Inferring 3D chromatin structure using a multiscale approach based on quaternions

[11] Earnshaw WC(2013)Single-cell hi-c reveals cell-to-cell variability in chromosome structure Nature 502 59-64

[12] Langer-Safer PR(2009)Chromatin conformation signatures of cellular differentiation Genome Biol 10 37-7

[13] Levine M(2010)A three-dimensional model of the yeast genome Nature 465 363-40

[14] Ward DC(2001)Making contacts on a nucleic acid polymer Trends Biochem Sci 26 733-177

[15] Amann R(2010)Mapping of long-range associations throughout the fission yeast genome reveals global genome organization linked to transcriptional regulation Nucleic Acids Res 38 8164-100

[16] Fuchs BM(2012)Genome architectures revealed by tethered chromosome conformation capture and population-based modeling Nature Biotechnol 30 90-14

[17] Dekker J(2011)The three-dimensional folding of the alpha-globin gene domain reveals formation of chromatin globules Nat Struct Mol Biol 18 107-35

[18] Rippe K(2011)Structure determination of genomic domains by satisfaction of spatial restraints Chromosome Res 19 25-67

[19] Dekker M(2007)Computational modeling of the chromatin fiber Semin Cell Dev Biol 18 659-45

[20] Kleckner N(2011)Chromatin folding–from biology to polymer models and back J Cell Sci 124 839-304

[11] Earnshaw WC(2013)Single-cell hi-c reveals cell-to-cell variability in chromosome structure Nature 502 59-64

[12] Langer-Safer PR(2009)Chromatin conformation signatures of cellular differentiation Genome Biol 10 37-7

[13] Levine M(2010)A three-dimensional model of the yeast genome Nature 465 363-40

[14] Ward DC(2001)Making contacts on a nucleic acid polymer Trends Biochem Sci 26 733-177

[15] Amann R(2010)Mapping of long-range associations throughout the fission yeast genome reveals global genome organization linked to transcriptional regulation Nucleic Acids Res 38 8164-100

[16] Fuchs BM(2012)Genome architectures revealed by tethered chromosome conformation capture and population-based modeling Nature Biotechnol 30 90-14

[17] Dekker J(2011)The three-dimensional folding of the alpha-globin gene domain reveals formation of chromatin globules Nat Struct Mol Biol 18 107-35

[18] Rippe K(2011)Structure determination of genomic domains by satisfaction of spatial restraints Chromosome Res 19 25-67

[19] Dekker M(2007)Computational modeling of the chromatin fiber Semin Cell Dev Biol 18 659-45

[20] Kleckner N(2011)Chromatin folding–from biology to polymer models and back J Cell Sci 124 839-304