3D genomics across the tree of life reveals condensin II as a determinant of architecture type
Copyright policy )3D genomics across the tree of life reveals condensin II as a determinant of architecture type
Organismal evolution of the 3D genome The conformation of chromosomes within the nucleus can reflect a cell's type or state. However, studies of the conservation and evolutionary history of the mechanisms regulating genome structure across species are lacking. Hoencamp et al. mapped three-dimensional (3D) genome organization in 24 eukaryote species, including animals, fungi, and plants. At interphase, species' telomeres and centromeres either clustered across chromosomes or oriented in a polarized state maintaining individual chromosomal territories within the cell, a difference attributed to condensin II. An experimental loss of condensin II in human cells promotes the formation of centromere clusters but has no effect on loop or compartment formation. Whether the structure of the 3D genome varies across species may thus depend on whether they carry a functional condensin II gene. Science , abe2218, this issue p. 984
- Sao Paulo State University Brazil
- San Diego State University United States
- National Institute of Health Pakistan
- University of California United States
- Florida State University United States
570, General Science & Technology, 1.1 Normal biological development and functioning, Centromere, Mitosis, Models, Biological, Chromosomes, Underpinning research, Models, Heterochromatin, Medicine and Health Sciences, Genetics, Animals, Chromosomes, Human, Humans, Interphase, JMG, Adenosine Triphosphatases, Cell Nucleus, Genome, Genome, Human, Human Genome, Life Sciences, Eukaryota, Genomics, Telomere, 540, Biological, Biological Evolution, DNA-Binding Proteins, Multiprotein Complexes, Generic health relevance, Algorithms, Cell Nucleolus, Human
570, General Science & Technology, 1.1 Normal biological development and functioning, Centromere, Mitosis, Models, Biological, Chromosomes, Underpinning research, Models, Heterochromatin, Medicine and Health Sciences, Genetics, Animals, Chromosomes, Human, Humans, Interphase, JMG, Adenosine Triphosphatases, Cell Nucleus, Genome, Genome, Human, Human Genome, Life Sciences, Eukaryota, Genomics, Telomere, 540, Biological, Biological Evolution, DNA-Binding Proteins, Multiprotein Complexes, Generic health relevance, Algorithms, Cell Nucleolus, Human
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