"Implications of double-stranded DNA structure for development, cancer and evolution"
written by Mitsuru Furusawa,
published by Open Journal of Genetics, Vol.1 No.3, 2011
has been cited by the following article(s):
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[1] Mutator/hypermutable fetal/juvenile metakaryotic stem cells and human colorectal carcinogenesis
Stem Cell Genetic Fidelity, 2015
[2] Stem Cell Genetic Fidelity
Frontiers in genetics, 2015
[3] Implication of the Strand-Specific Imprinting and Segregation Model: Integrating in utero Hormone Exposure, Stem Cell and Lateral Asymmetry Hypotheses in Breast Cancer Aetiology
Hereditary Genetics: Current Research, 2013
[4] Defining the epigenetic mechanism of asymmetric cell division of Schizosaccharomyces japonicus yeast
Genetics, 2013
[5] Implication of the Strand-Specific Imprinting and Segregation Model: Integrating in utero Hormone Exposure, Stem Cell and Latera
Hereditary Genetics: Current Research, 2013
[6] Implication of the Strand-Specific Imprinting and Segregation Model: Integrating in utero Hormone Exposure
Stem Cell and Lateral Asymmetry Hypotheses in Breast Cancer Aetiology. Genetics S, 2013
[7] Whole-Genome Profiling of a Novel Mutagenesis Technique Using Proofreading-Deficient DNA Polymerase
International journal of evolutionary biology, 2012
[8] Implications of fidelity difference between the leading and the lagging strand of DNA for the acceleration of evolution
Frontiers in oncology, 2012
[9] Left-right symmetry breaking in mice by left-right dynein may occur via a biased chromatid segregation mechanism, without directly involving the Nodal gene
2012
[10] Left-right symmetry breaking in mice by left-right dynein may occur via a biased chromatid segregation mechanism, without direct
Frontiers in oncology, 2012