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Article Addendum
Death Harmony Played by Nucleus and Mitochondria: Nuclear Apoptosis During Conjugation of Tetrahymena
Hiroshi Endoh and Takashi Kobayashi
volume 2 | issue 2
April/May/June 2006Pages: 129 - 131
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Tetrahymena programmed nuclear death or nuclear apoptosis is a unique process during conjugation in which only the parental macronucleus is eliminated from the progeny cytoplasm, and other nuclei such as new micro- and macronuclei are unaffected. The nuclear death process consists of three successive steps: chromatin cleavage into high-molecular mass DNA, oligonucleosomal laddering concomitant with nuclear condensation, and complete degradation of the nuclear DNA. Following the first step of the death process, the parental macronucleus is engulfed by a large autophagosome in which many mitochondria are incorporated. Those sequestered mitochondria simply break down and release endonuclease similar to mammalian endonuclease G that is responsible for the generation of the DNA ladder, leading to the conclusion that mitochondria play a crucial role in the execution of the death program. Thus, the parental macronucleus is subject to final death by autophagy in collaboration with caspase-like enzymes, resulting in the ultimate outcome of the nuclear resorption.
We now provide open access to journal articles published online for one year or more. This article may be downloaded at the following link:
Download PDF If the document does not open, please right-click on the link (control-click on a Macintosh) and select the option to save the file to disk.