Taylor P, De Jaco A, Comoletti D, Miller M, Camp S (2013) <br />Cholinesterase confabs and cousins: Approaching forty years<br /><i>Chemico-Biological Interactions</i> <b>203</b>: 10<br /><br />De Jaco A, Dubi N, Camp S, Taylor P (2012) <br />Congenital hypothyroidism mutations affect common folding and trafficking in the alpha/beta-hydrolase fold proteins<br /><i>Febs J</i> <b>279</b>: 4293<br /><br />De Jaco A, Comoletti D, Dubi N, Camp S, Taylor P (2012) <br />Processing of cholinesterase-like alpha/beta-hydrolase fold proteins: alterations associated with congenital disorders<br /><i>Protein Pept Lett</i> <b>19</b>: 173<br /><br />Bernard V, Girard E, Hrabovska A, Camp S, Taylor P, Plaud B, Krejci E (2011) <br />Distinct localization of collagen Q and PRiMA forms of acetylcholinesterase at the neuromuscular junction<br /><i>Molecular & Cellular Neurosciences</i> <b>46</b>: 272<br /><br />Camp S, Zhang L, Krejci E, Dobbertin A, Bernard V, Girard E, Duysen EG, Lockridge O, De Jaco A, Taylor P (2010) <br />Contributions of selective knockout studies to understanding cholinesterase disposition and function<br /><i>Chemico-Biological Interactions</i> <b>187</b>: 72<br /><br />De Jaco A, Lin MZ, Dubi N, Comoletti D, Miller MT, Camp S, Ellisman M, Butko MT, Tsien RY, Taylor P (2010) <br />Neuroligin trafficking deficiencies arising from mutations in the alpha/beta-hydrolase fold protein family<br /><i>Journal of Biological Chemistry</i> <b>285</b>: 28674<br /><br />Boudinot E, Bernard V, Camp S, Taylor P, Champagnat J, Krejci E, Foutz AS (2009) <br />Influence of differential expression of acetylcholinesterase in brain and muscle on respiration<br /><i>Respir Physiol Neurobiol</i> <b>165</b>: 40<br /><br />Camp S, De Jaco A, Zhang L, Marquez M, de la Torre B, Taylor P (2008) <br />Acetylcholinesterase expression in muscle is specifically controlled by a promoter-selective enhancesome in the first intron<br /><i>Journal of Neuroscience</i> <b>28</b>: 2459<br /><br />Girard E, Barbier J, Camp S, Taylor P, Chatonnet A, Krejci E, Molgo J (2006) <br />Synaptic efficacy and remodeling at the neuromuscular junction of knockout mice deficient in acetylcholinesterase<br /><i>Journal de Physiologie (Paris)</i> <b>99</b>: 254<br /><br />Girard E, Bernard V, Camp S, Taylor P, Krejci E, Molgo J (2006) <br />Remodeling of the neuromuscular junction in mice with deleted exons 5 and 6 of acetylcholinesterase<br /><i>Journal of Molecular Neuroscience</i> <b>30</b>: 99<br /><br />Camp S, Zhang L, Marquez M, de la Torre B, Long JM, Bucht G, Taylor P (2005) <br />Acetylcholinesterase (AChE) gene modification in transgenic animals: functional consequences of selected exon and regulatory region deletion<br /><i>Chemico-Biological Interactions</i> <b>157-158</b>: 79<br /><br />De Jaco A, Camp S, Taylor P (2005) <br />Influence of the 5' intron in the control of acetylcholinesterase gene expression during myogenesis<br /><i>Chemico-Biological Interactions</i> <b>157-158</b>: 372<br /><br />Camp S, Zhang LM, Marquez M, de la Torre B, Taylor P (2004) <br />Knockout mice with deletions of alternatively spliced exons of acetylcholinesterase<br /><i>In: Cholinesterases in the Second Millennium: Biomolecular and Pathological Aspects</i> <b> (Inestrosa NC, Campos EO) P. Universidad Catolica de Chile-FONDAP Biomedicina</b>: 43 <br /><br />Camp S, Zhang LM, Marquez M, Taylor P (2004) <br />Poster (10) Knockout mice with deletions of alternatively spliced exons of acetylcholinesterase.<br /><i>In: Cholinesterases in the Second Millennium: Biomolecular and Pathological Aspects</i> <b> (Inestrosa NC, Campos EO) P. Universidad Catolica de Chile-FONDAP Biomedicina</b>: 326<br /><br />Luo ZD, Wang Y, Werlen G, Camp S, Chien KR, Taylor P (1999) <br />Calcineurin enhances acetylcholinesterase mRNA stability during C2-C12 muscle cell differentiation<br /><i>Molecular Pharmacology</i> <b>56</b>: 886<br /><br />Camp S, Taylor P (1998) <br />Intronic Elements Appear Essential for the Differentiation-Specific Expression of Acetylcholinesterase in C2C12 Myotubes<br /><i>In: Structure and Function of Cholinesterases and Related Proteins - Proceedings of Sixth International Meeting on Cholinesterases</i> <b>(Doctor, B.P., Taylor, P., Quinn, D.M., Rotundo, R.L., Gentry, M.K. Eds) Plenum Publishing Corp.</b>: 51<br /><br />Kanter J, Eads J, Camp S, Marchot P, Taylor P (1998) <br />Expression and Purification of Recombinant Mutants of Fasciculin from Mammalian Cells<br /><i>In: Structure and Function of Cholinesterases and Related Proteins - Proceedings of Sixth International Meeting on Cholinesterases</i> <b>(Doctor, B.P., Taylor, P., Quinn, D.M., Rotundo, R.L., Gentry, M.K. Eds) Plenum Publishing Corp.</b>: 240<br /><br />Luo ZD, Camp S, Mutero A, Taylor P (1998) <br />Splicing of 5' introns dictates alternative splice selection of acetylcholinesterase pre-mRNA and specific expression during myogenesis<br /><i>Journal of Biological Chemistry</i> <b>273</b>: 28486<br /><br />Luo ZD, Camp S, Mutero A, Taylor P (1998) <br />Intronic Sequences Influence Pre-mRNA Splicing of Acetylcholinesterase During Muscle Differentiation<br /><i>In: Structure and Function of Cholinesterases and Related Proteins - Proceedings of Sixth International Meeting on Cholinesterases</i> <b>(Doctor, B.P., Taylor, P., Quinn, D.M., Rotundo, R.L., Gentry, M.K. Eds) Plenum Publishing Corp.</b>: 121<br /><br />Marchot P, Prowse CN, Kanter J, Camp S, Ackermann EJ, Radic Z, Bougis PE, Taylor P (1997) <br />Expression and activity of mutants of fasciculin, a peptidic acetylcholinesterase inhibitor from mamba venom<br /><i>Journal of Biological Chemistry</i> <b>272</b>: 3502<br /><br />Marchot P, Ravelli RB, Raves ML, Bourne Y, Vellom DC, Kanter J, Camp S, Sussman JL, Taylor P (1996) <br />Soluble monomeric acetylcholinesterase from mouse: expression, purification, and crystallization in complex with fasciculin<br /><i>Protein Science</i> <b>5</b>: 672<br /><br />Camp S, Engel AG, Getman DK, Bon S, Massoulie J, Taylor P (1995) <br />Mutations in the Catalytic Subunit of Acetylcholinesterase do not Appear Responsible for Congenital Myasthenic Syndrome Associated with End-Plate Acetylcholinesterase Deficiency<br /><i>In Enzyme of the Cholinesterase Family - Proceedings of Fifth International Meeting on Cholinesterases</i> <b>(Quinn, D.M., Balasubramanian, A.S., Doctor, B.P., Taylor, P., Eds) Plenum Publishing Corp.</b>: 51<br /><br />Camp S, Bon S, Li Y, Getman DK, Engel AG, Massoulie J, Taylor P (1995) <br />Patients with congenital myasthenia associated with end-plate acetylcholinesterase deficiency show normal sequence, mRNA splicing, and assembly of catalytic subunits<br /><i>Journal of Clinical Investigation</i> <b>95</b>: 333<br /><br />Marchot P, Camp S, Radic Z, Bougis PE, Taylor P (1995) <br />Structural Determinants of Fasciculin Specificity for Acetylcholinesterase<br /><i>In Enzyme of the Cholinesterase Family - Proceedings of Fifth International Meeting on Cholinesterases</i> <b>(Quinn, D.M., Balasubramanian, A.S., Doctor, B.P., Taylor, P., Eds) Plenum Publishing Corp.</b>: 197<br /><br />Mutero A, Camp S, Taylor P (1995) <br />Promoter elements of the mouse acetylcholinesterase gene. Transcriptional regulation during muscle differentiation<br /><i>Journal of Biological Chemistry</i> <b>270</b>: 1866<br /><br />Radic Z, Quinn DM, Vellom DC, Camp S, Taylor P (1995) <br />Allosteric control of acetylcholinesterase catalysis by fasciculin<br /><i>Journal of Biological Chemistry</i> <b>270</b>: 20391<br /><br />Radic Z, Quinn DM, Vellom DC, Camp S, Taylor P (1995) <br />Amino Acid Residues in Acetylcholinesterase which Influence Fasciculin Inhibition<br /><i>In Enzyme of the Cholinesterase Family - Proceedings of Fifth International Meeting on Cholinesterases</i> <b>(Quinn, D.M., Balasubramanian, A.S., Doctor, B.P., Taylor, P., Eds) Plenum Publishing Corp.</b>: 183<br /><br />Taylor P, Radic Z, Kreienkamp HJ, Luo ZD, Pickering NA, Camp S (1995) <br />Ligand Specificity and Gene Expression in the Cholinergic Synapse<br /><i>In Enzyme of the Cholinesterase Family - Proceedings of Fifth International Meeting on Cholinesterases</i> <b>(Quinn, D.M., Balasubramanian, A.S., Doctor, B.P., Taylor, P., Eds) Plenum Publishing Corp.</b>: 15<br /><br />Taylor P, Radic Z, Hosea NA, Camp S, Marchot P, Berman HA (1995) <br />Structural bases for the specificity of cholinesterase catalysis and inhibition.<br /><i>Toxicology Letters</i> <b>83</b>: 453<br /><br />Hutchinson DO, Walls TJ, Nakano S, Camp S, Taylor P, Harper CM, Groover RV, Peterson HA, Jamieson DG, Engel AG (1993) <br />Congenital endplate acetylcholinesterase deficiency<br /><i>Brain</i> <b>116</b>: 633<br /><br />Hutchinson DO, Engel AG, Walls TJ, Nakano S, Camp S, Taylor P, Harper CM, Brengman JM (1993) <br />The spectrum of congenital end-plate acetylcholinesterase deficiency<br /><i>Annals of the New York Academy of Sciences</i> <b>681</b>: 469<br /><br />Li Y, Camp S, Rachinsky TL, Bongiorno C, Taylor P (1993) <br />Promoter elements and transcriptional control of the mouse acetylcholinesterase gene<br /><i>Journal of Biological Chemistry</i> <b>268</b>: 3563<br /><br />Li Y, Camp S, Taylor P (1993) <br />Tissue-specific expression and alternative mRNA processing of the mammalian acetylcholinesterase gene<br /><i>Journal of Biological Chemistry</i> <b>268</b>: 5790<br /><br />Radic Z, Pickering NA, Vellom DC, Camp S, Taylor P (1993) <br />Three distinct domains in the cholinesterase molecule confer selectivity for acetyl- and butyrylcholinesterase inhibitors<br /><i>Biochemistry</i> <b>32</b>: 12074<br /><br />Taylor P, Li Y, Camp S, Rachinsky TL, Ekstrom TJ, Getman DK, Fuentes ME, Vellom DC, Radic Z (1993) <br />Structure and regulation of expression of the acetylcholinesterase gene<br /><i>Chemico-Biological Interactions</i> <b>87</b>: 199<br /><br />Vellom DC, Radic Z, Li Y, Pickering NA, Camp S, Taylor P (1993) <br />Amino acid residues controlling acetylcholinesterase and butyrylcholinesterase specificity<br /><i>Biochemistry</i> <b>32</b>: 12<br /><br />Getman DK, Eubanks JH, Camp S, Evans GA, Taylor P (1992) <br />The human gene encoding acetylcholinesterase is located on the long arm of chromosome 7<br /><i>American Journal of Human Genetics</i> <b>51</b>: 170<br /><br />Li Y, Camp S, Rachinsky TL, Getman DK, Taylor P (1991) <br />Gene structure of mammalian acetylcholinesterase. Alternative exons dictate tissue-specific expression<br /><i>Journal of Biological Chemistry</i> <b>266</b>: 23083<br /><br />Taylor P, Gibney G, Camp S, Maulet Y, Ekstrom TJ, Rachinsky TL, Li Y (1991) <br />Features of Acetylcholinesterase Structure and Gene Expression Emerging from Recent Recombinant DNA Studies<br /><i>In: Cholinesterases: Structure, Function, Mechanism, Genetics, and Cell Biology</i> <b>(Massoulie J, Barnard EA, Chatonnet A, Bacou F, Doctor BP, Quinn DM) American Chemical Society, Washington, DC</b>: 179<br /><br />Gibney G, Camp S, Dionne M, MacPhee-Quigley K, Taylor P (1990) <br />Mutagenesis of essential functional residues in acetylcholinesterase<br /><i>Proceedings of the National Academy of Sciences of the United States of America</i> <b>87</b>: 7546<br /><br />Maulet Y, Camp S, Gibney G, Rachinsky TL, Ekstrom TJ, Taylor P (1990) <br />Single gene encodes glycophospholipid-anchored and asymmetric acetylcholinesterase forms: alternative coding exons contain inverted repeat sequences<br /><i>Neuron</i> <b>4</b>: 289<br /><br />Rachinsky TL, Camp S, Li Y, Ekstrom TJ, Newton M, Taylor P (1990) <br />Molecular cloning of mouse acetylcholinesterase: tissue distribution of alternatively spliced mRNA species<br /><i>Neuron</i> <b>5</b>: 317<br /><br />Schumacher M, Maulet Y, Camp S, Taylor P (1988) <br />Multiple messenger RNA species give rise to the structural diversity in acetylcholinesterase<br /><i>Journal of Biological Chemistry</i> <b>263</b>: 18979<br /><br />Schumacher M, Camp S, Maulet Y, Newton M, MacPhee-Quigley K, Taylor SS, Friedmann T, Taylor P (1986) <br />Primary structure of Torpedo californica acetylcholinesterase deduced from its cDNA sequence<br /><i>Nature</i> <b>319</b>: 407<br /><br />Schumacher M, Camp S, Maulet Y, Newton M, MacPhee-Quigley K, Taylor SS, Friedmann T, Taylor P (1986) <br />Primary structure of acetylcholinesterase: implications for regulation and function.<br /><i>Federation Proceedings</i> <b>45</b>: 2976<br /><br />Taylor P, Camp S, Lee SL, Amitai G, Taylor SS, Doctor BP (1984) <br />Molecular aspects of the biosynthesis and disposition of multiple forms of acetylcholinesterase<br /><i>In: Cholinesterases, fundamental and applied aspects : proceedings of the Second International Meeting on Cholinesterases</i> <b>(Brzin M, Barnard EA, Sket D, Eds) De Gruyter</b>: 145<br /><br />Doctor BP, Camp S, Gentry MK, Taylor SS, Taylor P (1983) <br />Antigenic and structural differences in the catalytic subunits of the molecular forms of acetylcholinesterase<br /><i>Proceedings of the National Academy of Sciences of the United States of America</i> <b>80</b>: 5767<br /><br />Lee SL, Camp S, Taylor P (1982) <br />Characterization of a hydrophobic, dimeric form of acetylcholinesterase from Torpedo<br /><i>Journal of Biological Chemistry</i> <b>257</b>: 12302<br /><br />