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Zhao J, Pan Z, Snyder D, Stone HA, Emrick T. Chemically Triggered Coalescence and Reactivity of Droplet Fibers. J Am Chem Soc. 2021 ;143(14):5558-5564.
E Greenberg P, Chandler JR, Seyedsayamdost MR. The Chemistry and Biology of Bactobolin: A 10-Year Collaboration with Natural Product Chemist Extraordinaire Jon Clardy. J Nat Prod. 2020 ;83(3):738-743.
Thompson RE, Muir TW. Chemoenzymatic Semisynthesis of Proteins. Chem Rev. 2020 ;120(6):3051-3126.
Yu C, Bassler BL, Roseman S. Chemotaxis of the marine bacterium Vibrio furnissii to sugars. A potential mechanism for initiating the chitin catabolic cascade. J Biol Chem. 1993 ;268(13):9405-9.
Bassler B, Gibbons P, Roseman S. Chemotaxis to chitin oligosaccharides by Vibrio furnissii, a chitinivorous marine bacterium. Biochem Biophys Res Commun. 1989 ;161(3):1172-6.
Sutton RM, Reeder RW, Landis W, Meert KL, Yates AR, Berger JT, et al. Chest compression rates and pediatric in-hospital cardiac arrest survival outcomes. Resuscitation. 2018 ;130:159-166.
Yu C, Lee AM, Bassler BL, Roseman S. Chitin utilization by marine bacteria. A physiological function for bacterial adhesion to immobilized carbohydrates. J Biol Chem. 1991 ;266(36):24260-7.
Bassler BL, Gibbons PJ, Yu C, Roseman S. Chitin utilization by marine bacteria. Chemotaxis to chitin oligosaccharides by Vibrio furnissii. J Biol Chem. 1991 ;266(36):24268-75.
Bassler BL, Yu C, Lee YC, Roseman S. Chitin utilization by marine bacteria. Degradation and catabolism of chitin oligosaccharides by Vibrio furnissii. J Biol Chem. 1991 ;266(36):24276-86.
Nelson CM. Choreographing tissue morphogenesis. Semin Cell Dev Biol. 2016 ;55:79.
Diehl KL, Muir TW. Chromatin as a key consumer in the metabolite economy. Nat Chem Biol. 2020 ;16(6):620-629.
Chou DM, Adamson B, Dephoure NE, Tan X, Nottke AC, Hurov KE, et al. A chromatin localization screen reveals poly (ADP ribose)-regulated recruitment of the repressive polycomb and NuRD complexes to sites of DNA damage. Proc Natl Acad Sci U S A. 2010 ;107(43):18475-80.
Silhavy TJ. Classic Spotlight: a Very Pleiotropic Mutant. J Bacteriol. 2016 ;198(3):371.
Silhavy TJ. Classic Spotlight: Gram-Negative Bacteria Have Two Membranes. J Bacteriol. 2016 ;198(2):201.
Silhavy TJ. Classic Spotlight: the Birth of the Transcriptional Activator. J Bacteriol. 2016 ;198(5):744.
Armitage JP, Becker A, Christie PJ, de Boer PAJ, DiRita VJ, Gourse RL, et al. Classic Spotlights: Selected Highlights from the First 100 Years of the . J Bacteriol. 2017 ;199(13).
Mahoney TF, Ricci DP, Silhavy TJ. Classifying β-Barrel Assembly Substrates by Manipulating Essential Bam Complex Members. J Bacteriol. 2016 ;198(14):1984-92.
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.
Mallarino R, Campàs O, Fritz JA, Burns KJ, Weeks OG, Brenner MP, et al.. Closely related bird species demonstrate flexibility between beak morphology and underlying developmental programs. Proc Natl Acad Sci U S A. 2012 ;109(40):16222-7.
Shim S, Khodaparast S, Lai C-Y, Yan J, Ault JT, Rallabandi B, et al. CO-Driven diffusiophoresis for maintaining a bacteria-free surface. Soft Matter. 2021 ;17(9):2568-2576.
Feric M, Vaidya N, Harmon TS, Mitrea DM, Zhu L, Richardson TM, et al. Coexisting Liquid Phases Underlie Nucleolar Subcompartments. Cell. 2016 ;165(7):1686-1697.
Ramundo S, Asakura Y, Salomé PA, Strenkert D, Boone M, Mackinder LCM, et al.. Coexpressed subunits of dual genetic origin define a conserved supercomplex mediating essential protein import into chloroplasts. Proc Natl Acad Sci U S A. 2020 ;117(51):32739-32749.
Boulogne F, Ingremeau F, Stone HA. Coffee-stain growth dynamics on dry and wet surfaces. J Phys Condens Matter. 2017 ;29(7):074001.
Ha JYong, Pokrovskaya ID, Climer LK, Shimamura GR, Kudlyk T, Jeffrey PD, et al. Cog5-Cog7 crystal structure reveals interactions essential for the function of a multisubunit tethering complex. Proc Natl Acad Sci U S A. 2014 ;111(44):15762-7.
Shim S, Stone HA. CO-leakage-driven diffusiophoresis causes spontaneous accumulation of charged materials in channel flow. Proc Natl Acad Sci U S A. 2020 ;117(42):25985-25990.