tRNA ADENOSINE DEAMINASE 3 is required for telomere maintenance in Arabidopsis thaliana

Key message tRNA Adenosine Deaminase 3 helps to sustain telomere tracts in a telomerase-independent fashion, likely through regulating cellular metabolism. Telomere length maintenance is influenced by a complex web of chromatin and metabolism-related factors. We previously reported that a lncRNA ter...

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Bibliographic Details
Published in:Plant cell reports 2020-12, Vol.39 (12), p.1669-1685
Main Authors: Bose, Sreyashree, Suescún, Ana Victoria, Song, Jiarui, Castillo-González, Claudia, Aklilu, Behailu Birhanu, Branham, Erica, Lynch, Ryan, Shippen, Dorothy E.
Format: Article
Language:English
Subjects:
5' Untranslated Regions
Adenosine
Adenosine deaminase
Annotations
Antisense RNA
Arabidopsis thaliana
Biomedical and Life Sciences
Biosynthesis
Biotechnology
Cell Biology
Cell cycle
Cellular stress response
Chromatin
Damage
Deoxyribonucleic acid
Deregulation
DNA
DNA damage
Gene expression
Genomes
Homeostasis
Hypersensitivity
Life Sciences
Maintenance
Metabolism
Mutants
Original Article
Phenotypes
Plant Biochemistry
Plant Sciences
Ribonucleic acid
RNA
T-DNA
Telomerase
Telomeres
Transcription
tRNA
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Summary:Key message tRNA Adenosine Deaminase 3 helps to sustain telomere tracts in a telomerase-independent fashion, likely through regulating cellular metabolism. Telomere length maintenance is influenced by a complex web of chromatin and metabolism-related factors. We previously reported that a lncRNA termed AtTER2 regulates telomerase activity in Arabidopsis thaliana in response to DNA damage. AtTER2 was initially shown to partially overlap with the 5′ UTR of the tRNA ADENOSINE DEAMINASE 3 ( TAD3 ) gene. However, updated genome annotation showed that AtTER2 was completely embedded in TAD3 , raising the possibility that phenotypes ascribed to AtTER2 could be derived from TAD3 . Here we show through strand-specific RNA-Seq, strand-specific qRT-PCR and bioinformatic analyses that AtTER2 does not encode a stable lncRNA. Further examination of the original tad3 ( ter2-1/tad3-1 ) mutant revealed expression of an antisense transcript driven by a cryptic promoter in the T-DNA. Hence, a new hypomorphic allele of TAD3 (tad3-2 ) was examined. tad3-2 mutants showed hypersensitivity to DNA damage, but no deregulation of telomerase, suggesting that the telomerase phenotype of tad3-1 mutants reflects an off-target effect. Unexpectedly, however, tad3-2 plants displayed progressive loss of telomeric DNA over successive generations that was not accompanied by alteration of terminal architecture or end protection. The phenotype was exacerbated in plants lacking the telomerase processivity factor POT1a , indicating that TAD3 promotes telomere maintenance through a non-canonical, telomerase-independent pathway. The transcriptome of tad3-2 mutants revealed significant dysregulation of genes involved in auxin signaling and glucosinolate biosynthesis, pathways that intersect the stress response, cell cycle regulation and DNA metabolism. These findings indicate that the TAD3 locus indirectly contributes to telomere length homeostasis by altering the metabolic profile in Arabidopsis .
ISSN:0721-7714
1432-203X
DOI:10.1007/s00299-020-02594-0