Genome-wide, chromosome-naïve compartmentalization of major developmental networks tailored by modular placement of human embryo-regulatory Long Terminal Repeats

Genome-wide, chromosome-naïve compartmentalization of major developmental networks tailored by modular placement of human embryo-regulatory Long Terminal Repeats

At inception, eukaryotes solved the conflict of the physical dimensions of meter-sized linear chromatin fibers placed into micron-sized nuclei by employing two mechanisms: (i) fragmenting genomic DNA into sets of shorter segments, called chromosomes; (ii) compacting each chromosome by fol...

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Bibliographic Details
Main Author: Gennadi V. Glinsky
Format: Article
Language:English
Published: Academia.edu Journals 2025-06-01
Series:Academia Molecular Biology and Genomics
Online Access:https://www.academia.edu/129922697/Genome_wide_chromosome_na%C3%AFve_compartmentalization_of_major_developmental_networks_tailored_by_modular_placement_of_human_embryo_regulatory_Long_Terminal_Repeats
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https://www.academia.edu/129922697/Genome_wide_chromosome_na%C3%AFve_compartmentalization_of_major_developmental_networks_tailored_by_modular_placement_of_human_embryo_regulatory_Long_Terminal_Repeats

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