Nuclear translocation controlled by alternatively spliced isoforms inactivates the QUAKING apoptotic inducer.
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[1] M. Justice,et al. Induction of new mutations in a mouse t-haplotype using ethylnitrosourea mutagenesis. , 1986, Genetical research.
[2] B. Zalc,et al. Morphological, Biochemical, and Functional Characterization of Bulk Isolated Glial Progenitor Cells , 1991, Journal of neurochemistry.
[3] S. Zaffran,et al. The held out wings (how) Drosophila gene encodes a putative RNA-binding protein involved in the control of muscular and cardiac activity. , 1997, Development.
[4] L. Tartaglia,et al. Two TNF receptors. , 1992, Immunology today.
[5] T. Schedl,et al. gld-1, a tumor suppressor gene required for oocyte development in Caenorhabditis elegans. , 1995, Genetics.
[6] T. Volk,et al. The balance between two isoforms of the Drosophila RNA-binding protein how controls tendon cell differentiation. , 1999, Molecular cell.
[7] K. Artzt,et al. Neural Cell Type-Specific Expression of QKI Proteins Is Altered in quakingviable Mutant Mice , 1996, The Journal of Neuroscience.
[8] Xinbin Chen,et al. MCG10, a Novel p53 Target Gene That Encodes a KH Domain RNA-Binding Protein, Is Capable of Inducing Apoptosis and Cell Cycle Arrest in G2-M , 2000, Molecular and Cellular Biology.
[9] M. Justice,et al. Three ENU-induced alleles of the murine quaking locus are recessive embryonic lethal mutations. , 1988, Genetical research.
[10] E. B. Goodwin,et al. The STAR protein, GLD‐1, is a translational regulator of sexual identity in Caenorhabditis elegans , 1999, The EMBO journal.
[11] A. Porter. Protein translocation in apoptosis. , 1999, Trends in cell biology.
[12] E. Baehrecke. who encodes a KH RNA binding protein that functions in muscle development. , 1997, Development.
[13] K. Artzt,et al. The STAR protein QKI-6 is a translational repressor. , 1999, Proceedings of the National Academy of Sciences of the United States of America.
[14] V. Dixit,et al. Death receptors: signaling and modulation. , 1998, Science.
[15] E. Hogan,et al. Animal Models of Genetic Disorders of Myelin , 1984 .
[16] Lili Wan,et al. Characterization of dFMR1, a Drosophila melanogaster Homolog of the Fragile X Mental Retardation Protein , 2000, Molecular and Cellular Biology.
[17] D. D. Mosser,et al. Inducible Overexpression of a Toxic Protein by an Adenovirus Vector with a Tetracycline-Regulatable Expression Cassette , 1998, Journal of Virology.
[18] C. Prives,et al. p53: puzzle and paradigm. , 1996, Genes & development.
[19] M. Justice,et al. Contrasting effects of ENU induced embryonic lethal mutations of the quaking gene. , 1999, Genomics.
[20] M. Justice,et al. The quaking gene product necessary in embryogenesis and myelination combines features of RNA binding and signal transduction proteins , 1996, Nature Genetics.
[21] Thea D. Tlsty,et al. Altered cell cycle arrest and gene amplification potential accompany loss of wild-type p53 , 1992, Cell.
[22] H. Horvitz,et al. An Alternatively Spliced C. elegans ced-4 RNA Encodes a Novel Cell Death Inhibitor , 1996, Cell.
[23] K. Artzt,et al. Remarkable sequence conservation of transcripts encoding amphibian and mammalian homologues of quaking, a KH domain RNA-binding protein. , 1997, Gene.
[24] S. Richard,et al. Structure-Function Analysis of Qk1: a Lethal Point Mutation in Mouse quaking Prevents Homodimerization , 1998, Molecular and Cellular Biology.
[25] S. Richard,et al. Self-association of the single-KH-domain family members Sam68, GRP33, GLD-1, and Qk1: role of the KH domain , 1997, Molecular and cellular biology.
[26] A. Zorn,et al. The KH domain protein encoded by quaking functions as a dimer and is essential for notochord development in Xenopus embryos. , 1997, Genes & development.
[27] K. Artzt,et al. The Quaking I-5 Protein (QKI-5) Has a Novel Nuclear Localization Signal and Shuttles between the Nucleus and the Cytoplasm* , 1999, The Journal of Biological Chemistry.
[28] T. Schedl,et al. Mutations in gld-1, a female germ cell-specific tumor suppressor gene in Caenorhabditis elegans, affect a conserved domain also found in Src-associated protein Sam68. , 1995, Genes & development.
[29] Y. Rao,et al. Regulation of Ich-1 pre-mRNA alternative splicing and apoptosis by mammalian splicing factors. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[30] S. Richard,et al. The Identification of Two Drosophila K Homology Domain Proteins , 1998, The Journal of Biological Chemistry.
[31] G. Evan,et al. A matter of life and cell death. , 1998, Science.
[32] S. Cory,et al. The Bcl-2 protein family: arbiters of cell survival. , 1998, Science.
[33] C. Thompson,et al. bcl-x, a bcl-2-related gene that functions as a dominant regulator of apoptotic cell death , 1993, Cell.
[34] R. Nussbaum,et al. The protein product of the fragile X gene, FMR1, has characteristics of an RNA-binding protein , 1993, Cell.
[35] Kuniya Abe,et al. Genomic organization and expression analysis of the mouse qkI locus , 1999, Mammalian Genome.
[36] J. Mezquita,et al. Four isoforms of the signal‐transduction and RNA‐binding protein QKI expressed during chicken spermatogenesis , 1998, Molecular reproduction and development.
[37] Cheol‐Hee Kim,et al. Cloning and expression of the quaking gene in the zebrafish embryo 1 Sequence data from this article have been deposited with the Genbank data libraries under accession number U62134. 1 , 1997, Mechanisms of Development.
[38] K. Artzt,et al. STAR, a gene family involved in signal transduction and activation of RNA. , 1997, Trends in genetics : TIG.
[39] Patrick R. Griffin,et al. Identification and inhibition of the ICE/CED-3 protease necessary for mammalian apoptosis , 1995, Nature.
[40] John C Reed,et al. Bcl-2 family proteins , 1998, Oncogene.
[41] S. Korsmeyer,et al. BCL-2 family members and the mitochondria in apoptosis. , 1999, Genes & development.
[42] E. Alnemri,et al. Cloning and Expression of Four Novel Isoforms of Human Interleukin-1β Converting Enzyme with Different Apoptotic Activities (*) , 1995, The Journal of Biological Chemistry.
[43] L. Wang,et al. Ich-1, an Ice/ced-3-related gene, encodes both positive and negative regulators of programmed cell death , 1994, Cell.
[44] T. Gibson,et al. The KH domain occurs in a diverse set of RNA‐binding proteins that include the antiterminator NusA and is probably involved in binding to nucleic acid , 1993, FEBS letters.
[45] W. Dove,et al. Saturation germ line mutagenesis of the murine t region including a lethal allele at the quaking locus. , 1988, Proceedings of the National Academy of Sciences of the United States of America.