Telomeres are essential structures formed from satellite DNA repeats at the ends of chromosomes in most eukaryotes. Satellite DNA repeat sequences are useful markers for karyotyping, but have a more enigmatic role in the eukaryotic cell. Much work has been done to investigate the structure and arrangement of repetitive DNA elements in classical models with implications for species evolution. Still more is needed until there is a complete picture of the biological function of DNA satellite sequences, particularly when considering non-model organisms. Celebrating Gregor Mendel's anniversary by going to the roots, this review is designed to inspire and aid new research into telomeres and satellites with a particular focus on non-model organisms and accessible experimental and in silico methods that do not require specialized equipment or expensive materials. We describe how to identify telomere (and satellite) repeats giving many examples of published (and some unpublished) data from these techniques to illustrate the principles behind the experiments. We also present advice on how to perform and analyse such experiments, including details of common pitfalls. Our examples are a selection of recent developments and underexplored areas of research from the past. As a nod to Mendel's early work, we use many examples from plants and insects, especially as much recent work has expanded beyond the human and yeast models traditional in telomere research. We give a general introduction to the accepted knowledge of telomere and satellite systems and include references to specialized reviews for the interested reader.

• Keywords
• FISH, NGS, TRAP, eukaryotic tree of life, interstitial telomere sequences, retroelements, satellite, subtelomere structure, telomerase RNA, telomere evolution,
• MeSH
• DNA MeSH
• Humans MeSH
• Repetitive Sequences, Nucleic Acid MeSH
• DNA, Satellite * MeSH
• Base Sequence MeSH
• Telomere * genetics   MeSH
• Check Tag
• Humans MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Review MeSH
• Names of Substances
• DNA MeSH
• DNA, Satellite * MeSH

In tobacco, three sequence variants of the TERT gene have been described. We revealed unbalanced levels of TERT variant transcripts in vegetative tobacco tissues and enhanced TERT transcription and telomerase activity in reproductive tissues. Telomerase is a ribonucleoprotein complex responsible for the maintenance of telomeres, structures delimiting ends of linear eukaryotic chromosomes. In the Nicotiana tabacum (tobacco) allotetraploid plant, three sequence variants (paralogs) of the gene coding for the telomerase reverse transcriptase subunit (TERT) have been described, two of them derived from the maternal N. sylvestris genome (TERT_Cs, TERT_D) and one originated from the N. tomentosiformis paternal genome (TERT_Ct). In this work, we analyzed the transcription of TERT variants in correlation with telomerase activity in tobacco tissues. High and approximately comparable levels of TERT_Ct and TERT_Cs transcripts were detected in seedlings, roots, flower buds and leaves, while the transcript of the TERT_D variant was markedly underrepresented. Similarly, in N. sylvestris tissues, TERT_Cs transcript significantly predominated. A specific pattern of TERT transcripts was found in samples of tobacco pollen with the TERT_Cs variant clearly dominating particularly at the early stage of pollen development. Detailed analysis of TERT_C variants representation in functionally distinct fractions of pollen transcriptome revealed their prevalence in large ribonucleoprotein particles encompassing translationally silent mRNA; only a minority of TERT_Ct and TERT_Cs transcripts were localized in actively translated polysomes. Histones of the TERT_C chromatin were decorated predominantly with the euchromatin-specific epigenetic modification in both telomerase-positive and telomerase-negative tobacco tissues. We conclude that the existence and transcription pattern of tobacco TERT paralogs represents an interesting phenomenon and our results indicate its functional significance. Nicotiana species have again proved to be appropriate and useful model plants in telomere biology studies.

• Keywords
• Gene sequence variant, Pollen, Polyploids, Telomerase, Telomere, Transcription,
• MeSH
• Cell Nucleus genetics   MeSH
• Chromatin Immunoprecipitation MeSH
• Euchromatin metabolism   MeSH
• Transcription, Genetic MeSH
• Genetic Variation * MeSH
• Histones metabolism   MeSH
• RNA, Messenger genetics   metabolism   MeSH
• Organ Specificity genetics   MeSH
• Polyribosomes metabolism   MeSH
• Protein Processing, Post-Translational MeSH
• Pollen Tube growth & development   MeSH
• Gene Expression Regulation, Plant * MeSH
• Nicotiana genetics   MeSH
• Telomerase genetics   metabolism   MeSH
• Publication type
• Journal Article MeSH
• Names of Substances
• Euchromatin MeSH
• Histones MeSH
• RNA, Messenger MeSH
• Telomerase MeSH

Epigenetic mechanisms are involved in regulation of crucial cellular processes in eukaryotic organisms. Data on the epigenetic features of plant telomeres and their epigenetic regulation were published mostly for Arabidopsis thaliana, in which the presence of interstitial telomeric repeats (ITRs) may interfere with genuine telomeres in most analyses. Here, we studied the epigenetic landscape and transcription of telomeres and ITRs in Nicotiana tabacum with long telomeres and no detectable ITRs, and in Ballantinia antipoda with large blocks of pericentromeric ITRs and relatively short telomeres. Chromatin of genuine telomeres displayed heterochromatic as well as euchromatic marks, while ITRs were just heterochromatic. Methylated cytosines were present at telomeres and ITRs, but showed a bias with more methylation toward distal telomere positions and different blocks of B. antipoda ITRs methylated to different levels. Telomeric transcripts TERRA (G-rich) and ARRET (C-rich) were identified in both plants and their levels varied among tissues with a maximum in blossoms. Plants with substantially different proportions of internally and terminally located telomeric repeats are instrumental in clarifying the chromatin status of telomeric repeats at distinct chromosome locations.

• Keywords
• Ballantinia antipoda, DNA methylation, Nicotiana tabacum, chromatin, epigenetics, histone modifications, telomere,
• Publication type
• Journal Article MeSH

Telomerase is essential for proper functioning of telomeres in eukaryotes. We cloned and characterised genes for the protein subunit of telomerase (TERT) in the allotetraploid Nicotiana tabacum (tobacco) and its diploid progenitor species Nicotiana sylvestris and Nicotiana tomentosiformis with the aim of determining if allopolyploidy (hybridisation and genome duplication) influences TERT activity and divergence. Two of the three sequence variants present in the tobacco genome (NtTERT-C/s and NtTERT-D) revealed similarity to two sequence variants found in N. sylvestris and another variant (NtTERT-C/t) was similar to TERT of N. tomentosiformis. Variants of N. sylvestris origin showed less similarity to each other (80.5 % in the genomic region; 90.1 % in the coding sequence) than that between the NtTERT-C/s and NtTERT-C/t variants (93.6 and 97.2 %, respectively). The NtTERT-D variant was truncated at the 5' end, and indels indicated that it was a pseudogene. All tobacco variants were transcribed and alternatively spliced sequences were detected. Analysis of gene arrangements uncovered a novel exon in the N-terminal domain of TERT variants, a feature that is likely to be commonly found in Solanaceae species. In addition, species-specific duplications were observed within exon 5. The putative function, copy number and evolutionary origin of these NtTERT sequence variants are discussed.

• MeSH
• Alternative Splicing MeSH
• Exons MeSH
• Transcription, Genetic MeSH
• Genetic Loci MeSH
• Genome, Plant MeSH
• Gene Rearrangement MeSH
• Introns MeSH
• RNA Isoforms MeSH
• Evolution, Molecular MeSH
• Molecular Sequence Data MeSH
• Gene Order MeSH
• Pseudogenes MeSH
• Repetitive Sequences, Nucleic Acid MeSH
• Amino Acid Sequence MeSH
• Base Sequence MeSH
• Sequence Alignment MeSH
• Nicotiana genetics   MeSH
• Telomerase genetics   MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• RNA Isoforms MeSH
• Telomerase MeSH

Telomere homeostasis is regulated at multiple levels, including the local chromatin structure of telomeres and subtelomeres. Recent reports demonstrated that a decrease in repressive chromatin marks, such as levels of cytosine methylation in subtelomeric regions, results in telomere elongation in mouse cells. Here we show that a considerable fraction of cytosines is methylated not only in subtelomeric, but also in telomeric DNA of tobacco BY-2 cells. Drug-induced hypomethylation (demonstrated at subtelomeric, telomeric, and global DNA levels) results in activation of telomerase. However, in contrast to mouse cells, the decrease in 5-methylcytosine levels and upregulation of telomerase do not result in any changes of telomere lengths. These results demonstrate the involvement of epigenetic mechanisms in the multilevel process of regulation of telomerase activity in plant cells and, at the same time, they indicate that changes in telomerase activity can be overridden by other factors governing telomere length stability.

• MeSH
• Adenine analogs & derivatives   pharmacology   MeSH
• Enzyme Activation drug effects   MeSH
• Cytidine analogs & derivatives   pharmacology   MeSH
• DNA, Plant chemistry   drug effects   MeSH
• Epigenesis, Genetic MeSH
• Transcription, Genetic drug effects   MeSH
• Cells, Cultured MeSH
• DNA Methylation drug effects   MeSH
• Nucleosomes drug effects   physiology   MeSH
• Plant Proteins genetics   metabolism   MeSH
• Nicotiana cytology   drug effects   genetics   metabolism   MeSH
• Telomerase metabolism   MeSH
• Telomere chemistry   drug effects   metabolism   MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• 9-(2,3-dihydroxypropyl)adenine MeSH Browser
• Adenine MeSH
• Cytidine MeSH
• DNA, Plant MeSH
• Nucleosomes MeSH
• pyrimidin-2-one beta-ribofuranoside MeSH Browser
• Plant Proteins MeSH
• Telomerase MeSH

Telomere-associated regions represent boundaries between the relatively homogeneous telomeres and the subtelomeres, which show much greater heterogeneity in chromatin structure and DNA composition. Although a major fraction of subtelomeres is usually formed by a limited number of highly repeated DNA sequence families, their mutual arrangement, attachment to telomeres and the presence of interspersed unique or low-copy-number sequences make these terminal domains chromosome specific. In this study, we describe the structures of junctions between telomeres and a major subtelomeric repeat of the plant Silene latifolia, X43.1. Our results show that on individual chromosome arms, X43.1 is attached to the telomere either directly at sites corresponding to nucleosome boundaries previously mapped in this sequence, or via other spacer sequences, both previously characterized and newly described ones. Sites of telomere junctions are non-random in all the telomere-associated sequences analysed. These data obtained at the molecular level have been verified using in situ hybridization to metaphase chromosomes and extended DNA fibres.

• MeSH
• Chromatin chemistry   genetics   MeSH
• X Chromosome MeSH
• Chromosomes, Plant MeSH
• DNA, Plant genetics   MeSH
• Genetic Variation MeSH
• In Situ Hybridization, Fluorescence MeSH
• Terminal Repeat Sequences genetics   MeSH
• Molecular Sequence Data MeSH
• Nucleosomes chemistry   genetics   MeSH
• Base Sequence MeSH
• Sequence Homology, Nucleic Acid MeSH
• Silene genetics   MeSH
• Tandem Repeat Sequences genetics   MeSH
• Telomere genetics   MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• Chromatin MeSH
• DNA, Plant MeSH
• Nucleosomes MeSH

The manner of packing of the terminal DNA loci into nucleosomes and higher order structures may strongly influence their functional interactions. Besides the structural flexibility of telomeric DNA sequences, conserved features of their chromatin including short nucleosome phasing (157 bp) and nucleosome sliding have been described previously. To gain a complementary knowledge of subtelomeres, we have analysed the chromatin structure of two subtelomeric tandem repeats from the plant Silene latifolia: X43.1 and 15Ssp. X43.1 shows two distinct nucleosome periodicities--157 and 188 bp. Preferred positions of its two nucleosomes have been mapped at both low and high resolution and the experimental results correspond to computer-predicted positions. 15Ssp is a newly-discovered sequence showing a telomere-associated position by PCR and a subtelomeric location by pulsed-field gel electrophoresis and fluorescence in situ hybridisation. Its 159 bp sequence unit shows a tandem arrangement and the presence of micrococcal nuclease-hypersensitive sites when either naked DNA or chromatin is digested. Use of a chemical nuclease results in a regular nucleosome ladder of 157 bp periodicity. Moreover, 15Ssp mononucleosomes show instability and absence of specific positioning, features typical for telomeric chromatin.

• MeSH
• DNA, Plant chemistry   genetics   metabolism   MeSH
• Templates, Genetic MeSH
• Heterochromatin chemistry   genetics   metabolism   MeSH
• In Situ Hybridization, Fluorescence MeSH
• Nucleic Acid Conformation * MeSH
• Magnoliopsida genetics   MeSH
• Micrococcal Nuclease metabolism   MeSH
• Molecular Sequence Data MeSH
• Nucleosomes chemistry   genetics   metabolism   MeSH
• Restriction Mapping MeSH
• Base Sequence MeSH
• Sequence Analysis, DNA MeSH
• Blotting, Southern MeSH
• Tandem Repeat Sequences genetics   MeSH
• Telomere genetics   MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• DNA, Plant MeSH
• Heterochromatin MeSH
• Micrococcal Nuclease MeSH
• Nucleosomes MeSH