Your search keyword '"Petr Nguyen"' showing total 43 results

1. Genome sequence and silkomics of the spindle ermine moth, Yponomeuta cagnagella, representing the early diverging lineage of the ditrysian Lepidoptera

Author

Anna Volenikova, Petr Nguyen, Peter Davey, Hana Sehadova, Barbara Kludkiewicz, Petr Koutecky, James R. Walters, Peter Roessingh, Irena Provaznikova, Michal Sery, Martina Zurovcova, Miluse Hradilova, Lenka Rouhova, and Michal Zurovec

Subjects

Biology (General), QH301-705.5

Abstract

The major genes involved in silk production in the spindle ermine moth are sequenced and annotated.

Published

2022

2. Large-scale comparative analysis of cytogenetic markers across Lepidoptera

Author

Irena Provazníková, Martina Hejníčková, Sander Visser, Martina Dalíková, Leonela Z. Carabajal Paladino, Magda Zrzavá, Anna Voleníková, František Marec, and Petr Nguyen

Subjects

Medicine, Science

Abstract

Abstract Fluorescence in situ hybridization (FISH) allows identification of particular chromosomes and their rearrangements. Using FISH with signal enhancement via antibody amplification and enzymatically catalysed reporter deposition, we evaluated applicability of universal cytogenetic markers, namely 18S and 5S rDNA genes, U1 and U2 snRNA genes, and histone H3 genes, in the study of the karyotype evolution in moths and butterflies. Major rDNA underwent rather erratic evolution, which does not always reflect chromosomal changes. In contrast, the hybridization pattern of histone H3 genes was well conserved, reflecting the stable organisation of lepidopteran genomes. Unlike 5S rDNA and U1 and U2 snRNA genes which we failed to detect, except for 5S rDNA in a few representatives of early diverging lepidopteran lineages. To explain the negative FISH results, we used quantitative PCR and Southern hybridization to estimate the copy number and organization of the studied genes in selected species. The results suggested that their detection was hampered by long spacers between the genes and/or their scattered distribution. Our results question homology of 5S rDNA and U1 and U2 snRNA loci in comparative studies. We recommend the use of histone H3 in studies of karyotype evolution.

Published

2021

3. Evolutionary pattern of karyotypes and meiosis in pholcid spiders (Araneae: Pholcidae): implications for reconstructing chromosome evolution of araneomorph spiders

Author

Ivalú M. Ávila Herrera, Jiří Král, Markéta Pastuchová, Martin Forman, Jana Musilová, Tereza Kořínková, František Šťáhlavský, Magda Zrzavá, Petr Nguyen, Pavel Just, Charles R. Haddad, Matyáš Hiřman, Martina Koubová, David Sadílek, and Bernhard A. Huber

Subjects

Achiasmatic pairing, Diffuse stage, Entelegyne, Haplogyne, Inactivation, rDNA, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract Background Despite progress in genomic analysis of spiders, their chromosome evolution is not satisfactorily understood. Most information on spider chromosomes concerns the most diversified clade, entelegyne araneomorphs. Other clades are far less studied. Our study focused on haplogyne araneomorphs, which are remarkable for their unusual sex chromosome systems and for the co-evolution of sex chromosomes and nucleolus organizer regions (NORs); some haplogynes exhibit holokinetic chromosomes. To trace the karyotype evolution of haplogynes on the family level, we analysed the number and morphology of chromosomes, sex chromosomes, NORs, and meiosis in pholcids, which are among the most diverse haplogyne families. The evolution of spider NORs is largely unknown. Results Our study is based on an extensive set of species representing all major pholcid clades. Pholcids exhibit a low 2n and predominance of biarmed chromosomes, which are typical haplogyne features. Sex chromosomes and NOR patterns of pholcids are diversified. We revealed six sex chromosome systems in pholcids (X0, XY, X1X20, X1X2X30, X1X2Y, and X1X2X3X4Y). The number of NOR loci ranges from one to nine. In some clades, NORs are also found on sex chromosomes. Conclusions The evolution of cytogenetic characters was largely derived from character mapping on a recently published molecular phylogeny of the family. Based on an extensive set of species and mapping of their characters, numerous conclusions regarding the karyotype evolution of pholcids and spiders can be drawn. Our results suggest frequent autosome–autosome and autosome–sex chromosome rearrangements during pholcid evolution. Such events have previously been attributed to the reproductive isolation of species. The peculiar X1X2Y system is probably ancestral for haplogynes. Chromosomes of the X1X2Y system differ considerably in their pattern of evolution. In some pholcid clades, the X1X2Y system has transformed into the X1X20 or XY systems, and subsequently into the X0 system. The X1X2X30 system of Smeringopus pallidus probably arose from the X1X20 system by an X chromosome fission. The X1X2X3X4Y system of Kambiwa probably evolved from the X1X2Y system by integration of a chromosome pair. Nucleolus organizer regions have frequently expanded on sex chromosomes, most probably by ectopic recombination. Our data suggest the involvement of sex chromosome-linked NORs in achiasmatic pairing.

Published

2021

4. A conserved role of the duplicated Masculinizer gene in sex determination of the Mediterranean flour moth, Ephestia kuehniella.

Author

Sander Visser, Anna Voleníková, Petr Nguyen, Eveline C Verhulst, and František Marec

Subjects

Genetics, QH426-470

Abstract

Sex determination in the silkworm, Bombyx mori, is based on Feminizer (Fem), a W-linked Fem piRNA that triggers female development in WZ individuals, and the Z-linked Masculinizer (Masc), which initiates male development and dosage compensation in ZZ individuals. While Fem piRNA is missing in a close relative of B. mori, Masc determines sex in several representatives of distant lepidopteran lineages. We studied the molecular mechanisms of sex determination in the Mediterranean flour moth, Ephestia kuehniella (Pyralidae). We identified an E. kuehniella Masc ortholog, EkMasc, and its paralog resulting from a recent duplication, EkMascB. Both genes are located on the Z chromosome and encode a similar Masc protein that contains two conserved domains but has lost the conserved double zinc finger domain. We developed PCR-based genetic sexing and demonstrated a peak in the expression of EkMasc and EkMascB genes only in early male embryos. Simultaneous knock-down experiments of both EkMasc and EkMascB using RNAi during early embryogenesis led to a shift from male- to female-specific splicing of the E. kuehniella doublesex gene (Ekdsx), their downstream effector, in ZZ embryos and resulted in a strong female-biased sex-ratio. Our results thus confirmed the conserved role of EkMasc and/or EkMascB in masculinization. We suggest that the C-terminal proline-rich domain, we have identified in all functionally confirmed Masc proteins, in conjunction with the masculinizing domain, is important for transcriptional regulation of sex determination in Lepidoptera. The function of the Masc double zinc finger domain is still unknown, but appears to have been lost in E. kuehniella.

Published

2021

5. A chromosome-level genome assembly of Cydia pomonella provides insights into chemical ecology and insecticide resistance

Author

Fanghao Wan, Chuanlin Yin, Rui Tang, Maohua Chen, Qiang Wu, Cong Huang, Wanqiang Qian, Omar Rota-Stabelli, Nianwan Yang, Shuping Wang, Guirong Wang, Guifen Zhang, Jianyang Guo, Liuqi (Aloy) Gu, Longfei Chen, Longsheng Xing, Yu Xi, Feiling Liu, Kejian Lin, Mengbo Guo, Wei Liu, Kang He, Ruizheng Tian, Emmanuelle Jacquin-Joly, Pierre Franck, Myriam Siegwart, Lino Ometto, Gianfranco Anfora, Mark Blaxter, Camille Meslin, Petr Nguyen, Martina Dalíková, František Marec, Jérôme Olivares, Sandrine Maugin, Jianru Shen, Jinding Liu, Jinmeng Guo, Jiapeng Luo, Bo Liu, Wei Fan, Likai Feng, Xianxin Zhao, Xiong Peng, Kang Wang, Lang Liu, Haixia Zhan, Wanxue Liu, Guoliang Shi, Chunyan Jiang, Jisu Jin, Xiaoqing Xian, Sha Lu, Mingli Ye, Meizhen Li, Minglu Yang, Renci Xiong, James R. Walters, and Fei Li

Subjects

Science

Abstract

The codling moth, Cydia pomonella, is one of the major pests of pome fruit (apples and pears) and walnuts. Here, the authors sequence and analyze its genome, providing insights on olfactory and detoxification processes that may underlie its worldwide expansion.

Published

2019

6. Neo-sex Chromosomes in the Monarch Butterfly, Danaus plexippus

Author

Andrew J. Mongue, Petr Nguyen, Anna Voleníková, and James R. Walters

Subjects

sex chromosomes, evolution, Lepidoptera, genomics, chromosomal fusion, Genetics, QH426-470

Abstract

We report the discovery of a neo-sex chromosome in the monarch butterfly, Danaus plexippus, and several of its close relatives. Z-linked scaffolds in the D. plexippus genome assembly were identified via sex-specific differences in Illumina sequencing coverage. Additionally, a majority of the D. plexippus genome assembly was assigned to chromosomes based on counts of one-to-one orthologs relative to the butterfly Melitaea cinxia (with replication using two other lepidopteran species), in which genome scaffolds have been mapped to linkage groups. Sequencing coverage-based assessments of Z linkage combined with homology-based chromosomal assignments provided strong evidence for a Z-autosome fusion in the Danaus lineage, involving the autosome homologous to chromosome 21 in M. cinxia. Coverage analysis also identified three notable assembly errors resulting in chimeric Z-autosome scaffolds. Cytogenetic analysis further revealed a large W chromosome that is partially euchromatic, consistent with being a neo-W chromosome. The discovery of a neo-Z and the provisional assignment of chromosome linkage for >90% of D. plexippus genes lays the foundation for novel insights concerning sex chromosome evolution in this female-heterogametic model species for functional and evolutionary genomics.

Published

2017

7. Correction to: Evolutionary pattern of karyotypes and meiosis in pholcid spiders (Araneae: Pholcidae): implications for reconstructing chromosome evolution of araneomorph spiders

Author

Ivalú M. Ávila Herrera, Jiří Král, Markéta Pastuchová, Martin Forman, Jana Musilová, Tereza Kořínková, František Šťáhlavský, Magda Zrzavá, Petr Nguyen, Pavel Just, Charles R. Haddad, Matyáš Hiřman, Martina Koubová, David Sadílek, and Bernhard A. Huber

Subjects

Ecology, QH540-549.5, Evolution, QH359-425

Abstract

An amendment to this paper has been published and can be accessed via the original article.

Published

2021

8. Novel resistance to Cydia pomonella granulovirus (CpGV) in codling moth shows autosomal and dominant inheritance and confers cross-resistance to different CpGV genome groups.

Author

Annette J Sauer, Eva Fritsch, Karin Undorf-Spahn, Petr Nguyen, Frantisek Marec, David G Heckel, and Johannes A Jehle

Subjects

Medicine, Science

Abstract

Commercial Cydia pomonella granulovirus (CpGV) products have been successfully applied to control codling moth (CM) in organic and integrated fruit production for more than 30 years. Since 2005, resistance against the widely used isolate CpGV-M has been reported from different countries in Europe. The inheritance of this so-called type I resistance is dominant and linked to the Z chromosome. Recently, a second form (type II) of CpGV resistance in CM was reported from a field population (NRW-WE) in Germany. Type II resistance confers reduced susceptibility not only to CpGV-M but to most known CpGV isolates and it does not follow the previously described Z-linked inheritance of type I resistance. To further analyze type II resistance, two CM strains, termed CpR5M and CpR5S, were generated from parental NRW-WE by repeated mass crosses and selection using the two isolates CpGV-M and CpGV-S, respectively. Both CpR5M and CpR5S were considered to be genetically homogeneous for the presence of the resistance allele(s). By crossing and backcrossing experiments with a susceptible CM strain, followed by resistance testing of the offspring, an autosomal dominant inheritance of resistance was elucidated. In addition, cross-resistance to CpGV-M and CpGV-S was detected in both strains, CpR5M and CpR5S. To test the hypothesis that the autosomal inheritance of type II resistance was caused by a large interchromosomal rearrangement involving the Z chromosome, making type I resistance appear to be autosomal in these strains; fluorescence in situ hybridization with bacterial artificial chromosome probes (BAC-FISH) was used to physically map the Z chromosomes of different CM strains. Conserved synteny of the Z-linked genes in CpR5M and other CM strains rejects this hypothesis and argues for a novel genetic and functional mode of resistance in CM populations with type II resistance.

Published

2017

9. Chromosomal evolution in tortricid moths: conserved karyotypes with diverged features.

Author

Jindra Síchová, Petr Nguyen, Martina Dalíková, and František Marec

Subjects

Medicine, Science

Abstract

Moths of the family Tortricidae constitute one of the major microlepidopteran groups in terms of species richness and economic importance. Yet, despite their overall significance, our knowledge of their genome organization is very limited. In order to understand karyotype evolution in the family Tortricidae, we performed detailed cytogenetic analysis of Grapholita molesta, G. funebrana, Lobesia botrana, and Eupoecilia ambiguella, representatives of two main tortricid subfamilies, Olethreutinae and Tortricinae. Besides standard cytogenetic methods, we used fluorescence in situ hybridization for mapping of major rRNA and histone gene clusters and comparative genomic hybridization to determine the level of molecular differentiation of the W and Z sex chromosomes. Our results in combination with available data in the codling moth, Cydia pomonella, and other tortricids allow us a comprehensive reconstruction of chromosomal evolution across the family Tortricidae. The emerging picture is that the karyotype of a common ancestor of Tortricinae and Olethreutinae differentiated from the ancestral lepidopteran chromosome print of n = 31 by a sex chromosome-autosome fusion. This rearrangement resulted in a large neo-sex chromosome pair and a karyotype with n = 30 conserved in most Tortricinae species, which was further reduced to n = 28 observed in Olethreutinae. Comparison of the tortricid neo-W chromosomes showed differences in their structure and composition presumably reflecting stochasticity of molecular degeneration of the autosomal part of the neo-W chromosome. Our analysis also revealed conservative pattern of the histone distribution, which is in contrast with high rDNA mobility. Despite the dynamic evolution of rDNA, we can infer a single NOR-chromosome pair as an ancestral state not only in tortricids but probably in all Lepidoptera. The results greatly expand our knowledge of the genome architecture in tortricids, but also contribute to the understanding of chromosomal evolution in Lepidoptera in general.

Published

2013

10. Formation of hemiclonal reproduction and hybridogenesis inPelophylax waterfrogs studied with species-specific cytogenomic probes

Author

Lukáš, Choleva, primary, Marie, Doležálková-Kaštánková, additional, Veronika, Labajová, additional, Alexandr, Sember, additional, Marie, Altmanová, additional, Karolína, Lukšíková, additional, Anna, Chung Voleníková, additional, Martina, Dalíková, additional, Petr, Nguyen, additional, Eleonora, Pustovalova, additional, Anna, Fedorova, additional, and Dedukh, Dmitrij, additional

Published

2023

11. Sex chromosome differentiation via changes in the Y chromosome repeat landscape in African annual killifishes Nothobranchius furzeri and N. kadleci

Author

Jana Štundlová, Monika Hospodářská, Karolína Lukšíková, Anna Voleníková, Tomáš Pavlica, Marie Altmanová, Annekatrin Richter, Martin Reichard, Martina Dalíková, Šárka Pelikánová, Anatolie Marta, Sergey A. Simanovsky, Matyáš Hiřman, Marek Jankásek, Tomáš Dvořák, Joerg Bohlen, Petr Ráb, Christoph Englert, Petr Nguyen, and Alexandr Sember

Subjects

African People, Evolution, Molecular, Comparative Genomic Hybridization, Sex Chromosomes, Killifishes, Fundulidae, Y Chromosome, Genetics, Animals, Humans, In Situ Hybridization, Fluorescence

Abstract

Homomorphic sex chromosomes and their turnover are common in teleosts. We investigated the evolution of nascent sex chromosomes in several populations of two sister species of African annual killifishes, Nothobranchius furzeri and N. kadleci, focusing on their under-studied repetitive landscape. We combined bioinformatic analyses of the repeatome with molecular cytogenetic techniques, including comparative genomic hybridization, fluorescence in situ hybridization with satellite sequences, ribosomal RNA genes (rDNA) and bacterial artificial chromosomes (BACs), and immunostaining of SYCP3 and MLH1 proteins to mark lateral elements of synaptonemal complexes and recombination sites, respectively. Both species share the same heteromorphic XY sex chromosome system, which thus evolved prior to their divergence. This was corroborated by sequence analysis of a putative master sex determining (MSD) gene gdf6Y in both species. Based on their divergence, differentiation of the XY sex chromosome pair started approximately 2 million years ago. In all populations, the gdf6Y gene mapped within a region rich in satellite DNA on the Y chromosome long arms. Despite their heteromorphism, X and Y chromosomes mostly pair regularly in meiosis, implying synaptic adjustment. In N. kadleci, Y-linked paracentric inversions like those previously reported in N. furzeri were detected. An inversion involving the MSD gene may suppress occasional recombination in the region, which we otherwise evidenced in the N. furzeri population MZCS-121 of the Limpopo clade lacking this inversion. Y chromosome centromeric repeats were reduced compared with the X chromosome and autosomes, which points to a role of relaxed meiotic drive in shaping the Y chromosome repeat landscape. We speculate that the recombination rate between sex chromosomes was reduced due to heterochiasmy. The observed differences between the repeat accumulations on the X and Y chromosomes probably result from high repeat turnover and may not relate closely to the divergence inferred from earlier SNP analyses.

Published

2022

12. Multiple sex chromosomes ofYponomeutaermine moths suggest a role of sexual antagonism in sex chromosome turnover in Lepidoptera

Author

Irena, Provazníková, primary, Martina, Dalíková, additional, Anna, Voleníková, additional, Peter, Roessingh, additional, Ken, Sahara, additional, Jan, Provazník, additional, František, Marec, additional, and Petr, Nguyen, additional

Published

2023

13. The role of repetitive sequences in re-patterning of major rDNA clusters in Lepidoptera

Author

Martina Dalíková, Irena Provazníková, Jan Provazník, Patrick Grof-Tisza, Adam Pepi, and Petr Nguyen

Subjects

Genetics, Ecology, Evolution, Behavior and Systematics

Abstract

Genes for major ribosomal RNAs (rDNA) are present in multiple copies mainly organized in tandem arrays. Number and position of rDNA loci can change dynamically and their re-patterning is presumably driven by other repetitive sequences. We explored a peculiar rDNA organization in several representatives of Lepidoptera with either extremely large or numerous rDNA clusters. We combined molecular cytogenetics with analyses of second and third generation sequencing data to show that rDNA spreads as a transcription unit and reveal association between rDNA and various repeats. Furthermore, we performed comparative long read analyses among the species with derived rDNA distribution and moths with a single rDNA locus, which is considered ancestral. Our results suggest that satellite arrays, rather than mobile elements, facilitate homology-mediated spread of rDNA via either integration of extrachromosomal rDNA circles or ectopic recombination. The latter arguably better explains preferential spread of rDNA into terminal regions of lepidopteran chromosomes as efficiency of ectopic recombination depends on proximity of homologous sequences to telomeres.

Published

2023

14. Fast centromeric repeat turnover provides a glimpse into satellite DNA evolution in Nothobranchius annual killifishes

Author

Anna Volenikova, Karolina Luksikova, Pablo Mora, Tomas Pavlica, Marie Altmanova, Jana Stundlova, Sarka Pelikanova, Sergey A. Simanovsky, Marek Jankasek, Martin Reichard, Petr Nguyen, and Alexandr Sember

Abstract

Satellite DNA (satDNA) is rapidly evolving class of tandem repeats with some motifs being involved in centromere organization and function. Rapid co-evolution of centromeric satDNA and associated proteins has been mostly attributed to the so-called centromere drive. To identify repeats associated with centromeric regions and test for the role of meiotic drive in their evolution, we investigated satDNA across Southern and Coastal clades of African annual killifishes of the genus Nothobranchius. C-banding showed expansion of (peri)centromeric heterochromatin regions in the Southern-clade killifishes. Molecular cytogenetic and bioinformatic analyses further revealed that two previously identified satellites, Nfu-SatA and Nfu-SatB, are associated with centromeres only in one lineage of the Southern clade. Nfu-SatB was, however, detected outside centromeres also in other members of the Coastal clade, which is consistent with the "library" hypothesis of satDNA evolution. We also identified a novel satDNA, Cl-36, associated with (peri)centromeres in N. foerschi, N. guentheri and N. rubripinnis from the Coastal clade. Our findings could be explained by centromere drive shaping karyotype change and centromeric repeat turnover in Nothobranchius species with possible reversal of spindle polarity within the Southern clade.

Published

2023

15. Large-scale comparative analysis of cytogenetic markers across Lepidoptera

Author

Leonela Zusel Carabajal Paladino, Martina Dalíková, Anna Voleníková, František Marec, Irena Provazníková, Magda Zrzavá, Martina Hejníčková, Petr Nguyen, Sander Visser, and Evolutionary Genetics, Development & Behaviour

Subjects

0106 biological sciences, 0301 basic medicine, medicine.medical_specialty, Science, Evolutionary biology, Moths, Biology, DNA, Ribosomal, 010603 evolutionary biology, 01 natural sciences, Genome, Article, Homology (biology), Evolution, Molecular, Cytogenetics, 03 medical and health sciences, Histone H3, RNA, Small Nuclear, RNA, Ribosomal, 18S, medicine, Animals, Gene, In Situ Hybridization, Fluorescence, Southern blot, Genetics, Multidisciplinary, medicine.diagnostic_test, RNA, Ribosomal, 5S, Chromosome Mapping, Karyotype, 030104 developmental biology, Cytogenetic Analysis, Genetic markers, Medicine, Butterflies, Fluorescence in situ hybridization

Abstract

Fluorescence in situ hybridization (FISH) allows identification of particular chromosomes and their rearrangements. Using FISH with signal enhancement via antibody amplification and enzymatically catalysed reporter deposition, we evaluated applicability of universal cytogenetic markers, namely 18S and 5S rDNA genes, U1 and U2 snRNA genes, and histone H3 genes, in the study of the karyotype evolution in moths and butterflies. Major rDNA underwent rather erratic evolution, which does not always reflect chromosomal changes. In contrast, the hybridization pattern of histone H3 genes was well conserved, reflecting the stable organisation of lepidopteran genomes. Unlike 5S rDNA and U1 and U2 snRNA genes which we failed to detect, except for 5S rDNA in a few representatives of early diverging lepidopteran lineages. To explain the negative FISH results, we used quantitative PCR and Southern hybridization to estimate the copy number and organization of the studied genes in selected species. The results suggested that their detection was hampered by long spacers between the genes and/or their scattered distribution. Our results question homology of 5S rDNA and U1 and U2 snRNA loci in comparative studies. We recommend the use of histone H3 in studies of karyotype evolution.

Published

2021

16. The role of repetitive DNA in re-patterning of major rDNA clusters in Lepidoptera

Author

Martina Dalíková, Irena Provazníková, Jan Provazník, Patrick Grof-Tisza, Adam Pepi, and Petr Nguyen

Abstract

Genes for major ribosomal RNAs (rDNA) are present in multiple copies organized in tandem arrays. Number and position of rDNA loci can change dynamically and their re-patterning is presumably driven by repetitive sequences. We explored a peculiar rDNA organization in several representatives of Lepidoptera with either extremely large or numerous rDNA clusters. We combined molecular cytogenetics with analyses of second and third generation sequencing data to show that rDNA spreads as a transcription unit and reveal association between rDNA and various repeats. Furthermore, we performed comparative long read analyses between the species with derived rDNA distribution and moths with a single rDNA locus, which is considered ancestral. Our results suggest that satellite arrays, rather than mobile elements, facilitate homology-mediated spread of rDNA via either integration of extrachromosomal rDNA circles or ectopic recombination. The latter arguably better explains preferential spread of rDNA into terminal regions of lepidopteran chromosomes as efficiency of ectopic recombination depends on proximity of homologous sequences to telomeres.

Published

2022

17. Correction to: A haplotype-resolved, de novo genome assembly for the wood tiger moth (Arctia plantaginis) through trio binning

Author

Chris D. Jiggins, Johanna Mappes, Joana I. Meier, Ian A. Warren, Eugenie C Yen, Tomas N Generalovic, Sarah Pelan, Richard Durbin, Juan A. Galarza, Petr Nguyen, and Shane A. McCarthy

Subjects

Arctia plantaginis, Tiger, Evolutionary biology, Haplotype, Sequence assembly, Health Informatics, Biology, Computer Science Applications

Published

2021

18. Cryptic diversity and dynamic chromosome evolution in Alpine scorpions (Euscorpiidae: Euscorpius)

Author

Jiří Šmíd, Jana Štundlová, Petr Nguyen, and František Šťáhlavský

Subjects

0106 biological sciences, 0301 basic medicine, Species complex, Time Factors, DNA, Ribosomal, 010603 evolutionary biology, 01 natural sciences, Chromosomes, Evolution, Molecular, Scorpions, 03 medical and health sciences, Species Specificity, RNA, Ribosomal, 16S, Euscorpius, Genetic variation, Genetics, Animals, Molecular Biology, Alleles, Phylogeny, Ecology, Evolution, Behavior and Systematics, Genome, Geography, biology, Phylogenetic tree, Genetic Variation, Chromosome, biology.organism_classification, Phylogeography, 030104 developmental biology, Genetic marker, Evolutionary biology, Karyotyping, Subgenus

Abstract

Over time, mountain biota has undergone complex evolutionary histories that have left imprints on its genomic arrangement, geographical distribution and diversity of contemporary lineages. Knowledge on these biogeographical aspects still lags behind for invertebrates inhabiting the Alpine region. In the present study, we examined three scorpion species of the subgenus Euscorpius (Alpiscorpius) from the European Alps using cytogenetic and molecular phylogenetic approaches to determine the variation and population structure of extant lineages at both chromosome and genetic level, and to provide an insight into the species diversification histories. We detected considerable intraspecific variability in chromosome complements and localization of the 18S rDNA loci in all studied species. Such chromosome differences were noticeable as the existence of three [in E. (A.) alpha and E. (A.) germanus] or four [in E. (A.) gamma] range-restricted karyotypic races. These races differed from one another either by 2n [in E. (A.) alpha 2n = 54, 60, 90; in E. (A.) gamma 2n = 58, 60, 88, 86–92], or by the karyotypic formula [in E. (A.) germanus 2n = 34m + 12sm; 36m + 10sm; 42m + 4sm]. Using mitochondrial (16S rRNA, COI) and nuclear (28S rDNA) genetic markers, we examined genetic variation and reconstructed phylogenetic relationships among the karyotypic races. Both approaches provided evidence for the existence of ten deeply divergent lineages exhibiting the features of local endemics and indicating the presence of cryptic species. Molecular dating analyses suggest that these lineages diversified during the Plio-Pleistocene and this process was presumably accompanied by dynamic structural changes in the genome organization.

Published

2019

19. Evolutionary pattern of karyotypes and meiosis in pholcid spiders (Araneae: Pholcidae): implications for reconstructing chromosome evolution of araneomorph spiders

Author

Bernhard A. Huber, Tereza Kořínková, Pavel Just, František Šťáhlavský, Martina Koubová, David Sadílek, Petr Nguyen, Magda Zrzavá, Matyáš Hiřman, Ivalú M. Ávila Herrera, Jana Musilová, Markéta Pastuchová, Martin Forman, Jiří Král, and Charles R. Haddad

Subjects

0106 biological sciences, 0301 basic medicine, Diffuse stage, Pholcidae, Evolution, rDNA, Rearrangement, Biology, Y chromosome, 010603 evolutionary biology, 01 natural sciences, Inactivation, 03 medical and health sciences, Meiosis, QH359-425, Ectopic recombination, X chromosome, QH540-549.5, Ecology, Segregation, Chromosome, Karyotype, General Medicine, Reproductive isolation, biology.organism_classification, Haplogyne, 030104 developmental biology, Entelegyne, Evolutionary biology, Research Article, Achiasmatic pairing

Abstract

Background Despite progress in genomic analysis of spiders, their chromosome evolution is not satisfactorily understood. Most information on spider chromosomes concerns the most diversified clade, entelegyne araneomorphs. Other clades are far less studied. Our study focused on haplogyne araneomorphs, which are remarkable for their unusual sex chromosome systems and for the co-evolution of sex chromosomes and nucleolus organizer regions (NORs); some haplogynes exhibit holokinetic chromosomes. To trace the karyotype evolution of haplogynes on the family level, we analysed the number and morphology of chromosomes, sex chromosomes, NORs, and meiosis in pholcids, which are among the most diverse haplogyne families. The evolution of spider NORs is largely unknown. Results Our study is based on an extensive set of species representing all major pholcid clades. Pholcids exhibit a low 2n and predominance of biarmed chromosomes, which are typical haplogyne features. Sex chromosomes and NOR patterns of pholcids are diversified. We revealed six sex chromosome systems in pholcids (X0, XY, X1X20, X1X2X30, X1X2Y, and X1X2X3X4Y). The number of NOR loci ranges from one to nine. In some clades, NORs are also found on sex chromosomes. Conclusions The evolution of cytogenetic characters was largely derived from character mapping on a recently published molecular phylogeny of the family. Based on an extensive set of species and mapping of their characters, numerous conclusions regarding the karyotype evolution of pholcids and spiders can be drawn. Our results suggest frequent autosome–autosome and autosome–sex chromosome rearrangements during pholcid evolution. Such events have previously been attributed to the reproductive isolation of species. The peculiar X1X2Y system is probably ancestral for haplogynes. Chromosomes of the X1X2Y system differ considerably in their pattern of evolution. In some pholcid clades, the X1X2Y system has transformed into the X1X20 or XY systems, and subsequently into the X0 system. The X1X2X30 system of Smeringopus pallidus probably arose from the X1X20 system by an X chromosome fission. The X1X2X3X4Y system of Kambiwa probably evolved from the X1X2Y system by integration of a chromosome pair. Nucleolus organizer regions have frequently expanded on sex chromosomes, most probably by ectopic recombination. Our data suggest the involvement of sex chromosome-linked NORs in achiasmatic pairing.

Published

2021

20. The genetic architecture of a host shift: An adaptive walk protected an aphid and its endosymbiont from plant chemical defenses

Author

Nasser Trissi, Kyriaki Maria Papapostolou, Bettina Lueke, Petr Nguyen, Vasileia Balabanidou, Leonela Zusel Carabajal Paladino, Ralf Nauen, Christoph T. Zimmer, Bartlomiej J. Troczka, John Vontas, František Marec, Martin S. Williamson, Kumar Saurabh Singh, Chris Bass, Alexander Hayward, Ana Duarte, Emma Randall, and Emanuele Mazzoni

Subjects

0106 biological sciences, Insecticide resistance, Myzus persicae, 01 natural sciences, Ecological speciation, 03 medical and health sciences, Chromosomal rearrangement, Myzus nicotianae, Research Articles, 030304 developmental biology, 0303 health sciences, Aphid, Multidisciplinary, Ecology, biology, Obligate, Host (biology), fungi, SciAdv r-articles, food and beverages, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Genetic architecture, 010602 entomology, Settore AGR/11 - ENTOMOLOGIA GENERALE E APPLICATA, Evolutionary biology, Adaptation, Buchnera, endosymbiont, Research Article

Abstract

A complex series of mutational events protected a mutualistic symbiosis during the shift of an insect to a toxic host plant., Host shifts can lead to ecological speciation and the emergence of new pests and pathogens. However, the mutational events that facilitate the exploitation of novel hosts are poorly understood. Here, we characterize an adaptive walk underpinning the host shift of the aphid Myzus persicae to tobacco, including evolution of mechanisms that overcame tobacco chemical defenses. A series of mutational events added as many as 1.5 million nucleotides to the genome of the tobacco-adapted subspecies, M. p. nicotianae, and yielded profound increases in expression of an enzyme that efficiently detoxifies nicotine, both in aphid gut tissue and in the bacteriocytes housing the obligate aphid symbiont Buchnera aphidicola. This dual evolutionary solution overcame the challenge of preserving fitness of a mutualistic symbiosis during adaptation to a toxic novel host. Our results reveal the intricate processes by which genetic novelty can arise and drive the evolution of key innovations required for ecological adaptation.

Published

2020

21. A haplotype-resolved, de novo genome assembly for the wood tiger moth (Arctia plantaginis) through trio binning

Author

Petr Nguyen, Joana I. Meier, Eugenie C Yen, Johanna Mappes, Chris D. Jiggins, Ian A. Warren, Sarah Pelan, Juan A. Galarza, Richard Durbin, Tomas N Generalovic, Shane A. McCarthy, McCarthy, Shane [0000-0002-2715-4187], Generalovic, Tomas [0000-0002-8983-1024], Meier, Joana [0000-0001-7726-2875], Durbin, Richard [0000-0002-9130-1006], Jiggins, Chris [0000-0002-7809-062X], and Apollo - University of Cambridge Repository

Subjects

0106 biological sciences, haplotype, population genomics, AcademicSubjects/SCI02254, Population, Sequence assembly, Health Informatics, wood tiger moth, Arctia plantaginis, Moths, Biology, Data Note, genotyyppi, 010603 evolutionary biology, 01 natural sciences, Genome, täpläsiilikäs, Population genomics, Loss of heterozygosity, 03 medical and health sciences, Consensus sequence, Animals, Humans, education, 030304 developmental biology, 0303 health sciences, education.field_of_study, Genetic diversity, trio binning, Haplotype, Karyotype, genomiikka, Genomics, Wood, Computer Science Applications, Lepidoptera, Haplotypes, annotation, populaatiogenetiikka, Evolutionary biology, perimä, genome assembly, AcademicSubjects/SCI00960, Corrigendum

Abstract

Background Diploid genome assembly is typically impeded by heterozygosity because it introduces errors when haplotypes are collapsed into a consensus sequence. Trio binning offers an innovative solution that exploits heterozygosity for assembly. Short, parental reads are used to assign parental origin to long reads from their F1 offspring before assembly, enabling complete haplotype resolution. Trio binning could therefore provide an effective strategy for assembling highly heterozygous genomes, which are traditionally problematic, such as insect genomes. This includes the wood tiger moth (Arctia plantaginis), which is an evolutionary study system for warning colour polymorphism. Findings We produced a high-quality, haplotype-resolved assembly for Arctia plantaginis through trio binning. We sequenced a same-species family (F1 heterozygosity ∼1.9%) and used parental Illumina reads to bin 99.98% of offspring Pacific Biosciences reads by parental origin, before assembling each haplotype separately and scaffolding with 10X linked reads. Both assemblies are contiguous (mean scaffold N50: 8.2 Mb) and complete (mean BUSCO completeness: 97.3%), with annotations and 31 chromosomes identified through karyotyping. We used the assembly to analyse genome-wide population structure and relationships between 40 wild resequenced individuals from 5 populations across Europe, revealing the Georgian population as the most genetically differentiated with the lowest genetic diversity. Conclusions We present the first invertebrate genome to be assembled via trio binning. This assembly is one of the highest quality genomes available for Lepidoptera, supporting trio binning as a potent strategy for assembling heterozygous genomes. Using our assembly, we provide genomic insights into the geographic population structure of A. plantaginis.

Published

2020

22. Evolution of multiple sex-chromosomes associated with dynamic genome reshuffling in Leptidea wood-white butterflies

Author

Jan Provaznik, Jan Šafář, Jindra Šíchová, Petr Nguyen, Anna Voleníková, Roger Vila, Kristýna Pospíšilová, František Marec, Atsuo Yoshido, Czech Science Foundation, and Ministerio de Economía y Competitividad (España)

Subjects

0106 biological sciences, 0301 basic medicine, Species complex, Evolutionary biology, Biology, Leptidea, Synteny, 010603 evolutionary biology, 01 natural sciences, Genome, Article, Evolution, Molecular, Cytogenetics, 03 medical and health sciences, Genetics, Animals, Genetics (clinical), Bacterial artificial chromosome, Sex Chromosomes, Autosome, Chromosome, biology.organism_classification, White (mutation), 030104 developmental biology, Female, Butterflies

Abstract

Sex-chromosome systems tend to be highly conserved and knowledge about their evolution typically comes from macroevolutionary inference. Rapidly evolving complex sex-chromosome systems represent a rare opportunity to study the mechanisms of sex-chromosome evolution at unprecedented resolution. Three cryptic species of wood-white butterflies—Leptidea juvernica, L. sinapis and L. reali—have each a unique set of multiple sex-chromosomes with 3–4 W and 3–4 Z chromosomes. Using a transcriptome-based microarray for comparative genomic hybridisation (CGH) and a library of bacterial artificial chromosome (BAC) clones, both developed in L. juvernica, we identified Z-linked Leptidea orthologs of Bombyx mori genes and mapped them by fluorescence in situ hybridisation (FISH) with BAC probes on multiple Z chromosomes. In all three species, we determined synteny blocks of autosomal origin and reconstructed the evolution of multiple sex-chromosomes. In addition, we identified W homologues of Z-linked orthologs and characterised their molecular differentiation. Our results suggest that the multiple sex-chromosome system evolved in a common ancestor as a result of dynamic genome reshuffling through repeated rearrangements between the sex chromosomes and autosomes, including translocations, fusions and fissions. Thus, the initial formation of neo-sex chromosomes could not have played a role in reproductive isolation between these Leptidea species. However, the subsequent species-specific fissions of several neo-sex chromosomes could have contributed to their reproductive isolation. Then, significantly increased numbers of Z-linked genes and independent neo-W chromosome degeneration could accelerate the accumulation of genetic incompatibilities between populations and promote their divergence resulting in speciation., This research was funded by grant 14-22765S and follow-up grant 17-13713S of the Czech Science Foundation (CSF). Publishing was supported by CSF grant 20-13784S given to FM. PN was supported by CSF grants 17-17211S and 20-20650Y. RV acknowledges support from project CGL2016-76322-P (AEI/FEDER, UE).

Published

2020

23. Multiple sex chromosomes in teleost fishes from a cytogenetic perspective: state of the art and future challenges

Author

Marcelo de Bello Cioffi, Marie Altmanová, Petr Ráb, Petr Nguyen, Alexandr Sember, and Manolo F. Perez

Subjects

sex chromosome turnover, Male, 0106 biological sciences, 0301 basic medicine, Genomic research, Biology, 010603 evolutionary biology, 01 natural sciences, sex chromosome differentiation, General Biochemistry, Genetics and Molecular Biology, Cytogenetics, 03 medical and health sciences, repetitive DNA accumulation, Animals, Review Articles, Order perciformes, fish, Sex Chromosomes, Mechanism (biology), Fishes, Chromosome, Karyotype, Articles, Biological Evolution, chromosome rearrangements, 030104 developmental biology, Evolutionary biology, Chromosome differentiation, %22">Fish , Female, General Agricultural and Biological Sciences

Abstract

Despite decades of cytogenetic and genomic research of dynamic sex chromosome evolution in teleost fishes, multiple sex chromosomes have been largely neglected. In this review, we compiled available data on teleost multiple sex chromosomes, identified major trends in their evolution and suggest further trajectories in their investigation. In a compiled dataset of 440 verified records of fish sex chromosomes, we counted 75 multiple sex chromosome systems with 60 estimated independent origins. We showed that male-heterogametic systems created by Y-autosome fusion predominate and that multiple sex chromosomes are over-represented in the order Perciformes. We documented a striking difference in patterns of differentiation of sex chromosomes between male and female heterogamety and hypothesize that faster W sex chromosome differentiation may constrain sex chromosome turnover in female-heterogametic systems. We also found no significant association between the mechanism of multiple sex chromosome formation and percentage of uni-armed chromosomes in teleost karyotypes. Last but not least, we hypothesized that interaction between fish populations, which differ in their sex chromosomes, can drive the evolution of multiple sex chromosomes in fishes. This underlines the importance of broader inter-population sampling in studies of fish sex chromosomes. This article is part of the theme issue ‘Challenging the paradigm in sex chromosome evolution: empirical and theoretical insights with a focus on vertebrates (Part II)’.

Published

2021

24. Neo-sex Chromosomes in the Monarch Butterfly, Danaus plexippus

Author

Petr Nguyen, James R. Walters, Anna Voleníková, and Andrew J. Mongue

Subjects

Male, 0301 basic medicine, animal structures, Genetic Linkage, Genomics, QH426-470, Investigations, Genome, 03 medical and health sciences, Danaus, Monarch butterfly, Genetic linkage, evolution, chromosomal fusion, genomics, Genetics, Animals, Molecular Biology, Illumina dye sequencing, Genetics (clinical), Sex Chromosomes, Autosome, biology, Chromosome, biology.organism_classification, W chromosome, Lepidoptera, 030104 developmental biology, Evolutionary biology, Female, Chromosome 21, Butterflies

Abstract

We report the discovery of a neo-sex chromosome in Monarch butterfly, Danaus plexippus, and several of its close relatives. Z-linked scaffolds in the D. plexippus genome assembly were identified via sex-specific differences in Illumina sequencing coverage. Additionally, a majority of the D. plexippus genome assembly was assigned to chromosomes based on counts of 1-to-1 orthologs relative to the butterfly Melitaea cinxia (with replication using two other lepidopteran species), in which genome scaffolds have been mapped to linkage groups. Sequencing-coverage based assessments of Z-linkage combined with homology based chromosomal assignments provided strong evidence for a Z-autosome fusion in the Danaus lineage, involving the autosome homologous to chromosome 21 in M. cinxia. Coverage analysis also identified three notable assembly errors resulting in chimeric Z-autosome scaffolds. Cytogenetic analysis further revealed a large W-chromosome that is partially euchromatic, consistent with being a neo-W chromosome. The discovery of a neo-Z and the provisional assignment of chromosome linkage for >90% of D. plexippus genes lays the foundation for novel insights concerning sex chromosome evolution in this female-heterogametic model species for functional and evolutionary genomics.

Published

2017

25. Sex Chromosome Turnover in Moths of the Diverse Superfamily Gelechioidea

Author

Chris Bass, Nayanie S. Aratchige, Petr Nguyen, Leonela Zusel Carabajal Paladino, Irena Provazníková, Silvia N. López, Madeleine Berger, and František Marec

Subjects

0106 biological sciences, Male, Sitotroga, Hofmannophila, Karyotype, Moths, 010603 evolutionary biology, 01 natural sciences, Synteny, 03 medical and health sciences, Opisina, Genetic linkage, Genetics, Animals, DNA Barcoding, Taxonomic, Depressaria, Nephantis, Gelechioidea, Coleophora, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, Autosome, Sex Chromosomes, biology, fungi, Chromosome, Cromosomas Sexuales, Gelechiidae, biology.organism_classification, Biological Evolution, Evolutionary biology, Phthorimaea, Female, Heterogametic sex, Research Article

Abstract

Sex chromosomes play a central role in genetics of speciation and their turnover was suggested to promote divergence. Invertebrates, sex chromosome–autosome fusions resulting in neo-sex chromosomes occur frequently in male heterogametic taxa (XX/XY), but are rare in groups with female heterogamety (WZ/ZZ). We examined sex chromosomes of seven pests of the diverse lepidopteran superfamily Gelechioidea and confirmed the presence of neo-sex chromosomes in their karyotypes. Two synteny blocks, which correspond to autosomes 7 (LG7) and 27 (LG27) in the ancestral lepidopteran karyotype exemplified by the linkage map of Biston betularia (Geometridae), were identified as sex-linked in the tomato leafminer, Tuta absoluta (Gelechiidae). Testing for sex-linkage performed in other species revealed that while LG7 fused to sex chromosomes in a common ancestor of all Gelechioidea, the second fusion between the resulting neo-sex chromosome and the other autosome is confined to the tribe Gnoreschemini (Gelechiinae). Our data accentuate an emerging pattern of high incidence of neo-sex chromosomes in Lepidoptera, the largest clade with WZ/ZZ sex chromosome system, which suggest that the paucity of neo-sex chromosomes is not an intrinsic feature of female heterogamety. Furthermore, LG7 contains one of the major clusters of UDP-glucosyltransferases, which are involved in the detoxification of plant secondary metabolites. Sex chromosome evolution in Gelechioidea thus supports an earlier hypothesis postulating that lepidopteran sex chromosome– autosome fusions can be driven by selection for association of Z-linked preference or host-independent isolation genes with larval performance and thus can contribute to ecological specialization and speciation of moths. Instituto de Microbiología y Zoología Agrícola (IMYZA) Fil: Carabajal Paladino, Leonela Z. Biology Centre CAS. Institute of Entomology; República Checa. The Pirbright Institute; Reino Unido Fil: Provaznıkova, Irena. Biology Centre CAS. Institute of Entomology; República Checa. University of South Bohemia. Faculty of Science; República Checa Fil: Berger, Madeleine. Rothamsted Research. Department of Biointeractions and Crop Protection; Reino Unido Fil: Bass, Chris. University of Exeter. College of Life and Environmental Sciences, Biosciences; Reino Unido Fil: Aratchige, Nayanie S. Coconut Research Institute of Sri Lanka. Crop Protection Division; Sri Lanka Fil: Lopez, Silvia N. Instituto Nacional de Tecnologıa Agropecuaria (INTA). Instituto de Microbiologıa y Zoologıa Agrıcola; Argentina Fil: Marec, Frantisek. Biology Centre CAS. Institute of Entomology; República Checa Fil: Nguyen, Petr. Biology Centre CAS. Institute of Entomology; República Checa. University of South Bohemia. Faculty of Science; República Checa

Published

2019

26. A chromosome-level genome assembly of Cydia pomonella provides insights into chemical ecology and insecticide resistance

Author

Sha Lu, Jisu Jin, Minglu Yang, Xianxin Zhao, Mengbo Guo, Chunyan Jiang, Renci Xiong, Bo Liu, Chuanlin Yin, Wei Fan, Jinding Liu, Jérôme Olivares, Kejian Lin, Kang Wang, Jiapeng Luo, Rui Tang, Longfei Chen, Myriam Siegwart, Xiaoqing Xian, Camille Meslin, Mark Blaxter, František Marec, Mingli Ye, Guirong Wang, Yu Xi, Pierre Franck, Lang Liu, Wang Shuping, Jianyang Guo, Guoliang Shi, Likai Feng, James R. Walters, Lino Ometto, Guifen Zhang, Nianwan Yang, Kang He, Jinmeng Guo, Jianru Shen, Cong Huang, Maohua Chen, Fei Li, Xiong Peng, Wei Liu, Martina Dalíková, Sandrine Maugin, Emmanuelle Jacquin-Joly, Hai-Xia Zhan, Liuqi Aloy Gu, Fanghao Wan, Omar Rota-Stabelli, Meizhen Li, Wanxue Liu, Feiling Liu, Gianfranco Anfora, Qiang Wu, Wanqiang Qian, Ruizheng Tian, Longsheng Xing, Petr Nguyen, State Key Laboratory for Biology of Plant Diseases and Insect Pests, Chinese Academy of Agricultural Sciences (CAAS), Zhejiang University, State key laboratory of Integrated Management of pest Insects and Rodents, Institute of Zoology, Chinese Academy of Sciences [Changchun Branch] (CAS), Northwest A&F University, Hunan Agricultural University, Fondazione Edmund Mach - Edmund Mach Foundation [Italie] (FEM), Technical Centre for Animal Plant and Food Inspection and Quarantine, Partenaires INRAE, University of Kansas [Lawrence] (KU), Institut d'écologie et des sciences de l'environnement de Paris (iEES Paris), Institut National de la Recherche Agronomique (INRA)-Sorbonne Université (SU)-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12)-Centre National de la Recherche Scientifique (CNRS), Unité de recherche Plantes et Systèmes de Culture Horticoles (PSH), Institut National de la Recherche Agronomique (INRA), Department of Biology and Biotechnology, University of Pavia, University of Trento, University of Edinburgh, Biology Centre of the Czech Academy of Sciences (BIOLOGY CENTRE CAS), Czech Academy of Sciences [Prague] (CAS), Faculty of Science, University of South Bohemia, Xinjiang Academy of Agricultural and Reclamation Sciences, Qingdao Agricultural University, Zhejiang Shuren University, Tarim University, National Key Research and Development Project of China 2016YFC1200602 2017YFC1200602 2016YFC1201200 National Natural Science Foundation of China 31672033, Università degli Studi di Pavia = University of Pavia (UNIPV), and Università degli Studi di Trento (UNITN)

Subjects

0106 biological sciences, 0301 basic medicine, Insecticides, Codling moth, [SDV]Life Sciences [q-bio], Genome, Insect, General Physics and Astronomy, Sequence assembly, odorant receptors, lepidoptera-tortricidae, Moths, Receptors, Odorant, 01 natural sciences, Genome, Pheromones, Insecticide Resistance, chemistry.chemical_compound, codling moth, Gene Duplication, read alignment, lcsh:Science, genes, Promoter Regions, Genetic, Genetics, Multidisciplinary, Genomics, Chemical ecology, Settore AGR/11 - ENTOMOLOGIA GENERALE E APPLICATA, Sex pheromone, [SDE]Environmental Sciences, Insect Proteins, l. lepidoptera, Science, Biology, 010603 evolutionary biology, Polymorphism, Single Nucleotide, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, sex-pheromone, Animals, improvement, Gene, deltamethrin, General Chemistry, biology.organism_classification, Chromosomes, Insect, 030104 developmental biology, Deltamethrin, chemistry, lcsh:Q, Entomology

Abstract

The codling moth Cydia pomonella, a major invasive pest of pome fruit, has spread around the globe in the last half century. We generated a chromosome-level scaffold assembly including the Z chromosome and a portion of the W chromosome. This assembly reveals the duplication of an olfactory receptor gene (OR3), which we demonstrate enhances the ability of C. pomonella to exploit kairomones and pheromones in locating both host plants and mates. Genome-wide association studies contrasting insecticide-resistant and susceptible strains identify hundreds of single nucleotide polymorphisms (SNPs) potentially associated with insecticide resistance, including three SNPs found in the promoter of CYP6B2. RNAi knockdown of CYP6B2 increases C. pomonella sensitivity to two insecticides, deltamethrin and azinphos methyl. The high-quality genome assembly of C. pomonella informs the genetic basis of its invasiveness, suggesting the codling moth has distinctive capabilities and adaptive potential that may explain its worldwide expansion., The codling moth, Cydia pomonella, is one of the major pests of pome fruit (apples and pears) and walnuts. Here, the authors sequence and analyze its genome, providing insights on olfactory and detoxification processes that may underlie its worldwide expansion.

Published

2019

27. Karyotype Evolution in Harvestmen of the Suborder Cyphophthalmi (Opiliones)

Author

Rodzay Bin Haji Abdul Wahab, Hana Svojanovská, Petr Nguyen, Matyáš Hiřman, Ivan H. Tuf, Charles R. Haddad, and František Šťáhlavský

Subjects

Male, 0106 biological sciences, 0301 basic medicine, Arachnid, Stylocellidae, Karyotype, Zoology, Opiliones, 010603 evolutionary biology, 01 natural sciences, Cyphophthalmi, Evolution, Molecular, 03 medical and health sciences, Phylogenetics, Arachnida, RNA, Ribosomal, 18S, Genetics, Animals, Pettalidae, Molecular Biology, In Situ Hybridization, Fluorescence, Phylogeny, Genetics (clinical), Sironidae, biology, biology.organism_classification, 030104 developmental biology, Female

Abstract

The morphologically uniform suborder Cyphophthalmi represents a basal group of harvestmen (Opiliones). As such, it plays an important role in the reconstruction of the karyotype evolution within this arachnid order. The cytogenetic analysis of 6 representatives of the suborder Cyphophthalmi, namely Miopsalis sp. (2n = 30; Stylocellidae), Austropurcellia arcticosa (Cantrell, 1980) (2n = 30; Pettalidae), Parapurcellia amatola de Bivort & Giribet, 2010 (2n = 32; Pettalidae), Paramiopsalis aff. ramulosus Juberthie, 1962 (2n = 28; Sironidae), Cyphophthalmus duricorius Joseph, 1868 (2n = 24; Sironidae), and Siro carpaticus Rafalski, 1956 (2n = 52; Sironidae) was performed. Fluorescence in situ hybridization with 18S rDNA probe was used to analyze the distribution of major ribosomal RNA genes in harvestmen. We confront the obtained cytogenetic data with current hypotheses on cyphophthalmid phylogeny to reconstruct their karyotype evolution. We conclude that the ancestral karyotype of harvestmen consisted of 2n = 30 elements with 1 chromosome pair bearing terminal rDNA clusters. The rDNA locus was multiplicated in the evolution of Cyphophthalmi. However, decreases as well as increases in the number of chromosomes have been detected in the karyotype evolution of Cyphophthalmi. Our data thus reveal unexpected diversity in cyphophthalmid karyotypes.

Published

2016

28. Molecular cytogenetics ofAndroctonusscorpions: an oasis of calm in the turbulent karyotype evolution of the diverse family Buthidae

Author

David Sadílek, František Kovařík, Ersen Aydın Yağmur, Petr Nguyen, František Šťáhlavský, and Halіl Koç

Subjects

Genetics, biology, medicine.diagnostic_test, Androctonus australis, Karyotype, Locus (genetics), biology.organism_classification, 18S ribosomal RNA, Molecular cytogenetics, Molecular evolution, Buthidae, medicine, Ecology, Evolution, Behavior and Systematics, Fluorescence in situ hybridization

Abstract

Recent cytogenetic and genomic studies suggest that morphological and molecular evolution is decoupled in the basal arachnid order Scorpiones. Extraordinary karyotype variation has been observed particularly in the family Buthidae, which is unique among scorpions for its holokinetic chromosomes. We analyzed the karyotypes of four geographically distant species of the genus Androctonus Ehrenberg, 1828 (Androctonus australis, Androctonus bourdoni, Androctonus crassicauda, Androctonus maelfaiti) (Scorpiones: Buthidae) using both classic and molecular cytogenetic methods. The mitotic complement of all species consisted of 2n = 24 elements. Fluorescence in situ hybridization with a fragment of the 18S ribosomal RNA gene, a cytogenetic marker well known for its mobility, identified a single interstitial rDNA locus on the largest chromosome pair in all species examined. Our findings thus support the evolutionary stasis of the Androctonus karyotype, which is discussed with respect to current hypotheses on chromosome evolution both within and beyond the family Buthidae. Differences in karyotype dynamics between Androctonus spp. and the other buthids can help us better understand the driving forces behind their chromosome evolution and speciation. © 2015 The Linnean Society of London, Biological Journal of the Linnean Society, 2015, 115, 69–76.

Published

2015

29. Cytogenetics of Aspidogaster limacoides (Trematoda, Aspidogastrea): karyotype, spermatocyte division, and genome size

Author

Marta Bombarová, Eva Bazsalovicsová, Petr Nguyen, Marta Špakulová, Martin Kello, and Ivica Králová-Hromadová

Subjects

Male, medicine.medical_specialty, Secondary constriction, Karyotype, Mitosis, Spermatocyte, Biology, Chromosomes, Cytogenetics, Genome Size, Spermatocytes, medicine, Animals, Spermatogenesis, In Situ Hybridization, Fluorescence, Cell Nucleus, Genetics, Genome, Helminth, Aspidogastrea, General Veterinary, Chromosome, Spermatocyte division, General Medicine, biology.organism_classification, Molecular biology, Meiosis, Infectious Diseases, medicine.anatomical_structure, Insect Science, Female, Parasitology, Trematoda, Chromosome 22, Cell Division

Abstract

A detailed cytogenetic analysis of the aspidogastrean fluke Aspidogaster limacoides revealed a karyotype consisting of six medium-sized chromosome pairs. The first and the last pairs were two-armed while four remaining were one-armed; 2n = 12, n = 1 m + 1 m - sm + 4a. Fluorescence in situ hybridization with 18S ribosomal DNA (rDNA) probe detected a single cluster of ribosomal genes (NOR) located in pericentromeric regions of the long arms of the third chromosome pair in a site of secondary constriction apparent in meiotic prophase, especially in diplotene. The silver nitrate staining showed only a single active NOR site on one of homologous chromosomes in the majority of spermatogonia and spermatocyte divisions. A course of meiosis corresponded to standard schemes. The nucleolus was apparent in early meiotic spermatocytes and disintegrated by the end of pachytene. For the first time in Aspidogastrea, the genome size was determined. The flow cytometry showed 1.21 pg DNA per haploid nucleus in A. limacoides which is in accordance with relatively low genome sizes of other flukes and tapeworms (Neodermata). A comparison of cytogenetic data available to date in the fluke sister groups Aspidogastrea and Digenea suggests that the lower chromosome number of Aspidogastrea might represent an ancestral condition and their split might have been accompanied by an increase in chromosome number via either chromosome fissions or paleopolyploidy.

Published

2015

30. Novel resistance to Cydia pomonella granulovirus (CpGV) in codling moth shows autosomal and dominant inheritance and confers cross-resistance to different CpGV genome groups

Author

Karin Undorf-Spahn, Annette J. Sauer, David G. Heckel, Johannes A. Jehle, Eva Fritsch, František Marec, and Petr Nguyen

Subjects

0301 basic medicine, Life Cycles, Codling moth, Inheritance Patterns, lcsh:Medicine, Moths, Larvae, lcsh:Science, Genetics, Multidisciplinary, Chromosome Biology, Autosomes, Chromosome Mapping, Genomics, Chromosomal Aberrations, Insects, Moths and Butterflies, Translocations, Research Article, Arthropoda, Death Rates, 030106 microbiology, Granulovirus, Genome, Viral, Biology, Research and Analysis Methods, Chromosomes, Cydia pomonella granulovirus, 03 medical and health sciences, Animals, Allele, Molecular Biology Techniques, Molecular Biology, Gene, Demography, Bacterial artificial chromosome, Z chromosome, Autosome, Gene Mapping, lcsh:R, Organisms, Biology and Life Sciences, Cell Biology, biology.organism_classification, Invertebrates, Chromosomes, Insect, 030104 developmental biology, People and Places, Backcrossing, Hybridization, Genetic, lcsh:Q, Developmental Biology

Abstract

Commercial Cydia pomonella granulovirus (CpGV) products have been successfully applied to control codling moth (CM) in organic and integrated fruit production for more than 30 years. Since 2005, resistance against the widely used isolate CpGV-M has been reported from different countries in Europe. The inheritance of this so-called type I resistance is dominant and linked to the Z chromosome. Recently, a second form (type II) of CpGV resistance in CM was reported from a field population (NRW-WE) in Germany. Type II resistance confers reduced susceptibility not only to CpGV-M but to most known CpGV isolates and it does not follow the previously described Z-linked inheritance of type I resistance. To further analyze type II resistance, two CM strains, termed CpR5M and CpR5S, were generated from parental NRW-WE by repeated mass crosses and selection using the two isolates CpGV-M and CpGV-S, respectively. Both CpR5M and CpR5S were considered to be genetically homogeneous for the presence of the resistance allele(s). By crossing and backcrossing experiments with a susceptible CM strain, followed by resistance testing of the offspring, an autosomal dominant inheritance of resistance was elucidated. In addition, cross-resistance to CpGV-M and CpGV-S was detected in both strains, CpR5M and CpR5S. To test the hypothesis that the autosomal inheritance of type II resistance was caused by a large interchromosomal rearrangement involving the Z chromosome, making type I resistance appear to be autosomal in these strains; fluorescence in situ hybridization with bacterial artificial chromosome probes (BAC-FISH) was used to physically map the Z chromosomes of different CM strains. Conserved synteny of the Z-linked genes in CpR5M and other CM strains rejects this hypothesis and argues for a novel genetic and functional mode of resistance in CM populations with type II resistance.

Published

2017

31. New Insights into the Evolution of the W Chromosome in Lepidoptera

Author

Ralph S. Peters, Akito Y. Kawahara, Svatava Kubickova, Martina Flegrová, Martina Dalíková, Magda Zrzavá, František Marec, Irena Hladová, Petr Nguyen, Ivan Šonský, and Anna Voleníková

Subjects

0301 basic medicine, Male, Tischeria ekebladella, Genetic Linkage, Moths, Synteny, Tineidae, Chromosome Painting, Evolution, Molecular, 03 medical and health sciences, Ditrysia, Genetics, Tineola bisselliella, Animals, Molecular Biology, Genetics (clinical), Z chromosome, Comparative Genomic Hybridization, Sex Chromosomes, biology, Chromosome, biology.organism_classification, W chromosome, 030104 developmental biology, Evolutionary biology, Female, Butterflies, Heterogametic sex, Biotechnology

Abstract

Moths and butterflies (Lepidoptera) represent the most diverse group of animals with heterogametic females. Although the vast majority of species has a WZ/ZZ (female/male) sex chromosome system, it is generally accepted that the ancestral system was Z/ZZ and the W chromosome has evolved in a common ancestor of Tischeriidae and Ditrysia. However, the lack of data on sex chromosomes in lower Lepidoptera has prevented a formal test of this hypothesis. Here, we performed a detailed analysis of sex chromosomes in Tischeria ekebladella (Tischeriidae) and 3 species representing lower Ditrysia, Cameraria ohridella (Gracillariidae), Plutella xylostella (Plutellidae), and Tineola bisselliella (Tineidae). Using comparative genomic hybridization we show that the first 3 species have well-differentiated W chromosomes, which vary considerably in their molecular composition, whereas T. bisselliella has no W chromosome. Furthermore, our results suggest the presence of neo-sex chromosomes in C. ohridella. For Z chromosomes, we selected 5 genes evenly distributed along the Z chromosome in ditrysian model species and tested their Z-linkage using qPCR. The tested genes (Henna, laminin A, Paramyosin, Tyrosine hydroxylase, and 6-Phosphogluconate dehydrogenase) proved to be Z-linked in all species examined. The conserved synteny of the Z chromosome across Tischeriidae and Ditrysia, along with the W chromosome absence in the lower ditrysian families Psychidae and Tineidae, suggests a possible independent origin of the W chromosomes in these 2 lineages.

Published

2017

32. Neo-sex chromosomes and adaptive potential in tortricid pests

Author

Lisa G. Neven, Radmila Čapková Frydrychová, Václav Kůta, Jindra Šíchová, Martina Dalíková, Petr Nguyen, Miroslava Sýkorová, František Marec, and Ken Sahara

Subjects

Tortricidae, Chromosomes, Artificial, Bacterial, Codling moth, Molecular Sequence Data, Adaptation, Biological, Moths, Translocation, Genetic, Evolution, Molecular, Chromosome 15, Animals, Olethreutinae, In Situ Hybridization, Fluorescence, Genetics, Z chromosome, Sex Chromosomes, Multidisciplinary, Autosome, Base Sequence, biology, fungi, Sequence Analysis, DNA, Reproductive isolation, Biological Sciences, Physical Chromosome Mapping, biology.organism_classification, Tortricinae

Abstract

Changes in genome architecture often have a significant effect on ecological specialization and speciation. This effect may be further enhanced by involvement of sex chromosomes playing a disproportionate role in reproductive isolation. We have physically mapped the Z chromosome of the major pome fruit pest, the codling moth, Cydia pomonella (Tortricidae), and show that it arose by fusion between an ancestral Z chromosome and an autosome corresponding to chromosome 15 in the Bombyx mori reference genome. We further show that the fusion originated in a common ancestor of the main tortricid subfamilies, Olethreutinae and Tortricinae, comprising almost 700 pest species worldwide. The Z–autosome fusion brought two major genes conferring insecticide resistance and clusters of genes involved in detoxification of plant secondary metabolites under sex-linked inheritance. We suggest that this fusion significantly increased the adaptive potential of tortricid moths and thus contributed to their radiation and subsequent speciation.

Published

2013

33. Sex Chromosome Pairing and Extensive NOR Polymorphism in Wadicosa fidelis (Araneae: Lycosidae)

Author

Martin Forman, Jiří Král, Vladimír Hula, and Petr Nguyen

Subjects

Genetics, education.field_of_study, medicine.medical_specialty, Population, Cytogenetics, Chromosome, Karyotype, Biology, Meiosis, medicine, Ectopic recombination, education, Molecular Biology, Metaphase, Genetics (clinical), X chromosome

Abstract

In terms of cytogenetics, entelegyne araneomorphs are the best studied clade of spiders. The typical karyotype of entelegyne males consists of acrocentric chromosomes, including 2 non-homologous X chromosomes. The present study is focused on the karyotype, nucleolus organising regions (NORs) and sex chromosome behaviour during meiosis of the entelegyne Wadicosa fidelis (Lycosidae). Preparations stained by Giemsa were used to study karyotype and meiosis. NORs were visualised by silver staining and fluorescence in situ hybridisation with 18S rDNA probe. The male karyotype consists of 28 acrocentric elements, including 2 X chromosomes. In contrast to the majority of other spiders, the male sex chromosomes pair during the major part of meiosis. Following an initial period of parallel pairing, the attachment of male sex chromosomes is restricted to centromeric areas and continues until metaphase II. Our study revealed an enormous number of NORs in the population from Galilee and indicates a considerable variability of NOR numbers in this population. The distal regions of 9 or 10 autosomal pairs contain NORs. The obtained data indicate the rapid spread of NORs in the karyotype of W. fidelis, which was presumably caused by ectopic recombinations and subsequent hybridisations of individuals with different NOR genotypes that produced heterozygotes.

Published

2013

34. Genome sequence of Candidatus Arsenophonus lipopteni, the exclusive symbiont of a blood sucking fly Lipoptena cervi (Diptera: Hippoboscidae)

Author

Filip Husnik, Alistair C. Darby, Petr Nguyen, Eva Nováková, and Václav Hypša

Subjects

0301 basic medicine, Genetics, food.ingredient, biology, Obligate, Hippoboscidae, 030106 microbiology, Arsenophonus, Bacteriome, biology.organism_classification, Short Genome Report, 03 medical and health sciences, B vitamins, 030104 developmental biology, food, Lipoptena cervi, Candidatus, RRNA Operon, Tsetse, Symbiosis

Abstract

Candidatus Arsenophonus lipopteni (Enterobacteriaceae, Gammaproteobacteria) is an obligate intracellular symbiont of the blood feeding deer ked, Lipoptena cervi (Diptera: Hippoboscidae). The bacteria reside in specialized cells derived from host gut epithelia (bacteriocytes) forming a compact symbiotic organ (bacteriome). Compared to the closely related complex symbiotic system in the sheep ked, involving four bacterial species, Lipoptena cervi appears to maintain its symbiosis exclusively with Ca. Arsenophonus lipopteni. The genome of 836,724 bp and 24.8 % GC content codes for 667 predicted functional genes and bears the common characteristics of sequence economization coupled with obligate host-dependent lifestyle, e.g. reduced number of RNA genes along with the rRNA operon split, and strongly reduced metabolic capacity. Particularly, biosynthetic capacity for B vitamins possibly supplementing the host diet is highly compromised in Ca. Arsenophonus lipopteni. The gene sets are complete only for riboflavin (B2), pyridoxine (B6) and biotin (B7) implying the content of some B vitamins, e.g. thiamin, in the deer blood might be sufficient for the insect metabolic needs. The phylogenetic position within the spectrum of known Arsenophonus genomes and fundamental genomic features of Ca. Arsenophonus lipopteni indicate the obligate character of this symbiosis and its independent origin within Hippoboscidae.

Published

2016

35. On the Neo-Sex Chromosomes of Lepidoptera

Author

Leonela Zusel Carabajal Paladino and Petr Nguyen

Subjects

0106 biological sciences, 0301 basic medicine, fungi, Chromosome, Karyotype, Reproductive isolation, Biology, 010603 evolutionary biology, 01 natural sciences, Lepidoptera genitalia, 03 medical and health sciences, 030104 developmental biology, Meiotic drive, Genetic drift, Effective population size, Evolutionary biology, Genetic algorithm

Abstract

Chromosome rearrangements can play an important role in adaptive evolution and speciation with gene flow. Here, we briefly review state of the art in chromosomal speciation, along with the classic model of sex chromosome evolution. The main focus lies on sex chromosome–autosome fusions, i.e., neo-sex chromosomes. We describe the presence of neo-sex chromosomes in moth and butterflies (Lepidoptera), the largest group with female heterogamety. Despite the relative stability of lepidopteran karyotypes, fusions which result either in multiple sex chromosomes (W1W2Z or WZ1Z2) or large sex chromosome pairs occurred at a surprisingly high frequency throughout their evolution. We discuss the role of meiotic drive, genetic drift, and selection in the establishing of these derived sex chromosome systems. It is hypothesized that the association between sex-linked reproductive isolation or female preference and larval performance may contribute to ecological specialization and species formation in Lepidoptera.

Published

2016

36. Evolutionary dynamics of rDNA clusters on chromosomes of moths and butterflies (Lepidoptera)

Author

Petr Nguyen, František Marec, Atsuo Yoshido, and Ken Sahara

Subjects

ectopic recombination, Genome, Insect, Plant Science, Biology, Moths, DNA, Ribosomal, Chromosomes, Noctuoidea, Evolution, Molecular, Species Specificity, Chromosome regions, Genetics, Nucleolus Organizer Region, RNA, Ribosomal, 18S, Animals, Ectopic recombination, Ribosomal DNA, In Situ Hybridization, Fluorescence, Phylogeny, chromosome fusion, Repetitive Sequences, Nucleic Acid, Recombination, Genetic, ribosomal DNA, nucleolar organizer region, Chromosome, Genetic Variation, karyotype evolution, Karyotype, General Medicine, DNA, biology.organism_classification, chromosome fission, Insect Science, Karyotyping, Animal Science and Zoology, Ploidy, Nucleolus organizer region, Butterflies

Abstract

We examined chromosomal distribution of major ribosomal DNAs (rDNAs), clustered in the nucleolar organizer regions (NORs), in 18 species of moths and butterflies using fluorescence in situ hybridization (FISH) with a codling moth (Cydia pomonella) 18S rDNA probe. Most species showed one or two rDNA clusters in their haploid karyotype but exceptions with four to eleven clusters also occurred. Our results in a compilation with previous data revealed dynamic evolution of rDNA distribution in Lepidoptera except Noctuoidea, which showed a highly uniform rDNA pattern. In karyotypes with one NOR, interstitial location of rDNA prevailed, whereas two-NOR karyotypes showed mostly terminally located rDNA clusters. A possible origin of the single interstitial NOR by fusion between two NOR-chromosomes with terminal rDNA clusters lacks support in available data. In some species, spreading of rDNA to new, mostly terminal chromosome regions was found. The multiplication of rDNA clusters without alteration of chromosome numbers rules out chromosome fissions as a major mechanism of rDNA expansion. Based on rDNA dynamics in Lepidoptera and considering the role of ordered nuclear architecture in karyotype evolution, we propose ectopic recombination, i.e. homologous recombination between repetitive sequences of non-homologous chromosomes, as a primary motive force in rDNA repatterning.

Published

2010

37. Dynamic karyotype evolution and unique sex determination systems in Leptidea wood white butterflies

Author

Vlad Dincă, Jindra Šíchová, František Marec, Anna Voleníková, Petr Nguyen, Roger Vila, Ken Sahara, Czech Science Foundation, Academy of Sciences of the Czech Republic, University of South Bohemia, Ministerio de Economía y Competitividad (España), and European Commission

Subjects

Gene Flow, Male, 0106 biological sciences, Speciation, Karyotype, education, Sinapis, Karyotype variability, Leptidea, DNA, Ribosomal, 010603 evolutionary biology, 01 natural sciences, Gene flow, Histones, 03 medical and health sciences, Meiosis, Wood white butterflies, Sex-determination system, Animals, Fluorescence in situ hybridization Chromosome fusion and fission, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Genetics, 0303 health sciences, Sex Chromosomes, biology, Cromosomes sexuals, Chromosome, Sex Determination Processes, biology.organism_classification, Biological Evolution, White (mutation), Lepidoptera, Evolutionary biology, Insect Proteins, Female, Multiple sex chromosomes, Butterflies, Research Article

Abstract

[Background] Chromosomal rearrangements have the potential to limit the rate and pattern of gene flow within and between species and thus play a direct role in promoting and maintaining speciation. Wood white butterflies of the genus Leptidea are excellent models to study the role of chromosome rearrangements in speciation because they show karyotype variability not only among but also within species. In this work, we investigated genome architecture of three cryptic Leptidea species (L. juvernica, L. sinapis and L. reali) by standard and molecular cytogenetic techniques in order to reveal causes of the karyotype variability., [Results] Chromosome numbers ranged from 2n = 85 to 91 in L. juvernica and 2n = 69 to 73 in L. sinapis (both from Czech populations) to 2n = 51 to 55 in L. reali (Spanish population). We observed significant differences in chromosome numbers and localization of cytogenetic markers (rDNA and H3 histone genes) within the offspring of individual females. Using FISH with the (TTAGG) n telomeric probe we also documented the presence of multiple chromosome fusions and/or fissions and other complex rearrangements. Thus, the intraspecific karyotype variability is likely due to irregular chromosome segregation of multivalent meiotic configurations. The analysis of female meiotic chromosomes by GISH and CGH revealed multiple sex chromosomes: W1W2W3Z1Z2Z3Z4 in L. juvernica, W1W2W3Z1Z2Z3 in L. sinapis and W1W2W3W4Z1Z2Z3Z4 in L. reali., [Conclusions] Our results suggest a dynamic karyotype evolution and point to the role of chromosomal rearrangements in the speciation of Leptidea butterflies. Moreover, our study revealed a curious sex determination system with 3–4 W and 3–4 Z chromosomes, which is unique in the Lepidoptera and which could also have played a role in the speciation process of the three Leptidea species., This research was funded by Grant 14-22765S of the Czech Science Foundation, Grant IAA600960925 of the Grant Agency of The Czech Academy of Sciences, Grant 063/2012/P of the Grant Agency of the University of South Bohemia and Grant CGL2013-48277-P from the Spanish Ministerio de Economía y Competitividad. JŠ and AV were supported by Grant 052/2013/P of the Grant Agency of the University of South Bohemia, VD by a Marie Curie International Outgoing Fellowship within the 7th European Community Framework Programme (project no. 625997), PN by Grant 14-35819P of the Czech Science Foundation and KS by JSPS 23380030 grant and JSPS Excellent Young Researchers Overseas Visit Program (21–7147).

Published

2015

38. Probing the W chromosome of the codling moth, Cydia pomonella, with sequences from microdissected sex chromatin

Author

Iva Fuková, Svatava Kubickova, Walther Traut, Magda Vítková, František Marec, and Petr Nguyen

Subjects

Euchromatin, Sequence analysis, Heterochromatin, Molecular Sequence Data, Oligonucleotides, Moths, Biology, Polymerase Chain Reaction, Chromosome Painting, Species Specificity, Genetics, medicine, Animals, In Situ Hybridization, Fluorescence, Genetics (clinical), DNA Primers, Southern blot, Z chromosome, Sex Chromosomes, Base Sequence, medicine.diagnostic_test, Sequence Analysis, DNA, Molecular biology, W chromosome, Chromatin, Blotting, Southern, Sex Chromatin, Molecular Probes, Microdissection, Fluorescence in situ hybridization

Abstract

The W chromosome of the codling moth, Cydia pomonella, like that of most Lepidoptera species, is heterochromatic and forms a female-specific sex chromatin body in somatic cells. We collected chromatin samples by laser microdissection from euchromatin and W-chromatin bodies. DNA from the samples was amplified by degenerate oligonucleotide-primed polymerase chain reaction (DOP-PCR) and used to prepare painting probes and start an analysis of the W-chromosome sequence composition. With fluorescence in situ hybridization (FISH), the euchromatin probe labelled all chromosomes, whereas the W-chromatin DNA proved to be a highly specific W-chromosome painting probe. For sequence analysis, DOP-PCR-generated DNA fragments were cloned, sequenced, and tested by Southern hybridization. We recovered single-copy and low-copy W-specific sequences, a sequence that was located only in the W and the Z chromosome, multi-copy sequences that were enriched in the W chromosome but occurred also elsewhere, and ubiquitous multi-copy sequences. Three of the multi-copy sequences were recognized as derived from hitherto unknown retrotransposons. The results show that our approach is feasible and that the W-chromosome composition of C. pomonella is not principally different from that of Bombyx mori or from that of Y chromosomes of several species with an XY sex-determining mechanism. The W chromosome has attracted repetitive sequences during evolution but also contains unique sequences.

Published

2006

39. Linkage map of the peppered moth, Biston betularia (Lepidoptera, Geometridae): a model of industrial melanism

Author

Martina Dalíková, Ilik J. Saccheri, Petr Nguyen, František Marec, Nicola Edmonds, and A E Van't Hof

Subjects

Chromosomes, Artificial, Bacterial, Genetic Linkage, Genome, Insect, Biology, Moths, Synteny, Genetic linkage, Genetics, Animals, Industry, Ectopic recombination, Amplified Fragment Length Polymorphism Analysis, Genetics (clinical), Phylogeny, Melanins, Z chromosome, Autosome, Sex Chromosomes, Biston, fungi, Chromosome Mapping, Karyotype, biology.organism_classification, Bombyx, Biological Evolution, W chromosome, Chromosomes, Insect, Evolutionary biology, Genetic Loci, Karyotyping, Original Article

Abstract

We have constructed a linkage map for the peppered moth (Biston betularia), the classical ecological genetics model of industrial melanism, aimed both at localizing the network of loci controlling melanism and making inferences about chromosome dynamics. The linkage map, which is based primarily on amplified fragment length polymorphisms (AFLPs) and genes, consists of 31 linkage groups (LGs; consistent with the karyotype). Comparison with the evolutionarily distant Bombyx mori suggests that the gene content of chromosomes is highly conserved. Gene order is conserved on the autosomes, but noticeably less so on the Z chromosome, as confirmed by physical mapping using bacterial artificial chromosome fluorescence in situ hybridization (BAC-FISH). Synteny mapping identified three pairs of B. betularia LGs (11/29, 23/30 and 24/31) as being orthologous to three B. mori chromosomes (11, 23 and 24, respectively). A similar finding in an outgroup moth (Plutella xylostella) indicates that the B. mori karyotype (n=28) is a phylogenetically derived state resulting from three chromosome fusions. As with other Lepidoptera, the B. betularia W chromosome consists largely of repetitive sequence, but exceptionally we found a W homolog of a Z-linked gene (laminin A), possibly resulting from ectopic recombination between the sex chromosomes. The B. betularia linkage map, featuring the network of known melanization genes, serves as a resource for melanism research in Lepidoptera. Moreover, its close resemblance to the ancestral lepidopteran karyotype (n=31) makes it a useful reference point for reconstructing chromosome dynamic events and ancestral genome architectures. Our study highlights the unusual evolutionary stability of lepidopteran autosomes; in contrast, higher rates of intrachromosomal rearrangements support a special role of the Z chromosome in adaptive evolution and speciation.

Published

2012

40. Codling moth cytogenetics: karyotype, chromosomal location of rDNA, and molecular differentiation of sex chromosomes

Author

Iva Fuková, Petr Nguyen, and František Marec

Subjects

Genetic Markers, Male, medicine.medical_specialty, Biology, Moths, DNA, Ribosomal, Bivalent (genetics), Chromosome 16, Genetics, medicine, Nucleolus Organizer Region, Animals, Molecular Biology, In Situ Hybridization, B chromosome, Sex Chromosomes, fungi, Cytogenetics, Chromosome Mapping, Karyotype, General Medicine, Chromatin, Chromosome 4, Chromosome 3, Karyotyping, Female, Nucleolus organizer region, Biotechnology

Abstract

We performed a detailed karyotype analysis in the codling moth, Cydia pomonella (L.) (Lepidoptera: Tortricidae), the key pest of pome fruit in the temperate regions of the world. The codling moth karyotype consisted of 2n = 56 chromosomes of a holokinetic type. The chromosomes were classified into 5 groups according to their sizes: extra large (3 pairs), large (3 pairs), medium (15 pairs), small (5 pairs), and dot-like (2 pairs). In pachytene nuclei of both sexes, a curious NOR (nucleolar organizer region) bivalent was observed. It carried 2 nucleoli, each associated with one end of the bivalent. FISH with an 18S ribosomal DNA probe confirmed the presence of 2 clusters of rRNA genes at the opposite ends of the bivalent. In accordance with this finding, 2 homologous NOR chromosomes were identified in mitotic metaphase, each showing hybridization signals at both ends. In highly polyploid somatic nuclei, females showed a large heterochromatin body, the so-called sex chromatin or W chromatin. The heterochromatin body was absent in male nuclei, indicating a WZ/ZZ (female/male) sex chromosome system. In keeping with the sex chromatin status, pachytene oocytes showed a sex chromosome bivalent (WZ) that was easily discernible by its heterochromatic W thread. To study molecular differentiation of the sex chromosomes, we employed genomic in situ hybridization (GISH) and comparative genomic hybridization (CGH). GISH detected the W chromosome by strong binding of the Cy3-labelled, female-derived DNA probe. With CGH, both the Cy3-labelled female-derived probe and Fluor-X labelled male-derived probe evenly bound to the W chromosome. This suggested that the W chromosome is predominantly composed of repetitive DNA sequences occurring scattered in other chromosomes but accumulated in the W chromosome. The demonstrated ways of W chromosome identification will facilitate the development of genetic sexing strains desirable for pest control using the sterile insect technique.Key words: CGH, codling moth, FISH, GISH, genomic hybridization, heterochromatin, holokinetic chromosomes, karyotype, NOR, rDNA, SIT, sex chromosomes.

Published

2006

41. Historias de ofrendas muiscas

Author

Martinón Torres, Marcos; Rodríguez Bernal, Clark Manuel; Ramírez Forero, Germán; Mayr Maldonado, Juan; Rivera, Ana María; Novák, Petr; Nguyen, Marie Lan; Möller, André; Instituto Geográfico Agustín Codazzi; Fundación Santa Fe de Bogotá. Departamento de Imágenes Diagnósticas; Morales, Jorge; Urbina Rangel, Fernando, 1939 -; Morris de la Rosa, Alejandro; Uribe Villegas, María Alicia; Londoño Laverde, Eduardo, 1959-; Quintero Guzmán, Juan Pablo; Nieto, Jorge, Museo del Oro (Bogotá), Martinón Torres, Marcos; Rodríguez Bernal, Clark Manuel; Ramírez Forero, Germán; Mayr Maldonado, Juan; Rivera, Ana María; Novák, Petr; Nguyen, Marie Lan; Möller, André; Instituto Geográfico Agustín Codazzi; Fundación Santa Fe de Bogotá. Departamento de Imágenes Diagnósticas; Morales, Jorge; Urbina Rangel, Fernando, 1939 -; Morris de la Rosa, Alejandro; Uribe Villegas, María Alicia; Londoño Laverde, Eduardo, 1959-; Quintero Guzmán, Juan Pablo; Nieto, Jorge, and Museo del Oro (Bogotá)

Abstract

Este catálogo da cuenta de la exposición Historias de ofrendas muiscas, que tuvo lugar del 31 de mayo del 2013 al 23 de febrero del 2014, en el Museo del Oro en Bogotá. Nacida entre microscopios de haces electrónicos en laboratorios de física y química de Londres, esta exposición busca reconocer el gesto de orfebres antiguos al crear los tunjos (figuras humanas) en “cera perdida”, que luego eran fundidos en aleaciones de oro y cobre. Sabemos que los muiscas fueron un pueblo religioso; antiguos habitantes de la Cordillera Oriental en Cundinamarca y Boyacá, en muchos momentos de su vida hicieron ofrendas que depositaron con devoción en lugares sagrados. Gracias a los arqueometalurgos se han podido analizar trece ofrendas, testimonio de los antiguos intercambios que los muiscas hacían con los dioses. Es una exposición novedosa que cambia nuestra mirada, nos pone en el lugar de quienes hicieron estas piezas y nos acerca a los objetos de orfebrería prehispánica muisca para descubrir el arte, el artista y las historias que contienen. Descubrimos historias de caciques y sacrificios, de guerreros, madres y cunas, de momias ofrendadas. Quince orfebres muiscas, maestros y aprendices, crearon estos conjuntos con un estilo único y una técnica personal. Es la primera vez que reconocemos por su trabajo a orfebres individuales en la colección del Museo del Oro.

Published

2013

42. Divergent location of ribosomal genes in chromosomes of fish thorny-headed worms, Pomphorhynchus laevis and Pomphorhynchus tereticollis (Acanthocephala).

Author

Marta Bombarová, Petr Nguyen, and Marta Špakulová

Abstract

Abstract  We studied distribution of ribosomal DNA (rDNA) sequences along with chromosomal location of the nucleolar organizer regions (NORs) in males of two fish parasites, Pomphorhynchus laevis and Pomphorhynchus tereticollis (Acanthocephala). Fluorescence in situ hybridization with 18S rDNA probe identified two clusters of rDNA in each species, but revealed a remarkable difference in their location on chromosomes. In P. laevis, the rDNA-FISH signals were found in long arms of the first chromosome pair and in short arms of the second pair. Whereas in P. tereticollis, rDNA clusters were located in long arms of both the first and second chromosome pairs. The divergent location of rDNA clusters in the chromosome No. 2 supports current classification of P. tereticollis, previously considered a synonym of P. laevis, as a separate species. A possible scenario of the second chromosome rearrangement during karyotype evolution of the two species involves two successive pericentric inversions. In both species, one or two prominent nucleoli were apparent within interphase nuclei stained with either silver nitrate or a fluorescent dye YOYO-1. However, a single large nucleolus was observed in early stages of mitosis and meiosis I regardless the number of rDNA clusters. Nevertheless, two bivalents with silver-stained NORs in diakinesis and two silver-stained sites in early prophase II nuclei indicated that all NORs are active. This means that each Pomphorhynchus NOR generates a nucleolus, but the resulting nucleoli have a strong tendency to associate in a large body. [ABSTRACT FROM AUTHOR]

Published

2007

43. Codling moth cytogenetics: karyotype, chromosomal location of rDNA, and molecular differentiation of sex chromosomes.

Author

Fuková, Iva, Petr Nguyen, Marec, František, and Traut, W.

Subjects

*CODLING moth, *IN situ hybridization, *HETEROCHROMATIN, *KARYOTYPES, *SEX chromosomes, *CYDIA, *INSECT sex chromosomes

Abstract

We performed a detailed karyotype analysis in the codling moth, Cydia pomonella (L.) (Lepidoptera: Tortricidae), the key pest of pome fruit in the temperate regions of the world. The codling moth karyotype consisted of 2n = 56 chromosomes of a holokinetic type. The chromosomes were classified into 5 groups according to their sizes: extra large (3 pairs), large (3 pairs), medium (15 pairs), small (5 pairs), and dot-like (2 pairs). In pachytene nuclei of both sexes, a curious NOR (nucleolar organizer region) bivalent was observed. It carried 2 nucleoli, each associated with one end of the bivalent. FISH with an 18S ribosomal DNA probe confirmed the presence of 2 clusters of rRNA genes at the opposite ends of the bivalent. In accordance with this finding, 2 homologous NOR chromosomes were identified in mitotic metaphase, each showing hybridization signals at both ends. In highly polyploid somatic nuclei, females showed a large heterochromatin body, the so-called sex chromatin or W chromatin. The heterochromatin body was absent in male nuclei, indicating a WZ/ZZ (female/male) sex chromosome system. In keeping with the sex chromatin status, pachytene oocytes showed a sex chromosome bivalent (WZ) that was easily discernible by its heterochromatic W thread. To study molecular differentiation of the sex chromosomes, we employed genomic in situ hybridization (GISH) and comparative genomic hybridization (CGH). GISH detected the W chromosome by strong binding of the Cy3-labelled, female-derived DNA probe. With CGH, both the Cy3-labelled female-derived probe and Fluor-X labelled male-derived probe evenly bound to the W chromosome. This suggested that the W chromosome is predominantly composed of repetitive DNA sequences occurring scattered in other chromosomes but accumulated in the W chromosome. The demonstrated ways of W chromosome identification will facilitate the development of genetic sexing strains desirable for pest control using the sterile insect technique. [ABSTRACT FROM AUTHOR]

Published

2005