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Summary Expression Gene Literature (123) GO Terms (18) Nucleotides (112) Proteins (37) Interactants (80) Wiki

Papers associated with ache

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Biochemical responses revealed in an amphibian species after exposure to a forgotten contaminant: An integrated biomarker assessment., Dahms-Verster S, Nel A, van Vuren JHJ, Greenfield R., Environ Toxicol Pharmacol. January 1, 2020; 73 103272.

An α7-related nicotinic acetylcholine receptor mediates the ciliary arrest response in pharyngeal gill slits of Ciona., Jokura K, Nishino JM, Ogasawara M, Nishino A., J Exp Biol. January 1, 2020; 223 (Pt 10):

Functional characterization of multifunctional ligands targeting acetylcholinesterase and alpha 7 nicotinic acetylcholine receptor., Cieslikiewicz-Bouet M, Naldi M, Bartolini M, Pérez B, Servent D, Jean L, Aráoz R, Renard PY., Biochem Pharmacol. January 1, 2020; 177 114010.

Linking organochlorine exposure to biomarker response patterns in Anurans: a case study of Müller''s clawed frog (Xenopus muelleri) from a tropical malaria vector control region., Wolmarans NJ, Du Preez LH, Yohannes YB, Ikenaka Y, Ishizuka M, Smit NJ, Wepener V., Ecotoxicology. November 1, 2018; 27 (9): 1203-1216.

Galantamine is not a positive allosteric modulator of human α4β2 or α7 nicotinic acetylcholine receptors., Kowal NM, Ahring PK, Liao VWY, Indurti DC, Harvey BS, O'Connor SM, Chebib M, Olafsdottir ES, Balle T., Br J Pharmacol. January 1, 2018; 175 (14): 2911-2925.

The E Loop of the Transmitter Binding Site Is a Key Determinant of the Modulatory Effects of Physostigmine on Neuronal Nicotinic α4β2 Receptors., Jin X, McCollum MM, Germann AL, Akk G, Steinbach JH., Mol Pharmacol. February 1, 2017; 91 (2): 100-109.

Acetylcholinesterase plays a non-neuronal, non-esterase role in organogenesis., Pickett MA, Dush MK, Nascone-Yoder NM., Development. January 1, 2017; 144 (15): 2764-2770.                    

Determination of the Residues in the Extracellular Domain of the Nicotinic α Subunit Required for the Actions of Physostigmine on Neuronal Nicotinic Receptors., Jin X, Germann AL, Shin DJ, Akk G, Steinbach JH., Mol Pharmacol. January 1, 2017; 92 (3): 318-326.

Multi-target-directed therapeutic potential of 7-methoxytacrine-adamantylamine heterodimers in the Alzheimer''s disease treatment., Gazova Z, Soukup O, Sepsova V, Siposova K, Drtinova L, Jost P, Spilovska K, Korabecny J, Nepovimova E, Fedunova D, Horak M, Kaniakova M, Wang ZJ, Hamouda AK, Kuca K., Biochim Biophys Acta Mol Basis Dis. January 1, 2017; 1863 (2): 607-619.

Integrated assessment of biochemical markers in premetamorphic tadpoles of three amphibian species exposed to glyphosate- and methidathion-based pesticides in single and combination forms., Güngördü A, Uçkun M, Yoloğlu E., Chemosphere. February 1, 2016; 144 2024-35.

Low concentrations of metal mixture exposures have adverse effects on selected biomarkers of Xenopus laevis tadpoles., Yologlu E, Ozmen M., Aquat Toxicol. November 1, 2015; 168 19-27.

Thrombopoietin induces production of nucleated thrombocytes from liver cells in Xenopus laevis., Tanizaki Y, Ichisugi M, Obuchi-Shimoji M, Ishida-Iwata T, Tahara-Mogi A, Meguro-Ishikawa M, Kato T., Sci Rep. September 21, 2015; 5 18519.                                

Comparative assessment of in vitro and in vivo toxicity of azinphos methyl and its commercial formulation., Güngördü A, Uçkun M., Environ Toxicol. September 1, 2015; 30 (9): 1091-101.

Effects of low dose endosulfan exposure on brain neurotransmitter levels in the African clawed frog Xenopus laevis., Preud'homme V, Milla S, Gillardin V, De Pauw E, Denoël M, Kestemont P., Chemosphere. February 1, 2015; 120 357-64.

Organophosphate pesticides induce morphological abnormalities and decrease locomotor activity and heart rate in Danio rerio and Xenopus laevis., Watson FL, Schmidt H, Turman ZK, Hole N, Garcia H, Gregg J, Tilghman J, Fradinger EA., Environ Toxicol Chem. June 1, 2014; 33 (6): 1337-45.

Comparative toxicity of methidathion and glyphosate on early life stages of three amphibian species: Pelophylax ridibundus, Pseudepidalea viridis, and Xenopus laevis., Güngördü A., Aquat Toxicol. September 15, 2013; 140-141 220-8.

Evaluation of in vitro and in vivo toxic effects of newly synthesized benzimidazole-based organophosphorus compounds., Güngördü A, Sireci N, Küçükbay H, Birhanli A, Ozmen M., Ecotoxicol Environ Saf. January 1, 2013; 87 23-32.

RIC-3 differentially modulates α4β2 and α7 nicotinic receptor assembly, expression, and nicotine-induced receptor upregulation., Dau A, Komal P, Truong M, Morris G, Evans G, Nashmi R., BMC Neurosci. January 1, 2013; 14 47.                

The non-competitive acetylcholinesterase inhibitor APS12-2 is a potent antagonist of skeletal muscle nicotinic acetylcholine receptors., Grandič M, Aráoz R, Molgó J, Turk T, Sepčić K, Benoit E, Frangež R., Toxicol Appl Pharmacol. December 1, 2012; 265 (2): 221-8.

Nonoisotopic assay for the presynaptic choline transporter reveals capacity for allosteric modulation of choline uptake., Ruggiero AM, Wright J, Ferguson SM, Lewis M, Emerson KS, Iwamoto H, Ivy MT, Holmstrand EC, Ennis EA, Weaver CD, Blakely RD., ACS Chem Neurosci. October 17, 2012; 3 (10): 767-81.

Toxic effects of deltamethrin and λ-cyhalothrin on Xenopus laevis tadpoles., Aydin-Sinan H, Güngördü A, Ozmen M., J Environ Sci Health B. January 1, 2012; 47 (5): 397-402.

An acetylcholine receptor lacking both γ and ε subunits mediates transmission in zebrafish slow muscle synapses., Mongeon R, Walogorsky M, Urban J, Mandel G, Ono F, Brehm P., J Gen Physiol. September 1, 2011; 138 (3): 353-66.                      

Parazoanthoxanthin A blocks Torpedo nicotinic acetylcholine receptors., Rozman KB, Araoz R, Sepi K, Molgo J, Suput D., Chem Biol Interact. September 6, 2010; 187 (1-3): 384-7.

Actions of bis(7)-tacrine and tacrine on transient potassium current in rat DRG neurons and potassium current mediated by K(V)4.2 expressed in Xenopus oocyte., Li XY, Zhang J, Dai JP, Liu XM, Li ZW., Dev Biol. March 8, 2010; 1318 23-32.

Molecular characterization of Hydra acetylcholinesterase and its catalytic activity., Takahashi T, Hamaue N., FEBS Lett. February 5, 2010; 584 (3): 511-6.

Enteric co-innervation of esophageal striated muscle fibers: a phylogenetic study., Hempfling C, Seibold R, Shiina T, Heimler W, Neuhuber WL, Wörl J., Auton Neurosci. December 3, 2009; 151 (2): 135-41.

Axial-skeletal defects caused by Carbaryl in Xenopus laevis embryos., Bacchetta R, Mantecca P, Andrioletti M, Vismara C, Vailati G., Sci Total Environ. March 15, 2008; 392 (1): 110-8.

Inhibition by bis(7)-tacrine of native delayed rectifier and KV1.2 encoded potassium channels., Nie H, Yu WJ, Li XY, Yuan CH, Pang YP, Li CY, Han YF, Li ZW., Neurosci Lett. January 29, 2007; 412 (2): 108-13.

A peptide derived from acetylcholinesterase is a pivotal signalling molecule in neurodegeneration., Greenfield S., Chem Biol Interact. December 15, 2005; 157-158 211-8.

Exposure to the organophosphorus pesticide chlorpyrifos inhibits acetylcholinesterase activity and affects muscular integrity in Xenopus laevis larvae., Colombo A, Orsi F, Bonfanti P., Chemosphere. December 1, 2005; 61 (11): 1665-71.

Expression and comparative functional characterisation of recombinant acetylcholinesterase from three species of Schistosoma., Bentley GN, Jones AK, Agnew A., Mol Biochem Parasitol. May 1, 2005; 141 (1): 119-23.

The acetylcholinesterase inhibitor BW284c51 is a potent blocker of Torpedo nicotinic AchRs incorporated into the Xenopus oocyte membrane., Olivera-Bravo S, Ivorra I, Morales A., Br J Pharmacol. January 1, 2005; 144 (1): 88-97.

Comparative teratogenicity of chlorpyrifos and malathion on Xenopus laevis development., Bonfanti P, Colombo A, Orsi F, Nizzetto I, Andrioletti M, Bacchetta R, Mantecca P, Fascio U, Vailati G, Vismara C., Aquat Toxicol. December 10, 2004; 70 (3): 189-200.

Block of neuronal nicotinic acetylcholine receptors by organophosphate insecticides., Smulders CJ, Bueters TJ, Vailati S, van Kleef RG, Vijverberg HP., Toxicol Sci. December 1, 2004; 82 (2): 545-54.

P2Y2 receptor activation regulates the expression of acetylcholinesterase and acetylcholine receptor genes at vertebrate neuromuscular junctions., Tung EK, Choi RC, Siow NL, Jiang JX, Ling KK, Simon J, Barnard EA, Tsim KW., Mol Pharmacol. October 1, 2004; 66 (4): 794-806.

Regulation of nicotinic acetylcholine receptor channel function by acetylcholinesterase inhibitors in rat hippocampal CA1 interneurons., Fayuk D, Yakel JL., Mol Pharmacol. September 1, 2004; 66 (3): 658-66.

A novel peptide modulates alpha7 nicotinic receptor responses: implications for a possible trophic-toxic mechanism within the brain., Greenfield SA, Day T, Mann EO, Bermudez I., J Neurochem. July 1, 2004; 90 (2): 325-31.

Role of piperonyl butoxide in the toxicity of chlorpyrifos to Ceriodaphnia dubia and Xenopus laevis., El-Merhibi A, Kumar A, Smeaton T., Ecotoxicol Environ Saf. February 1, 2004; 57 (2): 202-12.

Selective effects of carbamate pesticides on rat neuronal nicotinic acetylcholine receptors and rat brain acetylcholinesterase., Smulders CJ, Bueters TJ, Van Kleef RG, Vijverberg HP., Toxicol Appl Pharmacol. December 1, 2003; 193 (2): 139-46.

Two novel mutations in the COLQ gene cause endplate acetylcholinesterase deficiency., Ishigaki K, Nicolle D, Krejci E, Leroy JP, Koenig J, Fardeau M, Eymard B, Hantaï D., Neuromuscul Disord. March 1, 2003; 13 (3): 236-44.

Molecular characterization of an acetylcholinesterase implicated in the regulation of glucose scavenging by the parasite Schistosoma., Jones AK, Bentley GN, Oliveros Parra WG, Agnew A., FASEB J. March 1, 2002; 16 (3): 441-3.

PRiMA: the membrane anchor of acetylcholinesterase in the brain., Perrier AL, Massoulié J, Krejci E., Neuron. January 17, 2002; 33 (2): 275-85.

Expression of the P2Y1 nucleotide receptor in chick muscle: its functional role in the regulation of acetylcholinesterase and acetylcholine receptor., Choi RC, Man ML, Ling KK, Ip NY, Simon J, Barnard EA, Tsim KW., J Neurosci. December 1, 2001; 21 (23): 9224-34.  

Effects of bis(7)-tacrine on spontaneous synaptic activity and on the nicotinic ACh receptor of Torpedo electric organ., Ros E, Aleu J, Gomez de Aranda I, Cantí C, Pang YP, Marsal J, Solsona C., J Neurophysiol. July 1, 2001; 86 (1): 183-9.

The pharmacology of novel acetylcholinesterase inhibitors, (+/-)-huprines Y and X, on the Torpedo electric organ., Ros E, Aleu J, Gómez de Aranda I, Muñoz-Torrero D, Camps P, Badia A, Marsal J, Solsona C., Eur J Pharmacol. June 8, 2001; 421 (2): 77-84.

Competitive potentiation of acetylcholine effects on neuronal nicotinic receptors by acetylcholinesterase-inhibiting drugs., Zwart R, van Kleef RG, Gotti C, Smulders CJ, Vijverberg HP., J Neurochem. December 1, 2000; 75 (6): 2492-500.

Patterns of calretinin, calbindin, and tyrosine-hydroxylase expression are consistent with the prosomeric map of the frog diencephalon., Milán FJ, Puelles L., J Comp Neurol. March 27, 2000; 419 (1): 96-121.                  

Differences in expression of acetylcholinesterase and collagen Q control the distribution and oligomerization of the collagen-tailed forms in fast and slow muscles., Krejci E, Legay C, Thomine S, Sketelj J, Massoulié J., J Neurosci. December 15, 1999; 19 (24): 10672-9.

Role of acetylcholinesterase in the development of axon tracts within the embryonic vertebrate brain., Anderson RB, Key B., Int J Dev Neurosci. December 1, 1999; 17 (8): 787-93.

Peripheral nervous system defects in erbB2 mutants following genetic rescue of heart development., Woldeyesus MT, Britsch S, Riethmacher D, Xu L, Sonnenberg-Riethmacher E, Abou-Rebyeh F, Harvey R, Caroni P, Birchmeier C., Genes Dev. October 1, 1999; 13 (19): 2538-48.

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