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2019
Zhu XGe, Puthenveedu SNicholson, Shen Y, La K, Ozlu C, Wang T, Klompstra D, Gultekin Y, Chi J, Fidelin J et al..  2019.  CHP1 regulates compartmentalized glycerolipid synthesis by activating GPAT4.. Molecular Cell. 74(1):45-58.e7.
Delgado T, Petralia RS, Freeman DW, Sedlacek M, Wang Y-X, Brenowitz SD, Sheu S-H, Gu JW, Kapogiannis D, Mattson MP et al..  2019.  Comparing 3D ultrastructure of presynaptic and postsynaptic mitochondria.. Biology Open. 8(8)
Delgado T, Petralia RS, Freeman DW, Sedlacek M, Wang Y-X, Brenowitz SD, Sheu S-H, Gu JW, Kapogiannis D, Mattson MP et al..  2019.  Comparing 3D ultrastructure of presynaptic and postsynaptic mitochondria.. Biology Open. 8(8)
Shinomiya K, Huang G, Lu Z, Parag T, C Xu S, Aniceto R, Ansari N, Cheatham N, Lauchie S, Neace E et al..  2019.  Comparisons between the ON- and OFF-edge motion pathways in the brain.. eLife. 8
Shinomiya K, Huang G, Lu Z, Parag T, C Xu S, Aniceto R, Ansari N, Cheatham N, Lauchie S, Neace E et al..  2019.  Comparisons between the ON- and OFF-edge motion pathways in the brain.. eLife. 8
Shinomiya K, Huang G, Lu Z, Parag T, C Xu S, Aniceto R, Ansari N, Cheatham N, Lauchie S, Neace E et al..  2019.  Comparisons between the ON- and OFF-edge motion pathways in the brain.. eLife. 8
Shinomiya K, Huang G, Lu Z, Parag T, C Xu S, Aniceto R, Ansari N, Cheatham N, Lauchie S, Neace E et al..  2019.  Comparisons between the ON- and OFF-edge motion pathways in the brain.. eLife. 8
Saalfeld S.  2019.  Computational methods for stitching, alignment, and artifact correction of serial section data.. Methods in Cell Biology. 152:261-276.
Gao R, Asano SM, Upadhyayula S, Pisarev I, Milkie DE, Liu T-L, Singh V, Graves AR, Huynh GH, Zhao Y et al..  2019.  Cortical column and whole-brain imaging with molecular contrast and nanoscale resolution.. Science (New York, N.Y.). 363(6424):eaau8302.
Gao R, Asano SM, Upadhyayula S, Pisarev I, Milkie DE, Liu T-L, Singh V, Graves AR, Huynh GH, Zhao Y et al..  2019.  Cortical column and whole-brain imaging with molecular contrast and nanoscale resolution.. Science (New York, N.Y.). 363(6424):eaau8302.
Liberta F, Loerch S, Rennegarbe M, Schierhorn A, Westermark P, Westermark GT, Hazenberg BPC, Grigorieff N, Fändrich M, Schmidt M.  2019.  Cryo-EM fibril structures from systemic AA amyloidosis reveal the species complementarity of pathological amyloids.. Nature Communications. 10(1):1104.
Liberta F, Loerch S, Rennegarbe M, Schierhorn A, Westermark P, Westermark GT, Hazenberg BPC, Grigorieff N, Fändrich M, Schmidt M.  2019.  Cryo-EM fibril structures from systemic AA amyloidosis reveal the species complementarity of pathological amyloids.. Nature Communications. 10(1):1104.
J Heymann B, Vijayasarathy C, Huang RK, Dearborn AD, Sieving PA, Steven AC.  2019.  Cryo-EM of retinoschisin branched networks suggests an intercellular adhesive scaffold in the retina.. The Journal of Cell Biology. 218(3):1027-38.
J Heymann B, Vijayasarathy C, Huang RK, Dearborn AD, Sieving PA, Steven AC.  2019.  Cryo-EM of retinoschisin branched networks suggests an intercellular adhesive scaffold in the retina.. The Journal of Cell Biology. 218(3):1027-38.
Majewski DD, Worrall LJ, Hong C, Atkinson CE, Vuckovic M, Watanabe N, Yu Z, Strynadka NCJ.  2019.  Cryo-EM structure of the homohexameric T3SS ATPase-central stalk complex reveals rotary ATPase-like asymmetry.. Nature Communications. 10(1):626.
Shen K, Rogala KB, Chou H-T, Huang RK, Yu Z, Sabatini DM.  2019.  Cryo-EM structure of the human FLCN-FNIP2-Rag-Ragulator complex.. Cell. 179(6):1319-29.
Shen K, Rogala KB, Chou H-T, Huang RK, Yu Z, Sabatini DM.  2019.  Cryo-EM structure of the human FLCN-FNIP2-Rag-Ragulator complex.. Cell. 179(6):1319-29.
Colin-York H, Javanmardi Y, Skamrahl M, Kumari S, Chang VT, Khuon S, Taylor A, Chew T-L, Betzig E, Moeendarbary E et al..  2019.  Cytoskeletal control of antigen-dependent T cell activation.. Cell Reports. 26(12):3369-3379.e5.
Boyken SE, Benhaim MA, Busch F, Jia M, Back MJ, Choi H, Klima JC, Chen Z, Walkey C, Mileant A et al..  2019.  De novo design of tunable, pH-driven conformational changes.. Science. 364(6441):658-64.
Boyken SE, Benhaim MA, Busch F, Jia M, Back MJ, Choi H, Klima JC, Chen Z, Walkey C, Mileant A et al..  2019.  De novo design of tunable, pH-driven conformational changes.. Science. 364(6441):658-64.
Shivange AV, Borden PM, Muthusamy AK, Nichols AL, Bera K, Bao H, Bishara I, Jeon J, Mulcahy MJ, Cohen B et al..  2019.  Determining the pharmacokinetics of nicotinic drugs in the endoplasmic reticulum using biosensors.. The Journal of General Physiology.
Shivange AV, Borden PM, Muthusamy AK, Nichols AL, Bera K, Bao H, Bishara I, Jeon J, Mulcahy MJ, Cohen B et al..  2019.  Determining the pharmacokinetics of nicotinic drugs in the endoplasmic reticulum using biosensors.. The Journal of General Physiology. 151(6):738-57.
Zviran A, Mor N, Rais Y, Gingold H, Peles S, Chomsky E, Viukov S, Buenrostro JD, Scognamiglio R, Weinberger L et al..  2019.  Deterministic Somatic Cell Reprogramming Involves Continuous Transcriptional Changes Governed by Myc and Epigenetic-Driven Modules.. Cell Stem Cell. 24(2):328-341.e9.
Zviran A, Mor N, Rais Y, Gingold H, Peles S, Chomsky E, Viukov S, Buenrostro JD, Scognamiglio R, Weinberger L et al..  2019.  Deterministic Somatic Cell Reprogramming Involves Continuous Transcriptional Changes Governed by Myc and Epigenetic-Driven Modules.. Cell Stem Cell. 24(2):328-341.e9.
Zviran A, Mor N, Rais Y, Gingold H, Peles S, Chomsky E, Viukov S, Buenrostro JD, Scognamiglio R, Weinberger L et al..  2019.  Deterministic Somatic Cell Reprogramming Involves Continuous Transcriptional Changes Governed by Myc and Epigenetic-Driven Modules.. Cell Stem Cell. 24(2):328-341.e9.