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Telomerase activity in ‘immortal’ fish<sup>1</sup>
Wolfgang Hiddemann, Klaus Heidorn, Karen Kühne, Reza Parwaresch, Guido Krupp
FEBS Letters · 1998 · ▲ 148 citations
Abstract
Eukaryotic chromosome termini consist of telomeres, short sequence repeats. According to the telomere(definition) hypothesis, DNA replication leads to telomere shortening, resulting in a cellular mitotic clock. Telomerase resets it by telomere synthesis. In mammals with a limited growth phase, telomerase activity in somatic tissues is restricted to stem cell derivatives with high proliferation potential. But other animals, like some fish, grow throughout their life with little senescence(definition). All somatic cells require a high proliferation capacity and telomerase should be active in all cells, irrespective of fish age. Indeed, we detected high telomerase activities in all analyzed organs of rainbow trout (Oncorhynchus mykiss).
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- 10.1016/s0014-5793(98)01020-5
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APA
Hiddemann, W., Heidorn, K., Kühne, K., Parwaresch, R., & Krupp, G. (1998). Telomerase activity in ‘immortal’ fish<sup>1</sup>. <em>FEBS Letters</em>. https://doi.org/10.1016/s0014-5793(98)01020-5
Vancouver
Hiddemann W, Heidorn K, Kühne K, Parwaresch R, Krupp G. Telomerase activity in ‘immortal’ fish<sup>1</sup>. FEBS Letters. 1998. doi:10.1016/s0014-5793(98)01020-5.
BibTeX
@article{wolfgang1998Telome,
title = {Telomerase activity in ‘immortal’ fish<sup>1</sup>},
author = {Wolfgang Hiddemann and Klaus Heidorn and Karen Kühne and Reza Parwaresch and Guido Krupp},
journal = {FEBS Letters},
year = {1998},
doi = {10.1016/s0014-5793(98)01020-5},
}
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