2021
DOI: 10.1038/s41540-020-00167-1
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Automating parameter selection to avoid implausible biological pathway models

Abstract: A common way to integrate and analyze large amounts of biological “omic” data is through pathway reconstruction: using condition-specific omic data to create a subnetwork of a generic background network that represents some process or cellular state. A challenge in pathway reconstruction is that adjusting pathway reconstruction algorithms’ parameters produces pathways with drastically different topological properties and biological interpretations. Due to the exploratory nature of pathway reconstruction, there… Show more

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Cited by 10 publications
(5 citation statements)
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“…Here, we only utilized graphlets composed of interactions among 3 and 4 nodes rather than interactions between 2 nodes. However, various graphlet information in reference networks, such as graphlet degree distribution, graphlet frequencies, and probabilistic graphlets, can be embedded in network inference algorithms or biological interpretations 32,34,35,39,40 . However, the use of graphlet features will come with a high computational cost.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Here, we only utilized graphlets composed of interactions among 3 and 4 nodes rather than interactions between 2 nodes. However, various graphlet information in reference networks, such as graphlet degree distribution, graphlet frequencies, and probabilistic graphlets, can be embedded in network inference algorithms or biological interpretations 32,34,35,39,40 . However, the use of graphlet features will come with a high computational cost.…”
Section: Discussionmentioning
confidence: 99%
“…Small connected, nonisomorphic subgraphs, called graphlets, are over-represented in the reference interactome and associated with specific functions 35,36 . Graphlet statistics solve several complex problems in this context, such as the comparison of biological networks, delineating the functional organization of networks, discovering functionally related genes, regulatory interactions, and parameter tuning for network-based approaches 12,32,33,[37][38][39][40] . Another challenge is the presence of highly connected and multifunctional proteins, particularly hub proteins, which can bring nonspecific interactions to the resulting network models because of the small-world property of reference interactomes.…”
Section: Introductionmentioning
confidence: 99%
“…Network analysis provides a means to abstract high-resolution, spatial information into summary statistics (Pavlopoulos et al, 2011;Koutrouli et al, 2020). Network topology and morphology have been used to understand ecological systems (Peterson et al, 2013;Modica et al, 2021), interrogate biological pathways (Magnano and Gitter, 2021), analyze neurological structure (Sporns, 2013;Kok et al, 2020;Bassett and Sporns, 2017), and identify novel treatment (Iadevaia et al, 2010). Specifically in tumor development, network analyses are a promising approach to study healthy and pathogenic vascular mimicry and angiogenesis (Amat-Roldan et al, 2015;Alves et al, 2018;Fouladzadeh et al, 2021).…”
Section: The Tumor Microenvironment As a Model Systemmentioning
confidence: 99%
“…Parameter advising has been previously discussed in several bioinformatic areas such as multiple sequence alignment [Cedillo et al, 2022, DeBlasio and Kececioglu, 2014, 2015a,b], biological pathway reconstruction [Magnano and Gitter, 2021] as well as transcript assembly [DeBlasio et al, 2020]. The method proposed in DeBlasio et al [2020] is the first and only work developing a parameter advising system for transcript assembly by learning the advisor set in a data-driven way.…”
Section: Related Workmentioning
confidence: 99%