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Of Mice and Men: Divergence of Gene Expression Patterns in Kidney

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  • Lydie Cheval
  • Fabien Pierrat
  • Rabary Rajerison
  • David Piquemal
  • Alain Doucet

Abstract

Since the development of methods for homologous gene recombination, mouse models have played a central role in research in renal pathophysiology. However, many published and unpublished results show that mice with genetic changes mimicking human pathogenic mutations do not display the human phenotype. These functional differences may stem from differences in gene expression between mouse and human kidneys. However, large scale comparison of gene expression networks revealed conservation of gene expression among a large panel of human and mouse tissues including kidneys. Because renal functions result from the spatial integration of elementary processes originating in the glomerulus and the successive segments constituting the nephron, we hypothesized that differences in gene expression profiles along the human and mouse nephron might account for different behaviors. Analysis of SAGE libraries generated from the glomerulus and seven anatomically defined nephron segments from human and mouse kidneys allowed us to identify 4644 pairs of gene orthologs expressed in either one or both species. Quantitative analysis shows that many transcripts are present at different levels in the two species. It also shows poor conservation of gene expression profiles, with less than 10% of the 4644 gene orthologs displaying a higher conservation of expression profiles than the neutral expectation (p

Suggested Citation

  • Lydie Cheval & Fabien Pierrat & Rabary Rajerison & David Piquemal & Alain Doucet, 2012. "Of Mice and Men: Divergence of Gene Expression Patterns in Kidney," PLOS ONE, Public Library of Science, vol. 7(10), pages 1-12, October.
    • Handle: RePEc:plo:pone00:0046876
    DOI: 10.1371/journal.pone.0046876
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    1. David Brawand & Magali Soumillon & Anamaria Necsulea & Philippe Julien & Gábor Csárdi & Patrick Harrigan & Manuela Weier & Angélica Liechti & Ayinuer Aximu-Petri & Martin Kircher & Frank W. Albert & U, 2011. "The evolution of gene expression levels in mammalian organs," Nature, Nature, vol. 478(7369), pages 343-348, October.
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    1. Yuanyuan Qu & Xiaohui Wu & Aihetaimujiang Anwaier & Jinwen Feng & Wenhao Xu & Xiaoru Pei & Yu Zhu & Yang Liu & Lin Bai & Guojian Yang & Xi Tian & Jiaqi Su & Guo-Hai Shi & Da-Long Cao & Fujiang Xu & Yu, 2022. "Proteogenomic characterization of MiT family translocation renal cell carcinoma," Nature Communications, Nature, vol. 13(1), pages 1-18, December.
    2. Bujamin H. Vokshi & Guillaume Davidson & Nassim Tawanaie Pour Sedehi & Alexandra Helleux & Marc Rippinger & Alexandre R. Haller & Justine Gantzer & Jonathan Thouvenin & Philippe Baltzinger & Rachida B, 2023. "SMARCB1 regulates a TFCP2L1-MYC transcriptional switch promoting renal medullary carcinoma transformation and ferroptosis resistance," Nature Communications, Nature, vol. 14(1), pages 1-19, December.

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