Similarity in Neuronal Firing Regimes across Mammalian Species.
Yasuhiro MochizukiTomokatsu OnagaHideaki ShimazakiTakeaki ShimokawaYasuhiro TsuboRie KimuraAkiko SaikiYutaka SakaiYoshikazu IsomuraShigeyoshi FujisawaKen-Ichi ShibataDaichi HiraiTakahiro FurutaTakeshi KanekoSusumu TakahashiTomoaki NakazonoSeiya IshinoYoshio SakuraiTakashi KitsukawaJong Won LeeHyunjung LeeMin Whan JungCecilia BabulPedro E MaldonadoKazutaka TakahashiFritzie I Arce-McShaneCallum F RossBarry J SessleNicholas G HatsopoulosThomas BrochierAlexa RiehlePaul ChorleySonja GrünHisao NishijoSatoe Ichihara-TakedaShintaro FunahashiKeisetsu ShimaHajime MushiakeYukako YamaneHiroshi TamuraIchiro FujitaNaoko InabaKenji KawanoSergei KurkinKikuro FukushimaKiyoshi KurataMasato TairaKen-Ichiro TsutsuiTadashi OgawaHidehiko KomatsuKowa KoidaKeisuke ToyamaBarry J RichmondShigeru ShinomotoPublished in: The Journal of neuroscience : the official journal of the Society for Neuroscience (2017)
By analyzing neuronal spike trains recorded from mice, rats, cats, and monkeys, we found that different brain regions have intrinsically different firing regimes that are more similar in homologous areas across species than across areas in one species. Because different regions in the brain are specialized for different functions, the present finding suggests that the different activity regimes of neurons are important for supporting different functions, so that appropriate neuronal codes can be used for different modalities.