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Stadlmeier M, Runtsch LSimon, Streshnev F, Wühr M, Carell T. A Click-Chemistry-Based Enrichable Crosslinker for Structural and Protein Interaction Analysis by Mass Spectrometry. Chembiochem. 2020 ;21(1-2):103-107.
Zhao G, Wan W, Mansouri S, Alfaro JF, Bassler BL, Cornell KA, et al. Chemical synthesis of S-ribosyl-L-homocysteine and activity assay as a LuxS substrate. Bioorg Med Chem Lett. 2003 ;13(22):3897-900.
Lee J, Xue M, Wzorek JS, Wu T, Grabowicz M, Gronenberg LS, et al. Characterization of a stalled complex on the β-barrel assembly machine. Proc Natl Acad Sci U S A. 2016 ;113(31):8717-22.
Lee J, Xue M, Wzorek JS, Wu T, Grabowicz M, Gronenberg LS, et al. Characterization of a stalled complex on the β-barrel assembly machine. Proc Natl Acad Sci U S A. 2016 ;113(31):8717-22.
Murawska M, Schauer T, Matsuda A, Wilson MD, Pysik T, Wojcik F, et al. The Chaperone FACT and Histone H2B Ubiquitination Maintain S. pombe Genome Architecture through Genic and Subtelomeric Functions. Mol Cell. 2020 ;77(3):501-513.e7.
Murawska M, Schauer T, Matsuda A, Wilson MD, Pysik T, Wojcik F, et al. The Chaperone FACT and Histone H2B Ubiquitination Maintain S. pombe Genome Architecture through Genic and Subtelomeric Functions. Mol Cell. 2020 ;77(3):501-513.e7.
Wang SS-H, Kloth AD, Badura A. The cerebellum, sensitive periods, and autism. Neuron. 2014 ;83(3):518-32.
Piochon C, Kloth AD, Grasselli G, Titley HK, Nakayama H, Hashimoto K, et al. Cerebellar plasticity and motor learning deficits in a copy-number variation mouse model of autism. Nat Commun. 2014 ;5:5586.
Piochon C, Kloth AD, Grasselli G, Titley HK, Nakayama H, Hashimoto K, et al. Cerebellar plasticity and motor learning deficits in a copy-number variation mouse model of autism. Nat Commun. 2014 ;5:5586.
Piochon C, Kloth AD, Grasselli G, Titley HK, Nakayama H, Hashimoto K, et al. Cerebellar plasticity and motor learning deficits in a copy-number variation mouse model of autism. Nat Commun. 2014 ;5:5586.
Deverett B, Koay SAnn, Oostland M, Wang SS-H. Cerebellar involvement in an evidence-accumulation decision-making task. Elife. 2018 ;7.
Giovannucci A, Badura A, Deverett B, Najafi F, Pereira TD, Gao Z, et al. Cerebellar granule cells acquire a widespread predictive feedback signal during motor learning. Nat Neurosci. 2017 ;20(5):727-734.
Deverett B, Kislin M, Tank DW, Wang SS-H. Cerebellar disruption impairs working memory during evidence accumulation. Nat Commun. 2019 ;10(1):3128.
Kloth AD, Badura A, Li A, Cherskov A, Connolly SG, Giovannucci A, et al. Cerebellar associative sensory learning defects in five mouse autism models. Elife. 2015 ;4:e06085.
Kloth AD, Badura A, Li A, Cherskov A, Connolly SG, Giovannucci A, et al. Cerebellar associative sensory learning defects in five mouse autism models. Elife. 2015 ;4:e06085.
Bai X-C, Yan Z, Wu J, Li Z, Yan N. The Central domain of RyR1 is the transducer for long-range allosteric gating of channel opening. Cell Res. 2016 ;26(9):995-1006.
Wang J, Kaletsky R, Silva M, Williams A, Haas LA, Androwski RJ, et al. Cell-Specific Transcriptional Profiling of Ciliated Sensory Neurons Reveals Regulators of Behavior and Extracellular Vesicle Biogenesis. Curr Biol. 2015 ;25(24):3232-8.
Wang J, Kaletsky R, Silva M, Williams A, Haas LA, Androwski RJ, et al. Cell-Specific Transcriptional Profiling of Ciliated Sensory Neurons Reveals Regulators of Behavior and Extracellular Vesicle Biogenesis. Curr Biol. 2015 ;25(24):3232-8.
Qin B, Fei C, Bridges AA, Mashruwala AA, Stone HA, Wingreen NS, et al. Cell position fates and collective fountain flow in bacterial biofilms revealed by light-sheet microscopy. Science. 2020 ;369(6499):71-77.
Ali MZulfikar, Huang KCasey, Wingreen NS, Mukhopadhyay R. Cell geometry and leaflet bilayer asymmetry regulate domain formation in plasma membranes. Phys Rev E. 2019 ;99(1-1):012401.
Zhao P, Xu Y, Wei Y, Qiu Q, Chew T-L, Kang Y, et al. The CD44s splice isoform is a central mediator for invadopodia activity. J Cell Sci. 2016 ;129(7):1355-65.
Zhang H, Brown RL, Wei Y, Zhao P, Liu S, Liu X, et al. CD44 splice isoform switching determines breast cancer stem cell state. Genes Dev. 2019 ;33(3-4):166-179.
Hjeij R, Onoufriadis A, Watson CM, Slagle CE, Klena NT, Dougherty GW, et al. CCDC151 mutations cause primary ciliary dyskinesia by disruption of the outer dynein arm docking complex formation. Am J Hum Genet. 2014 ;95(3):257-74.
Hjeij R, Onoufriadis A, Watson CM, Slagle CE, Klena NT, Dougherty GW, et al. CCDC151 mutations cause primary ciliary dyskinesia by disruption of the outer dynein arm docking complex formation. Am J Hum Genet. 2014 ;95(3):257-74.
Hjeij R, Onoufriadis A, Watson CM, Slagle CE, Klena NT, Dougherty GW, et al. CCDC151 mutations cause primary ciliary dyskinesia by disruption of the outer dynein arm docking complex formation. Am J Hum Genet. 2014 ;95(3):257-74.