Abstract
European Journal of NeuroscienceVolume 55, Issue 7 p. 1887-1889 ERRATUMFree Access ERRATUM This article corrects the following: Cyclic nucleotide-dependent ionic currents in olfactory receptor neurons of the hawkmoth Manduca sexta suggest pull–push sensitivity modulation Jan Dolzer, Katrin Schröder, Monika Stengl, Volume 54Issue 3European Journal of Neuroscience pages: 4804-4826 First Published online: July 8, 2021 First published: 28 March 2022 https://doi.org/10.1111/ejn.15638AboutSectionsPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onFacebookTwitterLinked InRedditWechat In Dolzer et al. (2021), some reference citations in Table 3 were missing. Table 3 should be presented as below: The Publisher apologises for this error. TABLE 3. Currents and current components in ORNs of Manduca sexta Name Abbreviation I-V curve Ion channel conductance/reversal potential (RP) Characteristics Activation Inactivation/block No effects References Potassium currents delayed rectifier IK ~ 30 pS outward rectification delayed onset depol. TEA, Cs+ mM Ni2+ Dolzer 2002 Zufall et al. 1991b cGMP-inactivted outward rectifier IK(cGMP-) 30 pS cNMP block depol. TEA, cAMP, cGMP, ATP Dolzer 2002 Zufall et al. 1991b Stengl et al. 1992 non-TEA-blockable delayed rectifier IK(noTEA) 40 pS? delayed onset no TEA block ~10−6 Ca2+ active? depol. PKC? cGMP?, Zn3+? TEA, cAMP Dolzer 2002 Dolzer et al. 2008 rapidly inactivating outward rectifier IK(A) 12–18 pA not tested depol. 4-AP 5 mM Zufall et al. 1991b slowly inactivating delayed rectifier IK(cGMP+) 70 pS? slow inactivation after depol. cGMP cAMP TEA (slow, incomplete), Ni2+, Cs+? Dolzer 2002 Dolzer et al. 2008 calcium-activated outward rectifier IK(Ca2+) 66 pS I-V flattened in positive Vm >10−6 M Ca2+ cGMP TEA, Cs+, CTX cAMP Dolzer 2002 Zufall et al. 1991b Nonspecific cation currents calcium-dependent Icat(Ca2+) RP = 0 I-V steeper in positive and negative Vm >10−6 M Ca2+ mM Ca2+, TEA, Ni2+, cGMP? Dolzer 2002 Stengl 1993, 1994 fast, steady, non-inactivating Icat(nRP) RP < 0 g (K) > g (Ca2+) clearly negative reversal potential TEA, Ni2+ cGMP? cAMP Dolzer 2002 late, large, long-lasting ILL RP = 0 slow activation after depol., slow inactivation after hyperpol. long, large depol. cAMP long, large depol. Ca2+?? TEA (partly) cGMP? Dolzer 2002 fast Unknown cation current Icat(PKC?) RP = 0 linear I-V TEA block Ca2+? PKC? TEA cAMP cGMP? Dolzer 2002 PKC-dependent Icat+(PKC) not tested PKC TEA Stengl 1993 Unknown currents non-specific cat- or anion I? RP = 0 linear I-V no TEA block TEA, Ni2+, cAMP?, cGMP?, Ca2+?? TEA, SIST, (DIDS), 9 AC, PTX, ZN2+, niflumic acid Dolzer 2002 inward rectifier Iir RP ~ 0 I-V steeper in negative Vm TEA Ni2+ Dolzer 2002 Abbreviations: cNMP, cyclic nucleotides; CTX, charybdotoxin; depol, depolarization; DIDS, 4,4′-diisothiocyanostilbene-2,20-disulfonic acid; hyperpol, hyperpolarization; I–V, current–voltage relation; PKC, protein kinase C; PTX, picrotoxin; SITS, 4-acetamido-4-thiocyanostilbene-2,2′-disulfonic acid; Vm, membrane potential; 4-AP, 4-aminopyridine; 9 AC, anthracene-9-carboxylic acid. Note: Currents that were not tested in this study, (IK(A) and Icat + (PKC)), are on grey background. Newly observed properties are underlined, and findings that are only described in the literature are in bold. REFERENCE Dolzer, J., Schröder, K., & Stengl, M. (2021). Cyclic nucleotide-dependent ionic currents in olfactory receptor neurons of the hawkmoth Manduca sexta suggest pull–push sensitivity modulation. European Journal of Neuroscience, 54(3), 4804– 4826. https://doi.org/10.1111/ejn.15346Wiley Online LibraryPubMedWeb of Science®Google Scholar Volume55, Issue7April 2022Pages 1887-1889 ReferencesRelatedInformation
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