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The Immortal Strand Hypothesis: Segregation and Reconstruction

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Presentation on theme: "The Immortal Strand Hypothesis: Segregation and Reconstruction"— Presentation transcript:

1 The Immortal Strand Hypothesis: Segregation and Reconstruction
Thomas A. Rando  Cell  Volume 129, Issue 7, Pages (June 2007) DOI: /j.cell Copyright © 2007 Elsevier Inc. Terms and Conditions

2 Figure 1 The Immortal Strand Hypothesis and Template Strand Segregation (Top) Retention of an immortal strand during stem cell self-renewal. This panel shows a stem cell, on the far left, containing a single chromosome consisting of an older (“grandparent”) template (blue) and a younger (“parent”) template (red). Following DNA replication, an asymmetric cell division results in two daughters, one of which gives rise to a new stem cell by the process of self-renewal, and the other of which gives rise to the differentiated mature cells of the tissue. According to the immortal strand hypothesis (Cairns, 1975), the sister chromatid containing the older (“immortal”) strand (blue) remains with the continually renewing stem cell through repeated asymmetric divisions for the life of the organism. (Bottom) Random and nonrandom template strand segregation. Shown are the differences in distribution of multiple chromatids (in this case, in a theoretical cell with 4 pairs of chromosomes giving rise to 16 sister chromatids following DNA replication) if the segregation is either random or nonrandom. According to the immortal strand hypothesis, either as initially formulated for stem cell self-renewal (Cairns, 1975) or generalized to include asymmetric cell divisions associated with divergent cell-fate decisions in stem cell progeny (Conboy et al., 2007), there is nonrandom chromatid segregation requiring the recognition and alignment of all chromatids containing the older templates separate from those containing the newer templates. Following cell division, the daughter cell acquiring the older templates would be the cell with the more undifferentiated phenotype. Cell  , DOI: ( /j.cell ) Copyright © 2007 Elsevier Inc. Terms and Conditions

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