Anthony V. Furano, M.D.

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Cashen BA, Naufer MN, Morse M, et al. (2024) L1-ORF1p nucleoprotein can rapidly assume distinct conformations and simultaneously bind more than one nucleic acid. Nucleic Acids Research
Mizgier NA, Jones CE, Furano AV. (2023) Co-expression of distinct L1 retrotransposon coiled coils can lead to their entanglement. Mobile Dna. 14: 16
Cashen BA, Naufer MN, Morse M, et al. (2022) The L1-ORF1p coiled coil enables formation of a tightly compacted nucleic acid-bound complex that is associated with retrotransposition. Nucleic Acids Research
Furano AV, Jones CE, Periwal V, et al. (2020) Cryptic genetic variation enhances primate L1 retrotransposon survival by enlarging the functional coiled coil sequence space of ORF1p. Plos Genetics. 16: e1008991
Shen B, Chapman JH, Custance MF, et al. (2020) Perturbation of base excision repair sensitizes breast cancer cells to APOBEC3 deaminase-mediated mutations. Elife. 9
Naufer MN, Furano AV, Williams MC. (2018) Protein-Nucleic Acid Interactions of LINE-1 ORF1p. Seminars in Cell & Developmental Biology
Furano AV, Cook PR. (2016) The challenge of ORF1p phosphorylation: Effects on L1 activity and its host. Mobile Genetic Elements. 6: e1119927
Naufer MN, Callahan KE, Cook PR, et al. (2015) L1 retrotransposition requires rapid ORF1p oligomerization, a novel coiled coil-dependent property conserved despite extensive remodeling. Nucleic Acids Research
Chen J, Furano AV. (2015) Breaking bad: The mutagenic effect of DNA repair. Dna Repair
Cook PR, Jones CE, Furano AV. (2015) Phosphorylation of ORF1p is required for L1 retrotransposition. Proceedings of the National Academy of Sciences of the United States of America. 112: 4298-303