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Genomic perplexity and the evolution of context-dependent function
by
McInerney, James O
in
Biological Evolution
/ Biology
/ Context
/ Discoveries
/ Epistasis
/ Epistasis, Genetic
/ Evolution, Molecular
/ Functionals
/ Gene Flow
/ Gene transfer
/ Gene Transfer, Horizontal
/ Genes
/ Genetic Fitness
/ Genome
/ Genomics
/ Genomics - methods
/ Horizontal transfer
/ Incompatibility
/ Information theory
/ Interspecific hybridization
/ Large Language Models
/ Models, Genetic
/ Selection, Genetic
/ Statistical analysis
/ Synthetic biology
2026
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Genomic perplexity and the evolution of context-dependent function
by
McInerney, James O
in
Biological Evolution
/ Biology
/ Context
/ Discoveries
/ Epistasis
/ Epistasis, Genetic
/ Evolution, Molecular
/ Functionals
/ Gene Flow
/ Gene transfer
/ Gene Transfer, Horizontal
/ Genes
/ Genetic Fitness
/ Genome
/ Genomics
/ Genomics - methods
/ Horizontal transfer
/ Incompatibility
/ Information theory
/ Interspecific hybridization
/ Large Language Models
/ Models, Genetic
/ Selection, Genetic
/ Statistical analysis
/ Synthetic biology
2026
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Do you wish to request the book?
Genomic perplexity and the evolution of context-dependent function
by
McInerney, James O
in
Biological Evolution
/ Biology
/ Context
/ Discoveries
/ Epistasis
/ Epistasis, Genetic
/ Evolution, Molecular
/ Functionals
/ Gene Flow
/ Gene transfer
/ Gene Transfer, Horizontal
/ Genes
/ Genetic Fitness
/ Genome
/ Genomics
/ Genomics - methods
/ Horizontal transfer
/ Incompatibility
/ Information theory
/ Interspecific hybridization
/ Large Language Models
/ Models, Genetic
/ Selection, Genetic
/ Statistical analysis
/ Synthetic biology
2026
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Genomic perplexity and the evolution of context-dependent function
Journal Article
Genomic perplexity and the evolution of context-dependent function
2026
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Abstract
The fundamental principle that selection acts on a gene's function often assumes implicitly that this function is fixed and intrinsic. However, empirical evidence from pangenomics, synthetic biology, and GWAS consistently demonstrates that organismal function is highly context-dependent, varying across genomic backgrounds and cellular states, even for core genes. Drawing a conceptual parallel with modern large language models (LLMs), I propose that genomes, like LLMs, do not encode fixed functions but rather “probability distributions” over functional and phenotypic outcomes. This framework draws a conceptual analogy between epistasis and transformer-style “attention mechanisms,” suggesting that genomic context weights the influence of distant genetic elements. I also introduce the concept of “genomic perplexity”—an information-theoretic measure of the statistical unexpectedness and incompatibility of a genetic element within its host context. I demonstrate how perplexity serves as a quantifiable metric for the well-known fitness cost associated with interspecies gene flow (eg horizontal gene transfer (HGT) and introgression), where a new gene represents a high-perplexity token. This perspective formalizes long-standing observations of genomic fit and provides a testable framework for predicting the integration potential of accessory genes and directing future research in synthetic biology and evolutionary modeling.
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