Contribution of telomerase RNA retrotranscription to DNA double-strand break repair during mammalian genome evolution

A comparative analysis of two primate and two rodent genomes suggests that telomerase was utilized, in some instances, for the repair of DNA double-strand breaks during mammalian evolution

Gene amplification in human cells knocked down for RAD54

Background: In mammalian cells gene amplification is a common manifestation of genome instability promoted by DNA double-strand breaks (DSBs). The repair of DSBs mainly occurs through two mechanisms: non-homologous end-joining (NHEJ) and homologous recombination (HR). We previously showed that defects in the repair of DSBs via NHEJ could increase the frequency of gene amplification. In this paper we explored whether a single or a combined defect in DSBs repair pathways can affect gene amplification. Results: We constructed human cell lines in which the expression of RAD54 and/or DNA-PKcs was constitutively knocked-down by RNA interference. We analyzed their radiosensitivity and their capacity to generate amplified DNA. Our results showed that both RAD54 and DNA-PKcs deficient cells are hypersensitive to γ-irradiation and generate methotrexate resistant colonies at a higher frequency compared to the proficient cell lines. In addition, the analysis of the cytogenetic organization of the amplicons revealed that isochromosome formation is a prevalent mechanism responsible for copy number increase in RAD54 defective cells. Conclusions: Defects in the DSBs repair mechanisms can influence the organization of amplified DNA. The high frequency of isochromosome formation in cells deficient for RAD54 suggests that homologous recombination proteins might play a role in preventing rearrangements at the centromeres

CENP-A binding domains and recombination patterns in horse spermatocytes

Centromeres exert an inhibitory effect on meiotic recombination, but the possible contribution of satellite DNA to this "centromere effect" is under debate. In the horse, satellite DNA is present at all centromeres with the exception of the one from chromosome 11. This organization of centromeres allowed us to investigate the role of satellite DNA on recombination suppression in horse spermatocytes at the stage of pachytene. To this aim we analysed the distribution of the MLH1 protein, marker of recombination foci, relative to CENP-A, marker of centromeric function. We demonstrated that the satellite-less centromere of chromosome 11 causes crossover suppression, similarly to satellite-based centromeres. These results suggest that the centromere effect does not depend on satellite DNA. During this analysis, we observed a peculiar phenomenon: while, as expected, the centromere of the majority of meiotic bivalent chromosomes was labelled with a single immunofluorescence centromeric signal, double-spotted or extended signals were also detected. Their number varied from 0 to 7 in different cells. This observation can be explained by positional variation of the centromeric domain on the two homologs and/or misalignment of pericentromeric satellite DNA arrays during homolog pairing confirming the great plasticity of equine centromeres

Uncoupling of Satellite DNA and Centromeric Function in the Genus Equus

In a previous study, we showed that centromere repositioning, that is the shift along the chromosome of the centromeric function without DNA sequence rearrangement, has occurred frequently during the evolution of the genus Equus. In this work, the analysis of the chromosomal distribution of satellite tandem repeats in Equus caballus, E. asinus, E. grevyi, and E. burchelli highlighted two atypical features: 1) several centromeres, including the previously described evolutionary new centromeres (ENCs), seem to be devoid of satellite DNA, and 2) satellite repeats are often present at non-centromeric termini, probably corresponding to relics of ancestral now inactive centromeres. Immuno-FISH experiments using satellite DNA and antibodies against the kinetochore protein CENP-A demonstrated that satellite-less primary constrictions are actually endowed with centromeric function. The phylogenetic reconstruction of centromere repositioning events demonstrates that the acquisition of satellite DNA occurs after the formation of the centromere during evolution and that centromeres can function over millions of years and many generations without detectable satellite DNA. The rapidly evolving Equus species gave us the opportunity to identify different intermediate steps along the full maturation of ENCs

Polymorphic organization of constitutive heterochromatin in Equus asinus (2n = 62) chromosome 1

In the karyotype of Equus asinus (domestic donkey, 2n = 62), non-centromeric heterochromatic bands have been described in subcentromeric and telomeric positions. In particular, chromosome 1 is characterised by heterochromatic bands in the proximal region of the long arm and in the short arm; it has been shown that these regions are polymorphic in size. Here we investigated the variation in the intensity and distribution of fluorescence signals observed on donkey chromosome 1 after in situ hybridization with two DNA probes containing fragments from the two major equine satellite DNA families. Our results show that, in Equus asinus chromosome 1, the amount and distribution of large clusters of satellite DNA can define at least nine polymorphic variants of the constitutive heterochromatin that cannot be detected by C-banding alone

Early-life telomere dynamics differ between the sexes and predict growth in the barn swallow (Hirundo rustica)

Telomeres are conserved DNA-protein structures at the termini of eukaryotic chromosomes which contribute to maintenance of genome integrity, and their shortening leads to cell senescence, with negative consequences for organismal functions. Because telomere erosion is influenced by extrinsic and endogenous factors, telomere dynamics may provide a mechanistic basis for evolutionary and physiological trade-offs. Yet, knowledge of fundamental aspects of telomere biology under natural selection regimes, including sex- and context-dependent variation in early-life, and the covariation between telomere dynamics and growth, is scant. In this study of barn swallows (Hirundo rustica) we investigated the sex-dependent telomere erosion during nestling period, and the covariation between relative telomere length and body and plumage growth. Finally, we tested whether any covariation between growth traits and relative telomere length depends on the social environment, as influenced by sibling sex ratio. Relative telomere length declined on average over the period of nestling maximal growth rate (between 7 and 16 days of age) and differently covaried with initial relative telomere length in either sex. The frequency distribution of changes in relative telomere length was bimodal, with most nestlings decreasing and some increasing relative telomere length, but none of the offspring traits predicted the a posteriori identified group to which individual nestlings belonged. Tail and wing length increased with relative telomere length, but more steeply in males than females, and this relationship held both at the within- and among-broods levels. Moreover, the increase in plumage phenotypic values was steeper when the sex ratio of an individual's siblings was female-biased. Our study provides evidence for telomere shortening during early life according to subtly different dynamics in either sex. Furthermore, it shows that the positive covariation between growth and relative telomere length depends on sex as well as social environment, in terms of sibling sex ratio

Genome-wide evolutionary and functional analysis of the Equine Repetitive Element 1: an insertion in the myostatin promoter affects gene expression

BACKGROUND: In mammals, an important source of genomic variation is insertion polymorphism of retrotransposons. These may acquire a functional role when inserted inside genes or in their proximity. The aim of this work was to carry out a genome wide analysis of ERE1 retrotransposons in the horse and to analyze insertion polymorphism in relation to evolution and function. The effect of an ERE1 insertion in the promoter of the myostatin gene, which is involved in muscle development, was also investigated. RESULTS: In the horse population, the fraction of ERE1 polymorphic loci is related to the degree of similarity to their consensus sequence. Through the analysis of ERE1 conservation in seven equid species, we established that the level of identity to their consensus is indicative of evolutionary age of insertion. The position of ERE1s relative to genes suggests that some elements have acquired a functional role. Reporter gene assays showed that the ERE1 insertion within the horse myostatin promoter affects gene expression. The frequency of this variant promoter correlates with sport aptitude and racing performance. CONCLUSIONS: Sequence conservation and insertion polymorphism of ERE1 elements are related to the time of their appearance in the horse lineage, therefore, ERE1s are a useful tool for evolutionary and population studies. Our results suggest that the ERE1 insertion at the myostatin locus has been unwittingly selected by breeders to obtain horses with specific racing abilities. Although a complex combination of environmental and genetic factors contributes to athletic performance, breeding schemes may take into account ERE1 insertion polymorphism at the myostatin promoter. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s12863-015-0281-1) contains supplementary material, which is available to authorized users

Decreased frequency of activation of replicon clusters in Down syndrome lymphocytes

Human blood lymphocytes from two normal and seven Down syndrome (DS) subjects were examined to determine rates of synthesis of individual replicon and adjacent clusters of replicons, using DNA fiber autoradiography. Lymphocytes in 6 of 7 DS patients were shown to have significantly slower synthesis of simultaneously active adjacent replicon clusters compared to normal controls. Rates of synthesis of individual replicons were the same in lymphocytes from all the subjects investigated. These results demonstrate differences in respect to the structural organization of clusters of replicons between DS and normal lymphocytes. A possible relation of the above phenomenon to the chromosomal radiosensitivity in DS cells is discussed

Human intrachromosomal telomeric-like repeats: sequence organization and mechanisms of origin

The intrachromosomal location of (T2AG3)n telomeric sequences has been reported in several species. It was proposed that interstitial telomeres (ITs) originated through telomeric fusion of ancestral chromosomes. However, the data so far obtained derive mainly from cytogenetic observations. Cloning and database searching of human IT sequences allowed us to identify three classes: (i) short ITs, composed of few, essentially exact T2AG3 units; (ii) subtelomeric ITs, composed of larger arrays (several hundred base pairs) including many degenerate units within subtelomeric domains; (iii) fusion ITs, in which two extended stretches of telomeric repeats are oriented head-to-head. The number of short ITs is over 50 and subtelomeric ITs are probably present at all chromosomal ends. Surprisingly, the telomeric sequence in 2q13 remains the only fusion IT so far characterized, and evidence presented here suggests that another member of this class may be present in 1q41. Different molecular mechanisms generated the three classes. In particular, several short ITs interrupt precisely repetitive elements or are flanked by direct repeats of 10-41 bp, and are conserved in gorilla and chimpanzee. These features strongly suggest that telomeric repeats were inserted at intrachromosomal sites through the repair of double-strand breaks that occurred in the germline during evolution

The retardation of DNA synthesis in adjacent replicon clusters in the lymphocytes of patients with Down's syndrome as a model of premature aging.

In peripheral blood lymphocytes taken from 7 patients with Down syndrome (DS) and 2 normal donors, using DNA fiber autoradiography, we estimated the rate of DNA-chain growth, which depends oil the number of simultaneously replicating adjacent replicon clusters, but not on the rate of fork movement. No difference was found in the rate of fork movement in these cells. 6 of 7 DS patients showed a significant reduction in the rate of DNA-chain growth as compared to that in normal control. Thus, a new molecular defect in DS lymphocytes has ben first revealed. Besides, new arguments have been provided in favour of genetic heterogeneity of this genetic disorder belonging to premature ageing diseases. Relation of molecular DNA replication defects with ageing is discussed