Dissection of Neurochemical Pathways Across Complexity and Scale

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dc.contributor.authorAbbondanza A.
dc.contributor.authorKim N.
dc.contributor.authorLima-Filho R.A.S.
dc.contributor.authorAmin A.
dc.contributor.authorAnversa R.G.
dc.contributor.authorAlmeida F.B.
dc.contributor.authorCardozo P.L.
dc.contributor.authorCarello-Collar G.
dc.contributor.authorCarsana E.V.
dc.contributor.authorFolarin R.O.
dc.contributor.authorGuerreiro S.
dc.contributor.authorIjomone O.K.
dc.contributor.authorLawal S.K.
dc.contributor.authorMatias I.
dc.contributor.authorMbagwu S.I.
dc.contributor.authorNiño S.A.
dc.contributor.authorOlabiyi B.F.
dc.contributor.authorOlatunji S.Y.
dc.contributor.authorOlasehinde T.A.
dc.contributor.authorRuankham W.
dc.contributor.authorSanchez W.N.
dc.contributor.authorSoares-Cunha C.
dc.contributor.authorSoto P.A.
dc.contributor.authorSoto-Verdugo J.
dc.contributor.authorStrogulski N.R.
dc.contributor.authorTomaszewska W.
dc.contributor.authorVieira C.
dc.contributor.authorChaves-Filho A.
dc.contributor.authorCousin M.A.
dc.contributor.authorRinken A.
dc.contributor.authorWenzel T.J.
dc.contributor.correspondenceAbbondanza A.
dc.contributor.otherMahidol University
dc.date.accessioned2025-07-28T18:14:58Z
dc.date.available2025-07-28T18:14:58Z
dc.date.issued2025-07-01
dc.description.abstractThe field of Neurochemistry spent decades trying to understand how the brain works, from nano to macroscale and across diverse species. Technological advancements over the years allowed researchers to better visualize and understand the cellular processes underpinning central nervous system (CNS) function. This review provides an overview of how novel models, and tools have allowed Neurochemistry researchers to investigate new and exciting research questions. We discuss the merits and demerits of different in vivo models (e.g., Caenorhabditis elegans, Drosophila melanogaster, Ratus norvegicus, and Mus musculus) as well as in vitro models (e.g., primary cells, induced pluripotent stem cells, and immortalized cells) to study Neurochemical events. We also discuss how these models can be paired with cutting-edge genetic manipulation (e.g., CRISPR-Cas9 and engineered viral vectors) and imaging techniques, such as super-resolution microscopy and new biosensors, to study cellular processes of the CNS. These technological advancements provide new insight into Neurochemical events in physiological and pathological contexts, paving the way for the development of new treatments (e.g., cell and gene therapies or small molecules) that aim to treat neurological disorders by reverting the CNS to its homeostatic state. (Figure presented.)
dc.identifier.citationJournal of Neurochemistry Vol.169 No.7 (2025)
dc.identifier.doi10.1111/jnc.70160
dc.identifier.eissn14714159
dc.identifier.issn00223042
dc.identifier.scopus2-s2.0-105011197552
dc.identifier.urihttps://repository.li.mahidol.ac.th/handle/20.500.14594/111425
dc.rights.holderSCOPUS
dc.subjectNeuroscience
dc.subjectBiochemistry, Genetics and Molecular Biology
dc.titleDissection of Neurochemical Pathways Across Complexity and Scale
dc.typeReview
mu.datasource.scopushttps://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=105011197552&origin=inward
oaire.citation.issue7
oaire.citation.titleJournal of Neurochemistry
oaire.citation.volume169
oairecerif.author.affiliationUniversity of Melbourne
oairecerif.author.affiliationSorbonne Université
oairecerif.author.affiliationThe University of Edinburgh
oairecerif.author.affiliationUniversità degli Studi di Milano
oairecerif.author.affiliationUniversidade Federal do Rio de Janeiro
oairecerif.author.affiliationUniversidade Federal do Rio Grande do Sul
oairecerif.author.affiliationUniversidade Federal de Minas Gerais
oairecerif.author.affiliationTrinity College Dublin
oairecerif.author.affiliationUniversidad de Chile
oairecerif.author.affiliationUniversity of KwaZulu-Natal
oairecerif.author.affiliationMahidol University
oairecerif.author.affiliationUniversity of Victoria
oairecerif.author.affiliationVanderbilt University School of Medicine
oairecerif.author.affiliationUniversidade do Minho
oairecerif.author.affiliationVCU School of Medicine
oairecerif.author.affiliationBergische Universität Wuppertal
oairecerif.author.affiliationEdinburgh Medical School
oairecerif.author.affiliationNational Institute on Drug Abuse (NIDA)
oairecerif.author.affiliationUniversity of Saskatchewan, College of Medicine
oairecerif.author.affiliationUniversity of Botswana
oairecerif.author.affiliationThe Babraham Institute
oairecerif.author.affiliationUniversidade Federal de Ciencias da Saúde de Porto Alegre
oairecerif.author.affiliationNencki Institute of Experimental Biology of the Polish Academy of Sciences
oairecerif.author.affiliationNnamdi Azikiwe University
oairecerif.author.affiliationInstitute of Physiology of the Academy of Sciences of the Czech Republic
oairecerif.author.affiliationEscola de Medicina da Universidade do Minho
oairecerif.author.affiliationInstituto de Química y Fisicoquímica Biológicas, Buenos Aires
oairecerif.author.affiliationMedizinischen Fakultät der Universität Bonn
oairecerif.author.affiliationUniversity of Medical Sciences
oairecerif.author.affiliationTartu Ülikooli Keemia Instituut
oairecerif.author.affiliationUniversity of Global Health Equity
oairecerif.author.affiliationŁukasiewicz - PORT Polski Ośrodek Rozwoju Technologii
oairecerif.author.affiliationCentro de Gerociencia, Salud Mental y Metabolismo
oairecerif.author.affiliationFederal Institute of Industrial Research

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