Generation and characterization of the Anp32e-deficient mouse

Generation and characterization of the Anp32e-deficient mouse

Accumulated literature suggests that the acidic nuclear phosphoprotein 32 kilodalton (Anp32) proteins control multiple cellular activities through different molecular mechanisms. Like other Anp32 family members, Anp32e (a.k.a. Cpd1, PhapIII) has been conserved throughout vertebrate evolution, sugges...

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Veröffentlicht in:PloS one 2010-10, Vol.5 (10), p.e13597-e13597
Hauptverfasser: Reilly, Patrick T, Afzal, Samia, Wakeham, Andrew, Haight, Jillian, You-Ten, Annick, Zaugg, Kathrin, Dembowy, Joanna, Young, Ashley, Mak, Tak W
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Apoptosis
Brain research
Cell Cycle Proteins - genetics
Cell growth
Clonal deletion
Cloning
Cytochrome
Defects
Deoxyribonucleic acid
Developmental Biology/Neurodevelopment
DNA
Drosophila
Gastric cancer
Gene expression
Genetics and Genomics/Cancer Genetics
Genetics and Genomics/Disease Models
Genomes
Health care networks
Insects
Lymphoma
Medical research
Mice
Mice, Inbred C57BL
Molecular modelling
Multiple myeloma
Mutation
Nerve Tissue Proteins - genetics
Nuclear Proteins - genetics
Pathogenesis
Phosphatase
Physiology
Proteins
Redundancy
Reverse Transcriptase Polymerase Chain Reaction
Rodents
Stomach cancer
Studies
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Zusammenfassung:Accumulated literature suggests that the acidic nuclear phosphoprotein 32 kilodalton (Anp32) proteins control multiple cellular activities through different molecular mechanisms. Like other Anp32 family members, Anp32e (a.k.a. Cpd1, PhapIII) has been conserved throughout vertebrate evolution, suggesting that it has an important function in organismal survival. Here, we demonstrate that the Anp32e gene can be deleted in mice without any apparent effect on their wellbeing. No defects in thymocyte apoptosis in response to various stresses, fibroblast growth, gross behaviour, physical ability, or pathogenesis were defined. Furthermore, combined deletion of Anp32a and Anp32e also resulted in a viable and apparently healthy mouse. These results provide evidence that significant functional redundancy exists among Anp32 family members.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0013597