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PLOS Computational Biology (PCB)

Publisher :

Public Library of Science

Scopus Profile
Peer reviewed only
Scopus Profile
Open Access
  • Ecology, Evolution, Behavior and Systematics
  • Molecular Biology
  • Computational Theory and Mathematics

    • +1

e-ISSN :

1553-7358

Issue Frequency :

Monthly

p-ISSN :

1553-734X

Est. Year :

2005

Mobile :

19172140095

Country :

United States

Language :

English

APC :

YES

Impact Factor Assignee :

Google Scholar

Email :

ploscompbiol@plos.org.

Journal Descriptions

PLOS Computational Biology provides a home for research of exceptional significance that uses computational methods and AI to further our understanding of living systems from molecular to ecosystem scales. We strengthen the accessibility and reusability of your work to empower biologists everywhere.


PLOS Computational Biology (PCB) is :

International, Peer-Reviewed, Open Access, Refereed, Ecology, Evolution, Behavior and Systematics, Molecular Biology, Computational Theory and Mathematics, Cellular and Molecular Neuroscience , Online or Print, Monthly Journal

UGC Approved, ISSN Approved: P-ISSN - 1553-734X, E-ISSN - 1553-7358, Established in - 2005, Impact Factor

Not Provide Crossref DOI

Indexed in DOAJ

Not indexed in Scopus, WoS, PubMed, UGC CARE

Indexing

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DOAJ
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ABCD
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SJR

+7 More

Publications of PCB

  • dott image December, 2018

Change, stability, and instability in the Pavlovian guidance of behaviour from adolescence to young adulthood

Pavlovian influences are important in guiding decision-making across health and psychopathology. There is an increasing interest in using concise computational tasks to parametrise such infl...

  • dott image February, 2007

Efficiency and Cost of Economical Brain Functional Networks

Brain anatomical networks are sparse, complex, and have economical small-world properties. We investigated the efficiency and cost of human brain functional networks measured using functiona...

  • dott image March, 2009

Broadband Criticality of Human Brain Network Synchronization

Self-organized criticality is an attractive model for human brain dynamics, but there has been little direct evidence for its existence in large-scale systems measured by neuroimaging. In ge...

  • dott image April, 2010

Efficient Physical Embedding of Topologically Complex Information Processing Networks in Brains and Computer Circuits

Nervous systems are information processing networks that evolved by natural selection, whereas very large scale integrated (VLSI) computer circuits have evolved by commercially driven techno...

  • dott image November, 2007

Genetic Progression and the Waiting Time to Cancer

Cancer results from genetic alterations that disturb the normal cooperative behavior of cells. Recent high-throughput genomic studies of cancer cells have shown that the mutational landscape...

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