Plasticity, pleiotropy and fitness trade‐offs in Arabidopsis genotypes with different telomere lengths

Campitelli, Brandon E.; Razzaque, Samsad; Barbero, Borja; Abdulkina, Liliia R.; Hall, Mitchell H.; Shippen, Dorothy E.; Juenger, Thomas E.; Shakirov, Eugene V.

doi:10.1111/nph.17880

Cited by 10 publications

(11 citation statements)

References 71 publications

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“…Computational analysis revealed that certain arabidopsis and maize accessions, and temperate-adapted rice were found to have longer telomeres associated with faster development and earlier flowering than other cultivars (Choi et al ., 2021). Recently Arabidopsis Col-0 was modified experimentally to possess degrees of longer and shorter telomeres than wild type; telomere length had a proportional effect on plant reproductive and anatomical traits (Campitelli et al ., 2022). Shorter telomeres in Col-0 resulted in increased seed output at native growing conditions, while longer telomeres in Col-0 appeared to provide reproductive and fertility advantages under certain environmental stressors, with longer time until first flower (Campitelli et al ., 2022).…”

Section: Discussionmentioning

confidence: 99%

“…In addition, there is variability among telomere lengths across different accessions within a species, while length is conserved within an accession (Shakirov and Shippen, 2004;Brown et al, 2011;Fulcher et al, 2015;Choi et al, 2021). Telomere length in plants has been associated with life history traits including seasonal and phenotypic variation, environmental interactions, sex, flowering time, and seed quantity (Liu et al, 2007;Mu et al, 2014;Choi et al, 2021;Osnato, 2021;Campitelli et al, 2022). Recent work in arabidopsis showed a number of associations between the telomere length and environmental response, with effects on phenotype (number of stomata, osmotic potential, leaf hydration), seed production, and overall reproductive fitness; phenotype variations were directly proportional to the telomere length divergence from the wild type Col-0 (Campitelli et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

“…Telomere length in plants has been associated with life history traits including seasonal and phenotypic variation, environmental interactions, sex, flowering time, and seed quantity (Liu et al ., 2007; Mu et al ., 2014; Choi et al ., 2021; Osnato, 2021; Campitelli et al ., 2022). Recent work in arabidopsis showed a number of associations between the telomere length and environmental response, with effects on phenotype (number of stomata, osmotic potential, leaf hydration), seed production, and overall reproductive fitness; phenotype variations were directly proportional to the telomere length divergence from the wild type Col-0 (Campitelli et al ., 2022). Recently it has been shown that telomere length is not affected when telomerase is increased either due to zero gravity (space flight) or artificially (Barcenilla et al ., 2023).…”

Section: Introductionmentioning

confidence: 99%

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Telomere Length in Plants Estimated with Long Read Sequencing

Colt,

Petrus,

Abramson

et al. 2024

Preprint

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Telomeres play an important role in chromosome stability and their length is thought to be related to an organism's lifestyle and lifespan. Telomere length is variable across plant species and between cultivars of the same species, possibly conferring adaptive advantage. However, it is not known whether telomere length is related to lifestyle or life span across a diverse array of plant species due to the lack of information on telomere length in plants. Here we leverage genomes assembled with long read sequencing data to estimate telomere length by chromosome. We find that long read assemblies based on Oxford Nanopore Technologies (ONT) accurately predict telomere length in the two model plant species Arabidopsis thaliana and Oryza sativa matching lab-based length estimates. We then estimate telomere length across an array of plant species with different lifestyles and lifespans and find that in general gymnosperms have shorter telomeres compared to eudicots and monocots. Crop species frequently have longer telomeres than their wild relatives, and species that have been maintained clonally such as hemp have long telomeres possibly reflecting that this lifestyle requires long term chromosomal stability.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Telomere Length in Plants Estimated with Long Read Sequencing

Colt,

Petrus,

Abramson

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

“…Clearly, we need to consider alternative models to explain telomere length variation for plants. Recently, links between telomere length and plant reproductive fitness and physiological traits have been discovered (Choi et al, 2021; Campitelli et al, 2022). Importantly, the studies have shown that variation in plant life‐history strategies can potentially influence the evolution of the telomere through natural selection.…”

Section: Why Do Telomere Lengths Vary In Plants?mentioning

confidence: 99%

No end in sight: Mysteries of the telomeric variation in plants

Kumawat,

Choi

2023

American J of Botany

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One of the most fascinating phenomena in evolutionary biology is the rapid evolution of genes with conserved functions across the tree of life. Because the cellular and organismal development processes are highly conserved across eukaryotes, a naive evolutionary expectation is that the genes involved in those processes would also be under high selective constraint and evolve extremely slowly. However, we now know that evolutionarily young genes can rapidly acquire crucial viability functions and even evolutionarily old genes can have unexpected levels of rapid evolution within specific lineages (Talbert et al. 2004). These studies have led to novel insights of function and evolution in molecular systems that are universally important for almost all organisms.This article is protected by copyright. All rights reserved.

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“…Indeed, telomere length loss has been associated with exposure to extreme heat in dairy cattle (Seeker et al., 2021), increased river temperatures in fish (Debes et al., 2016) and developmental stress during embryogenesis in birds (Stier et al., 2020). While less is known about these relationships in plants, telomere length varies in response to aging and the environment in Arabidopsis , with impacts to fitness (Campitelli et al., 2022; Choi et al., 2021; Shakirov et al., 2022). Thus, telomeres may be a valuable biomarker for assessing response to environmental stress in plants.…”

Section: Introductionmentioning

confidence: 99%

Leveraging whole‐genome sequencing to estimate telomere length in plants

Zavala‐Paez,

Holliday,

Hamilton

2023

Molecular Ecology Resources

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Changes in telomere length are increasingly used to indicate species' response to environmental stress across diverse taxa. Despite this broad use, few studies have explored telomere length in plants. Thus, evaluation of new approaches for measuring telomeres in plants is needed. Rapid advances in sequencing approaches and bioinformatic tools now allow estimation of telomere content from whole‐genome sequencing (WGS) data, a proxy for telomere length. While telomere content has been quantified extensively using quantitative polymerase chain reaction (qPCR) and WGS in humans, no study to date has compared the effectiveness of WGS in estimating telomere length in plants relative to qPCR approaches. In this study, we use 100 Populus clones re‐sequenced using short‐read Illumina sequencing to quantify telomere length comparing three different bioinformatic approaches (Computel, K‐seek and TRIP) in addition to qPCR. Overall, telomere length estimates varied across different bioinformatic approaches, but were highly correlated across methods for individual genotypes. A positive correlation was observed between WGS estimates and qPCR, however, Computel estimates exhibited the greatest correlation. Computel incorporates genome coverage into telomere length calculations, suggesting that genome coverage is likely important to telomere length quantification when using WGS data. Overall, telomere estimates from WGS provided greater precision and accuracy of telomere length estimates relative to qPCR. The findings suggest WGS is a promising approach for assessing telomere length and, as the field of telomere ecology evolves, may provide added value to assaying response to biotic and abiotic environments for plants needed to accelerate plant breeding and conservation management.

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Plasticity, pleiotropy and fitness trade‐offs in Arabidopsis genotypes with different telomere lengths

Cited by 10 publications

References 71 publications

Telomere Length in Plants Estimated with Long Read Sequencing

Telomere Length in Plants Estimated with Long Read Sequencing

No end in sight: Mysteries of the telomeric variation in plants

Leveraging whole‐genome sequencing to estimate telomere length in plants

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