Astonishing 35S rDNA diversity in the gymnosperm species Cycas revoluta ThunbWang, Wencai; Ma, Lu; Becher, Hannes; Garcia, Sònia; Kovarikova, Alena; Leitch, Ilia; Leitch, Andrew; Kovarik, Ales
doi: 10.1007/s00412-015-0556-3pmid: 26637996
In all eukaryotes, the highly repeated 35S ribosomal DNA (rDNA) sequences encoding 18S-5.8S-26S ribosomal RNA (rRNA) typically show high levels of intragenomic uniformity due to homogenisation processes, leading to concerted evolution of 35S rDNA repeats. Here, we compared 35S rDNA divergence in several seed plants using next generation sequencing and a range of molecular and cytogenetic approaches. Most species showed similar 35S rDNA homogeneity indicating concerted evolution. However, Cycas revoluta exhibits an extraordinary diversity of rDNA repeats (nucleotide sequence divergence of different copies averaging 12 %), influencing both the coding and non-coding rDNA regions nearly equally. In contrast, its rRNA transcriptome was highly homogeneous suggesting that only a minority of genes (<20 %) encode functional rRNA. The most common SNPs were C > T substitutions located in symmetrical CG and CHG contexts which were also highly methylated. Both functional genes and pseudogenes appear to cluster on chromosomes. The extraordinary high levels of 35S rDNA diversity in C. revoluta, and probably other species of cycads, indicate that the frequency of repeat homogenisation has been much lower in this lineage, compared with all other land plant lineages studied. This has led to the accumulation of methylation-driven mutations and pseudogenisation. Potentially, the reduced homology between paralogs prevented their elimination by homologous recombination, resulting in long-term retention of rDNA pseudogenes in the genome.
Protein markers of synaptic behavior and chromatin remodeling of the neo-XY body in phyllostomid batsRahn, Mónica; Noronha, Renata; Nagamachi, Cleusa; Pieczarka, Julio; Solari, Alberto; Sciurano, Roberta
doi: 10.1007/s00412-015-0566-1pmid: 26661581
The XX/XY system is the rule among mammals. However, many exceptions from this general pattern have been discovered since the last decades. One of these non-conventional sex chromosome mechanisms is the multiple sex chromosome system, which is evolutionary fixed among many bat species of the family Phyllostomidae, and has arisen by a translocation between one original gonosome (X or Y chromosome), and an autosome, giving rise to a “neo-XY body.” The aim of this work is to study the synaptic behavior and the chromatin remodeling of multiple sex chromosomes in different species of phyllostomid bats using electron microscopy and molecular markers. Testicular tissues from adult males of the species Artibeus lituratus, Artibeus planirostris, Uroderma bilobatum, and Vampyrodes caraccioli from the eastern Amazonia were analyzed by optical/electron microscopy and immunofluorescence of meiotic proteins involved in synapsis (SYCP3 and SYCE3), sister-chromatid cohesion (SMC3), and chromatin silencing (BRCA1, γ-H2AX, and RNApol 2). The presence of asynaptic axes—labeled by BRCA1 and γ-H2AX—at meiotic prophase in testes that have a normal development of spermatogenesis, suggests that the basic mechanism that arrests spreading of transcriptional silencing (meiotic sex chromosome inactivation (MSCI)) to the autosomal segments may be per se the formation of a functional synaptonemal complex between homologous or non-homologous regions, and thus, this SC barrier might be probably related to the preservation of fertility in these systems.
Giant poly(A)-rich RNP aggregates form at terminal regions of avian lampbrush chromosomesKulikova, T.; Chervyakova, D.; Zlotina, A.; Krasikova, A.; Gaginskaya, E.
doi: 10.1007/s00412-015-0563-4pmid: 26661736
The cell nucleus comprises a number of chromatin-associated domains. Certain chromatin-associated domains are nucleated by nascent RNA and accumulate non-nascent transcripts in the form of ribonucleoprotein (RNP) aggregates. In the transcriptionally active nucleus of the growing avian oocyte, RNP-rich structures, here termed giant terminal RNP aggregates (GITERA), form at the termini of lampbrush chromosomes. Using GITERA as an example, we aimed to explore mechanisms of RNP aggregate formation at certain chromosomal loci to establish whether they accumulate non-nascent RNA and to analyze protein composition in RNP aggregates. We found that GITERA on chicken and pigeon lampbrush chromosomes do not contain nascent transcripts. At the same time, RNA fluorescent in situ hybridization (FISH) and in situ reverse transcription demonstrated that GITERA accumulate poly(A)-rich RNA. Moreover, subtelomere chromosome regions adjacent to GITERA are transcriptionally active as shown by detection of incorporated BrUTP and the elongating form of RNA polymerase II. GITERA on both chicken and pigeon lampbrush chromosomes are enriched in splicing factors but not in heterogeneous nuclear RNP (hnRNP) L and K. A subtype of GITERA concentrates hnRNP I/PTB and p54nrb/NonO. Interestingly, hnRNP I/PTB and p54nrb/NonO in such subtype of GITERA were revealed in long threads. The resemblance of these threads to amyloid-like fibers is discussed. Our data suggest that transcription of subtelomeric sequences serves as a seeding event for accumulation of non-nascent RNA and associated RNP proteins. Such accumulation leads to GITERA formation in terminal chromosomal regions in avian oocyte nucleus. 3′-processed transcripts derived from other chromosomal loci may be attracted to GITERA by binding to the same RNP proteins or to their interaction partners.
Germline organization in Strongyloides nematodes reveals alternative differentiation and regulation mechanismsKulkarni, Arpita; Lightfoot, James; Streit, Adrian
doi: 10.1007/s00412-015-0562-5pmid: 26661737
Nematodes of the genus Strongyloides are important parasites of vertebrates including man. Currently, little is known about their germline organization or reproductive biology and how this influences their parasitic life strategies. Here, we analyze the structure of the germline in several Strongyloides and closely related species and uncover striking differences in the development, germline organization, and fluid dynamics compared to the model organism Caenorhabditis elegans. With a focus on Strongyloides ratti, we reveal that the proliferation of germ cells is restricted to early and mid-larval development, thus limiting the number of progeny. In order to understand key germline events (specifically germ cell progression and the transcriptional status of the germline), we monitored conserved histone modifications, in particular H3Pser10 and H3K4me3. The evolutionary significance of these events is subsequently highlighted through comparisons with six other nematode species, revealing underlying complexities and variations in the development of the germline among nematodes.
The 14/15 association as a paradigmatic example of tracing karyotype evolution in New World monkeysCapozzi, Oronzo; Archidiacono, Nicoletta; Lorusso, Nicola; Stanyon, Roscoe; Rocchi, Mariano
doi: 10.1007/s00412-015-0565-2pmid: 26667930
Fluorescence in situ hybridization (FISH), especially chromosome painting, has been extensively exploited in the phylogenetic reconstruction of primate evolution. Although chromosome painting is a key method to map translocations, it is not effective in detecting chromosome inversions, which may be up to four times more frequent than other chromosomal rearrangements. BAC-FISH instead can economically delineate marker order and reveal intrachromosomal rearrangements. However, up to now, BAC-FISH was rarely used to study the chromosomes of New World monkeys partly due to technical difficulties. In this paper, we used BAC-FISH to disentangle the complex evolutionary history of the ancestral 14/15 association in NWMs, beginning from the squirrel monkey (Saimiri boliviensis). To improve the hybridization efficiency of BAC-FISH in NWMs, we “translated” the human BACs into Callithrix jacchus (CJA) BACs, which yielded much higher hybridization efficiencies on other NWM species than human BACs. Our results disclosed 14 synteny blocks in squirrel monkeys, 7 more than with chromosome painting. We then applied a subset of CJA BACs on six other NWM species. The comparison of the hybridization pattern of these species contained phylogenetic information to discriminate evolutionary relationships. Notably Aotus was found to share an inversion with Callithrix, thus definitely assigning the genus Aotus to Cebidae. The present study can be seen as a paradigmatic approach to investigate the phylogenetics of NWMs by molecular cytogenetics.
Mapping centromeres of microchromosomes in the zebra finch (Taeniopygia guttata) using half-tetrad analysisKnief, Ulrich; Forstmeier, Wolfgang
doi: 10.1007/s00412-015-0560-7pmid: 26667931
Centromeres usually consist of hundreds of kilobases of repetitive sequence which renders them difficult to assemble. As a consequence, centromeres are often missing from assembled genomes and their locations on physical chromosome maps have to be inferred from flanking sequences via fluorescence in situ hybridization (FISH). Alternatively, centromere positions can be mapped using linkage analyses in accidentally triploid individuals formed by half-tetrads (resulting from the inheritance of two chromatids from a single meiosis). The current genome assembly of the zebra finch (Taeniopygia guttata) comprises 32 chromosomes, but only for the ten largest chromosomes centromere positions have been mapped using FISH. We here map the positions of most of the remaining centromeres using half-tetrad analyses. For this purpose, we genotyped 37 zebra finches that were triploid or tetraploid due to inheritance errors (and mostly died as embryos) together with their parents at 64 microsatellite markers (at least two per chromosome). Using the information on centromere positions on the ten largest chromosomes, we were able to identify 12 cases of non-disjunction in maternal meiosis I and 10 cases of non-disjunction in maternal meiosis II. These 22 informative cases allowed us to infer centromere positions on additional 19 microchromosomes in reference to the current genome assembly. This knowledge will be valuable for studies of chromosome evolution, meiotic drive and species divergence in the avian lineage.
Male meiosis in Crustacea: synapsis, recombination, epigenetics and fertility in Daphnia magnaGómez, Rocío; Damme, Kay; Gosálvez, Jaime; Morán, Eugenio; Colbourne, John
doi: 10.1007/s00412-015-0558-1pmid: 26685998
We present the first detailed cytological study of male meiosis in Daphnia (Crustacea: Branchiopoda: Cladocera)—an aquatic microcrustacean with a cyclical parthenogenetic life cycle. Using immunostaining of the testes in Daphnia magna for baseline knowledge, we characterized the different stages of meiotic division and spermiogenesis in relation to the distribution of proteins involved in synapsis, early recombination events and sister chromatid cohesion. We also studied post-translational histone modifications in male spermatocytes, in relation to the dynamic chromatin progression of meiosis. Finally, we applied a DNA fragmentation test to measure sperm quality of D. magna, with respect to levels of inbreeding. As a proxy for fertility, this technique may be used to assess the reproductive health of a sentinel species of aquatic ecosystems. Daphnia proves to be a model species for comparative studies of meiosis that is poised to improve our understanding of the cytological basis of sexual and asexual reproduction.
Formation of Nup98-containing nuclear bodies in HeLa sublines is linked to genomic rearrangements affecting chromosome 11Romana, Serge; Radford-Weiss, Isabelle; Lapierre, Jean-Michel; Doye, Valérie; Geoffroy, Marie-Claude
doi: 10.1007/s00412-015-0567-0pmid: 26685999
Nup98 is an important component of the nuclear pore complex (NPC) and also a rare but recurrent target for chromosomal translocation in leukaemogenesis. Nup98 contains multiple cohesive Gly-Leu-Phe-Gly (GLFG) repeats that are critical notably for the formation of intranuclear GLFG bodies. Previous studies have reported the existence of GLFG bodies in cells overexpressing exogenous Nup98 or in a HeLa subline (HeLa-C) expressing an unusual elevated amount of endogenous Nup98. Here, we have analysed the presence of Nup98-containing bodies in several human cell lines. We found that HEp-2, another HeLa subline, contains GLFG bodies that are distinct from those identified in HeLa-C. Rapid amplification of cDNA ends (RACE) revealed that HEp-2 cells express additional truncated forms of Nup98 fused to a non-coding region of chromosome 11q22.1. Cytogenetic analyses using FISH and array-CGH further revealed chromosomal rearrangements that were distinct from those observed in leukaemic cells. Indeed, HEp-2 cells feature a massive amplification of juxtaposed NUP98 and 11q22.1 loci on a chromosome marker derived from chromosome 3. Unexpectedly, minor co-amplifications of NUP98 and 11q22.1 loci were also observed in other HeLa sublines, but on rearranged chromosomes 11. Altogether, this study reveals that distinct genomic rearrangements affecting NUP98 are associated with the formation of GLFG bodies in specific HeLa sublines.