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Arabidopsis AN3 and OLIGOCELLULA genes link telomere maintenance mechanisms with cell division and expansion control.
Agabekian, Inna A; Abdulkina, Liliia R; Lushnenko, Alina Y; Young, Pierce G; Valeeva, Lia R; Boskovic, Olivia; Lilly, Ethan G; Sharipova, Margarita R; Shippen, Dorothy E; Juenger, Thomas E; Shakirov, Eugene V.
Afiliación
  • Agabekian IA; Kazan Federal University: Kazanskij Privolzskij federal'nyj universitet.
  • Abdulkina LR; Kazan Federal University: Kazanskij Privolzskij federal'nyj universitet.
  • Lushnenko AY; Kazan Federal University: Kazanskij Privolzskij federal'nyj universitet.
  • Young PG; Texas A&M University.
  • Valeeva LR; Marshall University.
  • Boskovic O; Marshall University.
  • Lilly EG; Marshall University.
  • Sharipova MR; Kazan Federal University: Kazanskij Privolzskij federal'nyj universitet.
  • Shippen DE; Texas A&M University.
  • Juenger TE; The University of Texas at Austin.
  • Shakirov EV; Marshall University.
Res Sq ; 2023 Oct 28.
Article en En | MEDLINE | ID: mdl-37961382
Telomeres are conserved chromosomal structures necessary for continued cell division and proliferation. In addition to the classical telomerase pathway, multiple other genes including those involved in ribosome metabolism and chromatin modification contribute to telomere length maintenance. We previously reported that Arabidopsis thaliana ribosome biogenesis genes OLI2/NOP2A, OLI5/RPL5A and OLI7/RPL5B have critical roles in telomere length regulation. These three OLIGOCELLULA genes were also shown to function in cell proliferation and expansion control and to genetically interact with the transcriptional co-activator ANGUSTIFOLIA3 (AN3). Here we show that AN3-deficient plants progressively lose telomeric DNA in early homozygous mutant generations, but ultimately establish a new shorter telomere length setpoint by the fifth mutant generation with a telomere length similar to oli2/nop2a - deficient plants. Analysis of double an3 oli2 mutants indicates that the two genes are epistatic for telomere length control. Telomere shortening in an3 and oli mutants is not caused by telomerase inhibition; wild type levels of telomerase activity are detected in all analyzed mutants in vitro. Late generations of an3 and oli mutants are prone to stem cell damage in the root apical meristem, implying that genes regulating telomere length may have conserved functional roles in stem cell maintenance mechanisms. Multiple instances of anaphase fusions in late generations of oli5 and oli7 mutants were observed, highlighting an unexpected effect of ribosome biogenesis factors on chromosome integrity. Overall, our data implicate AN3 transcription coactivator and OLIGOCELLULA proteins in the establishment of telomere length set point in plants and further suggest that multiple regulators with pleiotropic functions can connect telomere biology with cell proliferation and cell expansion pathways.
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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Idioma: En Revista: Res Sq Año: 2023 Tipo del documento: Article Pais de publicación: Estados Unidos

Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Idioma: En Revista: Res Sq Año: 2023 Tipo del documento: Article Pais de publicación: Estados Unidos