Biology Reference
In-Depth Information
Mathias, S. L., Scott, A. F., Kazazian, H. H., Jr., Boeke, J. D., and Gabriel, A. (1991). Reverse
transcriptase encoded by a human transposable element. Science 254, 1808-1810.
McCLINTOCK, B. (1950). The origin and behavior of mutable loci in maize. Proc. Natl. Acad. Sci.
USA 36, 344-355.
McMillan, J. P., and Singer, M. F. (1993). Translation of the human LINE-1 element, L1Hs. Proc.
Natl. Acad. Sci. USA 90, 11533-11537.
Mi, S., Lee, X., Li, X., Veldman, G. M., Finnerty, H., Racie, L., LaVallie, E., Tang, X. Y., Edouard, P.,
Howes, S., et al. (2000). Syncytin is a captive retroviral envelope protein involved in human
placental morphogenesis. Nature 403, 785-789.
Morales, J. F., Snow, E. T., and Murnane, J. P. (2002). Environmental factors affecting transcription
of the human L1 retrotransposon. I. Steroid hormone-like agents. Mutagenesis 17, 193-200.
Moran, J. V., Holmes, S. E., Naas, T. P., DeBerardinis, R. J., Boeke, J. D., and Kazazian, H. H., Jr.
(1996). High frequency retrotransposition in cultured mammalian cells.
Cell 87, 917-927.
Moran, J. V., DeBerardinis, R. J., and Kazazian, H. H., Jr. (1999). Exon shuffling by L1 retro-
transposition.
Science 283, 1530-1534.
Morgante, M., Brunner, S., Pea, G., Fengler, K., Zuccolo, A., and Rafalski, A. (2005). Gene
duplication and exon shuffling by helitron-like transposons generate intraspecies diversity in
maize.
Nat. Genet. 37, 997-1002.
Morrish, T. A., Gilbert, N., Myers, J. S., Vincent, B. J., Stamato, T. D., Taccioli, G. E., Batzer, M. A.,
and Moran, J. V. (2002). DNA repair mediated by endonuclease-independent LINE-1 retro-
transposition.
Nat. Genet. 31, 159-165.
Muckenfuss, H., Hamdorf, M., Held, U., Perkovic, M., Lower, J., Cichutek, K., Flory, E.,
Schumann, G. G., and Munk, C. (2006). APOBEC3 Proteins Inhibit Human LINE-1 Retro-
transposition.
J. Biol. Chem. 281, 22161-22172.
Muotri, A. R., Chu, V. T., Marchetto, M. C., Deng, W., Moran, J. V., and Gage, F. H. (2005).
Somatic mosaicism in neuronal precursor cells mediated by L1 retrotransposition.
Nature 435,
903-910.
Ohshima, K., Hattori, M., Yada, T., Gojobori, T., Sakaki, Y., and Okada, N. (2003). Whole-genome
screening indicates a possible burst of formation of processed pseudogenes and Alu repeats by
particular L1 subfamilies in ancestral primates. Genome Biol. 4, R74.
Ostertag, E. M., and Kazazian, H. H. (2001). Twin priming: A proposed mechanism for the creation
of inversions in L1 retrotransposition. Genome Res. 11, 2059-2065.
Ostertag, E. M., DeBerardinis, R. J., Goodier, J. L., Zhang, Y., Yang, N., Gerton, G. L., and
Kazazian, H. H. (2002). A mouse model of human L1 retrotransposition. Nat. Genet. 32,
655-660.
Ostertag, E. M., Goodier, J. L., Zhang, Y., and Kazazian, H. H., Jr. (2003). SVA elements are
nonautonomous retrotransposons that cause disease in humans. Am. J. Hum. Genet.
73,
1444-1451.
Pace, J. K., and Feschotte, C. (2007). The evolutionary history of human DNA transposons: Evidence
for intense activity in the primate lineage.
Genome Res. 17, 422-432.
Penzkofer, T., Dandekar, T., and Zemojtel, T. (2005). L1Base: From functional annotation to
prediction of active LINE-1 elements.
Nucleic Acids Res. 33, D498-D500.
Perepelitsa-Belancio, V., and Deininger, P. (2003). RNA truncation by premature polyadenylation
attenuates human mobile element activity.
Nat. Genet. 35, 363-366.
Petrov, D. A., Aminetzach, Y. T., Davis, J. C., Bensasson, D., and Hirsh, A. E. (2003). Size matters:
Non-LTR retrotransposable elements and ectopic recombination in Drosophila.
Mol. Biol. Evol.
20, 880-892.
Pickeral, O. K., Makalowski, W., Boguski, M. S., and Boeke, J. D. (2000). Frequent human genomic
DNA transduction driven by LINE-1 retrotransposition.
Genome Res. 10, 411-415.
