Your search keyword '"López-León MD"' showing total 60 results

1. Tandem Repeat DNA Provides Many Cytological Markers for Hybrid Zone Analysis in Two Subspecies of the Grasshopper Chorthippus parallelus .

Author

Navarro-Domínguez B, Cabrero J, López-León MD, Ruiz-Ruano FJ, Pita M, Bella JL, and Camacho JPM

Subjects

Animals, In Situ Hybridization, Fluorescence, Reproducibility of Results, DNA genetics, Grasshoppers genetics

Abstract

Recent advances in next generation sequencing (NGS) have greatly increased our understanding of non-coding tandem repeat (TR) DNA. Here we show how TR DNA can be useful for the study of hybrid zones (HZ), as it serves as a marker to identify introgression in areas where two biological entities come in contact. We used Illumina libraries to analyse two subspecies of the grasshopper Chorthippus parallelus , which currently form a HZ in the Pyrenees. We retrieved a total of 152 TR sequences, and used fluorescent in situ hybridization (FISH) to map 77 families in purebred individuals from both subspecies. Our analysis revealed 50 TR families that could serve as markers for analysis of this HZ, using FISH. Differential TR bands were unevenly distributed between chromosomes and subspecies. Some of these TR families yielded FISH bands in only one of the subspecies, suggesting the amplification of these TR families after the geographic separation of the subspecies in the Pleistocene. Our cytological analysis of two TR markers along a transect of the Pyrenean hybrid zone showed asymmetrical introgression of one subspecies into the other, consistent with previous findings using other markers. These results demonstrate the reliability of TR-band markers for hybrid zone studies.

Published

2023

2. Author Correction: Satellitome comparison of two oedipodine grasshoppers highlights the contingent nature of satellite DNA evolution.

Author

Camacho JPM, Cabrero J, López-León MD, Martín-Peciña M, Perfectti F, Garrido-Ramos MA, and Ruiz-Ruano FJ

Published

2022

3. Satellitome comparison of two oedipodine grasshoppers highlights the contingent nature of satellite DNA evolution.

Author

Camacho JPM, Cabrero J, López-León MD, Martín-Peciña M, Perfectti F, Garrido-Ramos MA, and Ruiz-Ruano FJ

Subjects

Animals, Evolution, Molecular, Gene Library, Humans, Phylogeny, DNA, Satellite genetics, Grasshoppers genetics

Abstract

Background: The full catalog of satellite DNA (satDNA) within a same genome constitutes the satellitome. The Library Hypothesis predicts that satDNA in relative species reflects that in their common ancestor, but the evolutionary mechanisms and pathways of satDNA evolution have never been analyzed for full satellitomes. We compare here the satellitomes of two Oedipodine grasshoppers (Locusta migratoria and Oedaleus decorus) which shared their most recent common ancestor about 22.8 Ma ago., Results: We found that about one third of their satDNA families (near 60 in every species) showed sequence homology and were grouped into 12 orthologous superfamilies. The turnover rate of consensus sequences was extremely variable among the 20 orthologous family pairs analyzed in both species. The satDNAs shared by both species showed poor association with sequence signatures and motives frequently argued as functional, except for short inverted repeats allowing short dyad symmetries and non-B DNA conformations. Orthologous satDNAs frequently showed different FISH patterns at both intra- and interspecific levels. We defined indices of homogenization and degeneration and quantified the level of incomplete library sorting between species., Conclusions: Our analyses revealed that satDNA degenerates through point mutation and homogenizes through partial turnovers caused by massive tandem duplications (the so-called satDNA amplification). Remarkably, satDNA amplification increases homogenization, at intragenomic level, and diversification between species, thus constituting the basis for concerted evolution. We suggest a model of satDNA evolution by means of recursive cycles of amplification and degeneration, leading to mostly contingent evolutionary pathways where concerted evolution emerges promptly after lineages split., (© 2021. The Author(s).)

Published

2022

4. Satellite DNA Is an Inseparable Fellow Traveler of B Chromosomes.

Author

Camacho JPM, Ruiz-Ruano FJ, López-León MD, and Cabrero J

Subjects

Chromosome Mapping, DNA, Humans, In Situ Hybridization, Fluorescence, Chromosomes genetics, DNA, Satellite genetics

Abstract

Next-Generation Sequencing (NGS) has revealed that B chromosomes in several species are enriched in repetitive DNA, mostly satellite DNA (satDNA). This raises the question of whether satDNA is important to B chromosomes for functional reasons or else its abundance on Bs is simply a consequence of properties of B chromosomes such as their dispensability and late replication. Here we review current knowledge in this respect and contextualize it within the frame of practical difficulties to perform this kind of research, the most important being the absence of good full genome sequencing for B-carrying species, which is an essential requisite to ascertain the intragenomic origin of B chromosomes. Our review analysis on 16 species revealed that 38% of them showed B-specific satDNAs whereas only one of them (6%) carried an inter-specifically originated B chromosome. This shows that B-specific satDNA families can eventually evolve in intraspecifically arisen B chromosomes. Finally, the possibility of satDNA accumulation on B chromosomes for functional reasons is exemplified by B chromosomes in rye, as they contain B-specific satDNAs which are transcribed and occupy chromosome locations where they might facilitate the kind of drive shown by this B chromosome during pollen grain mitosis., (© 2021. The Author(s), under exclusive license to Springer Nature Switzerland AG.)

Published

2021

5. Eight Million Years of Satellite DNA Evolution in Grasshoppers of the Genus Schistocerca Illuminate the Ins and Outs of the Library Hypothesis.

Author

Palacios-Gimenez OM, Milani D, Song H, Marti DA, López-León MD, Ruiz-Ruano FJ, Camacho JPM, and Cabral-de-Mello DC

Subjects

Animals, Chromosomes, Insect, DNA, Satellite chemistry, Female, Heterochromatin, Karyotype, Male, Sequence Analysis, DNA, DNA, Satellite genetics, Evolution, Molecular, Grasshoppers genetics

Abstract

Satellite DNA (satDNA) is an abundant class of tandemly repeated noncoding sequences, showing high rate of change in sequence, abundance, and physical location. However, the mechanisms promoting these changes are still controversial. The library model was put forward to explain the conservation of some satDNAs for long periods, predicting that related species share a common collection of satDNAs, which mostly experience quantitative changes. Here, we tested the library model by analyzing three satDNAs in ten species of Schistocerca grasshoppers. This group represents a valuable material because it diversified during the last 7.9 Myr across the American continent from the African desert locust (Schistocerca gregaria), and this thus illuminates the direction of evolutionary changes. By combining bioinformatic and cytogenetic, we tested whether these three satDNA families found in S. gregaria are also present in nine American species, and whether differential gains and/or losses have occurred in the lineages. We found that the three satDNAs are present in all species but display remarkable interspecies differences in their abundance and sequences while being highly consistent with genus phylogeny. The number of chromosomal loci where satDNA is present was also consistent with phylogeny for two satDNA families but not for the other. Our results suggest eminently chance events for satDNA evolution. Several evolutionary trends clearly imply either massive amplifications or contractions, thus closely fitting the library model prediction that changes are mostly quantitative. Finally, we found that satDNA amplifications or contractions may influence the evolution of monomer consensus sequences and by chance playing a major role in driftlike dynamics., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2020

6. Interpopulation spread of a parasitic B chromosome is unlikely through males in the grasshopper Eyprepocnemis plorans.

Author

Manrique-Poyato MI, Cabrero J, López-León MD, Perfectti F, Gómez R, and Camacho JPM

Subjects

Animals, DNA, Satellite, Female, Male, Population Density, Spain, Chromosomes, Insect genetics, Evolution, Molecular, Genetics, Population, Grasshoppers genetics

Abstract

The near-neutral model of B chromosome evolution predicts that population invasion is quite fast. To test this prediction, in 1994, we introduced males of the grasshopper Eyprepocnemis plorans from a B-carrying population into a B-lacking population and monitored the evolution of B-chromosome frequency up to 2013. We observed fluctuating very low B frequency across years but, remarkably, the B chromosome introduced (the B2 variant) was found up to 1996 only, whereas the B1 variant was present from 1996 onwards, presumably introduced by fishermen using E. plorans males as bait. Effective introgression of genetic material from the donor population was evidenced by the presence of a satellite DNA on autosome 9 (up to 1999) and the presence of one individual in 2006 showing an ISSR marker profile being highly similar to that found in the donor population. This indicated that the males introduced by us effectively mated with resident females, but donor genes rapidly decreased in frequency after this non-recurrent migration event. Taken together, our results indicated: (i) that the non-recurrent migration event had a slight, transient genetic effect on the recipient population, which was diluted in only a few generations; and (ii) that even with recurrent migration (forced by fishermen) the B chromosome failed to increase in frequency. Bearing in mind that B chromosomes in this species drive through females only, we hypothesize that B chromosomes most likely failed invasion in both migration events because the migrating sex shows no B-drive.

Published

2020

7. Gene expression changes elicited by a parasitic B chromosome in the grasshopper Eyprepocnemis plorans are consistent with its phenotypic effects.

Author

Navarro-Domínguez B, Martín-Peciña M, Ruiz-Ruano FJ, Cabrero J, Corral JM, López-León MD, Sharbel TF, and Camacho JPM

Subjects

Animals, Female, Gene Expression Regulation, Gene Ontology, Genotype, Grasshoppers parasitology, High-Throughput Nucleotide Sequencing, Molecular Sequence Annotation, Oligonucleotide Array Sequence Analysis, Ovary metabolism, Ovary parasitology, Chromosomes, Insect chemistry, Genome, Insect, Grasshoppers genetics, Host-Parasite Interactions genetics, Phenotype, Transcriptome

Abstract

Parasitism evokes adaptive physiological changes in the host, many of which take place through gene expression changes. This response can be more or less local, depending on the organ or tissue affected by the parasite, or else systemic when the parasite affects the entire host body. The most extreme of the latter cases is intragenomic parasitism, where the parasite is present in all host nuclei as any other genomic element. Here, we show the molecular crosstalk between a parasitic chromosome (also named B chromosome) and the host genome, manifested through gene expression changes. The transcriptome analysis of 0B and 1B females of the grasshopper Eyprepocnemis plorans, validated by a microarray experiment performed on four B-lacking and five B-carrying females, revealed changes in gene expression for 188 unigenes being consistent in both experiments. Once discarded B-derived transcripts, there were 46 differentially expressed genes (30 up- and 16 downregulated) related with the adaptation of the host genome to the presence of the parasitic chromosome. Interestingly, the functions of these genes could explain some of the most important effects of B chromosomes, such as nucleotypic effects derived from the additional DNA they represent, chemical defense and detoxification, protein modification and response to stress, ovary function, and regulation of gene expression. Collectively, these changes uncover an intimate host-parasite interaction between A and B chromosomes during crucial steps of gene expression and protein function.

Published

2019

8. High-throughput analysis of satellite DNA in the grasshopper Pyrgomorpha conica reveals abundance of homologous and heterologous higher-order repeats.

Author

Ruiz-Ruano FJ, Castillo-Martínez J, Cabrero J, Gómez R, Camacho JPM, and López-León MD

Subjects

Animals, Base Composition, Chromosome Mapping, Computational Biology methods, Genome, Insect, Genomics methods, High-Throughput Nucleotide Sequencing, In Situ Hybridization, Fluorescence, Nucleic Acid Amplification Techniques, Telomere genetics, DNA, Satellite, Grasshoppers genetics, Tandem Repeat Sequences

Abstract

Satellite DNA (satDNA) constitutes an important fraction of repetitive DNA in eukaryotic genomes, but it is barely known in most species. The high-throughput analysis of satDNA in the grasshopper Pyrgomorpha conica revealed 87 satDNA variants grouped into 76 different families, representing 9.4% of the genome. Fluorescent in situ hybridization (FISH) analysis of the 38 most abundant satDNA families revealed four different patterns of chromosome distribution. Homology search between the 76 satDNA families showed the existence of 15 superfamilies, each including two or more families, with the most abundant superfamily representing more than 80% of all satDNA found in this species. This also revealed the presence of two types of higher-order repeats (HORs), one showing internal homologous subrepeats, as conventional HORs, and an additional type showing non-homologous internal subrepeats, the latter arising by the combination of a given satDNA family with a non-annotated sequence, or with telomeric DNA. Interestingly, the heterologous subrepeats included in these HORs showed higher divergence within the HOR than outside it, suggesting that heterologous HORs show poor homogenization, in high contrast with conventional (homologous) HORs. Finally, heterologous HORs can show high differences in divergence between their constituent subrepeats, suggesting the possibility of regional homogenization.

Published

2018

9. Quantitative sequence characterization for repetitive DNA content in the supernumerary chromosome of the migratory locust.

Author

Ruiz-Ruano FJ, Cabrero J, López-León MD, Sánchez A, and Camacho JPM

Subjects

Animals, DNA Transposable Elements, DNA, Satellite, Female, Genome, Insect, Genomics methods, High-Throughput Nucleotide Sequencing, Male, Chromosomes, Insect, Locusta migratoria genetics, Repetitive Sequences, Nucleic Acid

Abstract

Repetitive DNA is a major component in most eukaryotic genomes but is ignored in most genome sequencing projects. Here, we report the quantitative composition in repetitive DNA for a supernumerary (B) chromosome, in the migratory locust (Locusta migratoria), by Illumina sequencing of genomic DNA from B-carrying and B-lacking individuals and DNA obtained from a microdissected B chromosome, as well as the physical mapping of some elements. B chromosome DNA of 94.9% was repetitive, in high contrast with the 64.1% of standard (A) chromosomes. B chromosomes are enriched in satellite DNA (satDNA) (65.2% of B-DNA), with a single satellite (LmiSat02-176) comprising 55% of the B. Six satDNAs were visualized by FISH on the B chromosome, and the only A chromosome carrying all these satellites was autosome 9, pointing to this chromosome, along with autosome 8 (which shares histone genes with the B) as putative ancestors of the B chromosome. We found several transposable elements (TEs) showing nucleotidic variation specific to B-carrying individuals, which was also present in B-carrying transcriptomes. Remarkably, an interstitial region of the B chromosome included a 17 kb chimera composed of 29 different TEs, suggesting reiterative TE insertion in this B chromosome region.

Published

2018

10. Transcription of a B chromosome CAP-G pseudogene does not influence normal Condensin Complex genes in a grasshopper.

Author

Navarro-Domínguez B, Ruiz-Ruano FJ, Camacho JPM, Cabrero J, and López-León MD

Subjects

Animals, Computational Biology, Female, Gene Expression Regulation, In Situ Hybridization, Fluorescence, Male, Adenosine Triphosphatases genetics, Chromosomal Proteins, Non-Histone genetics, Chromosomes, Insect genetics, DNA-Binding Proteins genetics, Grasshoppers genetics, Insect Proteins genetics, Multiprotein Complexes genetics, Pseudogenes genetics

Abstract

Parasitic B chromosomes invade and persist in natural populations through several mechanisms for transmission advantage (drive). They may contain gene-derived sequences which, in some cases, are actively transcribed. A further interesting question is whether B-derived transcripts become functional products. In the grasshopper Eyprepocnemis plorans, one of the gene-derived sequences located on the B chromosome shows homology with the gene coding for the CAP-G subunit of condensin I. We show here, by means of fluorescent in situ hybridization coupled with tyramide signal amplification (FISH-TSA), that this gene is located in the distal region of the B24 chromosome variant. The DNA sequence located in the B chromosome is a pseudogenic version of the CAP-G gene (B-CAP-G). In two Spanish populations, we found active transcription of B-CAP-G, but it did not influence the expression of CAP-D2 and CAP-D3 genes coding for corresponding condensin I and II subunits, respectively. Our results indicate that the transcriptional regulation of the B-CAP-G pseudogene is uncoupled from the standard regulation of the genes that constitute the condensin complex, and suggest that some of the B chromosome known effects may be related with its gene content and transcriptional activity, thus opening new exciting avenues for research.

Published

2017

11. Satellite DNA content illuminates the ancestry of a supernumerary (B) chromosome.

Author

Ruiz-Ruano FJ, Cabrero J, López-León MD, and Camacho JPM

Subjects

Animals, Evolution, Molecular, Female, Male, Phylogeny, Chromosomes, Insect genetics, DNA, Satellite analysis, Grasshoppers genetics

Abstract

B chromosomes are supernumerary genomic elements most likely derived from the standard (A) chromosomes, whose dispensability has freed their DNA sequences to evolve fast, thus making it difficult to uncover their ancestry. Here, we show the ancestry of a B chromosome in the grasshopper Eumigus monticola by means of the high-throughput analysis of the satellitome, i.e., the whole collection of satellite DNA (satDNA). The satellitome found in this species consists of 27 satDNA families, with monomer length between 5 and 325 nt and A + T content between 42.9 and 83.3 %. Two out of the 20 clustered satDNA families (EmoSat26-41 and EmoSat27-102) were observed only on the B chromosome. The A chromosome carrying the highest number of satDNA families was the megameric S8 (13 families), six of which were also present in the B chromosome, and three of these were exclusive of the S8 and B chromosomes. The absence in the B chromosome of the H3 histone gene cluster (located interstitially on S8) and three satDNA families (located distally on S8) allowed delimiting the possible origin of the B chromosome to the proximal third of the S8 autosome, through a breakpoint between EmoSat11-122 and the H3 cluster. Interestingly, bioinformatic analysis revealed the presence of seeds for the two B-specific satDNAs in the A chromosomes, suggesting their massive amplification in the B chromosome after its origin. Therefore, intraspecifically arisen B chromosomes can harbor DNA sequences apparently being B-specific.

Published

2017

12. Protein-coding genes in B chromosomes of the grasshopper Eyprepocnemis plorans.

Author

Navarro-Domínguez B, Ruiz-Ruano FJ, Cabrero J, Corral JM, López-León MD, Sharbel TF, and Camacho JP

Subjects

Animals, Chromosomes, Insect genetics, Grasshoppers genetics, Insect Proteins genetics

Abstract

For many years, parasitic B chromosomes have been considered genetically inert elements. Here we show the presence of ten protein-coding genes in the B chromosome of the grasshopper Eyprepocnemis plorans. Four of these genes (CIP2A, GTPB6, KIF20A, and MTG1) were complete in the B chromosome whereas the six remaining (CKAP2, CAP-G, HYI, MYCB2, SLIT and TOP2A) were truncated. Five of these genes (CIP2A, CKAP2, CAP-G, KIF20A, and MYCB2) were significantly up-regulated in B-carrying individuals, as expected if they were actively transcribed from the B chromosome. This conclusion is supported by three truncated genes (CKAP2, CAP-G and MYCB2) which showed up-regulation only in the regions being present in the B chromosome. Our results indicate that B chromosomes are not so silenced as was hitherto believed. Interestingly, the five active genes in the B chromosome code for functions related with cell division, which is the main arena where B chromosome destiny is played. This suggests that B chromosome evolutionary success can lie on its gene content.

Published

2017

13. B-chromosome effects on Hsp70 gene expression does not occur at transcriptional level in the grasshopper Eyprepocnemis plorans.

Author

Navarro-Domínguez B, Cabrero J, Camacho JP, and López-León MD

Subjects

Animals, Down-Regulation, Female, Gonads metabolism, HSP70 Heat-Shock Proteins metabolism, Male, RNA Processing, Post-Transcriptional, Transcription, Genetic, Chromosomes, Insect genetics, Gene Expression, Grasshoppers genetics, HSP70 Heat-Shock Proteins genetics

Abstract

As intragenomic parasites, B chromosomes can elicit stress in the host genome, thus inducing a response for host adaptation to this kind of continuous parasitism. In the grasshopper Eyprepocnemis plorans, B-chromosome presence has been previously associated with a decrease in the amount of the heat-shock protein 70 (HSP70). To investigate whether this effect is already apparent at transcriptional level, we analyze the expression levels of the Hsp70 gene in gonads and somatic tissues of males and females with and without B chromosomes from two populations, where the predominant B chromosome variants (B2 and B24) exhibit different levels of parasitism, by means of quantitative real-time PCR (qPCR) on complementary DNA (cDNA). The results revealed the absence of significant differences for Hsp70 transcripts associated with B-chromosome presence in virtually all samples. This indicates that the decrease in HSP70 protein levels, formerly reported in this species, may not be a consequence of transcriptional down-regulation of Hsp70 genes, but the result of post-transcriptional regulation. These results will help to design future studies oriented to identifying factors modulating Hsp70 expression, and will also contribute to uncover the biological role of B chromosomes in eukaryotic genomes.

Published

2016

14. High-throughput analysis of the satellitome illuminates satellite DNA evolution.

Author

Ruiz-Ruano FJ, López-León MD, Cabrero J, and Camacho JPM

Subjects

Animals, Bacteria genetics, Chromosome Mapping, Humans, In Situ Hybridization, Fluorescence, Phylogeny, DNA, Satellite genetics, Evolution, Molecular, High-Throughput Nucleotide Sequencing methods, Sequence Analysis, DNA methods

Abstract

Satellite DNA (satDNA) is a major component yet the great unknown of eukaryote genomes and clearly underrepresented in genome sequencing projects. Here we show the high-throughput analysis of satellite DNA content in the migratory locust by means of the bioinformatic analysis of Illumina reads with the RepeatExplorer and RepeatMasker programs. This unveiled 62 satDNA families and we propose the term "satellitome" for the whole collection of different satDNA families in a genome. The finding that satDNAs were present in many contigs of the migratory locust draft genome indicates that they show many genomic locations invisible by fluorescent in situ hybridization (FISH). The cytological pattern of five satellites showing common descent (belonging to the SF3 superfamily) suggests that non-clustered satDNAs can become into clustered through local amplification at any of the many genomic loci resulting from previous dissemination of short satDNA arrays. The fact that all kinds of satDNA (micro- mini- and satellites) can show the non-clustered and clustered states suggests that all these elements are mostly similar, except for repeat length. Finally, the presence of VNTRs in bacteria, showing similar properties to non-clustered satDNAs in eukaryotes, suggests that this kind of tandem repeats show common properties in all living beings.

Published

2016

15. Transient Microgeographic Clines during B Chromosome Invasion.

Author

Camacho JP, Shaw MW, Cabrero J, Bakkali M, Ruíz-Estévez M, Ruíz-Ruano FJ, Martín-Blázquez R, and López-León MD

Subjects

Animals, Computer Simulation, Female, Male, Models, Biological, Seasons, Spain, Chromosomes, Insect genetics, Grasshoppers genetics

Abstract

The near-neutral model of B chromosome evolution predicts that the invasion of a new population should last some tens of generations, but the details on how it proceeds in real populations are mostly unknown. Trying to fill this gap, we analyze here a natural population of the grasshopper Eyprepocnemis plorans at three time points during the last 35 years. Our results show that B chromosome frequency increased significantly during this period and that a cline observed in 1992 had disappeared in 2012 once B chromosome frequency reached an upper limit at all sites sampled. This indicates that, during B chromosome invasion, transient clines for B chromosome frequency are formed at the invasion front on a microgeographic scale. Computer simulation experiments showed that the pattern of change observed for genotypic frequencies is consistent with the existence of B chromosome drive through females and selection against individuals with a high number of B chromosomes.

Published

2015

16. Geographical Barriers Impeded the Spread of a Parasitic Chromosome.

Author

Manrique-Poyato MI, López-León MD, Cabrero J, Gómez R, Perfectti F, and Camacho JP

Subjects

Animals, Mediterranean Region, Chromosomes, Insect genetics, Grasshoppers genetics

Abstract

Parasitic supernumerary (B) chromosomes show high capability to spread across populations. But the existence of abrupt discontinuities in their distribution demands an explanation. The grasshopper Eyprepocnemis plorans plorans harbour supernumerary chromosomes in all natural populations hitherto analyzed from the Circum-Mediterranean region, with the single exception of the headwaters of the Iberian Segura River and several of its tributaries. To ascertain the causes of this distribution pattern, we analyze here the genetic structure of five natural populations collected in this zone (two +B and three -B), by means of ISSR markers. We found significant population structure, with two kinds of populations coinciding with +B and -B ones, separated by strong barriers to gene flow. This gives strong support to the hypothesis that the non-B populations precede B origin, and that B-carrying individuals from coastal zones have been able to colonize upstream areas, until geographical barriers (usually narrow canyons and arid areas surrounding them) impeded their advance.

Published

2015

17. Non-random expression of ribosomal DNA units in a grasshopper showing high intragenomic variation for the ITS2 region.

Author

Ruiz-Estévez M, Ruiz-Ruano FJ, Cabrero J, Bakkali M, Perfectti F, López-León MD, and Camacho JP

Subjects

Animals, Base Sequence, Conserved Sequence, DNA, Ribosomal genetics, DNA, Ribosomal Spacer genetics, Genetic Variation, Grasshoppers genetics, Haplotypes, Nucleic Acid Conformation, DNA, Ribosomal metabolism, Genome, Insect, Grasshoppers metabolism

Abstract

We analyse intragenomic variation of the ITS2 internal transcribed spacer of ribosomal DNA (rDNA) in the grasshopper Eyprepocnemis plorans, by means of tagged PCR 454 amplicon sequencing performed on both genomic DNA (gDNA) and RNA-derived complementary DNA (cDNA), using part of the ITS2 flanking coding regions (5.8S and 28S rDNA) as an internal control for sequencing errors. Six different ITS2 haplotypes (i.e. variants for at least one nucleotide in the complete ITS2 sequence) were found in a single population, one of them (Hap4) being specific to a supernumerary (B) chromosome. The analysis of both gDNA and cDNA from the same individuals provided an estimate of the expression efficiency of the different haplotypes. We found random expression (i.e. about similar recovery in gDNA and cDNA) for three haplotypes (Hap1, Hap2 and Hap5), but significant underexpression for three others (Hap3, Hap4 and Hap6). Hap4 was the most extremely underexpressed and, remarkably, it showed the lowest sequence conservation for the flanking 5.8-28S coding regions in the gDNA reads but the highest conservation (100%) in the cDNA ones, suggesting the preferential expression of mutation-free rDNA units carrying this ITS2 haplotype. These results indicate that the ITS2 region of rDNA is far from complete homogenization in this species, and that the different rDNA units are not expressed at random, with some of them being severely downregulated., (© 2015 The Royal Entomological Society.)

Published

2015

18. A step to the gigantic genome of the desert locust: chromosome sizes and repeated DNAs.

Author

Camacho JP, Ruiz-Ruano FJ, Martín-Blázquez R, López-León MD, Cabrero J, Lorite P, Cabral-de-Mello DC, and Bakkali M

Subjects

Animals, Chromosome Mapping, DNA, Ribosomal genetics, DNA, Satellite genetics, Female, Heterochromatin genetics, Heterochromatin metabolism, High-Throughput Nucleotide Sequencing, Histones genetics, In Situ Hybridization, Fluorescence, Male, Sequence Analysis, DNA, Chromosomes genetics, Genome, Insect, Grasshoppers genetics, Repetitive Sequences, Nucleic Acid

Abstract

The desert locust (Schistocerca gregaria) has been used as material for numerous cytogenetic studies. Its genome size is estimated to be 8.55 Gb of DNA comprised in 11 autosomes and the X chromosome. Its X0/XX sex chromosome determinism therefore results in females having 24 chromosomes whereas males have 23. Surprisingly, little is known about the DNA content of this locust's huge chromosomes. Here, we use the Feulgen Image Analysis Densitometry and C-banding techniques to respectively estimate the DNA quantity and heterochromatin content of each chromosome. We also identify three satellite DNAs using both restriction endonucleases and next-generation sequencing. We then use fluorescent in situ hybridization to determine the chromosomal location of these satellite DNAs as well as that of six tandem repeat DNA gene families. The combination of the results obtained in this work allows distinguishing between the different chromosomes not only by size, but also by the kind of repetitive DNAs that they contain. The recent publication of the draft genome of the migratory locust (Locusta migratoria), the largest animal genome hitherto sequenced, invites for sequencing even larger genomes. S. gregaria is a pest that causes high economic losses. It is thus among the primary candidates for genome sequencing. But this species genome is about 50 % larger than that of L. migratoria, and although next-generation sequencing currently allows sequencing large genomes, sequencing it would mean a greater challenge. The chromosome sizes and markers provided here should not only help planning the sequencing project and guide the assembly but would also facilitate assigning assembled linkage groups to actual chromosomes.

Published

2015

19. Intragenomic distribution of RTE retroelements suggests intrachromosomal movement.

Author

Montiel EE, Ruiz-Ruano FJ, Cabrero J, Marchal JA, Sánchez A, Perfectti F, López-León MD, and Camacho JP

Subjects

Animals, Genetic Variation, Grasshoppers genetics, Haplotypes, Molecular Sequence Annotation, Sequence Analysis, DNA, Terminal Repeat Sequences, Chromosomes, Genome, Insect, Retroelements

Abstract

Much is known about the abundance of transposable elements (TEs) in eukaryotic genomes, but much is still unknown on their behaviour within cells. We employ here a combination of cytological, molecular and genomic approaches providing information on the intragenomic distribution and behaviour of non-long terminal repeat (LTR) retrotransposon-like elements (RTE). We microdissected every chromosome in a single first meiotic metaphase cell of the grasshopper Eyprepocnemis plorans and polymerase chain reaction (PCR) amplified a fragment of the RTE reverse transcriptase gene with specific primers. PCR products were cloned and 139 clones were sequenced. Analysis of molecular variance (AMOVA) showed significant intragenomic structure for these elements, with 4.6 % of molecular variance being found between chromosomes. A maximum likelihood tree built with the RTE sequences revealed the frequent presence of two or more elements showing very high similarity and being located on the same chromosome, thus suggesting intrachromosome movement. The 454 pyrosequencing of genomic DNA gave strong support to the microdissection results and provided evidence for the existence of 5' truncated elements. Our results thus indicate a tendency of RTE elements to reinsert into the same chromosome from where they were transcribed, which could be achieved if retrotranscription and insertion takes place immediately after transcription.

Published

2015

20. Next generation sequencing and FISH reveal uneven and nonrandom microsatellite distribution in two grasshopper genomes.

Author

Ruiz-Ruano FJ, Cuadrado Á, Montiel EE, Camacho JP, and López-León MD

Subjects

Animals, Chromosome Mapping, DNA Transposable Elements, DNA, Intergenic genetics, DNA, Ribosomal genetics, Female, Histones genetics, Male, Nucleosomes genetics, Sequence Analysis, DNA, Genome, Insect, Grasshoppers genetics, High-Throughput Nucleotide Sequencing, In Situ Hybridization, Fluorescence, Microsatellite Repeats genetics

Abstract

Simple sequence repeats (SSRs), also known as microsatellites, are one of the prominent DNA sequences shaping the repeated fraction of eukaryotic genomes. In spite of their profuse use as molecular markers for a variety of genetic and evolutionary studies, their genomic location, distribution, and function are not yet well understood. Here we report the first thorough joint analysis of microsatellite motifs at both genomic and chromosomal levels in animal species, by a combination of 454 sequencing and fluorescent in situ hybridization (FISH) techniques performed on two grasshopper species. The in silico analysis of the 454 reads suggested that microsatellite expansion is not driving size increase of these genomes, as SSR abundance was higher in the species showing the smallest genome. However, the two species showed the same uneven and nonrandom location of SSRs, with clear predominance of dinucleotide motifs and association with several types of repetitive elements, mostly histone gene spacers, ribosomal DNA intergenic spacers (IGS), and transposable elements (TEs). The FISH analysis showed a dispersed chromosome distribution of microsatellite motifs in euchromatic regions, in coincidence with chromosome location patterns previously observed for many mobile elements in these species. However, some SSR motifs were clustered, especially those located in the histone gene cluster.

Published

2015

21. B chromosomes showing active ribosomal RNA genes contribute insignificant amounts of rRNA in the grasshopper Eyprepocnemis plorans.

Author

Ruiz-Estévez M, Badisco L, Broeck JV, Perfectti F, López-León MD, Cabrero J, and Camacho JP

Subjects

Animals, Male, RNA, Ribosomal analysis, Chromosomes, Insect ultrastructure, Genes, rRNA, Grasshoppers genetics

Abstract

The genetic inertness of supernumerary (B) chromosomes has recently been called into question after finding several cases of gene activity on them. The grasshopper Eyprepocnemis plorans harbors B chromosomes containing large amounts of ribosomal DNA (rDNA) units, some of which are eventually active, but the amount of rRNA transcripts contributed by B chromosomes, compared to those of the standard (A) chromosomes, is unknown. Here, we address this question by means of quantitative PCR (qPCR) for two different ITS2 amplicons, one coming from rDNA units located in both A and B chromosomes (ITS2(A+B)) and the other being specific to B chromosomes (ITS2(B)). We analyzed six body parts in nine males showing rDNA expression in their B chromosomes in the testis. Amplification of the ITS2(B) amplicon was successful in RNA extracted from all six body parts analyzed, but showed relative quantification (RQ) values four orders of magnitude lower than those obtained for the ITS(A+B) amplicon. RQ values differed significantly between body parts for the two amplicons, with testis, accessory gland and wing muscle showing threefold higher values than head, gastric cecum and hind leg. We conclude that the level of B-specific rDNA expression is extremely low even in individuals where B chromosome rDNA is not completely silenced. Bearing in mind that B chromosomes carry the largest rDNA cluster in the E. plorans genome, we also infer that the relative contribution of B chromosome rRNA genes to ribosome biogenesis is insignificant, at least in the body parts analyzed.

Published

2014

22. HP1 knockdown is associated with abnormal condensation of almost all chromatin types in a grasshopper (Eyprepocnemis plorans).

Author

Ruiz-Estévez M, Bakkali M, Cabrero J, Camacho JP, and López-León MD

Subjects

Animals, Chromobox Protein Homolog 5, Chromosomal Proteins, Non-Histone genetics, Chromosomes, Insect metabolism, Gene Expression Regulation, Genes, Insect, Male, Meiosis, RNA Interference, RNA, Messenger genetics, RNA, Messenger metabolism, Spermatids cytology, Spermatids metabolism, Chromatin metabolism, Chromosomal Proteins, Non-Histone metabolism, Gene Knockdown Techniques, Grasshoppers metabolism

Abstract

Heterochromatin protein 1 (HP1) is a highly conserved family of eukaryotic proteins required for heterochromatic gene silencing and euchromatic gene transcription regulation. In addition, HP1 is involved in chromatin organization and protection of chromosome integrity during cell division. Here, we present a cytological and molecular analysis of the effects of HP1 knockdown in Eyprepocnemis plorans, a grasshopper species polymorphic for supernumerary heterochromatic chromosomes. Our results revealed contrasting effects of HP1 knockdown on gene activity. While the Bub1 gene decreased in expression level in HP1 knockdown animals, NOR activity, rRNA and, contrarily to previous reports in Drosophila, Hsp70 gene expression remained unchanged. Furthermore, HP1 knockdown resulted in abnormal chromatin condensation, chromosomal bridges, higher frequency of macrospermatids, loss of muscle mass and hemolymph amount as well as a low number of dividing cells and survival reduction. All these phenotypes are very likely due to the chromatin condensation disruption observed for almost all kinds of chromatin.

Published

2014

23. Preferential occupancy of R2 retroelements on the B chromosomes of the grasshopper Eyprepocnemis plorans.

Author

Montiel EE, Cabrero J, Ruiz-Estévez M, Burke WD, Eickbush TH, Camacho JP, and López-León MD

Subjects

Amino Acid Sequence, Animals, Gene Dosage, Male, Molecular Sequence Data, Position-Specific Scoring Matrices, Sequence Alignment, Transcription, Genetic, Chromosomes, Insect, Grasshoppers genetics, Retroelements

Abstract

R2 non-LTR retrotransposons exclusively insert into the 28S rRNA genes of their host, and are expressed by co-transcription with the rDNA unit. The grasshopper Eyprepocnemis plorans contains transcribed rDNA clusters on most of its A chromosomes, as well as non-transcribed rDNA clusters on the parasitic B chromosomes found in many populations. Here the structure of the E. plorans R2 element, its abundance relative to the number of rDNA units and its retrotransposition activity were determined. Animals screened from five populations contained on average over 12,000 rDNA units on their A chromosomes, but surprisingly only about 100 R2 elements. Monitoring the patterns of R2 insertions in individuals from these populations revealed only low levels of retrotransposition. The low rates of R2 insertion observed in E. plorans differ from the high levels of R2 insertion previously observed in insect species that have many fewer rDNA units. It is proposed that high levels of R2 are strongly selected against in E. plorans, because the rDNA transcription machinery in this species is unable to differentiate between R2-inserted and uninserted units. The B chromosomes of E. plorans contain an additional 7,000 to 15,000 rDNA units, but in contrast to the A chromosomes, from 150 to over 1,500 R2 elements. The higher concentration of R2 in the inactive B chromosomes rDNA clusters suggests these chromosomes can act as a sink for R2 insertions thus further reducing the level of insertions on the A chromosomes. These studies suggest an interesting evolutionary relationship between the parasitic B chromosomes and R2 elements.

Published

2014

24. B1 was the ancestor B chromosome variant in the western Mediterranean area in the grasshopper Eyprepocnemis plorans.

Author

Cabrero J, López-León MD, Ruíz-Estévez M, Gómez R, Petitpierre E, Rufas JS, Massa B, Kamel Ben Halima M, and Camacho JP

Subjects

Animals, DNA, Ribosomal genetics, DNA, Satellite genetics, Evolution, Molecular, In Situ Hybridization, Fluorescence, Male, Mediterranean Region, Phylogeography, Species Specificity, Biological Evolution, Chromosomes, Insect ultrastructure, Grasshoppers genetics

Abstract

We analyzed the distribution of 2 repetitive DNAs, i.e. ribosomal DNA (rDNA) and a satellite DNA (satDNA), on the B chromosomes found in 17 natural populations of the grasshopper Eyprepocnemis ploransplorans sampled around the western Mediterranean region, including the Iberian Peninsula, Balearic Islands, Sicily, and Tunisia. Based on the amount of these repetitive DNAs, 4 types of B variants were found: B1, showing an equal or higher amount of rDNA than satDNA, and 3 other variants, B2, B24 and B5, bearing a higher amount of satDNA than rDNA. The variants B1 and B2 varied in size among populations: B1 was about half the size of the X chromosome in Balearic Islands, but two-thirds of the X in Iberian populations at Alicante, Murcia and Albacete provinces. Likewise, B2 was about one-third the size of the X chromosome in populations from the Granada province but half the size of the X in the populations collected at Málaga province. The widespread geographical distribution of the B1 variant makes it the best candidate for being the ancestor B chromosome in the whole western Mediterranean region., (© 2013 S. Karger AG, Basel.)

Published

2014

25. B chromosomes in the grasshopper Eyprepocnemis plorans are present in all body parts analyzed and show extensive variation for rDNA copy number.

Author

Ruiz-Estévez M, Cabrero J, Camacho JP, and López-León MD

Subjects

Animals, DNA Copy Number Variations, Female, Gene Dosage, Genes, Insect, Male, Organ Specificity, Chromosomes, Insect genetics, DNA, Ribosomal genetics, Grasshoppers genetics

Abstract

B chromosomes in the grasshopper Eyprepocnemis plorans are considered to be mitotically stable, because all meiotic (primary spermatocytes and oocytes) or mitotic (embryos, ovarioles, and gastric caecum) cells analyzed within the same individual show the same B chromosome number. Nothing is known, however, about body parts with somatic tissues with no mitotic activity in adult individuals, constituting the immense majority of their body. Therefore, we investigated whether B chromosomes are present in 8 non-mitotically active somatic body parts from both sexes in addition to ovarioles and testes by PCR analysis of 2 B-specific molecular markers. We also elucidated the number of B chromosomes that an individual carried through quantifying the B-located rDNA copy number by qPCR. Our results indicated the amplification of both B-specific markers in all analyzed body parts. However, we found high variation between males for the estimated number of rDNA units in the B chromosomes. These results demonstrate the presence of B chromosomes in all body parts from the same individual and suggest a high variation in the rDNA content of the B chromosomes carried by different individuals from the same population, presumably due to unequal crossovers during meiosis., (© 2014 S. Karger AG, Basel.)

Published

2014

26. Spread of a new parasitic B chromosome variant is facilitated by high gene flow.

Author

Manrique-Poyato MI, López-León MD, Cabrero J, Perfectti F, and Camacho JP

Subjects

Animals, Female, Genetics, Population, Male, Microsatellite Repeats, Chromosomes, Insect, Gene Flow, Genetic Variation, Grasshoppers genetics

Abstract

The B24 chromosome variant emerged several decades ago in a Spanish population of the grasshopper Eyprepocnemis plorans and is currently reaching adjacent populations. Here we report, for the first time, how a parasitic B chromosome (a strictly vertically transmitted parasite) expands its geographical range aided by high gene flow in the host species. For six years we analyzed B frequency in several populations to the east and west of the original population and found extensive spatial variation, but only a slight temporal trend. The highest B24 frequency was found in its original population (Torrox) and it decreased closer to both the eastern and the western populations. The analysis of Inter Simple Sequence Repeat (ISSR) markers showed the existence of a low but significant degree of population subdivision, as well as significant isolation by distance (IBD). Pairwise Nem estimates suggested the existence of high gene flow between the four populations located in the Torrox area, with higher values towards the east. No significant barriers to gene flow were found among these four populations, and we conclude that high gene flow is facilitating B24 diffusion both eastward and westward, with minor role for B24 drive due to the arrival of drive suppressor genes which are also frequent in the donor population.

Published

2013

27. Ribosomal DNA is active in different B chromosome variants of the grasshopper Eyprepocnemis plorans.

Author

Ruíz-Estévez M, López-León MD, Cabrero J, and Camacho JP

Subjects

Animals, Genetic Speciation, Male, Nucleolus Organizer Region genetics, Population genetics, Chromosomes, Insect genetics, Genes, Insect, Genes, rRNA, Grasshoppers genetics, Polymorphism, Genetic

Abstract

B chromosomes are considered to be genetically inert elements. However, some of them are able to show nucleolus organizer region (NOR) activity, as detected by both cytological and molecular means. The grasshopper Eyprepocnemis plorans shows a B chromosome polymorphism characterized by the existence of many B variants. One of them, B24, shows NOR activity in about half of B-carrying males in the Torrox population. Molecular data have suggested the recent origin for B chromosomes in this species, and on this basis it would be expected that NOR activity was widespread among the different B variants. Here we test this hypothesis in four different B chromosome variants (B1, B2, B5, and B24) from 11 natural populations of the grasshopper E. plorans covering the south and east of the Iberian Peninsula plus the Balearic Islands. We used two different approaches: (1) the cytological observation of nucleoli attached to the distal region of the B chromosome (where the rDNA is located), and (2) the molecular detection of the rDNA transcripts carrying an adenine insertion characteristic of B chromosome ITS2 sequences. The results showed NOR expression not only for B24 but also for the B1 and B2 variants. However, the level of B-NOR expression in these latter variants, measured by the proportion of cells showing nucleoli attached to the B chromosomes, was much lower than that previously reported for B24. This suggests the possibility that structural or genetic background conditions are enhancing the expressivity of the rDNA in the B24 variant.

Published

2013

28. The Ku70 DNA-repair protein is involved in centromere function in a grasshopper species.

Author

Cabrero J, Bakkali M, Navarro-Domínguez B, Ruíz-Ruano FJ, Martín-Blázquez R, López-León MD, and Camacho JP

Abstract

The Ku70 protein is involved in numerous cell functions, the nonhomologous end joining (NHEJ) DNA repair pathway being the best known. Here, we report a novel function for this protein in the grasshopper Eyprepocnemis plorans. We observed the presence of large Ku70 foci on the centromeres of meiotic and mitotic chromosomes during the cell cycle stages showing the highest centromeric activity (i.e., metaphase and anaphase). The fact that colchicine treatment prevented centromeric location of Ku70, suggests a microtubule-dependent centromeric function for Ku70. Likewise, the absence of Ku70 at metaphase-anaphase centromeres from three males whose Ku70 gene had been knocked down using interference RNA, and the dramatic increase in the frequency of polyploid spermatids observed in these males, suggest that the centromeric presence of Ku70 is required for normal cytokinesis in this species. The centromeric function of Ku70 was not observed in 14 other grasshopper and locust species, or in the mouse, thus suggesting that it is an autapomorphy in E. plorans.

Published

2013

29. Population genetic structure of the grasshopper Eyprepocnemis plorans in the south and east of the Iberian Peninsula.

Author

Manrique-Poyato MI, López-León MD, Gómez R, Perfectti F, and Camacho JP

Subjects

Animals, Female, Genetic Markers, Genetics, Population, Male, Spain, Alleles, Chromosomes, Insect genetics, Gene Flow, Genes, Insect, Grasshoppers genetics

Abstract

The grasshopper Eyprepocnemis plorans subsp. plorans harbors a very widespread polymorphism for supernumerary (B) chromosomes which appear to have arisen recently. These chromosomes behave as genomic parasites because they are harmful for the individuals carrying them and show meiotic drive in the initial stages of population invasion. The rapid increase in B chromosome frequency at intrapopulation level is thus granted by meiotic drive, but its spread among populations most likely depends on interpopulation gene flow. We analyze here the population genetic structure in 10 natural populations from two regions (in the south and east) of the Iberian Peninsula. The southern populations were coastal whereas the eastern ones were inland populations located at 260-655 m altitude. The analysis of 97 ISSR markers revealed significant genetic differentiation among populations (average G(ST) = 0.129), and the Structure software and AMOVA indicated a significant genetic differentiation between southern and eastern populations. There was also significant isolation by distance (IBD) between populations. Remarkably, these results were roughly similar to those found when only the markers showing low or no dropout were included, suggesting that allelic dropout had negligible effects on population genetic analysis. We conclude that high gene flow helped this parasitic B chromosome to spread through most of the geographical range of the subspecies E. plorans plorans.

Published

2013

30. Gypsy, RTE and Mariner transposable elements populate Eyprepocnemis plorans genome.

Author

Montiel EE, Cabrero J, Camacho JP, and López-León MD

Subjects

Animals, Chromosomes genetics, DNA, Ribosomal chemistry, DNA, Satellite chemistry, In Situ Hybridization, Fluorescence, Species Specificity, DNA Transposable Elements, Genome, Insect, Grasshoppers genetics

Abstract

We analyze here the presence and abundance of three types of transposable elements (TEs), i.e. Gypsy, RTE and Mariner, in the genome of the grasshopper Eyprepocnemis plorans. PCR experiments allowed amplification, cloning and sequencing of these elements (EploGypI, EploRTE5, EploMar20) from the E. plorans genome. Fluorescent in situ hybridization (FISH) showed that all three elements are restricted to euchromatic regions, thus being absent from the pericentromeric region of all A chromosomes, which contain a satellite DNA (satDNA) and ribosomal DNA (rDNA), and being very scarce in B chromosomes mostly made up of these two types of repetitive DNA. FISH suggested that EploGypI is the most abundant and EploMar20 is the least abundant, with EploRTE5 showing intermediate abundance. An estimation of copy number, by means of quantitative PCR, showed that EploGypI is, by far, the most abundant element, followed by EploRTE5 and EploMar20, in consistency with FISH results. RNA isolation and PCR experiments on complementary DNA (cDNA) showed the presence of transcripts for the three TE elements. The implications of the preferential location of these TE elements into euchromatin, the significance of TE abundance in the giant genome of this species, and a possible relationship between TEs and B chromosome mutability, are discussed.

Published

2012

31. B-chromosome ribosomal DNA is functional in the grasshopper Eyprepocnemis plorans.

Author

Ruiz-Estévez M, López-León MD, Cabrero J, and Camacho JP

Subjects

Animals, Cell Nucleolus, DNA, Ribosomal Spacer, Female, Grasshoppers metabolism, Male, Transcription, Genetic, Chromosomes, Insect, DNA, Ribosomal genetics, Grasshoppers genetics

Abstract

B-chromosomes are frequently argued to be genetically inert elements, but activity for some particular genes has been reported, especially for ribosomal RNA (rRNA) genes whose expression can easily be detected at the cytological level by the visualization of their phenotypic expression, i.e., the nucleolus. The B(24) chromosome in the grasshopper Eyprepocnemis plorans frequently shows a nucleolus attached to it during meiotic prophase I. Here we show the presence of rRNA transcripts that unequivocally came from the B(24) chromosome. To detect these transcripts, we designed primers specifically anchoring at the ITS-2 region, so that the reverse primer was complementary to the B chromosome DNA sequence including a differential adenine insertion being absent in the ITS2 of A chromosomes. PCR analysis carried out on genomic DNA showed amplification in B-carrying males but not in B-lacking ones. PCR analyses performed on complementary DNA showed amplification in about half of B-carrying males. Joint cytological and molecular analysis performed on 34 B-carrying males showed a close correspondence between the presence of B-specific transcripts and of nucleoli attached to the B chromosome. In addition, the molecular analysis revealed activity of the B chromosome rDNA in 10 out of the 13 B-carrying females analysed. Our results suggest that the nucleoli attached to B chromosomes are actively formed by expression of the rDNA carried by them, and not by recruitment of nucleolar materials formed in A chromosome nucleolar organizing regions. Therefore, B-chromosome rDNA in E. plorans is functional since it is actively transcribed to form the nucleolus attached to the B chromosome. This demonstrates that some heterochromatic B chromosomes can harbour functional genes.

Published

2012

32. Evolutionary dynamics of 5S rDNA location in acridid grasshoppers and its relationship with H3 histone gene and 45S rDNA location.

Author

Cabral-de-Mello DC, Cabrero J, López-León MD, and Camacho JP

Subjects

Animals, Biological Evolution, Chromosome Mapping methods, Grasshoppers cytology, Greece, In Situ Hybridization, Fluorescence, Karyotyping, Male, Morocco, Multigene Family, Spain, Species Specificity, DNA, Ribosomal genetics, Grasshoppers genetics, Histones genetics, RNA, Ribosomal genetics, RNA, Ribosomal, 5S genetics

Abstract

We analyze the chromosomal location of 5S rDNA clusters in 29 species of grasshoppers belonging to the family Acrididae. There was extensive variation among species for the number and location of 5S rDNA sites. Out of 148 sites detected, 75% were proximally located, 21.6% were interstitial, and only 3.4% were distal. The number of 5S rDNA sites per species varied from a single chromosome pair (in six species) to all chromosome pairs (in five species), with a range of intermediate situations. Thirteen chromosomes from eight species carried two 5S rDNA clusters. At intraspecific level, differences among populations were detected in Eyprepocnemis plorans, and some heteromorphisms have also been observed in some species. Double FISH for 5S rDNA and H3 histone gene DNA, performed on 17 of these 29 species, revealed that both markers are sometimes placed in a same chromosome but at different location, whereas they appeared to co-localize in five species (Calliptamus barbarus, Heteracris adpersa, Aiolopus strepens, Oedipoda charpentieri and O. coerulescens). Double fiber-FISH in A. strepens and O. coerulescens showed that the two DNAs are closely interspersed with variable relative amounts of both classes of DNA. Finally, no correlation was observed between the number of 5S and 45S rDNA clusters in 23 species where this information was available. These results are discussed in the light of possible mechanisms of spread that led to the extensive variation in the number of clusters observed for both rDNA types in acridid grasshoppers.

Published

2011

33. Chromosome mapping of H3 and H4 histone gene clusters in 35 species of acridid grasshoppers.

Author

Cabrero J, López-León MD, Teruel M, and Camacho JP

Subjects

Animals, Chromosome Mapping, In Situ Hybridization, Fluorescence, Karyotyping, Species Specificity, Grasshoppers genetics, Histones genetics, Multigene Family genetics

Abstract

We analyse chromosome location of H3 and H4 histone gene clusters by fluorescence in-situ hybridization (FISH) in 35 species of Acrididae grasshoppers belonging to seven subfamilies. As in other organisms, H3 and H4 co-localized in the same chromosome region in the 11 species where double FISH was performed with the H3 and H4 DNA probes. Chromosome location of H3-H4 histone gene clusters showed high regularity in the species analysed, with all of them carrying a single H3-H4 cluster in an autosome which, in most cases, was located interstitially in the proximal chromosome third. In 17 out of the 21 species with 2n masculine = 23 acrocentric chromosomes, the H3-H4-carrying autosome was about eighth in order of decreasing size. Two of the four exceptions changed H3-H4 localization to proximal (Pezotettix giornae) or distal (Tropidopola graeca) in the eighth-sized autosome, but the remainder (the two Eyprepocnemis species) showed the H3-H4 cluster distally located in the second-sized autosome. All 14 species with 2n masculine = 17 chromosomes (including three long metacentric autosome pairs, five acrocentric autosome pairs and an acrocentric X chromosome) carried an interstitial H3-H4 cluster in the short arm of the smallest of the three long metacentric pairs. These results suggest that chromosome location of H3-H4 histone gene clusters seem to be highly conservative in Acrididae grasshoppers. The change in H3-H4 location from the acrocentric medium-sized autosome in the 2n masculine = 23 karyotype to the long metacentric autosome in the 2n masculine = 17 karyotype is most parsimoniously explained by common ancestry, i.e. by the involvement of the H3-H4-carrying acrocentric in the centric fusion that gave rise to the smallest of the three long metacentric autosomes of 2n masculine = 17 species.

Published

2009

34. Possible autosomal origin of macro B chromosomes in two grasshopper species.

Author

Loreto V, Cabrero J, López-León MD, Camacho JP, and Souza MJ

Subjects

Animals, Chromosomes chemistry, Female, Karyotyping, Male, Chromosomes physiology, Genetic Speciation, Grasshoppers genetics

Abstract

The acrocentric macro B chromosomes of Rhammatocerus brasiliensis (Acrididae, Gomphocerinae) and Xyleus discoideus angulatus (Romaleidae, Romaleinae) are highly similar to the X chromosome in each species in terms of morphology, size, and pycnosis. However, the results of FISH experiments using 45S and 5S rDNA probes suggest that in both species the B chromosomes are most likely of autosomal origin. In R. brasiliensis, the B chromosome presented 5S rDNA but not 45S rDNA, in resemblance to the L(2), L(3), M(5) and S(11) autosomes, but the X chromosome lacks both rDNA families. In X. d. angulatus, 45S rDNAs is absent from the B chromosome, whereas the X chromosome contains one of the two 45S rDNA clusters in the genome. The occurrence of B chromosomes in all nine R. brasiliensis populations analyzed indicates that they are widely distributed in Northeastern Brazil, and the small amount of interpopulation variation found for B chromosome prevalence suggests the existence of high gene flow, presumably due to the abundance of this grasshopper species on several types of vegetation and its relatively high flight capability.

Published

2008

35. Differences in ribosomal DNA distribution on A and B chromosomes between eastern and western populations of the grasshopper Eyprepocnemis plorans plorans.

Author

López-León MD, Cabrero J, Dzyubenko VV, Bugrov AG, Karamysheva TV, Rubtsov NB, and Camacho JP

Subjects

Animals, Male, Species Specificity, Chromosome Mapping, DNA, Ribosomal genetics, Grasshoppers genetics

Abstract

Distribution of ribosomal DNA (rDNA) on standard (A) and supernumerary (B) chromosomes of the grasshopper Eyprepocnemis plorans was analysed in specimens collected in Turkey and Armenia, belonging to the E. p. plorans subspecies, and in South Africa, belonging to the E. p. meridionalis subspecies. The latter individuals showed rDNA loci in chromosomes 9 and 11 only, whereas those from Armenia carried it in chromosomes 9 and 11 or else in chromosomes 9-11, depending on the population. The specimens from Turkey carried it in chromosomes 1, 9-11 and X. A comparison of this pattern with those previously observed in populations from Spain, Morocco, and Greece (belonging to E. p. plorans) suggests the existence of two evolutionary patterns in rDNA chromosome location in A chromosomes of this subspecies: eastern populations showing rDNA restricted to the small (9-11) chromosomes (as in E. p. meridionalis and other closely related taxa within the Eyprepocneminae subfamily) and western populations carrying rDNA in most A chromosomes (Spain) or all of them (Morocco). The intermediate pattern discerned in geographically intermediate populations (in Greece and Turkey), with rDNA also being located on the X chromosome, suggests a possible east-west cline. Additional support for east-west differentiation in the rDNA location pattern comes from the analysis of B chromosomes. In eastern populations, including Daghestan, Armenia, Turkey, and Greece, B chromosomes are composed mostly of rDNA, whereas in western populations (Spain and Morocco) they contain roughly similar amounts of rDNA and a 180-bp tandem repeat (satDNA), the latter being scarce in eastern Bs., (Copyright 2008 S. Karger AG, Basel.)

Published

2008

36. Comparative analysis of rDNA location in five Neotropical gomphocerine grasshopper species.

Author

Loreto V, Cabrero J, López-León MD, Camacho JP, and de Souza MJ

Subjects

Animals, Chromosomes chemistry, Chromosomes ultrastructure, Female, Grasshoppers chemistry, In Situ Hybridization, Fluorescence, Karyotyping, Male, Nucleolus Organizer Region chemistry, Silver Staining, DNA, Ribosomal analysis, Evolution, Molecular, Grasshoppers genetics, Nucleolus Organizer Region ultrastructure

Abstract

We report here, for the first time, the chromosome complement, number and location of the nucleolar organizer regions (NORs) revealed by silver staining (AgNO(3)) and fluorescent in situ hybridization (FISH) in five Neotropical gomphocerine species: Rhammatocerus brasiliensis, R. brunneri, R. palustris, R. pictus and Amblytropidia sp. The objective of this study was to summarize available data and propose a model of chromosome evolution in Neotropical gomphocerines. All five species studied showed chromosome numbers consisting of 2n = 23,X0 in males and 2n = 24,XX in females. Amblytropidia sp. was the only species showing a bivalent (M(8)) with megameric behavior during meiosis. The rDNA sites were restricted to autosomal pairs, i.e. the pericentromeric region of the S(9) chromosome, the consensus NOR location in all five species. R. brasiliensis was the only species showing additional NORs on M(4) and M(6) pairs which, likewise the S(9) NOR, were active in all cells analyzed. Comparison of these results with those reported previously in Palearctic gomphocerine species suggests higher resemblance of Neotropical species with the Old World species also possessing 23/24 chromosomes. Evolutionary mechanisms responsible for the observed interspecific variation in NOR location in this group are discussed.

Published

2008

37. Causes of B chromosome variant substitution in the grasshopper Eyprepocnemis plorans.

Author

Manrique-Poyato MI, Muñoz-Pajares AJ, Loreto V, López-León MD, Cabrero J, and Camacho JP

Subjects

Animals, Crosses, Genetic, Embryo, Nonmammalian cytology, Female, Genetics, Population, Male, Chromosomes, Genetic Variation, Grasshoppers genetics

Abstract

We have analysed B chromosome frequency for three consecutive years, B transmission rate at population and individual levels, clutch size, egg fertility and embryo-adult viability in a natural population of the grasshopper Eyprepocnemis plorans containing two different B chromosome variants, i.e. B(2) and B(24), the second being derived from the first and having replaced it in nearby populations. From 2002 to 2003 the relative frequency of both variants changed, although the differences did not reach significance. A mother-offspring analysis showed no significant effect of any of the two B variants on clutch size, egg fertility or embryo-adult viability, but B(24) was more efficiently transmitted than B(2) through males from the 2002 season, which explains the observed frequency change. Controlled crosses, at individual level, showed significant drive through some females for B(24) but not for B(2), suggesting that this difference in transmission rate might also be important for the substitution process. The analysis of relative fitness for B(2) and B(24) carriers for all fitness components, as a whole, showed a significantly better performance of B(24)-carrying individuals, suggesting that the cumulative effect of these slight differences might contribute to the replacement of B(2) by B(24).

Published

2006

38. catena-Poly[[[N-(4-amino-1,6-dihydro-1-methyl-5-nitroso-6-oxopyrimidin-2-yl)-(S)-glutamato]hexaaquabarium]-mu-N-(4-amino-1,6-dihydro-1-methyl-5-nitroso-6-oxopyrimidin-2-yl)-(S)-glutamato]: coordination polymer chains linked into a three-dimensional framework by N-H...O and O-H...O hydrogen bonds.

Author

López Garzón R, López León MD, Low JN, and Glidewell C

Abstract

In the title complex, [Ba(C10H12N5O6)2(H2O)6]n, the Ba atom is nine-coordinated by six water ligands and three carboxylate O atoms. The Ba2+ cations and the anionic glutamate ligands form coordination polymer chains, and these chains are linked by pairs of N-H...O hydrogen bonds and pairs of O-H...O hydrogen bonds to form a continuous three-dimensional framework of cations and anions, which is reinforced by hydrogen bonds involving the water molecules.

Published

2005

39. The odd-even effect in mitotically unstable B chromosomes in grasshoppers.

Author

Camacho JP, Perfectti F, Teruel M, López-León MD, and Cabrero J

Subjects

Animals, Germ Cells chemistry, Germ Cells metabolism, Male, Models, Statistical, Ploidies, Chromosomal Instability genetics, Chromosomes genetics, Grasshoppers genetics, Mitosis genetics

Abstract

The odd-even effect, by which B chromosomes are more detrimental in odd numbers, has been reported in plants and animals. In grasshoppers, there are only a few reports of this effect and all were referred to as traits related to the formation of aberrant meiotic products (AMPs). Here we review the existing information about B chromosome effects on AMPs, chiasma frequency and the number of active nucleolus organizer regions (NORs) per cell. Polysomy for A chromosomes and B chromosomes are two kinds of chromosome polymorphism frequently found in grasshoppers. In some aspects, e.g. meiotic behaviour and mitotic instability leading to individual mosaicism (in the case of mitotically unstable Bs), polysomic As show similar characteristics to B chromosomes. In fact, polysomy is regarded as one of the main mechanisms for B chromosome origin. Here we review some features of meiotic behaviour in known cases of polysomy and mitotically unstable Bs in grasshoppers, in looking for possible causes for the odd-even effect. In all these traits, the odd-even effect was apparent, although its appearance was not universal in any case, with variation among species or populations within the same species. The equational division and lagging of the extra chromosomes, when univalents, could favour the appearance of abnormal meiotic products, and the formation of bivalents, when there are two or more extra chromosomes, inhibits this process. Therefore, the odd-even effect might be a consequence of the concomitant operation of both aspects of extra chromosome meiotic behaviour. The possibility that the odd-even effect might result from an increase in cell stress generated by odd numbers is suggested., (Copyright 2004 S. Karger AG, Basel)

Published

2004

40. Rapid suppression of drive for a parasitic B chromosome.

Author

Perfectti F, Corral JM, Mesa JA, Cabrero J, Bakkali M, López-León MD, and Camacho JP

Subjects

Animals, Evolution, Molecular, Female, Genetics, Population, Grasshoppers genetics, Male, Chromosomes genetics, Meiosis genetics

Abstract

The persistence of parasitic B chromosomes in natural populations depends on both B ability to drive and host response to counteracting it. In the grasshopper Eyprepocnemis plorans, the B24 chromosome is the most widespread B chromosome variant in the Torrox area (Málaga, Spain). Its evolutionary success, replacing its ancestral neutralized B variant, B2, was based on meiotic drive in females, as we showed in a sample caught in 1992. In females collected six years later, mean B24 transmission ratio (k(B)) was 0.523, implying a very rapid decrease from the 0.696 observed in 1992. This shows that B24 neutralization is running very fast and suggests that it might most likely be based on a single gene of major effect., (Copyright 2004 S. Karger AG, Basel)

Published

2004

41. Multiregional origin of B chromosomes in the grasshopper Eyprepocnemis plorans.

Author

Cabrero J, Bakkali M, Bugrov A, Warchalowska-Sliwa E, López-León MD, Perfectti F, and Camacho JP

Subjects

Animals, DNA Primers, DNA, Ribosomal genetics, DNA, Satellite genetics, Geography, In Situ Hybridization, Fluorescence, Male, Russia, Sequence Analysis, DNA, Spain, Species Specificity, Chromosome Mapping, Chromosomes genetics, Evolution, Molecular, Grasshoppers genetics

Abstract

Analysis of chromosome localization of three molecular markers, 18S-5.8S-28S rDNA, 5S rDNA and a 180 bp satDNA, showed that B chromosomes in the grasshopper Eyprepocnemis plorans originated independently in Eastern (Caucasus) and Western (Spain and Morocco) populations. Eastern B chromosomes are most likely derived from the smallest autosome, which is the only A chromosome carrying the three markers, in coincidence with Caucasian B chromosomes. Western B chromosomes, however, lack 5S rDNA and are most likely derived from the X chromosome, which is the only A chromosome carrying the two remaining markers, always in the same order with respect to the centromere, as the B chromosome.

Published

2003

42. Comparative FISH analysis in five species of Eyprepocnemidine grasshoppers.

Author

Cabrero J, Bugrov A, Warchałowska-Sliwa E, López-León MD, Perfectti F, and Camacho JP

Subjects

Animals, DNA, Ribosomal, Female, In Situ Hybridization, Fluorescence, Male, Microsatellite Repeats, Cytogenetic Analysis, Grasshoppers genetics

Abstract

The chromosomal localization of ribosomal DNA, and a 180 bp satellite DNA isolated from Spanish Eyprepocnemis plorans specimens, has been analysed in five Eyprepocnemidinae species collected in Russia and Central Asia. Caucasian E. plorans individuals carried each of the two DNAs, but the rDNA was limited to only two chromosomes (S(9) and S(11)) in sharp contrast to Spanish specimens that show 4-8 rDNA clusters and to Moroccan specimens which carry rDNA in almost all chromosomes. The four remaining species, however, lacked the 180 bp tandem repeat, and showed rDNA clusters in one (S(9) in Thisoicetrinus pterostichus), two (S(9) and S(10) in Eyprepocnemis unicolor; M(8) and S(11) in Heteracris adspersa), or three (S(9), S(10), and S(11) in Shirakiacris shirakii) chromosome pairs. The implications of these findings for the evolution of these two chromosome markers in this group of species are discussed.

Published

2003

43. Population variation in the A chromosome distribution of satellite DNA and ribosomal DNA in the grasshopper Eyprepocnemis plorans.

Author

Cabrero J, Perfectti F, Gómez R, Camacho JP, and López-León MD

Subjects

Animals, Geography, In Situ Hybridization, Fluorescence, Spain, Species Specificity, Chromosome Mapping, DNA, Ribosomal genetics, DNA, Satellite genetics, Genetic Variation, Grasshoppers genetics

Abstract

The double FISH analysis of two repetitive DNAs (a satellite DNA and ribosomal DNA) in 12 natural populations of the grasshopper Eyprepocnemis plorans collected at the south (Granada and Málaga provinces) and south-east (Albacete and Murcia provinces) of the Iberian Peninsula has shown their wide-spread presence throughout the whole genome as well as extensive variation among populations. Both DNAs are found in most A chromosomes. Regularly, both DNAs occurred in the S11 and X chromosomes, rDNA in the S10 and satDNA in the L2 and M3. No correlation was found between the number of satDNA and rDNA clusters in the A genomes of the 12 populations analysed, and both figures were independent of the presence of B chromosomes. The genomic distribution of both DNAs showed no association with the geographical localization of the populations analysed. Finally, we provide evidence that the supernumerary chromosome segment proximally located on the S11 chromosome is, in most cases, the result of satDNA amplification but, in some cases, it might also derive from amplification of both satDNA and rDNA.

Published

2003

44. The B chromosomes of the grasshopper Eyprepocnemis plorans and the intragenomic conflict.

Author

Camacho JP, Cabrero J, López-León MD, Bakkali M, and Perfectti F

Subjects

Animals, Evolution, Molecular, Gene Frequency, Models, Genetic, Tandem Repeat Sequences, Chromosomes genetics, Grasshoppers genetics, Polymorphism, Genetic genetics

Abstract

The grasshopper Eyprepocnemis plorans harbours an extremely widespread polymorphism for supernumerary (B) chromosomes, which is found in almost all circum-Mediterranean and Caucasian populations hitherto analysed. B chromosomes in this species have been shown to evolve through several stages of parasitic and near-neutral nature, presumably because of an arms race between the standard (A) and B chromosomes. This intragenomic conflict can either be solved with the extinction of the neutralised B chromosome or, more interestingly, with the replacement of the neutralised B by a mutant version being parasitic again and thus prolonging B chromosome life. This species thus provides a complete view of the long-term life-cycle of parasitic B chromosomes.

Published

2003

45. Host recombination is dependent on the degree of parasitism.

Author

Camacho JP, Bakkali M, Corral JM, Cabrero J, López-León MD, Aranda I, Martín-Alganza A, and Perfectti F

Subjects

Animals, Female, Genetic Variation, Host-Parasite Interactions, Male, Parasites genetics, Polymorphism, Genetic, Selection, Genetic, Adaptation, Physiological, Biological Evolution, Grasshoppers genetics, Grasshoppers parasitology, Parasites physiology, Recombination, Genetic

Abstract

Parasites and hosts are involved in a continuous coevolutionary process leading to genetic changes in both counterparts. To understand this process, it is necessary to track host responses, one of which could be an increase in sex and recombination, such as is proposed by the Red Queen hypothesis. In this theoretical framework, the inducible recombination hypothesis states that B-chromosomes (genome parasites that prosper in natural populations of many living beings) elicit an increase in host chiasma frequency that is favoured by natural selection because it increases the proportion of recombinant progeny, some of which could be resistant to both B-chromosome effects and B-accumulation in the germline. We have found a clear parallelism between host recombination and the evolutionary status of the B-chromosome polymorphism, which provides explicit evidence for inducible recombination and strong support for the Red Queen hypothesis.

Published

2002

46. Population differences in the expression of nucleolus organizer regions in the grasshopper Eyprepocnemis plorans.

Author

Bakkali M, Cabrero J, López-León MD, Perfectti F, and Camacho JP

Subjects

Animals, Cell Nucleus genetics, Cell Nucleus metabolism, Chromosomes genetics, Chromosomes ultrastructure, Female, Grasshoppers embryology, Grasshoppers ultrastructure, In Situ Hybridization, Fluorescence, Male, Nucleolus Organizer Region genetics, Spermatocytes cytology, Chromosomes metabolism, Genes, rRNA, Grasshoppers genetics, Nucleolus Organizer Region metabolism

Abstract

Fluorescence in situ hybridization revealed the presence of ribosomal RNA genes in paracentromeric regions of all A chromosomes and in the distal half of B chromosomes in embryonic cells from Moroccan specimens of the grasshopper Eyprepocnemis plorans. The expression of these genes was monitored by the presence of nucleoli attached to each chromosome bivalent in diplotene cells from males collected from two different Moroccan populations and was compared to previous data of Spanish populations. Whereas only the nucleolus organizer regions (NORs) on S9-S11 and X chromosomes were active in the Spanish specimens, Moroccan individuals showed NOR activity in all chromosomes. The rRNA genes on the B chromosome were inactive in both populations. The S9 and S10 NORs were less active in Moroccan specimens than in Spanish specimen, which might be partly explained by the negative inter-dependence for expression of the S10 NOR with respect to those on L2 and X chromosomes. On the other hand, the X NOR was more active in Moroccan specimens than in Spanish specimens, and this might be partly due to the positive effect that the presence of B chromosomes has on the expression of this NOR. The implications of these observations on current models of NOR activity regulation are discussed.

Published

2001

47. Erratum.

Author

Camacho JPM, Shaw MW, López-León MD, Pardo MC, and Cabrero J

Published

2000

48. Fitness effect analysis of a heterochromatic supernumerary segment in the grasshopper Eyprepocnemis plorans.

Author

Perfectti F, Cabrero J, López-León MD, Muñoz E, Pardo MC, and Camacho JP

Subjects

Analysis of Variance, Animals, Female, Male, Models, Genetic, Models, Statistical, Polymorphism, Genetic, Population Dynamics, Fertility genetics, Grasshoppers genetics, Heterochromatin ultrastructure

Abstract

Several components of fitness were analysed in relation to the presence of a supernumerary chromosome segment (SCS) in two natural populations of the grasshopper Eyprepocnemis plorans, including clutch size, egg fertility, egg and embryo productivity and survivability from embryo to adult, and SCS transmission through males. The results have shown the absence of a significant relationship between SCS presence and these fitness components, with the single exception of egg fertility which decreases significantly in SCS females with mating shortage. This fertility decrease is thus expected to be relevant for the population dynamics of the SCS only in low-density populations, those in which it is difficult for females to find a male to copulate with before each egg-batch is ready to be laid. The analysis of the SCS transmission through males showed no significant differences between expected and observed SCS frequencies. The SCS polymorphism seems to be at a status close to neutrality in respect to fitness, but its slight disadvantage in transmission through females carrying B chromosomes predicts that the polymorphism should tend to disappear, unless SCS recurrent amplification, or another undiscovered force, counteracts this tendency.

Published

2000

49. Unusually high amount of inactive ribosomal DNA in the grasshopper Stauroderus scalaris.

Author

López-León MD, Cabrero J, and Camacho JP

Subjects

Animals, In Situ Hybridization, Fluorescence, Male, DNA, Ribosomal, Genes, Insect, Grasshoppers genetics

Abstract

Fluorescence in-situ hybridization (FISH) was employed to determine the chromosomal location of the ribosomal DNA cistrons in spermatocytes of two populations of the grasshopper Stauroderus scalaris. The results showed that paracentromeric C-bands, which in this species constitute about 50% of the total chromatin, contain substantial amounts of rDNA in all chromosomes. However, silver impregnation showed the presence of a single active nucleolus organizing region (NOR) in chromosome 3 of primary spermatocytes, indicating an extremely high amount of silent rDNA across the whole genome of this species in the two geographically distant populations analysed. The significance of such an unusual phenomenon is discussed.

Published

1999

50. POLYMORPHISM REGENERATION FOR A NEUTRALIZED SELFISH B CHROMOSOME.

Author

Zurita S, Cabrero J, López-León MD, and Camacho JPM

Abstract

Long-run evolution of B chromosomes is mainly made up by an evolutionary arms race between these selfish genetic elements and the standard genome. The suppression of B drive is one of the clearest expressions of genome defense against B chromosomes. After drive neutralization, the B is condemned to extinction unless a new variant showing drive can emerge and replace it. This paper reports the first empirical evidence for the substitution of a neutralized B variant by a new selfish B variant. Such a polymorphism regeneration has recently taken place in a natural population of the grasshopper Eyprepocnemis plorans., (© 1998 The Society for the Study of Evolution.)

Published

1998