Long Tandem Arrays of Cassandra Retroelements and Their Role in Genome Dynamics in Plants

Kalendar, Ruslan; Raskina, Olga; Belyayev, Alexander; Schulman, Alan H.

doi:10.3390/ijms21082931

Cited by 28 publications

(34 citation statements)

References 65 publications

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“…Reproducibility of PCR and high polymorphism can be used as an express technology in assessing the ecogeographic diversity of any plant species ( Kumar et al, 2018 ; Phong et al, 2016 ). Retrotransposons are activated in response to the influence of various forms of abiotic and biotic stresses, and this can lead to genome destabilization ( Belyayev et al, 2010 ; Kalendar et al, 2020 ; Vicient et al, 2001 ; Wessler, 1996 ). Retrotransposons can be one of the sources of genetic variability induced by the appearance of adaptation traits due to accidental insertions/deletions of retrotransposons.…”

Section: Discussionmentioning

confidence: 99%

“…Therefore, under stress conditions, bursts in activity of retrotransposons and transposons can be fixed genetically in plants with vegetative reproduction. The induced genetic rearrangements and insertions of mobile genetic elements in regions of active euchromatin contribute to genome alteration, which leads to “genomic stress” ( Belyayev et al, 2010 ; Capy et al, 2000 ; Kalendar et al, 2020 ). Transcriptionally active retrotransposons can potentially participate indirectly in gene regulation and adaptation to environmental stress, since their activity is induced by stressful environmental conditions ( Belyayev et al, 2010 ; Capy et al, 2000 ; Vicient et al, 2001 ; Wessler, 1996 ).…”

Section: Introductionmentioning

confidence: 99%

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DNA profiling and assessment of genetic diversity of relict speciesAllium altaicumPall. on the territory of Altai

Хапилина

Raiser

Danilova³

et al. 2021

PeerJ

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Analysis of the genetic diversity of natural populations of threatened and endangered species of plants is a main aspect of conservation strategy. The endangered species Allium altaicum is a relict plant of the Ice Age and natural populations are located in extreme climatic conditions of Kazakstan’s Altai Mountains. Mobile genetic elements and other interspersed repeats are basic components of a eukaryote genome, which can activate under stress conditions and indirectly promote the survival of an organism against environmental stresses. Detections of chromosomal changes related to recombination processes of mobile genetic elements are performed by various PCR methods. These methods are based on interspersed repeat sequences and are an effective tool for research of biological diversity of plants and their variability. In our research, we used conservative sequences of tRNA primer binding sites (PBS) when initializing the retrotransposon replication as PCR primers to research the genetic diversity of 12 natural populations of A. altaicum found in various ecogeographic conditions of the Kazakhstani Altai. High efficiency of the PBS amplification method used was observed already at the intrapopulation level. Unique amplicons representative of a certain population were found at the intrapopulation level. Analysis of molecular dispersion revealed that the biodiversity of populations of mountainous and lowland A. altaicum is due to intrapopulation differences for climatic zones of habitation. This is likely conditional upon predominance of vegetative reproduction over seed reproduction in some populations. In the case of vegetative reproduction, somatic recombination related to the activity of mobile genetic elements are preserved in subsequent generations. This leads to an increase of intrapopulation genetic diversity. Thus, high genetic diversity was observed in populations such as A. altaicum located in the territory of the Kalbinskii Altai, whereas the minimum diversity was observed in the populations of the Leninororsk ecogeographic group. Distinctions between these populations were also identified depending on the areas of their distribution. Low-land and mid-mountain living environments are characterized by a great variety of shapes and plasticity. This work allowed us to obtain new genetic data on the structure of A. altaicum populations on the territory of the Kazakhstan Altai for the subsequent development of preservation and reproduction strategies for this relict species.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

DNA profiling and assessment of genetic diversity of relict speciesAllium altaicumPall. on the territory of Altai

Хапилина

Raiser

Danilova³

et al. 2021

PeerJ

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“…Consequently, comparison of genomes assembled with different approaches and of varying quality should be performed with caution to avoid errors when interpreting the results. Additionally, widespread gene capture by TEs has often been described for large plant genomes [ 42 , 101 , 102 , 103 ] and this phenomenon could introduce additional errors in short-read genome assemblies [ 103 ]. Considering the high copy number and the structural and functional differences from protein-coding genes, it is advisable to annotate TE-associated sequences in separate data sets even though many TE families bear open reading frames.…”

Section: Discussionmentioning

confidence: 99%

“…The internal region of autonomous RLXs contain gag- and polyprotein-coding domains that produce the proteins necessary for retrotransposition, namely, protease, reverse transcriptase, and integrase. Non-autonomous elements contain empty, partial, or disrupted polyprotein sequences and use proteins produced by autonomous elements, sometimes integrating more effectively than their autonomous partner [ 35 , 40 , 41 , 42 ]. Reverse transcription processes introduce mutations and can produce chimeric elements by template switching [ 43 ].…”

Section: Introductionmentioning

confidence: 99%

Comparative Study of Pine Reference Genomes Reveals Transposable Element Interconnected Gene Networks

Voronova

Rendón-Anaya

Ingvarsson

et al. 2020

Genes

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Sequencing the giga-genomes of several pine species has enabled comparative genomic analyses of these outcrossing tree species. Previous studies have revealed the wide distribution and extraordinary diversity of transposable elements (TEs) that occupy the large intergenic spaces in conifer genomes. In this study, we analyzed the distribution of TEs in gene regions of the assembled genomes of Pinus taeda and Pinus lambertiana using high-performance computing resources. The quality of draft genomes and the genome annotation have significant consequences for the investigation of TEs and these aspects are discussed. Several TE families frequently inserted into genes or their flanks were identified in both species’ genomes. Potentially important sequence motifs were identified in TEs that could bind additional regulatory factors, promoting gene network formation with faster or enhanced transcription initiation. Node genes that contain many TEs were observed in multiple potential transposable element-associated networks. This study demonstrated the increased accumulation of TEs in the introns of stress-responsive genes of pines and suggests the possibility of rewiring them into responsive networks and sub-networks interconnected with node genes containing multiple TEs. Many such regulatory influences could lead to the adaptive environmental response clines that are characteristic of naturally spread pine populations.

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“…Therefore, under stress conditions, bursts in activity of retrotransposons and transposons can be fixed genetically in plants with vegetative reproduction. The induced genetic rearrangements and insertions of mobile genetic elements in regions of active euchromatin contribute to genome alteration, which leads to "genomic stress" (Belyayev et al, 2010;Capy et al, 2000;Kalendar et al, 2020). Transcriptionally active retrotransposons can potentially participate indirectly in gene regulation and adaptation to environmental stress, since their activity is induced by stressful environmental conditions (Belyayev et al, 2010;Capy et al, 2000;Vicient et al, 2001;Wessler, 1996).…”

Section: Introductionmentioning

confidence: 99%

Figure 1: Places of collection of samples of rare and endemic species of onions in the territory of Kazakhstani Altai.

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Long Tandem Arrays of Cassandra Retroelements and Their Role in Genome Dynamics in Plants

Cited by 28 publications

References 65 publications

DNA profiling and assessment of genetic diversity of relict speciesAllium altaicumPall. on the territory of Altai

DNA profiling and assessment of genetic diversity of relict speciesAllium altaicumPall. on the territory of Altai

Comparative Study of Pine Reference Genomes Reveals Transposable Element Interconnected Gene Networks

Figure 1: Places of collection of samples of rare and endemic species of onions in the territory of Kazakhstani Altai.

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