Guttinger, Stephan and Love, Alan C. (2020) modENCODE and the elaboration of functional genomic methodology. [Preprint]
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Abstract
A central tool in comparative genomics is sequence alignment. This makes it possible to identify stretches of DNA that exhibit different degrees of similarity across closely and distantly related organisms. In much of this work, phylogenetic conservation of sequence structure (i.e., homology) is a proxy for genomic function. After the Human Genome Project, there was growing interest in moving from structural or descriptive genomics to functional genomics. The goal of the ENCyclopedia Of DNA Elements (ENCODE) project was to identify and catalogue all the functional elements or active structures of the human genome. A parallel project attempted to catalogue shared functional elements of genomes across model organisms (modENCODE).
The key methodological question for both projects was how to identify functional elements in the first place. As noted, an evolutionary approach uses comparative analysis of sequence similarity to identify sequence conservation across species, which is treated as a proxy for the functional relevance of those genomic elements. A biochemical approach focuses on signatures of activity that functional elements leave behind as proxies for the elements themselves. ENCODE primarily utilized the biochemical approach. modENCODE ended up doing something different and distinctive: it fused the biochemical and evolutionary approaches to genomic function and adopted an increased abstraction about what counts as a genomic property.
This was a novel methodological maneuver. ENCODE focused on functional elements of the genome (i.e., structures), but modENCODE shifted to general regulatory principles (i.e., abstract functional rules). Evolutionary conservation is combined with biochemical activity to isolate shared relational functional properties—not elements or structures—of metazoan genomes. This methodological shift by modENCODE introduced a theoretical tension: the notion of conservation applies straightforwardly to sequence-based functional elements (i.e., structures), but less clearly to quantitative functional relationships. These rules are better described as prerequisites for how genomes operate rather than outcomes of evolutionary conservation.
modENCODE identified distinctive physicochemical rules rather than mechanistic structure. These abstract, quantitative relationships are disconnected from modENCODE’s stated goal of discovering “how the information encoded in a genome can produce a complex multicellular organism.” Although modENCODE advanced our knowledge of how the genome works, it was relatively mute about the translation of genomic form into organismal complexity. The original research question was transformed in the process of inquiry: from detecting functional elements in the genome that contribute to organismal phenotypes, to identifying properties or rules of the genome that make it possible to function.
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| Item Type: | Preprint | |||||||||
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| Additional Information: | Forthcoming in C. Donohue and A.C. Love (eds.), Perspectives on the Human Genome Project and Genomics. Minnesota Studies in Philosophy of Science. Minneapolis: University of Minnesota Press. | |||||||||
| Keywords: | ENCODE, function, genomics, human genome project, homology, proxies | |||||||||
| Subjects: | General Issues > Data Specific Sciences > Biology > Function/Teleology Specific Sciences > Biology > Molecular Biology/Genetics General Issues > Evidence |
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| Depositing User: | Alan Love | |||||||||
| Date Deposited: | 08 Nov 2020 15:17 | |||||||||
| Last Modified: | 08 Nov 2020 15:17 | |||||||||
| Item ID: | 18367 | |||||||||
| Subjects: | General Issues > Data Specific Sciences > Biology > Function/Teleology Specific Sciences > Biology > Molecular Biology/Genetics General Issues > Evidence |
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| Date: | August 2020 | |||||||||
| URI: | https://philsci-archive.pitt.edu/id/eprint/18367 |
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