Michael Dinh scite author profile

Michael Dinh

2Publications

9Citation Statements Received

98Citation Statements Given

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University of North Carolina at Chapel Hill

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Gametes deficient for Pot1 telomere binding proteins alter levels of telomeric foci for multiple generations

et al. 2021

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Deficiency for telomerase results in transgenerational shortening of telomeres. However, telomeres have no known role in transgenerational epigenetic inheritance. C. elegans Protection Of Telomeres 1 (Pot1) proteins form foci at the telomeres of germ cells that disappear at fertilization and gradually accumulate during development. We find that gametes from mutants deficient for Pot1 proteins alter levels of telomeric foci for multiple generations. Gametes from pot-2 mutants give rise to progeny with abundant POT-1::mCherry and mNeonGreen::POT-2 foci throughout development, which persists for six generations. In contrast, gametes from pot-1 mutants or pot-1; pot-2 double mutants induce diminished Pot1 foci for several generations. Deficiency for MET-2, SET-25, or SET-32 methyltransferases, which promote heterochromatin formation, results in gametes that induce diminished Pot1 foci for several generations. We propose that C. elegans POT-1 may interact with H3K9 methyltransferases during pot-2 mutant gametogenesis to induce a persistent form of transgenerational epigenetic inheritance that causes constitutively high levels of heterochromatic Pot1 foci.

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POT-1 telomere binding protein promotes a novel form of Transgenerational Epigenetic Inheritance

Lister-Shimauchi

Dinh

Maddox

et al. 2019

Preprint

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SummaryTransgenerational Epigenetic Inheritance occurs when gametes transmit forms of information without altering genomic DNA1. Although deficiency for telomerase in human families causes transgenerational shortening of telomeres2, a role for telomeres in Transgenerational Epigenetic Inheritance is unknown. Here we show that Protection Of Telomeres 1 (Pot1) proteins, which interact with single-stranded telomeric DNA3,4, function in gametes to regulate developmental expression of telomeric foci for multiple generations. C. elegans POT-1 and POT-25,6 formed abundant telomeric foci in adult germ cells that vanished in 1-cell embryos and gradually accumulated during development. pot-2 mutants displayed abundant POT-1::mCherry foci throughout development. pot-2 mutant gametes created F1 cross-progeny with constitutively abundant POT-1::mCherry and mNeonGreen::POT-2 foci, which persisted for 6 generations but did not alter telomere length. pot-1 mutant and pot-2; pot-1 double mutant gametes gave rise to progeny with constitutively diminished Pot1 foci. Genomic silencing and small RNAs potentiate many transgenerational effects7 but did not affect Pot1 foci. We conclude that C. elegans POT-1 functions at telomeres of pot-2 mutant gametes to create constitutively high levels of Pot1 foci in future generations. As regulation of telomeres and Pot1 have been tied to cancer8,9, this novel and highly persistent form of Transgenerational Epigenetic Inheritance could be relevant to human health.

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Michael Dinh

Gametes deficient for Pot1 telomere binding proteins alter levels of telomeric foci for multiple generations

POT-1 telomere binding protein promotes a novel form of Transgenerational Epigenetic Inheritance

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