Author: Glinsky, Gennadi V.
Title: Impacts of genomic networks governed by human-specific regulatory sequences and genetic loci harboring fixed human-specific neuro-regulatory single nucleotide mutations on phenotypic traits of Modern Humans Cord-id: r03f3874 Document date: 2020_4_18
ID: r03f3874
Snippet: Recent advances in identification and characterization of human-specific regulatory DNA sequences set the stage for the assessment of their global impact on physiology and pathology of Modern Humans. Gene set enrichment analyses (GSEA) of 8,405 genes linked with 35,074 human-specific neuro-regulatory single-nucleotide changes (hsSNCs) revealed a staggering breadth of significant associations with morphological structures, physiological processes, and pathological conditions of Modern Humans. Sig
Document: Recent advances in identification and characterization of human-specific regulatory DNA sequences set the stage for the assessment of their global impact on physiology and pathology of Modern Humans. Gene set enrichment analyses (GSEA) of 8,405 genes linked with 35,074 human-specific neuro-regulatory single-nucleotide changes (hsSNCs) revealed a staggering breadth of significant associations with morphological structures, physiological processes, and pathological conditions of Modern Humans. Significantly enriched traits include more than 1,000 anatomically-distinct regions of the adult human brain, many different types of cells and tissues, more than 200 common human disorders and more than 1,000 records of rare diseases. Thousands of genes connected with neuro-regulatory hsSNCs have been identified, which represent essential genetic elements of the autosomal inheritance and offspring survival phenotypes. A total of 1,494 hsSNC- linked genes are associated with either autosomal dominant or recessive inheritance and 2,273 hsSNC-linked genes have been associated with premature death, embryonic lethality, as well as pre-, peri-, neo-, and post-natal lethality phenotypes of both complete and incomplete penetrance. Differential GSEA implemented on hsSNC-linked loci and associated genes identify 7,990 genes linked to evolutionary distinct classes of human-specific regulatory sequences (HSRS), expression of a majority of which (5,389 genes; 67%) is regulated by stem cell-associated retroviral sequences (SCARS). Interrogations of the MGI database revealed readily available mouse models tailored for precise experimental definitions of functional effects of hsSNCs and SCARS on genes causally affecting thousands of mammalian phenotypes and implicated in hundreds of common and rare human disorders. These observations suggest that a preponderance of human-specific traits evolved under a combinatorial regulatory control of HSRS and neuro-regulatory loci harboring hsSNCs that are fixed in humans, distinct from other primates, and located in differentially-accessible chromatin regions during brain development.
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