Data for Brain Reference Architecture of TM25CILsSpiralingHypothesis: The Spiraling Hypothesis of Habit Formation in the Basal Ganglia

Tatsuya Miyamoto; Tawatsuji, Yoshimasa; Hiroshi Yamakawa

doi:10.51094/jxiv.1990

##article.authors##

Tatsuya Miyamoto Graduate School of Science and Engineering, Waseda University
Tawatsuji, Yoshimasa Graduate School of Engineering, The University of Tokyo
Hiroshi Yamakawa Whole Brain Architecture Initiative / Graduate School of Engineering, The University of Tokyo

DOI:

https://doi.org/10.51094/jxiv.1990

キーワード:

Brain Reference Architecture、 Basal Ganglia、 Habit Formation

抄録

This dataset describes the ”Spiraling Hypothesis,” the neural basis for habit formation in the basal ganglia. The data is structured in the Brain Reference Architecture (BRA) format. The content was constructed based on foundational literature (e.g., Haber, Fudge, and McFarland (2000); Yin and Knowlton (2006)) and recent anatomical evidence from Ambrosi and Lerner (2022). Specifically, the monosynaptic ”Striatonigrostriatal (SNS) pathways,” which mediate the transition from goaldirected (DMS) to habitual (DLS) behavior, are implemented as BIF. This dataset is reusable for computational modeling of habit formation and related disorder research.

利益相反に関する開示

The authors have no competing interests to declare.

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引用文献

Ambrosi, P., & Lerner, T. N. (2022, August). Striatonigrostriatal circuit architecture for disinhibition of dopamine signaling. Cell Reports, 40 (7), 111228.

Haber, S. N., Fudge, J. L., & McFarland, N. R. (2000, March). Striatonigrostriatal pathways in primates form an ascending spiral from the shell to the dorsolateral striatum. The Journal of Neuroscience, 20 (6), 2369–2382.

Yamakawa, H. (2021). The whole brain architecture approach: Accelerating the development of artificial general intelligence by referring to the brain. Neural Networks, 144 , 478–495.

Yamakawa, H., Arakawa, N., Tawatsuji, Y., Fukawa, A., Ashihara, Y., & Matsuo, Y. (2023). Proposal of an function-oriented scid method for reverse engineering a wide range of brain regions. In 32nd annual computational neuroscience meeting (p. 127).

Yin, H. H., & Knowlton, B. J. (2006, June). The role of the basal ganglia in habit formation. Nature Reviews Neuroscience, 7 (6), 464–476.

Data for Brain Reference Architecture of TM25CILsSpiralingHypothesis

The Spiraling Hypothesis of Habit Formation in the Basal Ganglia