Publications

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Journal Article
Park J, Qin H, Scalf M, Hilger RT, Westphall MS, Smith L.M, Blick RH.  2011.  A Mechanical Nanomembrane Detector for Time-of-Flight Mass Spectrometry. Nano Letters. 11:3681-3684.
Park J, Qin H, Scalf M, Hilger RT, Westphall MS, Smith L.M, Blick RH.  2011.  A Mechanical Nanomembrane Detector for Time-of-Flight Mass Spectrometry. Nano Letters. 11:3681-3684.
Kennedy-Darling J, Smith L.M.  2014.  Measuring the Formaldehyde Protein-DNA Cross-Link Reversal Rate. Analytical Chemistry. 86:5678-5681.
Smith L.M, Weis RM, McConnell HM.  1981.  Measurement of rotational motion in membranes using fluorescence recovery after photobleaching. Biophysical Journal. 36:73-91.
Parr G.R, Fitzgerald M.C, Smith L.M.  1992.  Matrix-assisted laser desorption/ionization mass spectrometry of synthetic oligodeoxyribonucleotides. Rapid Communications in Mass Spectrometry. 6:369-372.
Fitzgerald MC, Smith L.M.  1995.  Mass spectrometry of nucleic acids: the promise of matrix-assisted laser desorption-ionization (MALDI) mass spectrometry. Annual Review of Biophysics & Biomolecular Structure. 24:117-40.
Westphall MS, Jorabchi K, Smith L.M.  2008.  Mass spectrometry of acoustically levitated droplets. Analytical Chemistry. 80:5847-5853.
Chen X.Y, Westphall M.S, Smith L.M.  2003.  Mass spectrometric analysis of DNA mixtures: Instrumental effects responsible for decreased sensitivity with increasing mass. Analytical Chemistry. 75:5944-5952.
Aguilar-Hernandez V., Kim D.Y, Stankey R.J, Scalf M., Smith L.M, Vierstra R.D.  2017.  Mass Spectrometric Analyses Reveal a Central Role for Ubiquitylation in Remodeling the Arabidopsis Proteome during Photomorphogenesis. Molecular Plant. 10:846-865.
Aguilar-Hernandez V., Kim D.Y, Stankey R.J, Scalf M., Smith L.M, Vierstra R.D.  2017.  Mass Spectrometric Analyses Reveal a Central Role for Ubiquitylation in Remodeling the Arabidopsis Proteome during Photomorphogenesis. Molecular Plant. 10:846-865.
Aguilar-Hernandez V., Kim D.Y, Stankey R.J, Scalf M., Smith L.M, Vierstra R.D.  2017.  Mass Spectrometric Analyses Reveal a Central Role for Ubiquitylation in Remodeling the Arabidopsis Proteome during Photomorphogenesis. Molecular Plant. 10:846-865.
Smith L.M, Hood L.  1987.  Mapping and sequencing the human genome: how to proceed. Bio/Technology. 5:933-9.
Fei Z.D, Ono T., Smith L.M.  1998.  MALDI-TOF mass spectrometric typing of single nucleotide polymorphisms with mass-tagged ddNTPs. Nucleic Acids Research. 26:2827-2828.
Chen D.H, Johnson A.F, Severin J.M, Rank D.R, Smith L.M, Guilfoyle R.A.  1996.  M13-102: A vector for facilitating construction and improving quality of M13 shotgun libraries. Gene. 172:53-57.
Chen D.H, Johnson A.F, Severin J.M, Rank D.R, Smith L.M, Guilfoyle R.A.  1996.  M13-102: A vector for facilitating construction and improving quality of M13 shotgun libraries. Gene. 172:53-57.
Cesnik A.J, Yang B., Truong A., Etheridge T., Spiniello M., Steinbrink M.I, Shortreed M.R, Frey B.L, Jarrard D.F, Smith L.M.  2018.  Long Noncoding RNAs AC009014.3 and Newly Discovered XPLAID Differentiate Aggressive and Indolent Prostate Cancers. Transl Oncol. 11:808-814.
Cesnik A.J, Yang B., Truong A., Etheridge T., Spiniello M., Steinbrink M.I, Shortreed M.R, Frey B.L, Jarrard D.F, Smith L.M.  2018.  Long Noncoding RNAs AC009014.3 and Newly Discovered XPLAID Differentiate Aggressive and Indolent Prostate Cancers. Transl Oncol. 11:808-814.
Cesnik A.J, Yang B., Truong A., Etheridge T., Spiniello M., Steinbrink M.I, Shortreed M.R, Frey B.L, Jarrard D.F, Smith L.M.  2018.  Long Noncoding RNAs AC009014.3 and Newly Discovered XPLAID Differentiate Aggressive and Indolent Prostate Cancers. Transl Oncol. 11:808-814.
Cesnik A.J, Yang B., Truong A., Etheridge T., Spiniello M., Steinbrink M.I, Shortreed M.R, Frey B.L, Jarrard D.F, Smith L.M.  2018.  Long Noncoding RNAs AC009014.3 and Newly Discovered XPLAID Differentiate Aggressive and Indolent Prostate Cancers. Transl Oncol. 11:808-814.
Cesnik A.J, Yang B., Truong A., Etheridge T., Spiniello M., Steinbrink M.I, Shortreed M.L, Frey B.L, Jarrard D.F, Smith L.M.  2018.  Long noncoding RNAs AC009014. 3 and newly discovered XPLAID differentiate aggressive and indolent prostate cancers. Translational Oncology. 11(3):808-814.
Cesnik A.J, Yang B., Truong A., Etheridge T., Spiniello M., Steinbrink M.I, Shortreed M.L, Frey B.L, Jarrard D.F, Smith L.M.  2018.  Long noncoding RNAs AC009014. 3 and newly discovered XPLAID differentiate aggressive and indolent prostate cancers. Translational Oncology. 11(3):808-814.
Cesnik A.J, Yang B., Truong A., Etheridge T., Spiniello M., Steinbrink M.I, Shortreed M.L, Frey B.L, Jarrard D.F, Smith L.M.  2018.  Long noncoding RNAs AC009014. 3 and newly discovered XPLAID differentiate aggressive and indolent prostate cancers. Translational Oncology. 11(3):808-814.
Cesnik A.J, Yang B., Truong A., Etheridge T., Spiniello M., Steinbrink M.I, Shortreed M.L, Frey B.L, Jarrard D.F, Smith L.M.  2018.  Long noncoding RNAs AC009014. 3 and newly discovered XPLAID differentiate aggressive and indolent prostate cancers. Translational Oncology. 11(3):808-814.
Hafeman D.G, Smith L.M, Fearon D.T, McConnell H.M.  1982.  Lipid monolayer-coated solid surfaces do not perturb the lateral motion and distribution of C3b receptors on neutrophils. Journal of Cell Biology. 94:224-227.
Guilfoyle RA, Leeck CL, K. Kroening D, Smith L.M, Guo Z.  1997.  Ligation-mediated PCR amplification of specific fragments from a Class-II restriction endonuclease. Nucleic Acids Research. 25:1854-1858.

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