Martin, S., Sodergren, E., Masuda, T. and Kaiser, A.D. (1978) Systematic isolation of transducing phages from Myxococcus xanthus. Virology 88, 44-53.
Zimmer, E.A., Martin, S.L., Beverly, S.M., Kan, Y.W. and Wilson, A.C. (1980) Rapid duplication and loss of genes coding for the alpha chains of hemoglobin. Proc. Natl. Acad. Sci., USA 77, 2158-2162.
Martin, S.L., Zimmer, E.A., Kan, Y.W. and Wilson, A.C. (1980) Silent delta globin gene in Old World Monkeys. Proc. Natl. Acad. Sci., USA 77, 3563-3566.
Martin, S.L., Zimmer, E.A., Davidson, W.S., Kan, Y.W. and Wilson, A.C. (1981) The untranslated regions of beta globin mRNA evolve at a functional rate in higher primates. Cell 25, 737-741.
Martin, S.L., Vincent, K.A. and Wilson, A.C. (1983) Rise and fall of the delta globin gene. J. Mol. Biol. 164, 513-528.
Martin, S.L., Voliva, C.F., Burton, F.H., Edgell, M.H. and Hutchison, C.A. III. (1984) A large interspersed repeat found in mouse DNA contains a long open reading frame that evolves as if it encodes a protein. Proc. Natl. Acad. Sci., USA 81, 2308-2312.
Voliva, C.F., Martin, S.L., Hutchison, C.A. III and Edgell, M.H. (1984) The dispersal process associated with the L1 family of interspersed repetitive sequences. J. Mol. Biol. 178, 795-813.
Martin, S.L., Voliva, C.F., Hardies, S.C., Edgell, M.H. and Hutchison, C.A. III. (1985) Tempo and mode of concerted evolution in the L1 repeat family of mice. Mol. Biol. Evol. 2, 127-140.
Hardies, S.C., Martin, S.L., Voliva, C.F., Hutchison, C.A. III and Edgell, M.H. (1986) An analysis of replacement and synonymous changes in the rodent L1 repeat family. Mol. Biol. Evol. 3, 109-125.
Burton, F.H., Loeb, D.D., Voliva, C.F., Martin, S.L., Edgell, M.H. and Hutchison, C.A. III. (1986) Conservation throughout Mammalia and extensive protein-encoding capacity of the highly repeated DNA long interspersed sequence one. J. Mol. Biol. 187, 291-304.
Jacobson, J.G., Martin, S.L. and Coen, D.M. (1989) A conserved open reading frame that overlaps the Herpes Simplex Virus thymidine kinase gene is important for viral growth in cell culture. J. Virol. 63, 1839-1843.
Martin, S.L., Aparisio, D.I. and Bandyopadhyay, P.K. (1989) Genetic and biochemical characterization of the thymidine kinase gene from Herpesvirus of Turkeys. J. Virol. 63, 2847-2852.
Martin, S.L. (1991) Ribonucleoprotein particles with LINE 1 RNA in mouse embryonal carcinoma cells. Mol. Cell. Biol. 11, 4804-4807.
Srere, H.K., Wang, W.H.C. and Martin, S.L. (1992) A central role for differential gene expression during mammalian hibernation. Proc. Natl. Acad. Sci., USA 89, 7119-7123.
Martin, S.L. and Branciforte, D. (1993) Synchronous expression of L1 RNA and protein in mouse embryonal carcinoma cells. Mol. Cell. Biol. 13, 5383-5392.
Thomas, W.K. and Martin, S.L. (1993) A recent origin of the marmot. Mol. Phylogen. Evol. 2, 330-336.
Branciforte, D. and Martin, S.L. (1994) Developmental and cell-type specificity of LINE-1 expression in mouse testis: implications for transposition. Mol. Cell. Biol. 14, 2584-2592.
Kolosha, V. and Martin, S.L. (1995) Polymorphic sequences encoding the first open reading frame protein from LINE-1 ribonucleoprotein particles. J. Biol. Chem. 270, 2868-2873.
Martin, S.L. (1995) Characterization of a LINE-1 cDNA that originated from RNA present in ribonucleoprotein particles: implications for the structure of an active mouse LINE-1. Gene 153, 261-266.
Trelogan, S.A. and Martin, S.L. (1995) Tightly regulated, developmentally specific expression of the first open reading frame from LINE-1 during mouse embryogenesis. Proc. Natl. Acad. Sci., USA 92, 1529-1534.
Srere, H.K., Belke, D., Wang, L.C.H. and Martin, S.L. (1995) a2-Macroglobulin gene expression is independent of the acute phase response during hibernation in ground squirrels. Amer. J. Physiol. 268, R1507 - R1512.
Carey, H.V. and Martin, S.L. (1996) Preservation of intestinal gene expression during hibernation. Amer. J. Physiol. 271, G805-G813.
Kolosha, V.O. and Martin, S.L. (1997) In vitro properties of the first open reading frame protein from mouse LINE-1 support its role in ribonucleoprotein particle formation during retrotransposition. Proc. Natl. Acad. Sci., USA 94, 10155-10160.
Naas, T.P., DeBerardinis, R.J., Moran, J.V., Kingsmore, S.F., Seldin, M.F., Hayashizaki, Y., Martin, S.L. and Kazazian, H.H. Jr. (1998) An actively-retrotransposing, novel subfamily of mouse L1 elements. EMBO J. 17, 590-597.
Saxton, J.A. and Martin, S.L. (1998) Recombination between subtypes creates a mosaic lineage of LINE-1 that is expressed and actively-retrotransposing in the mouse genome. J. Mol. Biol. 280, 611-622.
Martin, S.L., Li, J., Epperson, L.E. and Lieberman, B. (1998) Functional reverse transcriptases encoded by A-type mouse LINE-1: defining the minimal domain by deletion analysis. Gene 215, 69-75.
Martin, S. L., Maniero, G.D., Carey, C. and Hand, S.C. (1999) Reversible depression of oxygen consumption in isolated liver mitochondria during hibernation. Physiol. Biochem. Zool. 72, 255-264.
Knight, J.E., Narus, E.N., Martin, S.L., Jacobson, A., Barnes, B.M. and Boyer, B.B. (2000) mRNA stability and polysome loss in hibernating arctic ground squirrels (Spermophilus parryii), Mol. Cell. Biol. 20, 6374-6379.
Martin, S.L., Li, J. and Weisz, J.A. (2000) Deletion analysis defines distinct functional domains for protein-protein and nucleic acid interactions in the ORF1 protein of mouse LINE-1, J. Mol. Biol. 304,11-20.
Martin, S.L. and Bushman, F.D. (2001) Nucleic acid chaperone activity of the ORF1 protein from the mouse LINE-1 retrotransposon, Mol. Cell. Biol. 21, 467-475.
Li, L., Olvera, J.M., Yoder, K.E., Mitchell, R.S., Butler, S.L., Lieber, M. Martin, S.L. and Bushman, F.D.(2001) Role of the non-homologous DNA end joining pathway in the early steps of retroviral infection, EMBO J., 20, 3272-3281.
Martin, S.L., Hopkins, C.L., Naumer, A., Dollé, M.E.T. and Vijg, J. (2001) Mutation frequency and type during ageing in mouse seminiferous tubules. Mech Ageing Dev. 122, 1321-1331.
van Breukelen, F. and Martin, S.L. (2001) Translational initiation is uncoupled from elongation at 18°C during mammalian hibernation, Am. J. Physiol. 281, R1374-R1379.
van Breukelen, F. and Martin, S.L. (2002) Reversible depression of transcription during hibernation. J. Comp. Physiol. 172, 355-361.
Epperson, L.E. and Martin, S.L. (2002) Quantitative assessment of ground squirrel mRNA levels in multiple stages of hibernation, Physiol. Genomics 10, 93-102.
Kolosha, V.O. and Martin, S.L. (2003) High affinity, non-sequence-specific RNA binding by the open reading frame 1 (ORF1) protein from long interspersed nuclear element 1 (LINE-1), J Biol Chem. 278, 8112-8117.
Martin, S.L., Branciforte, D., Keller, D. and Bain, D.L. (2003) Novel trimeric structure for an essential protein in L1 retrotransposition, Proc. Natl. Acad. Sci., USA 100, 13815-13820.
van Breukelen, F., Sonenberg, N. and Martin S.L. (2004) Seasonal and state dependent changes of eIF4E and 4E-BP1 during mammalian hibernation: implications for the control of translation during torpor, Am J Physiol Regul Integr Comp Physiol. 287, R349-R353
Epperson, L.E., Dahl, T. and Martin, S.L. (2004) Quantitative analysis of liver protein expression during hibernation in golden-mantled ground squirrel, Mol. Cell. Proteomics. 3, 920-933.
Martin, S.L., Li, W.-l. P., Furano, A.V. and Boissinot, S. (2005) The structures of mouse and human L1 elements reflect their insertion mechanism, Cytogenet. Genome Res. 110, 223-228.
Martin, S.L., Cruceanu, M., Branciforte, D., Li, P. W.-l., Kwok, S.C., Hodges, R.S. and Williams, M.C. (2005) LINE-1 retrotransposition requires the nucleic acid chaperone activity of the ORF1 protein, J. Mol. Biol. 348, 549-561.
Heras, S. R., López, M. C., García-Pérez, J. L., Martin, S. L. & Thomas, M. C. (2005). The L1Tc C-terminal domain from a Trypanosoma cruzi non-LTR retrotransposon codes for a protein that bears two C2H2 zinc-finger motifs and is endowed with nucleic acid chaperone activity. Mol. Cell. Biol. 25, 9209-9220.
Williams, D.R., Epperson, L.E., Li, W., Hughes, M.A., Taylor, R., Rogers, J., Martin, S.L., Cossins, A.R., Gracey, A.Y. (2005) The seasonally hibernating phenotype assessed through transcript screening. Physiol. Genomics. 24, 13-22.
Martin, S.L. (2006) The ORF1 protein encoded by LINE-1: structure and function during L1 retrotransposition. J. Biomed. Biotech. 2006, Article ID 45621, 6 pages.
Basame, S., Li, P.W-l., Howard, G., Branciforte, D., Keller, D., Martin, S.L. (2006) Spatial assembly and RNA binding stoichiometry of a protein essential for LINE-1 retrotransposition. J. Mol. Biol. 357, 351-7.
Li, P.W.-l., Li, J., Timmerman, S., Krushel, L., Martin, S. L. (2006) The dicistronic RNA from the mouse LINE-1 retrotransposon contains an internal ribosome entry site upstream of each ORF: implications for retrotransposition. Nuc. Acids Res. 34, 853-64.
Serkova, N.J., Rose, J.C., Epperson, L.E., Carey, H.V. and Martin, S.L. (2007) Quantitative analysis of liver metabolites in three stages of the circannual hibernation cycle in 13-lined ground squirrels by NMR. Physiol. Genomics, 31, 15-24.
Januszyk, K., Li, P.W.-l., Villareal, V., Branciforte, D., Wu, H., Xie, Y., Feigon, J., Loo, J.A., Martin, S.L. and Clubb,R.T. (2007) Identification and solution structure of a highly conserved C-terminal domain required for the retrotransposition of Long Interspersed Nuclear Element-1, J Biol Chem. 282, 24893-904.
Martin, S.L. (1991) LINEs. Current Opinion in Genetics and Development, 1, 505-508.
Martin, S.L. and Wichman, H.A. (1993) Molecular approaches to mammalian retrotransposon isolation. Meth. Enz. 224, 309-322.
van Breukelen, F. and Martin, S.L. (2002) Molecular adaptations in mammalian hibernators: unique adaptations or generalized responses? J. App. Physiol. 92, 2640-2647.
Carey, H.V., Andrews, M.T. and Martin, S.L. (2003) Mammalian hibernation: cellular and molecular responses to depressed metabolism and low temperature, Physiological Reviews, 83, 1153-1181.
Martin, S.L. and Garfinkel, D.J. (2003) Survival strategies for transposons and genomes, Genome Biology 4,313.
Martin, S.L., Srere, H.K., Belke, D., Wang, L.C.H. and Carey, H.V. (1993) Differential gene expression in the liver during hibernation in ground squirrels. in Life in the Cold III: Ecological, Physiological and Molecular Mechanisms. Carey, C., Florant, G.L., Wunder, B.A. and Horwitz, B., eds. Westview Press, Boulder, Colorado, 443-453.
Martin, S.L. Maniero, G.D. and Carey, C. (1996) Patterns of gene expression in the liver during hibernation in ground squirrels. in Adaptations to the Cold, Geiser, F., Hulbert, A.J. and Nicol, S.C. eds., University of New England Press, Armidale, NSW, 327-332.
Carey, H.V. and Martin, S.L. (1996) Hibernation and the stress response. in Adaptations to the Cold, Geiser, F., Hulbert, A.J. and Nicol, S.C. eds., University of New England Press, Armidale, NSW, 319-326.
Martin, S., Epperson, E. and van Breukelen, F. (2000) Quantitative and qualitative changes in gene expression during hibernation in golden-mantled ground squirrels. in Life in the Cold, Heldmaier, G. and Klingenspor, M. eds., Springer-Verlag, Berlin, 315-324.
Martin, S.L., Dahl, T. and Epperson, L.E. (2004) Slow loss of protein integrity during torpor: a cause for arousal? in Life in the Cold: Evolution, Mechanisms, Adaptation, and Application, Barnes B.M. and Carey H.V. eds., Institute for Arctic Biology Press, Fairbanks, AK, 199-208.
Back to Top
