0000000001329536

AUTHOR

Toni Jernfors

showing 7 related works from this author

Expansion of rDNA and pericentromere satellite repeats in the genomes of bank voles Myodes glareolus exposed to environmental radionuclides

2021

Abstract Altered copy number of certain highly repetitive regions of the genome, such as satellite DNA within heterochromatin and ribosomal RNA loci (rDNA), is hypothesized to help safeguard the genome against damage derived from external stressors. We quantified copy number of the 18S rDNA and a pericentromeric satellite DNA (Msat‐160) in bank voles (Myodes glareolus) inhabiting the Chernobyl Exclusion Zone (CEZ), an area that is contaminated by radionuclides and where organisms are exposed to elevated levels of ionizing radiation. We found a significant increase in 18S rDNA and Msat‐160 content in the genomes of bank voles from contaminated locations within the CEZ compared with animals f…

anthropogenic disturbancemetsämyyräHeterochromatinSatellite DNATšernobylin ydinonnettomuusZoologyMyodes glareolusrDNABiologyGenomeChernobylsäteilybiologia03 medical and health sciencescopy numberMyodes glareolusluonnonvaraiset eläimetchernobylEcology Evolution Behavior and SystematicsQH540-549.5030304 developmental biologyNature and Landscape ConservationOriginal Research0303 health sciencesEcologyionisoiva säteily030302 biochemistry & molecular biologyDNARepetitive RegionsRibosomal RNAbiology.organism_classificationmyodes glareolusSatellite (biology)ionizing radiationGenome architectureEcology and Evolution
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Exposure to environmental radionuclides is associated with altered metabolic and immunity pathways in a wild rodent

2019

Wildlife inhabiting environments contaminated by radionuclides face putative detrimental effects of exposure to ionizing radiation, with biomarkers such as an increase in DNA damage and/or oxidative stress commonly associated with radiation exposure. To examine the effects of exposure to radiation on gene expression in wildlife, we conducted a de novo RNA sequencing study of liver and spleen tissues from a rodent, the bank vole Myodes glareolus. Bank voles were collected from the Chernobyl Exclusion Zone (CEZ), where animals were exposed to elevated levels of radionuclides, and from uncontaminated areas near Kyiv, Ukraine. Counter to expectations, we did not observe a strong DNA damage resp…

0106 biological sciences0301 basic medicineRodentDNA Repairmedicine.disease_cause01 natural sciencessäteilybiologiachemistry.chemical_compoundRadiation IonizingMyodes glareolusstable isotopepollutionaineenvaihduntaBeta oxidationradionuclides2. Zero hungerbiologyArvicolinaeFatty AcidsRadiation ExposureRNAseqBank voleMolecular AdaptationLiverimmuunijärjestelmäOriginal ArticleUkraineOxidation-ReductionmetsämyyräDNA damageDNA repair010603 evolutionary biologyMicrobiology03 medical and health sciencesImmunitybiology.animalGeneticsmedicineAnimalsEcology Evolution Behavior and SystematicsRadioisotopesFatty acid metabolismLipid metabolismDNAbiology.organism_classificationLipid MetabolismOxidative Stress030104 developmental biologychemistryChernobyl Nuclear Accident13. Climate actionImmune SystemRNAORIGINAL ARTICLESOxidative stressSpleenDNA DamageMutagens
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Analysis of heteroplasmy in bank voles inhabiting the Chernobyl exclusion zone : A commentary on Baker et al. (2017) "Elevated mitochondrial genome v…

2018

0106 biological sciences0301 basic medicineMitochondrial DNARodentmetsämyyräecological geneticsevoluutio010603 evolutionary biology01 natural sciences03 medical and health sciencesMolecular evolutionbiology.animalGeneticsExclusion zoneEcology Evolution Behavior and Systematicsbiologymolecular evolutionsäteilyPopulation ecologyEcological geneticsgeneettinen muunteluHeteroplasmypopulaatioekologia030104 developmental biologyVariation (linguistics)Evolutionary biologypopulation ecologyCommentaryta1181mutaatiotGeneral Agricultural and Biological SciencesEvolutionary Applications
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Transcriptional Upregulation of DNA Damage Response Genes in Bank Voles (Myodes glareolus) Inhabiting the Chernobyl Exclusion Zone

2018

Exposure to ionizing radiation (IR) from radionuclides released into the environment can damage DNA. An expected response to exposure to environmental radionuclides, therefore, is initiation of DNA damage response (DDR) pathways. Increased DNA damage is a characteristic of many organisms exposed to radionuclides but expression of DDR genes of wildlife inhabiting an area contaminated by radionuclides is poorly understood. We quantified expression of five central DDR genes Atm, Mre11, p53, Brca1, and p21 in the livers of the bank vole Myodes glareolus that inhabited areas within the Chernobyl Exclusion Zone (CEZ) that differed in levels of ambient radioactivity, and also from control areas ou…

0301 basic medicinevauriotDNA damagetuhotZoologyMyodes glareolusDNA repairBiologydnamedicine.disease_causeChernobyl03 medical and health sciencesDownregulation and upregulationkorjausmedicineMre11oxidative stressExclusion zoneGeneoksidatiivinen stressichernobyllcsh:Environmental sciencesGeneral Environmental Sciencelcsh:GE1-350ionising radiationionisoiva säteilyDNAbiology.organism_classificationBank volebody regions030104 developmental biologyAtmta1181DNA damageionizing radiationOxidative stressFrontiers in Environmental Science
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Does Intraspecific Variation in rDNA Copy Number Affect Analysis of Microbial Communities?

2021

Amplicon sequencing of partial regions of the ribosomal RNA loci (rDNA) is widely used to profile microbial communities. However, the rDNA is dynamic and can exhibit substantial interspecific and intraspecific variation in copy number in prokaryotes and, especially, in microbial eukaryotes. As change in rDNA copy number is a common response to environmental change, rDNA copy number is not necessarily a property of a species. Variation in rDNA copy number, especially the capacity for large intraspecific changes driven by external cues, complicates analyses of rDNA amplicon sequence data. We highlight the need to (i) interpret amplicon sequence data in light of possible interspecific and intr…

ribosomitmikrobistoamplicon sequencingcommunity dynamicsDNA-analyysicopy numberRNAmikrobitDNArRNA
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Ecosystem health and planetary well-being

2024

Healthy ecosystems support the well-being of all organisms on Earth. Yet, the overexploitation of natural resources for human needs and profit has resulted in widespread ecosystem degradation, loss of biodiversity, and climate emergency, which pose fundamental threats to planetary well-being. Impoverished ecosystems may become dysfunctional and fail to provide for the needs of many organisms, including humans and wildlife. Changes in ecosystem functioning and wildlife distributions affect the prevalence and spread of pathogens, with consequences for the health and well-being of human and wildlife communities alike. Increasing contact between humans and domestic and wild animals enable patho…

planetary well-beingekosysteemit (ekologia)taudinaiheuttajatluontokatoeläintauditkasvitauditzoonoositplanetaarinen hyvinvointileviäminenbiodiversiteettiympäristön tila
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Lisämateriaali artikkeliin "Exposure to environmental radionuclides is associated with altered metabolic and immunity pathways in a wild rodent".

2022

Electronic material for Kesäniemi J, Jernfors T, Lavrinienko A, Kivisaari K, Kiljunen M, Mappes T & Watts PC. 2019. Exposure to environmental radionuclides is associated with altered metabolic and immunity pathways in a wild rodent. Molecular Ecology 28: 4620–4635. Contains transcriptome annotation data and output of differential expression and gene ontology enrichment analyses. Parts of the dataset originally published in DRYAD (https://doi.org/10.5061/dryad.j3c6r69).

ionising radiationympäristön saastuminenionisoiva säteilytranskriptomienvironmental pollutiontranscriptomemetabolismaineenvaihdunta
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