Abstract
BackgroundRNA-mediated interference (RNAi)-based functional genomics is a systems-level approach to identify novel genes that control biological phenotypes. Existing computational approaches can identify individual genes from RNAi datasets that regulate a given biological process. However, currently available methods cannot identify which RNAi screen "hits" are novel components of well-characterized biological pathways known to regulate the interrogated phenotype. In this study, we describe a method to identify genes from RNAi datasets that are novel components of known biological pathways. We experimentally validate our approach in the context of a recently completed RNAi screen to identify novel regulators of melanogenesis.ResultsIn this study, we utilize a PPI network topology-based approach to identify targets within our RNAi dataset that may be components of known melanogenesis regulatory pathways. Our computational approach identifies a set of screen targets that cluster topologically in a human PPI network with the known pigment regulator Endothelin receptor type B (EDNRB). Validation studies reveal that these genes impact pigment production and EDNRB signaling in pigmented melanoma cells (MNT-1) and normal melanocytes.ConclusionsWe present an approach that identifies novel components of well-characterized biological pathways from functional genomics datasets that could not have been identified by existing statistical and computational approaches.
Highlights
RNA-mediated interference (RNAi)-based functional genomics is a systems-level approach to identify novel genes that control biological phenotypes
Topological similarity uncovers novel melanogenesisrelated regulatory network members within a functional genomics dataset In this study, we examine the interrelationship between protein-protein interaction (PPI) network topology and both known and newly identified biological pathways that regulate melanogenesis
In this study, we utilize a PPI network topology-based computational approach to identify a set of novel Endothelin receptor type B (EDNRB) pathway components
Summary
RNA-mediated interference (RNAi)-based functional genomics is a systems-level approach to identify novel genes that control biological phenotypes. Availability of systems-level protein-protein interaction (PPI), gene expression, and functional genomics (FG) data has facilitated the development of integrative computational approaches to uncover genes involved in biological processes [1]. Numerous studies have identified molecular determinants of pigment variation: 127 mouse coat color genes have been identified [8] that coordinately regulate the transcription, translation, and intracellular trafficking of melanogenic enzymes [9] These studies have identified the master regulator of melanocyte transcription microphthalmia-associated transcription factor (MITF) [10], several melanogenic enzymes [9], and regulators of melanosome formation and trafficking [11]. Our current understanding of skin and eye color variability is incomplete [12]
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