GEM: scalable and flexible gene–environment interaction analysis in millions of samples | Zendy

Kenneth E. Westerman | Zendy; Duy T. Pham | Zendy; Hong Liang | Zendy; Ye Chen | Zendy; Magdalena Sevilla-González | Zendy; Yun Ju Sung | Zendy; Yan V. Sun | Zendy; Alanna C. Morrison | Zendy; Han Chen | Zendy; Alisa K. Manning | Zendy

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GEM: scalable and flexible gene–environment interaction analysis in millions of samples

Author(s) -

Kenneth E. Westerman,

Duy T. Pham,

Hong Liang,

Ye Chen,

Magdalena Sevilla-González,

Yun Ju Sung,

Yan V. Sun,

Alanna C. Morrison,

Han Chen,

Alisa K. Manning

Publication year - 2021

Publication title -

bioinformatics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.599

H-Index - 390

eISSN - 1367-4811

pISSN - 1367-4803

DOI - 10.1093/bioinformatics/btab223

Subject(s) - scalability , computer science , computational biology , biology , operating system

Detailed mechanistic models of biological processes can pose significant challenges for analysis and parameter estimations due to the large number of equations used to track the dynamics of all distinct configurations in which each involved biochemical species can be found. Model reduction can help tame such complexity by providing a lower-dimensional model in which each macro-variable can be directly related to the original variables.

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