Studying Protein kinases PKCζ and PKMζ with the Resonant Recognition Model. Implications for the study of Memory Mechanisms

<p>PKMζ is a brain-specific protein kinase that has been suggested as playing a key role in memory consolidation mechanisms. It is identical to catalytic portion of another protein kinase, PKCζ. Lacking the regulatory end, PKMζ is several times more active than PKCζ. However, knowledge about P...

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Main Authors: Dra. Suria Valdés García, DrC. José Luis Hernández Cáceres
Format: Article
Language:English
Published: ECIMED 2017-10-01
Series:Revista Cubana de Informática Médica
Online Access:http://revinformatica.sld.cu/index.php/rcim/article/view/216
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spelling doaj-ef2f85a339d64fb889e7a8c5977ca37a2020-11-25T03:01:45ZengECIMEDRevista Cubana de Informática Médica1684-18592017-10-0192156Studying Protein kinases PKCζ and PKMζ with the Resonant Recognition Model. Implications for the study of Memory MechanismsDra. Suria Valdés García0DrC. José Luis Hernández Cáceres1Universidad de Ciencias Medicas de La HabanaFacultad de Ciencias Médicas "Diez de Octubre"<p>PKMζ is a brain-specific protein kinase that has been suggested as playing a key role in memory consolidation mechanisms. It is identical to catalytic portion of another protein kinase, PKCζ. Lacking the regulatory end, PKMζ is several times more active than PKCζ. However, knowledge about PKMζ mechanisms in memory consolidation is patchy, and sometimes contradictory. The resonant recognition model (RRM) might shed some light in understanding PKMζ role on memory consolidation. This is the first attempt in literature to apply the RRM to the study of PKMζ and PKCζ. We obtained that PKMζ presents a spectral peak at the resonant recognition frequency of fRRM= 0.063 (likely, corresponding to the infrared frequency of 3190 nm) and another peak at f<sub>RRM</sub> =0.211(950 nm in the near infrared). Peak at f<sub>RRM</sub>= 0.063 is also shared by PKCζ, and the peak at f<sub>RRM</sub> =0.211 is similar to the one recently reported in literature for regulatory proteins. We hypothesize that irradiating with a weak light infrared source at these frequencies would modify long term potentiation results. Finally, a scheme for resonant interactions in PKMζ and PKCζ is proposed.</p><strong>Palabras claves:</strong> long term potentiation, protein kinases, resonant recognition model, bioinformatics.http://revinformatica.sld.cu/index.php/rcim/article/view/216
collection DOAJ
language English
format Article
sources DOAJ
author Dra. Suria Valdés García
DrC. José Luis Hernández Cáceres
spellingShingle Dra. Suria Valdés García
DrC. José Luis Hernández Cáceres
Studying Protein kinases PKCζ and PKMζ with the Resonant Recognition Model. Implications for the study of Memory Mechanisms
Revista Cubana de Informática Médica
author_facet Dra. Suria Valdés García
DrC. José Luis Hernández Cáceres
author_sort Dra. Suria Valdés García
title Studying Protein kinases PKCζ and PKMζ with the Resonant Recognition Model. Implications for the study of Memory Mechanisms
title_short Studying Protein kinases PKCζ and PKMζ with the Resonant Recognition Model. Implications for the study of Memory Mechanisms
title_full Studying Protein kinases PKCζ and PKMζ with the Resonant Recognition Model. Implications for the study of Memory Mechanisms
title_fullStr Studying Protein kinases PKCζ and PKMζ with the Resonant Recognition Model. Implications for the study of Memory Mechanisms
title_full_unstemmed Studying Protein kinases PKCζ and PKMζ with the Resonant Recognition Model. Implications for the study of Memory Mechanisms
title_sort studying protein kinases pkcζ and pkmζ with the resonant recognition model. implications for the study of memory mechanisms
publisher ECIMED
series Revista Cubana de Informática Médica
issn 1684-1859
publishDate 2017-10-01
description <p>PKMζ is a brain-specific protein kinase that has been suggested as playing a key role in memory consolidation mechanisms. It is identical to catalytic portion of another protein kinase, PKCζ. Lacking the regulatory end, PKMζ is several times more active than PKCζ. However, knowledge about PKMζ mechanisms in memory consolidation is patchy, and sometimes contradictory. The resonant recognition model (RRM) might shed some light in understanding PKMζ role on memory consolidation. This is the first attempt in literature to apply the RRM to the study of PKMζ and PKCζ. We obtained that PKMζ presents a spectral peak at the resonant recognition frequency of fRRM= 0.063 (likely, corresponding to the infrared frequency of 3190 nm) and another peak at f<sub>RRM</sub> =0.211(950 nm in the near infrared). Peak at f<sub>RRM</sub>= 0.063 is also shared by PKCζ, and the peak at f<sub>RRM</sub> =0.211 is similar to the one recently reported in literature for regulatory proteins. We hypothesize that irradiating with a weak light infrared source at these frequencies would modify long term potentiation results. Finally, a scheme for resonant interactions in PKMζ and PKCζ is proposed.</p><strong>Palabras claves:</strong> long term potentiation, protein kinases, resonant recognition model, bioinformatics.
url http://revinformatica.sld.cu/index.php/rcim/article/view/216
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AT drcjoseluishernandezcaceres studyingproteinkinasespkczandpkmzwiththeresonantrecognitionmodelimplicationsforthestudyofmemorymechanisms
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