Cyclophilin A retrotransposition into TRIM5 explains owl monkey resistance to HIV-1
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[1] Kallen,et al. Novel Cyclophilin-binding Compounds Isolated from Streptomyces sp . A 92-308110 II . Structure Elucidation , Stereochemistry and Physico-chemical Properties , 2006 .
[2] R. Löwer,et al. Leptin receptor isoform 219.1: an example of protein evolution by LINE-1-mediated human-specific retrotransposition of a coding SVA element. , 2004, Molecular biology and evolution.
[3] H. Kazazian. Mobile Elements: Drivers of Genome Evolution , 2004, Science.
[4] C. M. Owens,et al. The cytoplasmic body component TRIM5α restricts HIV-1 infection in Old World monkeys , 2004, Nature.
[5] Mark Gerstein,et al. Millions of years of evolution preserved: a comprehensive catalog of the processed pseudogenes in the human genome. , 2003, Genome research.
[6] M. Magnasco,et al. Production of ribosome components in effector CD4+ T cells is accelerated by TCR stimulation and coordinated by ERK-MAPK. , 2003, Immunity.
[7] P. Bieniasz,et al. Cyclophilin A modulates the sensitivity of HIV-1 to host restriction factors , 2003, Nature Medicine.
[8] Thierry Heidmann,et al. LINE-mediated retrotransposition of marked Alu sequences , 2003, Nature Genetics.
[9] P. Moitra,et al. BTBD1 and BTBD2 colocalize to cytoplasmic bodies with the RBCC/tripartite motif protein, TRIM5delta. , 2003, Experimental cell research.
[10] B. Li,et al. Expression profiling reveals off-target gene regulation by RNAi , 2003, Nature Biotechnology.
[11] Lichun Yang,et al. Trans mobilization of genomic DNA as a mechanism for retrotransposon-mediated exon shuffling. , 2003, Human molecular genetics.
[12] P. Bieniasz,et al. Cellular inhibitors with Fv1-like activity restrict human and simian immunodeficiency virus tropism , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[13] Y. Takeuchi,et al. Restriction of lentivirus in monkeys , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[14] R. Bernards,et al. A System for Stable Expression of Short Interfering RNAs in Mammalian Cells , 2002, Science.
[15] M. Batzer,et al. Non-traditional Alu evolution and primate genomic diversity. , 2002, Journal of molecular biology.
[16] Alessandro Guffanti,et al. The tripartite motif family identifies cell compartments , 2001, The EMBO journal.
[17] J. Luban,et al. Cyclophilin A regulates HIV‐1 infectivity, as demonstrated by gene targeting in human T cells , 2001, The EMBO journal.
[18] Jef D. Boeke,et al. Human L1 Retrotransposition: cisPreference versus trans Complementation , 2001, Molecular and Cellular Biology.
[19] Thierry Heidmann,et al. Human LINE retrotransposons generate processed pseudogenes , 2000, Nature Genetics.
[20] J. Sodroski,et al. Species-Specific, Postentry Barriers to Primate Immunodeficiency Virus Infection , 1999, Journal of Virology.
[21] K. Memmert,et al. Sanglifehrins A, B, C and D, novel cyclophilin-binding compounds isolated from Streptomyces sp. A92-308110. I. Taxonomy, fermentation, isolation and biological activity. , 1999, The Journal of antibiotics.
[22] J. Kallen,et al. Sanglifehrins A, B, C and D, novel cyclophilin-binding compounds isolated from Streptomyces sp. A92-308110. II. Structure elucidation, stereochemistry and physico-chemical properties. , 1999, The Journal of antibiotics.
[23] J. V. Moran,et al. Exon shuffling by L1 retrotransposition. , 1999, Science.
[24] Bertrand Friguet,et al. Antiviral Activity of the Proteasome on Incoming Human Immunodeficiency Virus Type 1 , 1998, Journal of Virology.
[25] Jef D Boeke,et al. Human L1 Retrotransposon Encodes a Conserved Endonuclease Required for Retrotransposition , 1996, Cell.
[26] G. Blobel,et al. Nup358, a Cytoplasmically Exposed Nucleoporin with Peptide Repeats, Ran-GTP Binding Sites, Zinc Fingers, a Cyclophilin A Homologous Domain, and a Leucine-rich Region (*) , 1995, The Journal of Biological Chemistry.
[27] J. Sodroski,et al. Functional association of cyclophilin A with HIV-1 virions , 1994, Nature.
[28] J. Luban,et al. Specific incorporation of cyclophilin A into HIV-1 virions , 1994, Nature.
[29] Jeremy Luban,et al. Human immunodeficiency virus type 1 Gag protein binds to cyclophilins A and B , 1993, Cell.
[30] M. Long,et al. Natural selection and the origin of jingwei, a chimeric processed functional gene in Drosophila. , 1993, Science.
[31] W. Gilbert. Why genes in pieces? , 1978, Nature.
[32] B. Mcclintock. The origin and behavior of mutable loci in maize , 1950, Proceedings of the National Academy of Sciences.