High-molecular-mass APOBEC3G complexes restrict Alu retrotransposition
نویسندگان
چکیده
منابع مشابه
Alu retrotransposition-mediated deletion.
Alu repeats contribute to genomic instability in primates via insertional and recombinational mutagenesis. Here, we report an analysis of Alu element-induced genomic instability through a novel mechanism termed retrotransposition-mediated deletion, and assess its impact on the integrity of primate genomes. For human and chimpanzee genomes, we find evidence of 33 retrotransposition-mediated dele...
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Alu and LINE-1 (L1), which constitute ~11% and ~17% of the human genome, respectively, are transposable non-LTR retroelements. They transpose not only in germ cells but also in somatic cells, occasionally causing cancer. We have previously demonstrated that antiretroviral restriction factors, human APOBEC3 (hA3) proteins (A-H), differentially inhibit L1 retrotransposition. In this present study...
متن کاملRetrotransposition of Alu elements: how many sources?
It is generally thought that only a few Alu elements are capable of retrotransposition and that these 'master' sources produce inactive copies. Here, we use a network phylogenetic approach to demonstrate that recently integrated human-specific Alu subfamilies typically contain 10-20% of secondary source elements that contributed 20-40% of all subfamily members. This multiplicity of source eleme...
متن کاملCondensin II and GAIT complexes cooperate to restrict LINE-1 retrotransposition in epithelial cells
LINE-1 (L1) retrotransposons can mobilize (retrotranspose) within the human genome, and mutagenic de novo L1 insertions can lead to human diseases, including cancers. As a result, cells are actively engaged in preventing L1 retrotransposition. This work reveals that the human Condensin II complex restricts L1 retrotransposition in both non-transformed and transformed cell lines through inhibiti...
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Human cells harbor a variety of factors that function to block the proliferation of foreign nucleic acid. The APOBEC3G enzyme inhibits the replication of retroviruses by deaminating nascent retroviral cDNA cytosines to uracils, lesions that can result in lethal levels of hypermutation. Here, we demonstrate that APOBEC3G is capable of deaminating genomic cytosines in Saccharomyces cerevisiae. AP...
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ژورنال
عنوان ژورنال: Proceedings of the National Academy of Sciences
سال: 2006
ISSN: 0027-8424,1091-6490
DOI: 10.1073/pnas.0604524103