious diseases; and the evolution of classical and non-classical MHC class I genes. We also discuss the rich potential of the species with different degrees of polypoidy resulting from whole genome-wide duplication of the Xenopodinae subfamily as a model to study regulation at the genome level.
Copyright © 2011 Elsevier Ltd. All rights reserved.

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Year:  2011        PMID: 21277325      PMCID: PMC3109137          DOI: 10.1016/j.dci.2011.01.014

Source DB:  PubMed          Journal:  Dev Comp Immunol        ISSN: 0145-305X            Impact factor:   3.636


  89 in total

1.  Immunology in the spotlight at the Dover 'Intelligent Design' trial.

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2.  Lymphocytes of the toad Xenopus laevis have the gene set for promoting tadpole development.

Authors:  M R Wabl; R B Brun; L Du Pasquier
Journal:  Science       Date:  1975-12-26       Impact factor: 47.728

3.  Location of hemopoietic stem cells influences frequency of lymphoid engraftment in Xenopus embryos.

Authors:  J B Turpen; P B Smith
Journal:  J Immunol       Date:  1989-12-01       Impact factor: 5.422

4.  Changes in the immune system during metamorphosis of Xenopus.

Authors:  M F Flajnik; E Hsu; J F Kaufman; L D Pasquier
Journal:  Immunol Today       Date:  1987

5.  Antimicrobial peptide defenses against pathogens associated with global amphibian declines.

Authors:  Louise A Rollins-Smith; Jennifer K Doersam; Joyce E Longcore; Sharon K Taylor; Jessica C Shamblin; Cynthia Carey; Michael A Zasloff
Journal:  Dev Comp Immunol       Date:  2002-01       Impact factor: 3.636

6.  The keratin-related Ouroboros proteins function as immune antigens mediating tail regression in Xenopus metamorphosis.

Authors:  Katsuki Mukaigasa; Akira Hanasaki; Mitsugu Maéno; Hiroshi Fujii; Shin-ichiro Hayashida; Mari Itoh; Makoto Kobayashi; Shin Tochinai; Masayuki Hatta; Kazuya Iwabuchi; Masanori Taira; Kazunori Onoé; Yumi Izutsu
Journal:  Proc Natl Acad Sci U S A       Date:  2009-10-13       Impact factor: 11.205

Review 7.  Metamorphosis and the amphibian immune system.

Authors:  L A Rollins-Smith
Journal:  Immunol Rev       Date:  1998-12       Impact factor: 12.988

8.  Heterogeneous interspecific interactions in a host-parasite system.

Authors:  J A Jackson; R J Pleass; J Cable; J E Bradley; R C Tinsley
Journal:  Int J Parasitol       Date:  2006-08-08       Impact factor: 3.981

9.  Temporal requirement for bone morphogenetic proteins in regeneration of the tail and limb of Xenopus tadpoles.

Authors:  Caroline W Beck; Bea Christen; Donna Barker; Jonathan M W Slack
Journal:  Mech Dev       Date:  2006-07-06       Impact factor: 1.882

Review 10.  Tumorigenesis and anti-tumor immune responses in Xenopus.

Authors:  Ana Goyos; Jacques Robert
Journal:  Front Biosci (Landmark Ed)       Date:  2009-01-01
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  17 in total

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Journal:  Proc Biol Sci       Date:  2012-09-05       Impact factor: 5.349

Review 4.  Vitamin A (retinoid) metabolism and actions: What we know and what we need to know about amphibians.

Authors:  Robin D Clugston; William S Blaner
Journal:  Zoo Biol       Date:  2014-06-24       Impact factor: 1.421

5.  Bioelectric signalling via potassium channels: a mechanism for craniofacial dysmorphogenesis in KCNJ2-associated Andersen-Tawil Syndrome.

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6.  Early development of the thymus in Xenopus laevis.

Authors:  Young-Hoon Lee; Allison Williams; Chang-Soo Hong; Youngjae You; Makoto Senoo; Jean-Pierre Saint-Jeannet
Journal:  Dev Dyn       Date:  2012-12-05       Impact factor: 3.780

7.  Ranaviruses: not just for frogs.

Authors:  V Gregory Chinchar; Thomas B Waltzek
Journal:  PLoS Pathog       Date:  2014-01-16       Impact factor: 6.823

8.  Copy number variation and genetic diversity of MHC Class IIb alleles in an alien population of Xenopus laevis.

Authors:  Barbara K Mable; Elizabeth Kilbride; Mark E Viney; Richard C Tinsley
Journal:  Immunogenetics       Date:  2015-09-02       Impact factor: 2.846

9.  A transgenic Xenopus laevis reporter model to study lymphangiogenesis.

Authors:  Annelii Ny; Wouter Vandevelde; Philipp Hohensinner; Manu Beerens; Ilse Geudens; Antonio Diez-Juan; Katleen Brepoels; Stéphane Plaisance; Paul A Krieg; Tobias Langenberg; Stefan Vinckier; Aernout Luttun; Peter Carmeliet; Mieke Dewerchin
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10.  Comprehensive transcriptome profiling and functional analysis of the frog (Bombina maxima) immune system.

Authors:  Feng Zhao; Chao Yan; Xuan Wang; Yang Yang; Guangyin Wang; Wenhui Lee; Yang Xiang; Yun Zhang
Journal:  DNA Res       Date:  2013-08-13       Impact factor: 4.458
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