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Motifs in Brain Networks

Author

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  • Olaf Sporns
  • Rolf Kötter

Abstract

Complex brains have evolved a highly efficient network architecture whose structural connectivity is capable of generating a large repertoire of functional states. We detect characteristic network building blocks (structural and functional motifs) in neuroanatomical data sets and identify a small set of structural motifs that occur in significantly increased numbers. Our analysis suggests the hypothesis that brain networks maximize both the number and the diversity of functional motifs, while the repertoire of structural motifs remains small. Using functional motif number as a cost function in an optimization algorithm, we obtain network topologies that resemble real brain networks across a broad spectrum of structural measures, including small-world attributes. These results are consistent with the hypothesis that highly evolved neural architectures are organized to maximize functional repertoires and to support highly efficient integration of information. Analysis of characteristic patterns of connectivity in neuroanatomical datasets suggests that nervous systems evolved to maximize functional repertoires and support highly efficient integration of information.

Suggested Citation

  • Olaf Sporns & Rolf Kötter, 2004. "Motifs in Brain Networks," PLOS Biology, Public Library of Science, vol. 2(11), pages 1-1, October.
    • Handle: RePEc:plo:pbio00:0020369
    DOI: 10.1371/journal.pbio.0020369
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    References listed on IDEAS

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    1. Steven H. Strogatz, 2001. "Exploring complex networks," Nature, Nature, vol. 410(6825), pages 268-276, March.
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    Cited by:

    1. Deng, Bin & Zhu, Zechen & Yang, Shuangming & Wei, Xile & Wang, Jiang & Yu, Haitao, 2016. "FPGA implementation of motifs-based neuronal network and synchronization analysis," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 451(C), pages 388-402.
    2. Logan Harriger & Martijn P van den Heuvel & Olaf Sporns, 2012. "Rich Club Organization of Macaque Cerebral Cortex and Its Role in Network Communication," PLOS ONE, Public Library of Science, vol. 7(9), pages 1-13, September.
    3. Raghavendra Singh & Seema Nagar & Amit A Nanavati, 2015. "Analysing Local Sparseness in the Macaque Brain Network," PLOS ONE, Public Library of Science, vol. 10(10), pages 1-22, October.
    4. repec:plo:pcbi00:1003548 is not listed on IDEAS
    5. Christoph Schmidt & Thomas Weiss & Thomas Lehmann & Herbert Witte & Lutz Leistritz, 2013. "Extracting Labeled Topological Patterns from Samples of Networks," PLOS ONE, Public Library of Science, vol. 8(8), pages 1-11, August.
    6. Deng, Bin & Deng, Yun & Yu, Haitao & Guo, Xinmeng & Wang, Jiang, 2016. "Dependence of inter-neuronal effective connectivity on synchrony dynamics in neuronal network motifs," Chaos, Solitons & Fractals, Elsevier, vol. 82(C), pages 48-59.
    7. Yu, Haitao & Guo, Xinmeng & Qin, Qing & Deng, Yun & Wang, Jiang & Liu, Jing & Cao, Yibin, 2017. "Synchrony dynamics underlying effective connectivity reconstruction of neuronal circuits," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 471(C), pages 674-687.
    8. Hanbaek Lyu & Yacoub H. Kureh & Joshua Vendrow & Mason A. Porter, 2024. "Learning low-rank latent mesoscale structures in networks," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    9. repec:plo:pcbi00:0020165 is not listed on IDEAS
    10. repec:plo:pbio00:0030343 is not listed on IDEAS
    11. Xing, Miaomiao & Song, Xinlin & Wang, Hengtong & Yang, Zhuoqin & Chen, Yong, 2022. "Frequency synchronization and excitabilities of two coupled heterogeneous Morris-Lecar neurons," Chaos, Solitons & Fractals, Elsevier, vol. 157(C).
    12. Zhou, Peipei & Cai, Shuiming & Liu, Zengrong & Chen, Luonan & Wang, Ruiqi, 2013. "Coupling switches and oscillators as a means to shape cellular signals in biomolecular systems," Chaos, Solitons & Fractals, Elsevier, vol. 50(C), pages 115-126.
    13. Christos Ellinas & Neil Allan & Anders Johansson, 2016. "Exploring Structural Patterns Across Evolved and Designed Systems: A Network Perspective," Systems Engineering, John Wiley & Sons, vol. 19(3), pages 179-192, May.
    14. Disheng Tang & Joel Zylberberg & Xiaoxuan Jia & Hannah Choi, 2024. "Stimulus type shapes the topology of cellular functional networks in mouse visual cortex," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    15. Dimitrios TSIOTAS & Serafeim POLYZOS, 2024. "Analyzing The Spatial Interactions In The Nationwide Regional Capitals Network Of Greece," Sustainable Regional Development Scientific Journal, Sustainable Regional Development Scientific Journal, vol. 0(3), pages 73-81, March.
    16. G Karl Steinke & Roberto F Galán, 2011. "Brain Rhythms Reveal a Hierarchical Network Organization," PLOS Computational Biology, Public Library of Science, vol. 7(10), pages 1-15, October.
    17. repec:plo:pone00:0039355 is not listed on IDEAS
    18. Wylie, Dennis Cates, 2009. "Linked by loops: Network structure and switch integration in complex dynamical systems," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 388(9), pages 1946-1958.
    19. Qi Wang & Bentao Zou & Jialin Jin & Yuefen Wang, 2024. "Studying the linkage patterns and incremental evolution of domain knowledge structure: a perspective of structure deconstruction," Scientometrics, Springer;Akadémiai Kiadó, vol. 129(7), pages 4249-4274, July.

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