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De novo gene birth
Identification of an Overprinting Gene in Merkel Cell Polyomavirus Provides Evolutionary Insight Into the Birth of Viral Genes
Examining the Process of De Novo Gene Birth: an Educational Primer on “Integration of New Genes Into Cellular Networks, and Their Structural Maturation”
Uncovering De Novo Gene Birth in Yeast Using Deep Transcriptomics
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Genesis of Non-Coding RNA Genes in Human Chromosome 22—A Sequence Connection with Protein Genes Separated by Evolutionary Time
Intergenic Orfs As Elementary Structural Modules of De Novo Gene Birth And
Evolution of Novel Genes in Three-Spined Stickleback Populations
Turnover of Ribosome-Associated Transcripts
From De Novo to 'De Nono': Most Novel Protein Coding Genes Identified With
Evolution: Dynamics of De Novo Gene Emergence
Turnover of Ribosome-Associated Transcripts from De Novo Orfs Produces Gene-Like Characteristics Available for De Novo Gene Emergence in Wild Yeast Populations
Ease of De Novo Gene Birth Through Spontaneous Mutations Predicted In
Evolutionary Analyses of Orphan Genes in Mouse Lineages in the Context of De Novo Gene Birth
Building from Scratch: De Novo Gene Birth M.Mar Albà
Origins of De Novo Genes in Human and Chimpanzee
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De Novo Gene Birth
On the Origin of De Novo Genes in Arabidopsis Thaliana Populations
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Differences Between the Raw Material and the Products of De Novo Gene Birth Can Result from Mutational Biases
Proto-Genes and De Novo Gene Birth
On the Regulatory Evolution of New Genes Throughout Their Life History 2 Jia-Yu Zhang1, Qi Zhou1,2,*
How New Genes Are Born
From Yeast to Mammals, the Nonsense-Mediated Mrna Decay As a Master Regulator of Long Non-Coding Rnas Functional Trajectory
A Putative De Novo Evolved Gene Required for Spermatid Chromatin Condensation in 2 Drosophila Melanogaster 3 4 5 6 Emily L
Young Genes Are Highly Disordered As Predicted by the Preadaptation Hypothesis of De Novo Gene Birth
Rapid Evolutionary Innovation During an Archaean Genetic Expansion
Turnover of Ribosome-Associated Transcripts from De Novo Orfs Produces Gene-Like Characteristics Available for De Novo Gene Emergence in Wild Yeast Populations
Ease of De Novo Gene Birth Through Spontaneous Mutations Predicted In
Genesis of Non-Coding RNA Genes in Human Chromosome 22—A Sequence Connection with Protein Genes Separated by Evolutionary Time
Gene Birth Contributes to Structural Disorder Encoded by Overlapping Genes
Extensive Natural Epigenetic Variation at a [I]De Novo[/I] Originated Gene
A Continuum of Evolving De Novo Genes Drives Protein-Coding
The De Novo Sequence Origin of Two Long Non-Coding Genes from an Inter-Genic Region
Updates on How Protein-Coding Genes Might Emerge from Previously Non-Coding DNA De Novo
The Discovery of De Novo Gene Evolution
A Putative De Novo Evolved Gene Required for Spermatid Chromatin Condensation in 2 Drosophila Melanogaster 3 4 5 6 Emily L