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2016
Shortreed M.R, Frey B.L, Scalf M., Knoener R.A, Cesnik A.J, Smith L.M.  2016.  Elucidating Proteoform Families from Proteoform Intact-Mass and Lysine-Count Measurements. Journal of Proteome Research. 15:1213-1221.
Shortreed M.R, Frey B.L, Scalf M., Knoener R.A, Cesnik A.J, Smith L.M.  2016.  Elucidating Proteoform Families from Proteoform Intact-Mass and Lysine-Count Measurements. Journal of Proteome Research. 15:1213-1221.
Shortreed M.R, Frey B.L, Scalf M., Knoener R.A, Cesnik A.J, Smith L.M.  2016.  Elucidating Proteoform Families from Proteoform Intact-Mass and Lysine-Count Measurements. Journal of Proteome Research. 15:1213-1221.
Cesnik A.J, Shortreed M.R, Sheynkman G.M, Frey B.L, Smith L.M.  2016.  Human Proteomic Variation Revealed by Combining RNA-Seq Proteogenomics and Global Post-Translational Modification (G-PTM) Search Strategy. Journal of Proteome Research. 15:800-808.
Cesnik A.J, Shortreed M.R, Sheynkman G.M, Frey B.L, Smith L.M.  2016.  Human Proteomic Variation Revealed by Combining RNA-Seq Proteogenomics and Global Post-Translational Modification (G-PTM) Search Strategy. Journal of Proteome Research. 15:800-808.
Cesnik A.J, Shortreed M.R, Sheynkman G.M, Frey B.L, Smith L.M.  2016.  Human Proteomic Variation Revealed by Combining RNA-Seq Proteogenomics and Global Post-Translational Modification (G-PTM) Search Strategy. Journal of Proteome Research. 15:800-808.
Guillen-Ahlers H., Rao P.K, Levenstein M.E, Kennedy-Darling J., Perumalla D.S, Jadhav A.Y, Glenn J.P, Ludwig-Kubinski A., Drigalenko E., Montoya M.J et al..  2016.  HyCCAPP as a tool to characterize promoter DNA-protein interactions in Saccharomyces cerevisiae. Genomics. 107:267-273.
Guillen-Ahlers H., Rao P.K, Levenstein M.E, Kennedy-Darling J., Perumalla D.S, Jadhav A.Y, Glenn J.P, Ludwig-Kubinski A., Drigalenko E., Montoya M.J et al..  2016.  HyCCAPP as a tool to characterize promoter DNA-protein interactions in Saccharomyces cerevisiae. Genomics. 107:267-273.
Guillen-Ahlers H., Rao P.K, Levenstein M.E, Kennedy-Darling J., Perumalla D.S, Jadhav A.Y, Glenn J.P, Ludwig-Kubinski A., Drigalenko E., Montoya M.J et al..  2016.  HyCCAPP as a tool to characterize promoter DNA-protein interactions in Saccharomyces cerevisiae. Genomics. 107:267-273.
Gemperline D.C, Scalf M., Smith L.M, Vierstra R.D.  2016.  Morpheus Spectral Counter: A computational tool for label-free quantitative mass spectrometry using the Morpheus search engine. Proteomics. 16:920-924.
Gemperline D.C, Scalf M., Smith L.M, Vierstra R.D.  2016.  Morpheus Spectral Counter: A computational tool for label-free quantitative mass spectrometry using the Morpheus search engine. Proteomics. 16:920-924.
Chen X., Lu L., Mayer K.S, Scalf M., Qian S., Lomax A., Smith L.M, Zhong X..  2016.  POWERDRESS interacts with HISTONE DEACETYLASE 9 to promote aging in Arabidopsis. Elife. 5
Chen X., Lu L., Mayer K.S, Scalf M., Qian S., Lomax A., Smith L.M, Zhong X..  2016.  POWERDRESS interacts with HISTONE DEACETYLASE 9 to promote aging in Arabidopsis. Elife. 5
Li Q.Y, Chang Z., Oliveira G., Xiong M., Smith L.M, Frey B.L, Welham N.V.  2016.  Protein turnover during in vitro tissue engineering. Biomaterials. 81:104-113.
Sheynkman G.M, Shortreed M.R, Cesnik A.J, Smith L.M.  2016.  Proteogenomics: Integrating Next-Generation Sequencing and Mass Spectrometry to Characterize Human Proteomic Variation. 9:521-545.
Sheynkman G.M, Shortreed M.R, Cesnik A.J, Smith L.M.  2016.  Proteogenomics: Integrating Next-Generation Sequencing and Mass Spectrometry to Characterize Human Proteomic Variation. 9:521-545.
Sheynkman G.M, Shortreed M.R, Cesnik A.J, Smith L.M.  2016.  Proteogenomics: Integrating Next-Generation Sequencing and Mass Spectrometry to Characterize Human Proteomic Variation. 9:521-545.
Li Q.Y, Uygun B.E, Geerts S., Ozer S., Scalf M., Gilpin S.E, Ott H.C, Yarmush M.L, Smith L.M, Welham N.V et al..  2016.  Proteomic analysis of naturally-sourced biological scaffolds. Biomaterials. 75:37-46.
Li Q.Y, Uygun B.E, Geerts S., Ozer S., Scalf M., Gilpin S.E, Ott H.C, Yarmush M.L, Smith L.M, Welham N.V et al..  2016.  Proteomic analysis of naturally-sourced biological scaffolds. Biomaterials. 75:37-46.
Keller M.P, Paul P.K, Rabaglia M.E, Stapleton D.S, Schueler K.L, Broman A.T, Ye S.I, Leng N., Brandon C.J, Neto E.C et al..  2016.  The Transcription Factor Nfatc2 Regulates β-Cell Proliferation and Genes Associated with Type 2 Diabetes in Mouse and Human Islets. PLoS Genet. 12(e1006466)
Keller M.P, Paul P.K, Rabaglia M.E, Stapleton D.S, Schueler K.L, Broman A.T, Ye S.I, Leng N., Brandon C.J, Neto E.C et al..  2016.  The Transcription Factor Nfatc2 Regulates β-Cell Proliferation and Genes Associated with Type 2 Diabetes in Mouse and Human Islets. PLoS Genet. 12(e1006466)
Keller M.P, Paul P.K, Rabaglia M.E, Stapleton D.S, Schueler K.L, Broman A.T, Ye S.I, Leng N., Brandon C.J, Neto E.C et al..  2016.  The Transcription Factor Nfatc2 Regulates β-Cell Proliferation and Genes Associated with Type 2 Diabetes in Mouse and Human Islets. PLoS Genet. 12(e1006466)
Keller M.P, Paul P.K, Rabaglia M.E, Stapleton D.S, Schueler K.L, Broman A.T, Ye S.I, Leng N., Brandon C.J, Neto E.C et al..  2016.  The Transcription Factor Nfatc2 Regulates β-Cell Proliferation and Genes Associated with Type 2 Diabetes in Mouse and Human Islets. PLoS Genet. 12(e1006466)
Keller M.P, Paul P.K, Rabaglia M.E, Stapleton D.S, Schueler K.L, Broman A.T, Ye S.I, Leng N., Brandon C.J, Neto E.C et al..  2016.  The Transcription Factor Nfatc2 Regulates β-Cell Proliferation and Genes Associated with Type 2 Diabetes in Mouse and Human Islets. PLoS Genet. 12(e1006466)

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