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2018
Zaidan N.Z, Walker K.J, Brown J.E, Schaffer L.V, Scalf M., Shortreed M.R, Iyer G., Smith L.M, Sridharan R..  2018.  Compartmentalization of HP1 Proteins in Pluripotency Acquisition and Maintenance. Stem Cell Reports. 10:627-641.
Zaidan N.Z, Walker K.J, Brown J.E, Schaffer L.V, Scalf M., Shortreed M.R, Iyer G., Smith L.M, Sridharan R..  2018.  Compartmentalization of HP1 Proteins in Pluripotency Acquisition and Maintenance. Stem Cell Reports. 10:627-641.
Zaidan N.Z, Walker K.J, Brown J.E, Schaffer L.V, Scalf M., Shortreed M.R, Iyer G., Smith L.M, Sridharan R..  2018.  Compartmentalization of HP1 Proteins in Pluripotency Acquisition and Maintenance. Stem Cell Reports. 10:627-641.
Yang Z., Qian S., Scheid R.N, Lu L., Chen X., Liu R., Du X., Lv X., Boersma M.D, Scalf M. et al..  2018.  EBS is a bivalent histone reader that regulates floral phase transition in Arabidopsis. Nature genetics. 50(9)
Yang Z., Qian S., Scheid R.N, Lu L., Chen X., Liu R., Du X., Lv X., Boersma M.D, Scalf M. et al..  2018.  EBS is a bivalent histone reader that regulates floral phase transition in Arabidopsis. Nature genetics. 50(9)
Yang Z., Qian S., Scheid R.N, Lu L., Chen X., Liu R., Du X., Lv X., Boersma M.D, Scalf M. et al..  2018.  EBS is a bivalent histone reader that regulates floral phase transition in Arabidopsis. Nature genetics. 50(9)
Solntsev S.K, Shortreed M.R, Frey B.L, Smith L.M.  2018.  Enhanced Global Post-translational Modification Discovery with MetaMorpheus. Journal of Proteome Research. 17:1844-1851.
Solntsev S.K, Shortreed M.R, Frey B.L, Smith L.M.  2018.  Enhanced Global Post-translational Modification Discovery with MetaMorpheus. Journal of Proteome Research. 17:1844-1851.
Solntsev S.K, Shortreed M.R, Frey B.L, Smith L.M.  2018.  Enhanced Global Post-translational Modification Discovery with MetaMorpheus. Journal of Proteome Research. 17:1844-1851.
Schaffer L.V, Shortreed M.R, Cesnik A.J, Frey B.L, Solntsev S.K, Scalf M., Smith L.M.  2018.  Expanding Proteoform Identifications in Top-Down Proteomic Analyses by Constructing Proteoform Families. Analytical Chemistry. 90:1325-1333.
Schaffer L.V, Shortreed M.R, Cesnik A.J, Frey B.L, Solntsev S.K, Scalf M., Smith L.M.  2018.  Expanding Proteoform Identifications in Top-Down Proteomic Analyses by Constructing Proteoform Families. Analytical Chemistry. 90:1325-1333.
Schaffer L.V, Shortreed M.R, Cesnik A.J, Frey B.L, Solntsev S.K, Scalf M., Smith L.M.  2018.  Expanding Proteoform Identifications in Top-Down Proteomic Analyses by Constructing Proteoform Families. Analytical Chemistry. 90:1325-1333.
Schaffer L.V, Shortreed M.R, Cesnik A.J, Frey B.L, Solntsev S.K, Scalf M., Smith L.M.  2018.  Expanding Proteoform Identifications in Top-Down Proteomic Analyses by Constructing Proteoform Families. Analytical Chemistry. 90:1325-1333.
Schaffer L.V, Shortreed M.R, Cesnik A.J, Frey B.L, Solntsev S.K, Scalf M., Smith L.M.  2018.  Expanding Proteoform Identifications in Top-Down Proteomic Analyses by Constructing Proteoform Families. Analytical Chemistry. 90:1325-1333.
Rolfs Z., Solntsev S.K, Shortreed M.R, Frey B.L, Smith L.M.  2018.  Global Identification of Post-Translationally Spliced Peptides with Neo-Fusion. Journal of Proteome Research. 18(1):349-358.
Rolfs Z., Solntsev S.K, Shortreed M.R, Frey B.L, Smith L.M.  2018.  Global Identification of Post-Translationally Spliced Peptides with Neo-Fusion. Journal of Proteome Research. 18(1):349-358.
Rolfs Z., Solntsev S.K, Shortreed M.R, Frey B.L, Smith L.M.  2018.  Global Identification of Post-Translationally Spliced Peptides with Neo-Fusion. Journal of Proteome Research. 18(1):349-358.
Aebersold R., Agar J.N, Amster I.J, Baker M.S, Bertozzi C.R, Boja E.S, Costello C.E, Cravatt B.F, Fenselau C., Garcia B.A et al..  2018.  How many human proteoforms are there? Nature Chemical Biology. 14:206-214.
Aebersold R., Agar J.N, Amster I.J, Baker M.S, Bertozzi C.R, Boja E.S, Costello C.E, Cravatt B.F, Fenselau C., Garcia B.A et al..  2018.  How many human proteoforms are there? Nature Chemical Biology. 14:206-214.
Aebersold R., Agar J.N, Amster I.J, Baker M.S, Bertozzi C.R, Boja E.S, Costello C.E, Cravatt B.F, Fenselau C., Garcia B.A et al..  2018.  How many human proteoforms are there? Nature Chemical Biology. 14:206-214.
Aebersold R., Agar J.N, Amster I.J, Baker M.S, Bertozzi C.R, Boja E.S, Costello C.E, Cravatt B.F, Fenselau C., Garcia B.A et al..  2018.  How many human proteoforms are there? Nature Chemical Biology. 14:206-214.
Aebersold R., Agar J.N, Amster I.J, Baker M.S, Bertozzi C.R, Boja E.S, Costello C.E, Cravatt B.F, Fenselau C., Garcia B.A et al..  2018.  How many human proteoforms are there? Nature Chemical Biology. 14:206-214.
Aebersold R., Agar J.N, Amster I.J, Baker M.S, Bertozzi C.R, Boja E.S, Costello C.E, Cravatt B.F, Fenselau C., Garcia B.A et al..  2018.  How many human proteoforms are there? Nature Chemical Biology. 14:206-214.
Aebersold R., Agar J.N, Amster I.J, Baker M.S, Bertozzi C.R, Boja E.S, Costello C.E, Cravatt B.F, Fenselau C., Garcia B.A et al..  2018.  How many human proteoforms are there? Nature Chemical Biology. 14:206-214.
Spiniello M., Knoener R.A, Steinbrink M.I, Yang B., Cesnik A.J, Buxton K.E, Scalf M., Jarrard D.F, Smith L.M.  2018.  HyPR-MS for multiplexed discovery of MALAT1, NEAT1, and NORAD lncRNA protein interactomes. Journal of Proteome Research. 17(9):3022-3038.

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