Your search keyword '"chromosomal inversion"' showing total 3,784 results

1. Limited genomic signatures of population collapse in the critically endangered black abalone (Haliotis cracherodii).

Author

Wooldridge, Brock, Orland, Chloé, Enbody, Erik, Escalona, Merly, Mirchandani, Cade, Corbett-Detig, Russell, Kapp, Joshua, Fletcher, Nathaniel, Cox-Ammann, Karah, Raimondi, Peter, and Shapiro, Beth

Subjects

black abalone, chromosomal inversion, conservation genetics, population bottleneck

Abstract

The black abalone, Haliotis cracherodii, is a large, long-lived marine mollusc that inhabits rocky intertidal habitats along the coast of California and Mexico. In 1985, populations were impacted by a bacterial disease known as withering syndrome (WS) that wiped out >90% of individuals, leading to the closure of all U.S. black abalone fisheries since 1993. Current conservation strategies include restoring diminished populations by translocating healthy individuals. However, population collapse on this scale may have dramatically lowered genetic diversity and strengthened geographic differentiation, making translocation-based recovery contentious. Additionally, the current prevalence of WS remains unknown. To address these uncertainties, we sequenced and analysed the genomes of 133 black abalone individuals from across their present range. We observed no spatial genetic structure among black abalone, with the exception of a single chromosomal inversion that increases in frequency with latitude. Outside the inversion, genetic differentiation between sites is minimal and does not scale with either geographic distance or environmental dissimilarity. Genetic diversity appears uniformly high across the range. Demographic inference does indicate a severe population bottleneck beginning just 15 generations in the past, but this decline is short lived, with present-day size far exceeding the pre-bottleneck status quo. Finally, we find the bacterial agent of WS is equally present across the sampled range, but only in 10% of individuals. The lack of population genetic structure, uniform diversity and prevalence of WS bacteria indicates that translocation could be a valid and low-risk means of population restoration for black abalone species recovery.

Published

2024

2. Aeroplane wing, a new recessive autosomal phenotypic marker in the malaria vector, Anopheles stephensi Liston.

Author

Ghosh, Chaitali, Soumya, M, Kumar, Naveen, Kumar R, Chethan, Joshi, Soumya, Kumar, Sampath, Subramani, Suresh, and Swain, Sunita

Subjects

Aeroplane wings, Anopheles stephensi, Autosomal, Chromosomal inversion, Crossbreeding, Monogenic trait, Recessive, mutant

Abstract

A novel and distinct mutant with a phenotype, aeroplane wing (ae) is reported for the first time in the urban malaria vector Anopheles stephensi. The main aim of this study was to establish the mode of inheritance of the ae gene performing genetic crossings between the mutants and wild types. These mutants show extended open wings that are visible to naked eyes in both the sexes. Mutants were first noticed in a nutritionally stressed isofemale colony. Strategic genetic crosses revealed that the ae gene is a recessive, autosomal, and monogenic trait having full penetrance with uniform expression in its adult stage. Egg morphometric analysis confirmed that these mutants were intermediate variant. No significant differences were observed in the wing venation and size of ae mutants compared to their control parental lines. Further cytogenetic analysis on the ovarian polytene chromosome of ae mutant showed an inversion (3Li) on the 3L arm like its parental line. This ae mutant would be a prominent marker and could be useful to study the functions of related specific genes within its genome.

Published

2024

3. The interplay of local adaptation and gene flow may lead to the formation of supergenes.

Author

Jay, Paul, Aubier, Thomas G., and Joron, Mathieu

Abstract

Supergenes are genetic architectures resulting in the segregation of alternative combinations of alleles underlying complex phenotypes. The co‐segregation of alleles at linked loci is often facilitated by polymorphic chromosomal rearrangements suppressing recombination locally. Supergenes are involved in many complex polymorphisms, including sexual, colour or behavioural polymorphisms in numerous plants, fungi, mammals, fish, and insects. Despite a long history of empirical and theoretical research, the formation of supergenes remains poorly understood. Here, using a two‐island population genetic model, we explore how gene flow and the evolution of overdominant chromosomal inversions may jointly lead to the formation of supergenes. We show that the evolution of inversions in differentiated populations, both under disruptive selection, leads to an increase in frequency of poorly adapted, immigrant haplotypes. Indeed, rare allelic combinations, such as immigrant haplotypes, are more frequently reshuffled by recombination than common allelic combinations, and therefore benefit from the recombination suppression generated by inversions. When an inversion capturing a locally adapted haplotype spreads but is associated with a fitness cost hampering its fixation (e.g. a recessive mutation load), the maintenance of a non‐inverted haplotype in the population is enhanced; under certain conditions, the immigrant haplotype persists alongside the inverted local haplotype, while the standard local haplotype disappears. This establishes a stable, local polymorphism with two non‐recombining haplotypes encoding alternative adaptive strategies, that is, a supergene. These results bring new light to the importance of local adaptation, overdominance, and gene flow in the formation of supergenes and inversion polymorphisms in general. [ABSTRACT FROM AUTHOR]

Published

2024

4. A sex chromosome polymorphism maintains divergent plumage phenotypes between extensively hybridizing yellowhammers (Emberiza citrinella) and pine buntings (E. leucocephalos).

Author

Nikelski, Ellen, Rubtsov, Alexander S., and Irwin, Darren

Subjects

*CHROMOSOME polymorphism, *POPULATION differentiation, *VICARIANCE, *SEX chromosomes, *SYMPATRIC speciation, *CHROMOSOME inversions, REPRODUCTIVE isolation

Abstract

Under allopatric speciation, populations of a species become isolated by a geographic barrier and develop reproductive isolation through genetic differentiation. When populations meet in secondary contact, the strength of evolved reproductive barriers determines the extent of hybridization and whether the populations will continue to diverge or merge together. The yellowhammer (Emberiza citrinella) and pine bunting (E. leucocephalos) are avian sister species that diverged in allopatry on either side of Eurasia during the Pleistocene glaciations. Though they differ greatly in plumage and form distinct genetic clusters in allopatry, these taxa show negligible mitochondrial DNA differentiation and hybridize extensively where they overlap in central Siberia, lending uncertainty to the state of reproductive isolation in the system. To assess the strength of reproductive barriers between taxa, we examined genomic differentiation across the system. We found that extensive admixture has occurred in sympatry, indicating that reproductive barriers between taxa are weak. We also identified a putative Z chromosome inversion region that underlies plumage variation in the system, with the 'pine bunting' haplotype showing dominance over the 'yellowhammer' haplotype. Our results suggest that yellowhammers and pine buntings are currently at a crossroads and that evolutionary forces may push this system towards either continued differentiation or population merging. However, even if these taxa merge, recombination suppression between putative chromosome Z inversion haplotypes may maintain divergent plumage phenotypes within the system. In this way, our findings highlight the important role hybridization plays in increasing the genetic and phenotypic variation as well as the evolvability of a system. [ABSTRACT FROM AUTHOR]

Published

2024

5. Characterization of Dominant Cuticular Hydrocarbons in Inversion and Inversion-Free Strains of Drosophila ananassae (Doleschall)

Author

Kavitha, R S and Jayaramu, S C

Published

2024

6. New insights on the chromosomal inversion thermal adaptation in insects: American populations of Drosophila subobscura.

Author

Arenas, Concepció, Zivanovic, Goran, Pegueroles, Cinta, and Mestres, Francesc

Subjects

*INSECT adaptation, *NATURAL selection, *GLOBAL warming, *INSECT populations, *GENETIC variation, *CHROMOSOME inversions

Abstract

Drosophila subobscura is an excellent model species for testing genetic variation in thermal adaptation due to its rich inversion chromosomal polymorphism. In Palearctic populations, the inversions of this species can be classified as "cold", "warm" or "nonthermal" adapted. Based on this classification the Chromosomal Thermal Index (CTI) was developed, which allows measuring the thermal adaptation of populations and monitoring changes over time. Here, we aim to use this index in American colonizing populations of D. subobscura for the first time to obtain new information on the species thermal adaptation. Thus, thermal adapted inversions ("cold" and "warm") were defined for the American continent and CTI was computed in South American (1981 and 1999 samples) and North American (1985 and 2004 samples) populations of D. subobscura. In general, both American populations showed an inverse relationship between CTI values and latitude, with CTI values decreasing when latitude increases. When comparing populations sampled in different years, an increase in CTI values was detected in four out of six temporal comparisons (only one was significant) of South America (1981 and 1999) and in six out of seven populations of North America (1985 and 2004). A global analysis using a one‐way repeated measures anova of CTI values in both American hemispheres showed a trend of increase for "warm" adapted inversions in Chile and North America, but this increase was only significant for the latter. Overall, these results are in agreement with global warming expectations, although natural selection acted differently in the colonized hemispheres. [ABSTRACT FROM AUTHOR]

Published

2024

7. Characterization of a 4.1 Mb inversion harboring the stripe rust resistance gene YR86 on wheat chromosome 2AL.

Author

Qiang Cao, Zhanwang Zhu, Dengan Xu, Jianhui Wu, Xiaowan Xu, Yan Dong, Yingjie Bian, Fugong Ding, Dehui Zhao, Yang Tu, Ling Wu, Dejun Han, Caixia Lan, Xianchun Xia, Zhonghu He, and Yuanfeng Hao

Subjects

*STRIPE rust, *CHROMOSOMES, *WHEAT breeding, *WHEAT, *CHROMOSOME inversions, *GENES

Abstract

Wheat cultivar Zhongmai 895 was earlier found to carry YR86 in an 11.6 Mb recombination-suppressed region on chromosome 2AL when crossed with Yangmai 16. To fine-map the YR86 locus, we developed two large F2 populations from crosses Emai 580/Zhongmai 895 and Avocet S/Zhongmai 895. Remarkably, both populations exhibited suppressed recombination in the same 2AL region. Collinearity analysis across Chinese Spring, Aikang 58, and 10+ wheat genomes revealed a 4.1 Mb chromosomal inversion spanning 708.5-712.6 Mb in the Chinese Spring reference genome. Molecular markers were developed in the breakpoint and were used to assess a wheat cultivar panel, revealing that Chinese Spring, Zhongmai 895, and Jimai 22 shared a common sequence named InvCS, whereas Aikang 58, Yangmai 16, Emai 580, and Avocet S shared the sequence named InvAK58. The inverted configuration explained the suppressed recombination observed in all three bi-parental populations. Normal recombination was observed in a Jimai 22/Zhongmai 895 F2 population, facilitating mapping of YR86 to a genetic interval of 0.15 cM corresponding to 710.27-712.56 Mb falling within the inverted region. Thirty-three high-confidence genes were annotated in the interval using the Chinese Spring reference genome, with six identified as potential candidates for YR86 based on genome and transcriptome analyses. These results will accelerate map-based cloning of YR86 and its deployment in wheat breeding. [ABSTRACT FROM AUTHOR]

Published

2024

8. Consequences of partially recessive deleterious genetic variation for the evolution of inversions suppressing recombination between sex chromosomes.

Author

Olito, Colin, Ponnikas, Suvi, Hansson, Bengt, and Abbott, Jessica K

Subjects

*SEX chromosomes, *GENETIC models, *GENETIC drift, *GENETIC variation, *CHROMOSOMES, *CHROMOSOME inversions, *Y chromosome, *GENETIC sex determination

Abstract

The evolution of suppressed recombination between sex chromosomes is widely hypothesized to be driven by sexually antagonistic selection (SA), where tighter linkage between the sex-determining gene(s) and nearby SA loci is favored when it couples male-beneficial alleles to the proto-Y chromosome, and female-beneficial alleles to the proto-X. Although difficult to test empirically, the SA selection hypothesis overshadows several alternatives, including an incomplete but often-repeated "sheltering" hypothesis which suggests that expansion of the sex-linked region (SLR) reduces the homozygous expression of deleterious mutations at selected loci. Here, we use population genetic models to evaluate the consequences of partially recessive deleterious mutational variation for the evolution of otherwise neutral chromosomal inversions expanding the SLR on proto-Y chromosomes. Both autosomal and SLR-expanding inversions face a race against time: lightly-loaded inversions are initially beneficial, but eventually become deleterious as they accumulate new mutations, after which their chances of fixing become negligible. In contrast, initially unloaded inversions eventually become neutral as their deleterious load reaches the same equilibrium as non-inverted haplotypes. Despite the differences in inheritance and indirect selection, SLR-expanding inversions exhibit similar evolutionary dynamics to autosomal inversions over many biologically plausible parameter conditions. Differences emerge when the population average mutation load is quite high; in this case large autosomal inversions that are lucky enough to be mutation-free can rise to intermediate to high frequencies where selection in homozygotes becomes important (Y-linked inversions never appear as homozygous karyotypes); conditions requiring either high mutation rates, highly recessive deleterious mutations, weak selection, or a combination thereof. [ABSTRACT FROM AUTHOR]

Published

2024

9. CHARACTERIZATION OF DOMINANT CUTICULAR HYDROCARBONS IN INVERSION AND INVERSION-FREE STRAINS OF DROSOPHILA ANANASSAE (DOLESCHALL).

Author

R. S., KAVITHA and S. C., JAYARAMU

Subjects

CHEMICAL resistance, GAS chromatography, CHEMICAL chains, MASS spectrometry, DROSOPHILA, CHROMOSOME inversions

Abstract

Cuticular hydrocarbons (CHCs) of Drosophila ananassae (Doleschall) was characterized and identified using gas chromatography and mass spectrometry (GC-MS) analysis. A high % of methyl-branched alkanes were identified in all inversion (2LA, 3LA and 2LA+3LA) and inversion-free strains followed by linear alkanes and alkenes. The present work unfolds the significant patterns of variations in the isomeric forms of methylated alkanes between the inversion and inversion free strains (F-46.6; df-3, p 0.005), and non-significant between the sex (F-2.14; df-1, p 0.2394). But in linear alkanes shows significant variation between the inversion strains (F-30.49; df-3, p 0.009) and between the male and female (F-115.45; df-1, p 0.001) was observed. In particular there is a significant correlation between the chromosomal inversion and synthesis of CHCs in D. ananassae. Unique blend of CHCs in Drosophila performs dual role as desiccation resistance and act as chemical signalling molecule. Linear alkanes are majorly involved in desiccation resistance but in methyl- branched CHCs length variation is a key determinant of desiccation resistance. Presence of longer methyl- branched alkanes and higher desiccation resistance, shorter the carbon chain length act as a signalling molecules. The current study revealed the influence of chromosomal inversion on the cuticular hydrocarbon profile in D. ananassae. [ABSTRACT FROM AUTHOR]

Published

2024

10. Chromosome-scale Genome Assembly of the Rough Periwinkle Littorina saxatilis.

Author

Jode, Aurélien De, Faria, Rui, Formenti, Giulio, Sims, Ying, Smith, Timothy P, Tracey, Alan, Wood, Jonathan M D, Zagrodzka, Zuzanna B, Johannesson, Kerstin, Butlin, Roger K, and Leder, Erica H

Subjects

*CHROMOSOME inversions, *CHROMOSOMES, *GENE flow, *GENETIC speciation

Abstract

The intertidal gastropod Littorina saxatilis is a model system to study speciation and local adaptation. The repeated occurrence of distinct ecotypes showing different levels of genetic divergence makes L. saxatilis particularly suited to study different stages of the speciation continuum in the same lineage. A major finding is the presence of several large chromosomal inversions associated with the divergence of ecotypes and, specifically, the species offers a system to study the role of inversions in this divergence. The genome of L. saxatilis is 1.35 Gb and composed of 17 chromosomes. The first reference genome of the species was assembled using Illumina data, was highly fragmented (N50 of 44 kb), and was quite incomplete, with a BUSCO completeness of 80.1% on the Metazoan dataset. A linkage map of one full-sibling family enabled the placement of 587 Mbp of the genome into 17 linkage groups corresponding to the haploid number of chromosomes, but the fragmented nature of this reference genome limited the understanding of the interplay between divergent selection and gene flow during ecotype formation. Here, we present a newly generated reference genome that is highly contiguous, with a N50 of 67 Mb and 90.4% of the total assembly length placed in 17 super-scaffolds. It is also highly complete with a BUSCO completeness of 94.1% of the Metazoa dataset. This new reference will allow for investigations into the genomic regions implicated in ecotype formation as well as better characterization of the inversions and their role in speciation. [ABSTRACT FROM AUTHOR]

Published

2024

11. Adaptation to seasonal reproduction and environment‐associated factors drive temporal and spatial differentiation in northwest Atlantic herring despite gene flow.

Author

Fuentes‐Pardo, Angela P., Stanley, Ryan, Bourne, Christina, Singh, Rabindra, Emond, Kim, Pinkham, Lisa, McDermid, Jenni L., Andersson, Leif, and Ruzzante, Daniel E.

Subjects

*ATLANTIC herring, *CHROMOSOME inversions, *GENE flow, *MARINE fishes, *GENETIC variation, *CLIMATE change, *PHYLOGEOGRAPHY

Abstract

Understanding how marine organisms adapt to local environments is crucial for predicting how populations will respond to global climate change. The genomic basis, environmental factors and evolutionary processes involved in local adaptation are however not well understood. Here we use Atlantic herring, an abundant, migratory and widely distributed marine fish with substantial genomic resources, as a model organism to evaluate local adaptation. We examined genomic variation and its correlation with environmental variables across a broad environmental gradient, for 15 spawning aggregations in Atlantic Canada and the United States. We then compared our results with available genomic data of northeast Atlantic populations. We confirmed that population structure lies in a fraction of the genome including likely adaptive genetic variants of functional importance. We discovered 10 highly differentiated genomic regions distributed across four chromosomes. Nine regions show strong association with seasonal reproduction. One region, corresponding to a known inversion on chromosome 12, underlies a latitudinal pattern discriminating populations north and south of a biogeographic transition zone on the Scotian Shelf. Genome–environment associations indicate that winter seawater temperature best correlates with the latitudinal pattern of this inversion. The variation at two so‐called 'islands of divergence' related to seasonal reproduction appear to be private to the northwest Atlantic. Populations in the northwest and northeast Atlantic share variation at four of these divergent regions, simultaneously displaying significant diversity in haplotype composition at another four regions, which includes an undescribed structural variant approximately 7.7 Mb long on chromosome 8. Our results suggest that the timing and geographic location of spawning and early development may be under diverse selective pressures related to allelic fitness across environments. Our study highlights the role of genomic architecture, ancestral haplotypes and selection in maintaining adaptive divergence in species with large population sizes and presumably high gene flow. [ABSTRACT FROM AUTHOR]

Published

2024

12. Chromosomal Inversions and the Demography of Speciation in Drosophila montana and Drosophila flavomontana.

Author

Poikela, Noora, Laetsch, Dominik R, Hoikkala, Ville, Lohse, Konrad, and Kankare, Maaria

Subjects

*CHROMOSOME inversions, *DROSOPHILA, *GENETIC speciation, *X chromosome, *GENETIC recombination, *GENE flow, *INTROGRESSION (Genetics), REPRODUCTIVE isolation

Abstract

Chromosomal inversions may play a central role in speciation given their ability to locally reduce recombination and therefore genetic exchange between diverging populations. We analyzed long- and short-read whole-genome data from sympatric and allopatric populations of 2 Drosophila virilis group species, Drosophila montana and Drosophila flavomontana , to understand if inversions have contributed to their divergence. We identified 3 large alternatively fixed inversions on the X chromosome and one on each of the autosomes 4 and 5. A comparison of demographic models estimated for inverted and noninverted (colinear) chromosomal regions suggests that these inversions arose before the time of the species split. We detected a low rate of interspecific gene flow (introgression) from D. montana to D. flavomontana , which was further reduced inside inversions and was lower in allopatric than in sympatric populations. Together, these results suggest that the inversions were already present in the common ancestral population and that gene exchange between the sister taxa was reduced within inversions both before and after the onset of species divergence. Such ancestrally polymorphic inversions may foster speciation by allowing the accumulation of genetic divergence in loci involved in adaptation and reproductive isolation inside inversions early in the speciation process, while gene exchange at colinear regions continues until the evolving reproductive barriers complete speciation. The overlapping X inversions are particularly good candidates for driving the speciation process of D. montana and D. flavomontana , since they harbor strong genetic incompatibilities that were detected in a recent study of experimental introgression. [ABSTRACT FROM AUTHOR]

Published

2024

13. A novel tetra-primer ARMS-PCR approach for the molecular karyotyping of chromosomal inversion 2Ru in the main malaria vectors Anopheles gambiae and Anopheles coluzzii

Author

Verena Pichler, Antoine Sanou, R. Rebecca Love, Beniamino Caputo, Marco Pombi, Kobie Hyacinth Toe, Moussa W. Guelbeogo, N’Fale Sagnon, Heather M. Ferguson, Hilary Ranson, Alessandra della Torre, and Nora J. Besansky

Subjects

Anopheles gambiae complex, Chromosomal inversion, Inversion genotyping, Malaria vector, Molecular karyotyping, Tetra-primer ARMS-PCR, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Chromosomal inversion polymorphisms have been associated with adaptive behavioral, physiological, morphological and life history traits in the two main Afrotropical malaria vectors, Anopheles coluzzii and Anopheles gambiae. The understanding of the adaptive value of chromosomal inversion systems is constrained by the feasibility of cytological karyotyping. In recent years in silico and molecular approaches have been developed for the genotyping of most widespread inversions (2La, 2Rb and 2Rc). The 2Ru inversion, spanning roughly 8% of chromosome 2R, is commonly polymorphic in West African populations of An. coluzzii and An. gambiae and shows clear increases in frequency with increasing rainfall seasonally and geographically. The aim of this work was to overcome the constraints of currently available cytological and high-throughput molecular assays by developing a simple PCR assay for genotyping the 2Ru inversion in individual specimens of both mosquito species. Methods We designed tetra-primer amplification refractory mutation system (ARMS)-PCR assays based on five tag single-nucleotide polymorphisms (SNPs) previously shown to be strongly correlated with 2Ru inversion orientation. The most promising assay was validated against laboratory and field samples of An. coluzzii and An. gambiae karyotyped either cytogenetically or molecularly using a genotyping-in-thousands by sequencing (GT-seq) high-throughput approach that employs targeted sequencing of multiplexed PCR amplicons. Results A successful assay was designed based on the tag SNP at position 2R, 31710303, which is highly predictive of the 2Ru genotype. The assay, which requires only one PCR, and no additional post-PCR processing other than electrophoresis, produced a clear banding pattern for 98.5% of the 454 specimens tested, which is a 96.7% agreement with established karyotyping methods. Sequences were obtained for nine of the An. coluzzii specimens manifesting 2Ru genotype discrepancies with GT-seq. Possible sources of these discordances are discussed. Conclusions The tetra-primer ARMS-PCR assay represents an accurate, streamlined and cost-effective method for the molecular karyotyping of the 2Ru inversion in An. coluzzii and An. gambiae. Together with approaches already available for the other common polymorphic inversions, 2La, 2Rb and 2Rc, this assay will allow investigations of the adaptive value of the complex set of inversion systems observed in the two major malaria vectors in the Afrotropical region. Graphical Abstract

Published

2023

14. Adaptation to seasonal reproduction and environment‐associated factors drive temporal and spatial differentiation in northwest Atlantic herring despite gene flow

Author

Angela P. Fuentes‐Pardo, Ryan Stanley, Christina Bourne, Rabindra Singh, Kim Emond, Lisa Pinkham, Jenni L. McDermid, Leif Andersson, and Daniel E. Ruzzante

Subjects

chromosomal inversion, fisheries, genomics, marine fish, pool‐seq, whole genome, Evolution, QH359-425

Abstract

Abstract Understanding how marine organisms adapt to local environments is crucial for predicting how populations will respond to global climate change. The genomic basis, environmental factors and evolutionary processes involved in local adaptation are however not well understood. Here we use Atlantic herring, an abundant, migratory and widely distributed marine fish with substantial genomic resources, as a model organism to evaluate local adaptation. We examined genomic variation and its correlation with environmental variables across a broad environmental gradient, for 15 spawning aggregations in Atlantic Canada and the United States. We then compared our results with available genomic data of northeast Atlantic populations. We confirmed that population structure lies in a fraction of the genome including likely adaptive genetic variants of functional importance. We discovered 10 highly differentiated genomic regions distributed across four chromosomes. Nine regions show strong association with seasonal reproduction. One region, corresponding to a known inversion on chromosome 12, underlies a latitudinal pattern discriminating populations north and south of a biogeographic transition zone on the Scotian Shelf. Genome–environment associations indicate that winter seawater temperature best correlates with the latitudinal pattern of this inversion. The variation at two so‐called ‘islands of divergence’ related to seasonal reproduction appear to be private to the northwest Atlantic. Populations in the northwest and northeast Atlantic share variation at four of these divergent regions, simultaneously displaying significant diversity in haplotype composition at another four regions, which includes an undescribed structural variant approximately 7.7 Mb long on chromosome 8. Our results suggest that the timing and geographic location of spawning and early development may be under diverse selective pressures related to allelic fitness across environments. Our study highlights the role of genomic architecture, ancestral haplotypes and selection in maintaining adaptive divergence in species with large population sizes and presumably high gene flow.

Published

2024

15. Examination of Large Chromosomal Inversions in the Genome of Erwinia amylovora Strains Reveals Worldwide Distribution and North America-Specific Types.

Author

Ho-Wen Yang, Thapa, Ranjita, Johnson, Kenneth, DuPont, S. Tianna, Khan, Awais, and Youfu Zhao

Subjects

*CHROMOSOME inversions, *ERWINIA amylovora, *HOMOLOGOUS recombination, *GENOMES, *WHOLE genome sequencing, *RIBOSOMAL DNA, *TRANSFER RNA

Abstract

Erwinia amylovora is a relatively homogeneous species with low genetic diversity at the nucleotide level. However, phenotypic differences and genomic structural variations among E. amylovora strains have been documented. In this study, we identified 10 large chromosomal inversion (LCI) types in the Spiraeoideae-infecting (SI) E. amylovora strains by combining whole genome sequencing and PCR-based molecular markers. It was found that LCIs were mainly caused by homologous recombination events among seven rRNA opérons (rrns) in SI E. amylovora strains. Although ribotyping results identified inter- and inlra-variations in the internal transcribed spacer (ITS1 and ITS2) regions among rrns, LCIs tend to occur between rrns transcribed in the opposite directions and with the same tRNA content (tRNA-Glu or tRNA-Ile/Ala) in ITS1. Based on the LCI types, physical/estimated replichore imbalance (PRI/ERI) was examined and calculated. Among the 117 SI strains evaluated, the LCI types of Eal 189, CFBP1430, and Ea273 were the most common, with ERI values at 1.31, 7.87, and 4.47°, respectively. These three LCI types had worldwide distribution, whereas the remaining seven LCI types were restricted to North America (or certain regions of the United States). Our results indicated ongoing chromosomal recombination events in the SI E. amylovora population and showed that LCI events are mostly symmetrical, keeping the ERI less than 15°. These findings provide initial evidence about the prevalence of certain LCI types in E. amylovora strains, how LCI occurs, and its potential evolutionary advantage and history, which might help track the movement of the pathogen. [ABSTRACT FROM AUTHOR]

Published

2023

16. A novel tetra-primer ARMS-PCR approach for the molecular karyotyping of chromosomal inversion 2Ru in the main malaria vectors Anopheles gambiae and Anopheles coluzzii.

Author

Pichler, Verena, Sanou, Antoine, Love, R. Rebecca, Caputo, Beniamino, Pombi, Marco, Toe, Kobie Hyacinth, Guelbeogo, Moussa W., Sagnon, N’Fale, Ferguson, Heather M., Ranson, Hilary, della Torre, Alessandra, and Besansky, Nora J.

Abstract

Background Chromosomal inversion polymorphisms have been associated with adaptive behavioral, physiological, morphological and life history traits in the two main Afrotropical malaria vectors, Anopheles coluzzii and Anopheles gambiae. The understanding of the adaptive value of chromosomal inversion systems is constrained by the feasibility of cytological karyotyping. In recent years in silico and molecular approaches have been developed for the genotyping of most widespread inversions (2La, 2Rb and 2Rc). The 2Ru inversion, spanning roughly 8% of chromosome 2R, is commonly polymorphic in West African populations of An. coluzzii and An. gambiae and shows clear increases in frequency with increasing rainfall seasonally and geographically. The aim of this work was to overcome the constraints of currently available cytological and high-throughput molecular assays by developing a simple PCR assay for genotyping the 2Ru inversion in individual specimens of both mosquito species. Methods We designed tetra-primer amplifcation refractory mutation system (ARMS)-PCR assays based on five tag single-nucleotide polymorphisms (SNPs) previously shown to be strongly correlated with 2Ru inversion orientation. The most promising assay was validated against laboratory and field samples of An. coluzzii and An. gambiae karyotyped either cytogenetically or molecularly using a genotyping-in-thousands by sequencing (GT-seq) high-through-put approach that employs targeted sequencing of multiplexed PCR amplicons. Results A successful assay was designed based on the tag SNP at position 2R, 31710303, which is highly predictive of the 2Ru genotype. The assay, which requires only one PCR, and no additional post-PCR processing other than electrophoresis, produced a clear banding pattern for 98.5% of the 454 specimens tested, which is a 96.7% agreement with established karyotyping methods. Sequences were obtained for nine of the An. coluzzii specimens manifesting 2Ru genotype discrepancies with GT-seq. Possible sources of these discordances are discussed. Conclusions The tetra-primer ARMS-PCR assay represents an accurate, streamlined and cost-effective method for the molecular karyotyping of the 2Ru inversion in An. coluzzii and An. gambiae. Together with approaches already available for the other common polymorphic inversions, 2La, 2Rb and 2Rc, this assay will allow investigations of the adaptive value of the complex set of inversion systems observed in the two major malaria vectors in the Afrotropical region. [ABSTRACT FROM AUTHOR]

Published

2023

17. Weak antagonistic fitness effects can maintain an inversion polymorphism.

Author

Pei, Yifan, Forstmeier, Wolfgang, Knief, Ulrich, and Kempenaers, Bart

Subjects

*CHROMOSOME inversions, *ZEBRA finch, *GENE frequency, *CHROMOSOMES

Abstract

The study of chromosomal inversion polymorphisms has received much recent attention, particularly in cases where inversions have drastic effects on phenotypes and fitness (e.g. lethality of homozygotes). Less attention has been paid to the question of the maintenance of inversion polymorphisms that show only weak effects. Here, we study the maintenance of such an inversion polymorphism that links 250 genes on chromosome Tgu11 in the zebra finch (Taeniopygia guttata). Based on data from over 6000 captive birds, we estimated the effects of this inversion on a wide range of fitness‐related traits. We found that, compared with the ancestral allele A, the inverted allele D had small additive beneficial effects on male siring success and on female fecundity. These fitness‐enhancing effects may explain the initial spread of the derived D allele (allele frequency 53%). However, individuals that were homozygous for D had a slightly lower survival rate, which may explain why the D allele has not spread to fixation. We used individual‐based simulations to examine how an inversion polymorphism with such antagonistic fitness effects behaves over time. Our results indicate that polymorphisms become stabilized at an intermediate allele frequency if the inversion links an additively beneficial allele of small effect size to a recessive weakly deleterious mutation, overall resulting in weak net heterosis. Importantly, this conclusion remains valid over a wide range of selection coefficients against the homozygous DD (up to lethality), suggesting that the conditions needed to maintain the polymorphism may frequently be met. However, the simulations also suggest that in our zebra finch populations, the estimated recessive deleterious effect of the D allele (on survival in captivity) is not quite large enough to prevent fixation of the D allele in the long run. Estimates of fitness effects from free‐living populations are needed to validate these results. [ABSTRACT FROM AUTHOR]

Published

2023

18. Genomic architecture underlying morphological and physiological adaptation to high elevation in a songbird.

Author

Lu, Chia‐Wei, Huang, Shih‐Ting, Cheng, Shun‐Jen, Lin, Chen‐Tau, Hsu, Yu‐Cheng, Yao, Cheng‐Te, Dong, Feng, Hung, Chih‐Ming, and Kuo, Hao‐Chih

Subjects

*BIOLOGICAL evolution, *SONGBIRDS, *ALTITUDES, *GENE flow, *SOX transcription factors, *CHROMOSOME inversions

Abstract

Organisms often acquire physiological and morphological modifications to conquer ecological challenges when colonizing new environments which lead to their adaptive evolution. However, deciphering the genomic mechanism of ecological adaptation is difficult because ecological environments are often too complex for straightforward interpretation. Thus, we examined the adaptation of a widespread songbird—the rufous‐capped babbler (Cyanoderma ruficeps)—to a relatively simple system: distinct environments across elevational gradients on the mountainous island of Taiwan. We focused on the genomic sequences of 43 birds from five populations to show that the Taiwan group split from its sister group in mainland China around 1–2 million years ago (Ma) and colonized the montane habitats of Taiwan at least twice around 0.03–0.22 Ma. The montane and lowland Taiwan populations diverged with gene flow between them, suggesting strong selection associated with different elevations. We found that the montane babblers had smaller beaks than the lowland ones, consistent with Allen's rule, and identified candidate genes—COL9A1 and SOX11—underlying the beak size changes. We also found that altitudinally divergent mutations were mostly located in noncoding regions and tended to accumulate in chromosomal inversions and autosomes. The altitudinally divergent mutations might regulate genes related to haematopoietic, metabolic, immune, auditory and vision functions, as well as cerebrum morphology and plumage development. The results reveal the genomic bases of morphological and physiological adaptation in this species to the low temperature, hypoxia and high UV light environment at high elevation. These findings improve our understanding of how ecological adaptation drives population divergence from the perspective of genomic architecture. [ABSTRACT FROM AUTHOR]

Published

2023

19. Fine-Mapping Complex Inversion Breakpoints and Investigating Somatic Pairing in the Anopheles gambiae Species Complex Using Proximity-Ligation Sequencing

Author

Corbett-Detig, Russell B, Said, Iskander, Calzetta, Maria, Genetti, Max, McBroome, Jakob, Maurer, Nicholas W, Petrarca, Vincenzo, della Torre, Alessandra, and Besansky, Nora J

Subjects

Biological Sciences, Genetics, Biotechnology, Infectious Diseases, Vector-Borne Diseases, Good Health and Well Being, Animals, Anopheles, Chromosome Breakpoints, Chromosome Inversion, Confidence Intervals, Evolution, Molecular, Genome, Insect, Heterozygote, Karyotype, Physical Chromosome Mapping, Reproducibility of Results, Sequence Analysis, DNA, Chromosomal Inversion, Hi-C, Developmental Biology, Biochemistry and cell biology

Abstract

Chromosomal inversions are fundamental drivers of genome evolution. In the main Afrotropical malaria vector species, belonging to the Anopheles gambiae species complex, inversions play an important role in local adaptation and have a rich history of cytological study. Despite the importance and ubiquity of some chromosomal inversions across the species complex, inversion breakpoints are often challenging to map molecularly due to the presence of large repetitive regions. Here, we develop an approach that uses Hi-C sequencing data to molecularly fine-map the breakpoints of inversions. We demonstrate that this approach is robust and likely to be widely applicable for both identification and fine-mapping inversion breakpoints in species whose inversions have heretofore been challenging to characterize. We apply our method to interrogate the previously unknown inversion breakpoints of 2Rbc and 2Rd in An. coluzzii We found that inversion breakpoints occur in large repetitive regions, and, strikingly, among three inversions analyzed, two breakpoints appear to be reused in two separate inversions. These breakpoint-adjacent regions are strongly enriched for the presence of a 30 bp satellite repeat sequence. Because low frequency inversion breakpoints are not correlated with genomic regions containing this satellite, we suggest that interrupting this particular repeat may result in arrangements with higher relative fitness. Additionally, we use heterozygous individuals to quantitatively investigate the impacts of somatic pairing in the regions immediately surrounding inversion breakpoints. Finally, we discuss important considerations for possible applications of this approach for inversion breakpoint identification in a range of organisms.

Published

2019

20. The genome of cowpea (Vigna unguiculata [L.] Walp.)

Author

Lonardi, Stefano, Muñoz‐Amatriaín, María, Liang, Qihua, Shu, Shengqiang, Wanamaker, Steve I, Lo, Sassoum, Tanskanen, Jaakko, Schulman, Alan H, Zhu, Tingting, Luo, Ming‐Cheng, Alhakami, Hind, Ounit, Rachid, Hasan, Abid Md, Verdier, Jerome, Roberts, Philip A, Santos, Jansen RP, Ndeve, Arsenio, Doležel, Jaroslav, Vrána, Jan, Hokin, Samuel A, Farmer, Andrew D, Cannon, Steven B, and Close, Timothy J

Subjects

Genetics, Biotechnology, Chromosome Mapping, Chromosomes, Plant, DNA, Plant, Genes, Plant, Genome Size, Genome, Plant, Phaseolus, Retroelements, Sequence Analysis, DNA, Synteny, Vigna, chromosomal inversion, cowpea, domestication, genome annotation, genome evolution, genome size, next-generation sequencing, legumes, Phaseolus vulgaris, repetitive elements, Vigna unguiculata, Phaseolus vulgaris, Vigna unguiculata, Biochemistry and Cell Biology, Plant Biology, Plant Biology & Botany

Abstract

Cowpea (Vigna unguiculata [L.] Walp.) is a major crop for worldwide food and nutritional security, especially in sub-Saharan Africa, that is resilient to hot and drought-prone environments. An assembly of the single-haplotype inbred genome of cowpea IT97K-499-35 was developed by exploiting the synergies between single-molecule real-time sequencing, optical and genetic mapping, and an assembly reconciliation algorithm. A total of 519 Mb is included in the assembled sequences. Nearly half of the assembled sequence is composed of repetitive elements, which are enriched within recombination-poor pericentromeric regions. A comparative analysis of these elements suggests that genome size differences between Vigna species are mainly attributable to changes in the amount of Gypsy retrotransposons. Conversely, genes are more abundant in more distal, high-recombination regions of the chromosomes; there appears to be more duplication of genes within the NBS-LRR and the SAUR-like auxin superfamilies compared with other warm-season legumes that have been sequenced. A surprising outcome is the identification of an inversion of 4.2 Mb among landraces and cultivars, which includes a gene that has been associated in other plants with interactions with the parasitic weed Striga gesnerioides. The genome sequence facilitated the identification of a putative syntelog for multiple organ gigantism in legumes. A revised numbering system has been adopted for cowpea chromosomes based on synteny with common bean (Phaseolus vulgaris). An estimate of nuclear genome size of 640.6 Mbp based on cytometry is presented.

Published

2019

21. A chromosome-level genome assembly reveals that a bipartite gene cluster formed via an inverted duplication controls monoterpenoid biosynthesis in Schizonepeta tenuifolia.

Author

Liu, Chanchan, Smit, Samuel J., Dang, Jingjie, Zhou, Peina, Godden, Grant T., Jiang, Zheng, Liu, Wukun, Liu, Licheng, Lin, Wei, Duan, Jinao, Wu, Qinan, and Lichman, Benjamin R.

Abstract

Biosynthetic gene clusters (BGCs) are regions of a genome where genes involved in a biosynthetic pathway are in proximity. The origin and evolution of plant BGCs as well as their role in specialized metabolism remain largely unclear. In this study, we have assembled a chromosome-scale genome of Japanese catnip (Schizonepeta tenuifolia) and discovered a BGC that contains multiple copies of genes involved in four adjacent steps in the biosynthesis of p- menthane monoterpenoids. This BGC has an unprecedented bipartite structure, with mirrored biosynthetic regions separated by 260 kilobases. This bipartite BGC includes identical copies of a gene encoding an old yellow enzyme, a type of flavin-dependent reductase. In vitro assays and virus-induced gene silencing revealed that this gene encodes the missing isopiperitenone reductase. This enzyme evolved from a completely different enzyme family to isopiperitenone reductase from closely related Mentha spp., indicating convergent evolution of this pathway step. Phylogenomic analysis revealed that this bipartite BGC has emerged uniquely in the S. tenuifolia lineage and through insertion of pathway genes into a region rich in monoterpene synthases. The cluster gained its bipartite structure via an inverted duplication. The discovered bipartite BGC for p -menthane biosynthesis in S. tenuifolia has similarities to the recently described duplicated p -menthane biosynthesis gene pairs in the Mentha longifolia genome, providing an example of the convergent evolution of gene order. This work expands our understanding of plant BGCs with respect to both form and evolution, and highlights the power of BGCs for gene discovery in plant biosynthetic pathways. A chromosomal-level genome assembly of Japanese catnip (Schizonepeta tenuifolia) reveals a bipartite monoterpenoid biosynthetic gene cluster and enables the identification and characterization of genes involved in pulegone biosynthesis. Phylogenomic analysis shows that this biosynthetic gene cluster was formed via a chromosomal inverted duplication. This study expands our understanding of the formation and evolution of plant biosynthetic gene clusters. [ABSTRACT FROM AUTHOR]

Published

2023

22. Heterogeneous Genomic Divergence Landscape in Two Commercially Important European Scallop Species.

Author

Vendrami, David L. J., Hoffman, Joseph I., and Wilding, Craig S.

Subjects

*PECTEN maximus, *SCALLOPS, *GENE flow, *SPECIES, *CHROMOSOME inversions, *SINGLE nucleotide polymorphisms, *COMPARATIVE genomics, *CHROMOSOMES

Abstract

Two commercially important scallop species of the genus Pecten are found in Europe: the north Atlantic Pecten maximus and the Mediterranean Pecten jacobaeus whose distributions abut at the Almeria–Orán front. Whilst previous studies have quantified genetic divergence between these species, the pattern of differentiation along the Pecten genome is unknown. Here, we mapped RADseq data from 235 P. maximus and 27 P. jacobaeus to a chromosome-level reference genome, finding a heterogeneous landscape of genomic differentiation. Highly divergent genomic regions were identified across 14 chromosomes, while the remaining five showed little differentiation. Demographic and comparative genomics analyses suggest that this pattern resulted from an initial extended period of isolation, which promoted divergence, followed by differential gene flow across the genome during secondary contact. Single nucleotide polymorphisms present within highly divergent genomic regions were located in areas of low recombination and contrasting patterns of LD decay were found between the two species, hinting at the presence of chromosomal inversions in P. jacobaeus. Functional annotations revealed that highly differentiated regions were enriched for immune-related processes and mRNA modification. While future work is necessary to characterize structural differences, this study provides new insights into the speciation genomics of P. maximus and P. jacobaeus. [ABSTRACT FROM AUTHOR]

Published

2023

23. The double game of chromosomal inversions in a neotropical butterfly

Author

Jay, Paul and Joron, Mathieu

Subjects

Chromosomal inversion, Heliconius, Evolution, Mutation load, Mimicry, Supergene, Biology (General), QH301-705.5

Abstract

Over a century after the first description of a polymorphism controlled by a supergene, these genetic architectures still puzzle biologists. Supergenes are groups of tightly linked loci facilitating the co-segregation of combinations of alleles underlying alternative, complex adaptive strategies. The suppression of recombination at supergenes is generally caused by polymorphic chromosomal rearrangements, such as inversions. The existence of inversion polymorphisms and supergene raises theoretical and empirical questions. Why do these architectures evolve? How can alternative combinations of alleles be formed? How and why is polymorphism maintained? The purpose of this paper is to provide answers to these questions by reviewing recent advances in the study of Heliconius numata, an Amazonian butterfly displaying a striking diversity of wing color patterns. In a broad context, this review highlights mechanisms that play an important role in the evolution of new genomic architecture and in the adaptation of species.

Published

2022

24. A supergene controls facultative diapause in the crop pest Helicoverpa armigera.

Author

Jin, Minghui, Peng, Yan, Peng, Jie, Yu, Songmiao, Wu, Chao, Yang, Xianming, Zhu, Jingyun, Infante, Oscar, Xu, Qi, Wang, Hongru, Wu, Kongming, and Xiao, Yutao

Abstract

Many insect species, including the economically important pest Helicoverpa armigera , avoid unfavorable conditions by suspending development. This form of phenotypic plasticity—facultative diapause—is a complex trait, though its evolution and intricate genetic architecture remain poorly understood. To investigate how such a polygenic trait could be locally adapted, we explore its genetic architecture. We map a large-effect diapause-associated locus to the Z chromosome by crossing high- and low-latitude populations. By generating multiple chromosome-scale assemblies, we identify an ∼5.93-Mb chromosomal inversion that constitutes the locus. Within this inversion, 33 genes harbor divergent non-synonymous mutations, notably including three circadian rhythm genes: Period , Clock , and Cycle. CRISPR-Cas9 knockout experiments confirm that each gene is independently essential for pupal diapause. Thus, a diapause supergene arose within H. armigera via a Z chromosome inversion, enabling local climatic adaptation in this economically important crop pest. [Display omitted] • Two geographic populations of H. armigera exhibit differing diapause characteristics • A supergene formed by a chromosomal inversion is linked to diapause in H. armigera • Three circadian clock genes within the inversion show population-specific mutations • All three circadian clock genes independently play an essential role in diapause The evolution and complex genetic architecture of facultative diapause in insects remain poorly understood. Jin et al. demonstrate that a supergene controlling insect diapause in an agricultural pest is formed by a chromosomal inversion. Their findings provide insight into how insects adapt to variable climatic conditions. [ABSTRACT FROM AUTHOR]

Published

2024

25. A supergene affects androgen concentrations during early development in a bird with alternative reproductive morphs.

Author

Giraldo-Deck, Lina M., Loveland, Jasmine L., Goymann, Wolfgang, Lank, David B., and Küpper, Clemens

Subjects

*CHROMOSOME inversions, *PHENOTYPIC plasticity, *GENETIC variation, *ANDROGENS, *TESTOSTERONE

Abstract

Species with alternative reproductive tactics typically show pronounced phenotypic variation between and within sexes. In some species, this variation culminates in discrete reproductive morphs that are genetically determined, facilitating studies on how genetic variation translates into phenotypic variation. In ruffs (Calidris pugnax), an autosomal inversion polymorphism underlies three reproductive morphs (Independents, Satellites and Faeders), which differ in circulating steroid concentrations in adults. Yet, it remains unknown whether morph differences in steroid concentrations already arise before adulthood. We examined variation in circulating testosterone, androstenedione and progesterone concentrations between morphs and sexes in ruff chicks and juveniles and compared the differences to those in adults. Since measured hormone concentrations only provide momentary states and show high within- and between-individual variation, we took repeated measurements to compare means, variances and skewness between groups. We found clear differences between morphs but not the sexes in early life. Between morphs, androgen concentrations in young ruffs differed in variance and skewness, but not in their means. For testosterone, Independents had a higher variance than Satellites/Faeders, whereas for androstenedione, we observed the opposite pattern. For progesterone, we did not detect clear differences between groups. Skewness values mirrored differences in morph variances. Compared to adults, premature ruffs had lower androgen concentrations. In both life stages, we detected morph-specific associations between androgen concentrations: androstenedione concentrations increased with testosterone concentrations more in Satellites/Faeders than in Independents. These observed morph differences during early life are consistent with a supergene-mediated regulation of androgen variation that underlies the diversification of adult behavioural phenotypes. • Supergene variants affected blood androgen concentrations in juvenile and adult Ruffs. • Androgen variation in juveniles was more pronounced between morphs than sexes. • Juvenile morphs differed in androgen variances and skewness, but not in their means. • Relationships between androgens were morph-specific and similar between life-stages. [ABSTRACT FROM AUTHOR]

Published

2024

26. New Wolbachia pipientis Genotype Increasing Heat Stress Resistance of Drosophila melanogaster Host Is Characterized by a Large Chromosomal Inversion.

Author

Korenskaia, Aleksandra E., Shishkina, Olga D., Klimenko, Alexandra I., Andreenkova, Olga V., Bobrovskikh, Margarita A., Shatskaya, Natalja V., Vasiliev, Gennady V., and Gruntenko, Nataly E.

Subjects

*DROSOPHILA melanogaster, *CHROMOSOME inversions, *WOLBACHIA, *GENOMICS, *GENOTYPES, *COMPARATIVE genomics, *PHENOTYPIC plasticity

Abstract

The maternally transmitted endocellular bacteria Wolbachia is a well-known symbiont of insects, demonstrating both negative and positive effects on host fitness. The previously found Wolbachia strain wMelPlus is characterized by a positive effect on the stress-resistance of its host Drosophila melanogaster, under heat stress conditions. This investigation is dedicated to studying the genomic underpinnings of such an effect. We sequenced two closely related Wolbachia strains, wMelPlus and wMelCS112, assembled their complete genomes, and performed comparative genomic analysis engaging available Wolbachia genomes from the wMel and wMelCS groups. Despite the two strains under study sharing very close gene-composition, we discovered a large (>1/6 of total genome) chromosomal inversion in wMelPlus, spanning through the region that includes the area of the inversion earlier found in the wMel group of Wolbachia genotypes. A number of genes in unique inversion blocks of wMelPlus were identified that might be involved in the induction of a stress-resistant phenotype in the host. We hypothesize that such an inversion could rearrange established genetic regulatory-networks, causing the observed effects of such a complex fly phenotype as a modulation of heat stress resistance. Based on our findings, we propose that wMelPlus be distinguished as a separate genotype of the wMelCS group, named wMelCS3. [ABSTRACT FROM AUTHOR]

Published

2022

27. Long-term changes in the inversion chromosomal polymorphism: Drosophila subobscura population from Rasht (north of Iran)

Author

Khadem, Manhaz, Arenas, Concepció, Balanyà, Joan, and Mestres, Francesc

Abstract

Drosophila subobscura is characterized by a rich chromosomal polymorphism for inversions. Many inversions are adaptive to global warming and can be classified as ‘warm’ or ‘cold’ adapted. However, most studies were carried out from European populations located in the central area of the species distribution or from American colonizing populations. For this reason, we aimed to analyse the isolated and marginal Rasht population, located in the Hyrcanian forests area (Iran). The chromosomal polymorphism for inversions was compared with the previous Rasht samples (Rasht I and II) obtained 57 years ago. This polymorphism has changed based on the inversion composition and frequencies. Interestingly, the polymorphism for inversions was scarce and similar to that of Madeira, an isolated Atlantic island. Likely, this similarity is a consequence of the marginal location and isolation of the Rasht population. Also, the chromosomal thermal index (CTI) was 0.445, showing a significant increase over those from Rasht I (0.184) and II (0.210). All these observations were in agreement with the global warming expectations. Moreover, the CTI was also computed for Russian Caucasus and Turkish populations collected more than 40 years ago to better understand the adaptive potential of D. subobscura and to study the similarity between populations of different geographic areas. In summary, the inversions of D. subobscura also changed in marginal and isolated populations in agreement with the global warming expectations, and an open question is to know where is the threshold for this evolutionary change. [ABSTRACT FROM AUTHOR]

Published

2022

28. Do chromosomal inversion carriers really need preimplantation genetic testing?

Author

Tong, Jing, Jiang, Jianwei, Niu, Yichao, and Zhang, Ting

Subjects

*GENETIC testing, *CHROMOSOME inversions, *MALE infertility, *PLOIDY, *ANEUPLOIDY

Abstract

Purpose: This study aimed to evaluate the rates of euploidy, aneuploidy, and mosaicism in preimplantation genetic testing for structural rearrangements (PGT-SR) cycles from chromosomal inversion carriers. In addition, this work also focused on assessing the impact of some contributors on the incidence of parental originating aneuploidy and mosaicism. Methods: This retrospective review enrolled chromosomal inversion carrier couples of whom the females were under 38 years old undergoing PGT-SR at a single academic reproductive center. Subgroups were divided according to the gender of carriers, the inversion type, and the semen parameters of male carriers (male factor infertility (MF) or non-MF). Patient demographics, cycle characteristics, and PGT-SR outcomes were compared among subgroups. Results: A total of 71 PGT-SR cycles from 57 inversion carrier couples were included for analysis. Among the 283 blastocysts, 48.4% were identified as euploidy, 27.9% as aneuploidy, and the remaining 23.7% as mosaicism. Only 32.9% of aneuploid embryos and 1.5% of mosaic embryos involved the parental inversion chromosomes. Notably, the female inversion carriers seemed to produce more parental originating aneuploid embryos than male inversion carriers (45.5% vs 23.9%, p = 0.044). Conclusions: The type of inversion and sperm parameters of male chromosomal inversion carriers did not affect the ploidy status of embryos. The incidence of parental originating aneuploidy in inversion carrier couples is lower than expected. For male chromosomal inversion carriers with normal sperm condition whose female partners are under 38 years old, natural conception combined with prenatal diagnosis could be provided as an option during fertility counseling. [ABSTRACT FROM AUTHOR]

Published

2022

29. Temperature-associated selection linked to putative chromosomal inversions in king scallop (Pecten maximus).

Author

Hollenbeck, Christopher M., Portnoy, David S., Garcia de la serrana, Daniel, Magnesen, Thorolf, Matejusova, Iveta, and Johnston, Ian A.

Abstract

The genomic landscape of divergence—the distribution of differences among populations or species across the genome—is increasingly characterized to understand the role that microevolutionary forces such as natural selection and recombination play in causing and maintaining genetic divergence. This line of inquiry has also revealed chromosome structure variation to be an important factor shaping the landscape of adaptive genetic variation. Owing to a high prevalence of chromosome structure variation and the strong pressure for local adaptation necessitated by their sessile nature, bivalve molluscs are an ideal taxon for exploring the relationship between chromosome structure variation and local adaptation. Here, we report a population genomic survey of king scallop (Pecten maximus) across its natural range in the northeastern Atlantic Ocean, using a recent chromosome-level genome assembly. We report the presence of at least three large (12–22 Mb), putative chromosomal inversions associated with sea surface temperature and whose frequencies are in contrast to neutral population structure. These results highlight a potentially large role for recombination-suppressing chromosomal inversions in local adaptation and suggest a hypothesis to explain the maintenance of differences in reproductive timing found at relatively small spatial scales across king scallop populations. [ABSTRACT FROM AUTHOR]

Published

2022

30. The Effect of an Irradiation-Induced Recombination Suppressing Inversion on the Genetic Stability and Biological Quality of a White Eye-Based Aedes aegypti Genetic Sexing Strain.

Author

Misbah-ul-Haq, Muhammad, Augustinos, Antonios A., Carvalho, Danilo O., Duran de la Fuente, Lucia, and Bourtzis, Kostas

Subjects

*AEDES aegypti, *CHROMOSOME inversions, *MOSQUITO control, *INSECTICIDE resistance, *ZIKA virus infections, *YELLOW fever, *VIRUS diseases, *PATHOGENIC microorganisms

Abstract

Simple Summary: Aedes aegypti is a vector of viruses transmitting diseases such as dengue, chikungunya, Zika, and yellow fever. Current vector population control methods, based mainly on insecticides, are ineffective and raise concerns due to their negative impact on the environment and human health. In this frame, the sterile insect technique (SIT), which relies on the mass production and release of sterile males to reduce fertile crosses in the natural population, has recently gained increased interest as an environment-friendly, species-specific method. Sterile males are the 'active' component of SIT, however, for SIT to be effectively applied in mosquitoes, the efficient elimination of females from the male release batch is a prerequisite, since they are blood-feeders and transmit pathogenic microorganisms. To this end, developing and utilizing genetic sexing strains (GSS) that facilitate sex separation are highly desirable. However, GSS must be stable during rearing and competitive in the field to be considered for operational release projects. Here, we present our findings regarding the genetic stability and biological quality of an Aedes aegypti GSS that is based on the white eye mutation. Moreover, we discuss the effects of the incorporation of a recombination-suppressing inversion on the strain's biological quality and on important fitness parameters. Aedes aegypti is the primary vector of diseases such as dengue, chikungunya, Zika fever, and yellow fever. The sterile insect technique (SIT) has been proposed as a species-specific and environment-friendly tool for the suppression of mosquito vector populations as a major component of integrated vector management strategies. As female mosquitoes are blood-feeders and may transmit pathogenic microorganisms, mosquito SIT depends on the release of sterile males. Genetic sexing strains (GSS) can be used for the efficient and robust separation of males from females. Two Ae. aegypti GSS were recently developed by exploiting eye colour mutations, resulting in the Red-eye GSS (RGSS) and the White-eye GSS (WGSS). In this study, we compared two WGSS, with and without the chromosomal inversion 35 (Inv35), and evaluated their biological quality, including genetic stability. Our results suggest that the WGSS/Inv35 presents a low recombination rate and long-term genetic stability when recombinants are removed from the colony (filtering) and a slow accumulation of recombinants when they are not removed from the colony (non-filtering). The two strains were similar with respect to fecundity, pupal and adult recovery rates, pupation curve, and pupal weight. However, differences were detected in fertility, survival rate of females, and flight ability of males. The WGSS/Inv35 presented lower fertility, higher survival rate of females, and better flight ability of males compared to the WGSS. [ABSTRACT FROM AUTHOR]

Published

2022

31. Adaptation to seasonal reproduction and environment-associated factors drive temporal and spatial differentiation in northwest Atlantic herring despite gene flow

Author

Fuentes Pardo, Angela P., Stanley, Ryan, Bourne, Christina, Singh, Rabindra, Emond, Kim, Pinkham, Lisa, Mcdermid, Jenni L., Andersson, Leif, Ruzzante, Daniel E., Fuentes Pardo, Angela P., Stanley, Ryan, Bourne, Christina, Singh, Rabindra, Emond, Kim, Pinkham, Lisa, Mcdermid, Jenni L., Andersson, Leif, and Ruzzante, Daniel E.

Abstract

Understanding how marine organisms adapt to local environments is crucial for predicting how populations will respond to global climate change. The genomic basis, environmental factors and evolutionary processes involved in local adaptation are however not well understood. Here we use Atlantic herring, an abundant, migratory and widely distributed marine fish with substantial genomic resources, as a model organism to evaluate local adaptation. We examined genomic variation and its correlation with environmental variables across a broad environmental gradient, for 15 spawning aggregations in Atlantic Canada and the United States. We then compared our results with available genomic data of northeast Atlantic populations. We confirmed that population structure lies in a fraction of the genome including likely adaptive genetic variants of functional importance. We discovered 10 highly differentiated genomic regions distributed across four chromosomes. Nine regions show strong association with seasonal reproduction. One region, corresponding to a known inversion on chromosome 12, underlies a latitudinal pattern discriminating populations north and south of a biogeographic transition zone on the Scotian Shelf. Genome-environment associations indicate that winter seawater temperature best correlates with the latitudinal pattern of this inversion. The variation at two so-called 'islands of divergence' related to seasonal reproduction appear to be private to the northwest Atlantic. Populations in the northwest and northeast Atlantic share variation at four of these divergent regions, simultaneously displaying significant diversity in haplotype composition at another four regions, which includes an undescribed structural variant approximately 7.7 Mb long on chromosome 8. Our results suggest that the timing and geographic location of spawning and early development may be under diverse selective pressures related to allelic fitness across environments. Our study highlights the

Published

2024

32. A hapless mathematical contribution to biology: Chromosome inversions in Drosophila, 1937–1941.

Author

Tannier, Eric

Subjects

*SCIENTIFIC errors, *DROSOPHILA, *BIOLOGY, *QUANTITATIVE genetics, *HISTORY of biology, *COMPUTATIONAL biology, *CHROMOSOME inversions

Abstract

This is the story, told in the light of a new analysis of historical data, of a mathematical biology problem that was explored in the 1930s in Thomas Morgan's laboratory at the California Institute of Technology. It is one of the early developments of evolutionary genetics and quantitative phylogeny, and deals with the identification and counting of chromosomal inversions in Drosophila species from comparisons of genetic maps. A re-analysis of the data produced in the 1930s using current mathematics and computational technologies reveals how a team of biologists, with the help of a renowned mathematician and against their first intuition, came to an erroneous conclusion regarding the presence of phylogenetic signals in gene arrangements. This example illustrates two different aspects of a same piece: (1) the appearance of a mathematical in biology problem solved with the development of a combinatorial algorithm, which was unusual at the time, and (2) the role of errors in scientific activity. Also underlying is the possible influence of computational complexity in understanding the directions of research in biology. [ABSTRACT FROM AUTHOR]

Published

2022

33. Genomic architecture and functional unit of mimicry supergene in female limited Batesian mimic Papilio butterflies.

Author

Komata, Shinya, Kajitani, Rei, Itoh, Takehiko, and Fujiwara, Haruhiko

Subjects

*CHROMOSOME inversions, *GENOME-wide association studies, *MIMICRY (Biology), *BUTTERFLIES, *LINKAGE disequilibrium, *NUCLEOTIDE sequencing

Abstract

It has long been suggested that dimorphic female-limited Batesian mimicry of two closely related Papilio butterflies, Papilio memnon and Papilio polytes, is controlled by supergenes. Whole-genome sequencing, genome-wide association studies and functional analyses have recently identified mimicry supergenes, including the doublesex (dsx) gene. Although supergenes of both the species are composed of highly divergent regions between mimetic and non-mimetic alleles and are located at the same chromosomal locus, they show critical differences in genomic architecture, particularly with or without an inversion: P. polytes has an inversion, but P. memnon does not. This review introduces and compares the detailed genomic structure of mimicry supergenes in two Papilio species, including gene composition, repetitive sequence composition, breakpoint/boundary site structure, chromosomal inversion and linkage disequilibrium. Expression patterns and functional analyses of the respective genes within or flanking the supergene suggest that dsx and other genes are involved in mimetic traits. In addition, structural comparison of the corresponding region for the mimicry supergene among further Papilio species suggests three scenarios for the evolution of the mimicry supergene between the two Papilio species. The structural features revealed in the Papilio mimicry supergene provide insight into the formation, maintenance and evolution of supergenes. This article is part of the theme issue 'Genomic architecture of supergenes: causes and evolutionary consequences'. [ABSTRACT FROM AUTHOR]

Published

2022

34. T-DNA insertion in Arabidopsis caused coexisting chromosomal inversion and duplication at megabase level.

Author

Gao, Shuai, Huang, Tian, Chen, Lu, Jiang, Ning, and Ren, Guodong

Subjects

*CHROMOSOME inversions, *NUCLEOTIDE sequencing, *PLANT genomes, *PHENOTYPES, *ARABIDOPSIS, *GENETIC engineering, *PLANT genetic transformation

Abstract

[Display omitted] • The T-DNA insertion mutant lnc161 has pleiotropic developmental phenotypes. • Megabase-level chromosomal re-arrangements are induced by T-DNA insertion in lnc161. • The higher expression of genes in duplicated region be the cause of lnc161 phenotypes. Agrobacteria -mediated transformation is widely used in plant genetic engineering to introduce exogenous genes and create mutant lines through random T-DNA insertion and gene disruption. When T-DNA fragments are inserted into the plant genome, it could cause chromosomal abnormalities. In this study, we investigated the genetic basis of pleiotropic phenotypes observed in the T-DNA insertion mutant lnc161. We discovered that there are four T-DNA insertions present in the lnc161 genome, which disrupted the genes LNC161 (AT3G05035), AT3G57400 , AT5G05630 , and AT5G16450 , respectively. However, none of these insertions were the causative mutation that leads to the lnc161 phenotypes. Strikingly, through genetic analyses and high throughput sequencing, we found an inversion of about 19.8 Mb sequences between LNC161 and AT3G57400. Moreover, the sequences between AT5G05630 and AT5G16450 (about 3.7 Mb) were translocated from chromosome 5 to chromosome 3, adjacent to the inversion sequences, and were duplicated. This duplication led to an up-regulation of genes expression in this region, potentially resulting in pleiotropic morphological traits in lnc161. Overall, this study provides a case showing complex chromosomal re-arrangement induced by T-DNA insertion. [ABSTRACT FROM AUTHOR]

Published

2024

35. Consequences of partially recessive deleterious genetic variation for the evolution of inversions suppressing recombination between sex chromosomes.

Author

Olito, Colin, Ponnikas, Suvi, Hansson, Bengt, and Abbott, Jessica K.

Subjects

*CHROMOSOME inversions, *Y chromosome, *SEX chromosomes, *GENETIC variation, *GENETIC drift, *GENETIC models, *CHROMOSOMES, *LOCUS (Genetics)

Abstract

The evolution of suppressed recombination between sex chromosomes is widely hypothesized to be driven by sexually antagonistic selection (SA), where tighter linkage between the sex‐determining gene(s) and nearby SA loci is favored when it couples male‐beneficial alleles to the proto‐Y chromosome, and female‐beneficial alleles to the proto‐X. Despite limited empirical evidence, the SA selection hypothesis overshadows several alternatives, including an incomplete but often‐repeated "sheltering hypothesis" that suggests that expansion of the sex‐linked region (SLR) reduces homozygous expression of partially recessive deleterious mutations at selected loci. Here, we use population genetic models to evaluate the consequences of deleterious mutational variation for the evolution of neutral chromosomal inversions expanding the SLR on proto‐Y chromosomes. We find that SLR‐expanding inversions face a race against time: lightly loaded inversions are initially beneficial, but eventually become deleterious as they accumulate new mutations, and must fix before this window of opportunity closes. The outcome of this race is strongly influenced by inversion size, the mutation rate, and the dominance coefficient of deleterious mutations. Yet, small inversions have elevated fixation probabilities relative to neutral expectations for biologically plausible parameter values. Our results demonstrate that deleterious genetic variation can plausibly drive recombination suppression in small steps and would be most consistent with empirical patterns of small evolutionary strata or gradual recombination arrest. [ABSTRACT FROM AUTHOR]

Published

2022

36. Monosomía parcial 10q derivada de inversión paracéntrica de origen materno.

Author

Concepción Torres-Fernández, Elodia and Beatriz Nacimiento-de Herreros, María

Abstract

Introduction: we present the case of a girl with chromosome 10q deletion, whose mother is a heterozygous carrier of a paracentric inversion of the long arm on the same chromosome. Case presentation: a 15-month-old patient was evaluated in the clinical genetics department for presenting delayed psychomotor development, blindness, and agenesis of the corpus callosum. Due to the clinical data, the cytogenetic study was requested, resulting in the 46,XX,del(10q26)mat[30] karyotype. Subsequently, the parents were studied; it was found that the mother had a paracentric inversion of the long arm of chromosome 10, the karyotype was 46,XX,inv(10)(q21q23)[30]. Father's karyotype was normal. Conclusions: paracentric inversion in the long arm of chromosome 10 in the mother constitutes a balanced rearrangement, causing a deletion in the same chromosome in her daughter. [ABSTRACT FROM AUTHOR]

Published

2022

37. An accurate assignment test for extremely low‐coverage whole‐genome sequence data.

Author

Ferrari, Giada, Atmore, Lane M., Jentoft, Sissel, Jakobsen, Kjetill S., Makowiecki, Daniel, Barrett, James H., and Star, Bastiaan

Subjects

*HAPLOTYPES, *CHROMOSOME inversions, *SINGLE nucleotide polymorphisms, *ATLANTIC herring, *FOSSIL DNA, *ATLANTIC cod

Abstract

Genomic assignment tests can provide important diagnostic biological characteristics, such as population of origin or ecotype. Yet, assignment tests often rely on moderate‐ to high‐coverage sequence data that can be difficult to obtain for fields such as molecular ecology and ancient DNA. We have developed a novel approach that efficiently assigns biologically relevant information (i.e., population identity or structural variants such as inversions) in extremely low‐coverage sequence data. First, we generate databases from existing reference data using a subset of diagnostic single nucleotide polymorphisms (SNPs) associated with a biological characteristic. Low‐coverage alignment files are subsequently compared to these databases to ascertain allelic state, yielding a joint probability for each association. To assess the efficacy of this approach, we assigned haplotypes and population identity in Heliconius butterflies, Atlantic herring, and Atlantic cod using chromosomal inversion sites and whole‐genome data. We scored both modern and ancient specimens, including the first whole‐genome sequence data recovered from ancient Atlantic herring bones. The method accurately assigns biological characteristics, including population membership, using extremely low‐coverage data (as low as 0.0001x) based on genome‐wide SNPs. This approach will therefore increase the number of samples in evolutionary, ecological and archaeological research for which relevant biological information can be obtained. [ABSTRACT FROM AUTHOR]

Published

2022

38. Evolutionary Ecology of Fixed Alternative Male Mating Strategies in the Ruff (Calidris pugnax).

Author

Baguette, Michel, Bataille, Baptiste, and Stevens, Virginie M.

Subjects

*FUNCTIONAL genomics, *MALES, *CHROMOSOME inversions, *CHARADRIIFORMES, *SEXUAL selection

Abstract

A few empirical examples document fixed alternative male mating strategies in animals. Here we focus on the polymorphism of male mating strategies in the ruff (Calidris pugnax, Aves Charadriiformes). In ruffs, three fixed alternative male mating strategies coexist and are signaled by extreme plumage polymorphism. We first present relevant data on the biology of the species. Then we review the available knowledge of the behavioral ecology of ruffs during the breeding season, and we detail the characteristics of each of the three known fixed male mating strategies. We next turn to the results of exceptional quality accumulated on both the structural and functional genomics of the ruff over the past few years. We show how much these genomic data can shed new, mechanistic light on the evolution and maintenance of the three fixed alternative male mating strategies. We then look if there is sufficient indication to support frequency-dependent selection as a key mechanism in maintaining these three strategies. Specifically, we search for evidence of equal fitness among individuals using each of the three strategies. Finally, we propose three lines of research avenues that will help to understand the eco-evolutionary dynamics of phenotypic differences within natural populations of this iconic model species. [ABSTRACT FROM AUTHOR]

Published

2022

39. A PCR-RFLP method for genotyping of inversion 2Rc in Anopheles coluzzii

Author

Raquel Montanez‑Gonzalez, Alexandra C. Vallera, Maria Calzetta, Verena Pichler, Rachel R. Love, Moussa W. Guelbeogo, Roch K. Dabire, Marco Pombi, Carlo Costantini, Frederic Simard, Alessandra della Torre, and Nora J. Besansky

Subjects

Anopheles gambiae complex, Chromosomal inversion, Inversion genotyping, Malaria vector, Molecular karyotyping, PCR-RFLP, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Genotyping of polymorphic chromosomal inversions in malaria vectors such as An. coluzzii Coetzee & Wilkerson is important, both because they cause cryptic population structure that can mislead vector analysis and control and because they influence epidemiologically relevant eco-phenotypes. The conventional cytogenetic method of genotyping is an impediment because it is labor intensive, requires specialized training, and can be applied only to one gender and developmental stage. Here, we circumvent these limitations by developing a simple and rapid molecular method of genotyping inversion 2Rc in An. coluzzii that is both economical and field-friendly. This inversion is strongly implicated in temporal and spatial adaptations to climatic and ecological variation, particularly aridity. Methods Using a set of tag single-nucleotide polymorphisms (SNPs) strongly correlated with inversion orientation, we identified those that overlapped restriction enzyme recognition sites and developed four polymerase chain reaction (PCR) restriction fragment length polymorphism (RFLP) assays that distinguish alternative allelic states at the tag SNPs. We assessed the performance of these assays using mosquito population samples from Burkina Faso that had been cytogenetically karyotyped as well as genotyped, using two complementary high-throughput molecular methods based on tag SNPs. Further validation was performed using mosquito population samples from additional West African (Benin, Mali, Senegal) and Central African (Cameroon) countries. Results Of four assays tested, two were concordant with the 2Rc cytogenetic karyotype > 90% of the time in all samples. We recommend that these two assays be employed in tandem for reliable genotyping. By accepting only those genotypic assignments where both assays agree, > 99% of assignments are expected to be accurate. Conclusions We have developed tandem PCR-RFLP assays for the accurate genotyping of inversion 2Rc in An. coluzzii. Because this approach is simple, inexpensive, and requires only basic molecular biology equipment, it is widely accessible. These provide a crucial tool for probing the molecular basis of eco-phenotypes relevant to malaria epidemiology and vector control.

Published

2021

40. Disruption of the Responsible Gene in a Phosphoglucomutase 1 Deficiency Patient by Homozygous Chromosomal Inversion

Author

Yokoi, Katsuyuki, Nakajima, Yoko, Ohye, Tamae, Inagaki, Hidehito, Wada, Yoshinao, Fukuda, Tokiko, Sugie, Hideo, Yuasa, Isao, Ito, Tetsuya, Kurahashi, Hiroki, Baumgartner, Matthias, Series Editor, Patterson, Marc, Series Editor, Rahman, Shamima, Series Editor, Peters, Verena, Series Editor, Morava, Eva, Editor-in-Chief, and Zschocke, Johannes, Series Editor

Published

2019

41. Neo‐sex chromosome evolution and phenotypic differentiation across an elevational gradient in horned larks (Eremophila alpestris).

Author

Shakya, Subir B., Wang‐Claypool, Cynthia Y., Cicero, Carla, Bowie, Rauri C. K., and Mason, Nicholas A.

Subjects

*CHROMOSOMES, *CHROMOSOME inversions, *SEX chromosomes, *PHENOTYPES, *CHROMOSOMAL translocation, *GENETIC variation, *CLAY soils

Abstract

Genetic structure and phenotypic variation among populations are affected by both geographic distance and environmental variation across species' distributions. Understanding the relative contributions of isolation by distance (IBD) and isolation by environment (IBE) is important for elucidating population dynamics across habitats and ecological gradients. In this study, we compared phenotypic and genetic variation among Horned Lark (Eremophila alpestris) populations from 10 sites encompassing an elevational gradient from low‐elevation desert scrub in Death Valley (285 a.s.l.) to high‐elevation meadows in the White Mountains of the Sierra Nevada of California (greater than 3000 m a.s.l.). Using a ddRAD data set of 28,474 SNPs aligned to a high‐quality reference genome, we compared genetic structure with elevational, environmental, and spatial distance to quantify how different aspects of the landscape drive genomic and phenotypic differentiation in Horned Larks. We found larger‐bodied birds were associated with sites that had less seasonality and higher annual precipitation, and longer spurs occurred in soils with more clay and silt content, less sand, and finer fragments. Larks have large neo‐sex chromosomes, and we found that associations with elevation and environmental variation were much stronger among neo‐sex chromosomes compared to autosomes. Furthermore, we found that putative chromosomal translocations, fusions, and inversions were associated with elevation and may underlie local adaptation across an elevational gradient in Horned Larks. Our results suggest that genetic variation in Horned Larks is affected more by IBD than IBE, but specific phenotypes and genomic regions—particually on neo‐sex chromosomes—bear stronger associations with the environment. [ABSTRACT FROM AUTHOR]

Published

2022

42. Clinical outcomes of Preimplantation genetic testing (PGT) application in couples with chromosomal inversion, a study in the Chinese Han population

Author

Yuhan Shao, Jing Li, Juanjuan Lu, Hongchang Li, Yueting Zhu, Wenjie Jiang, and Junhao Yan

Subjects

Preimplantation genetics testing (PGT), Chromosomal inversion, Pregnancy outcome, Aneuploid, Gynecology and obstetrics, RG1-991, Reproduction, QH471-489

Abstract

Abstract Background Chromosomal inversion was considered to have adverse effects on pregnancy outcomes through abnormal gametogenesis. The purpose of this retrospective study was to investigate whether preimplantation genetic testing (PGT) improves pregnancy outcomes for couples with chromosomal inversion. Methods A total of 188 cycles from 165 couples with one chromosomal inversion carrier were divided into two groups: PGT (136 cycles, 125 couples) and non-PGT (52 cycles, 50 couples). Biochemical pregnancy, clinical pregnancy, ongoing pregnancy, miscarriage and live birth rates of their first transfer cycles, as well as cumulative live birth rates of each cycle and euploidy rates, were analyzed. Results There were no statistically significant differences in the pregnancy outcomes between the two groups. The euploidy rate of pericentric inversion carriers was not higher than that of paracentric inversion carriers in PGT group (60.71% vs 50.54%, P = 0.073). Similarly, the euploid rate of male carriers was not higher than that of female carriers (61.2% vs 56.1%, P = 0.256). Conclusions Due to limitation of retrospective study and small sample size, our current data showed that PGT cannot provide prominent benefits for inversion carriers in the Chinese Han population. Further prospective randomized controlled trials are needed to evaluate the effects of PGT.

Published

2020

43. Characterization of two MHC II genes (DOB, DRB) in white-tailed deer (Odocoileus virginianus)

Author

Natascha M. D. Ivy-Israel, Carolyn E. Moore, Tonia S. Schwartz, and Stephen S. Ditchkoff

Subjects

Major histocompatibility complex, Linkage disequilibrium, Odocoileus virginianus, Ruminant, Chromosomal inversion, MiSeq, Genetics, QH426-470

Abstract

Abstract Background The major histocompatibility complex (MHC) is responsible for detecting and addressing foreign pathogens inside the body. While the general structure of MHC genes is relatively well conserved among mammalian species, it is notably different among ruminants due to a chromosomal inversion that splits MHC type II genes into two subregions (IIa, IIb). Recombination rates are reportedly high between these subregions, and a lack of linkage has been documented in domestic ruminants. However, no study has yet examined the degree of linkage between these subregions in a wild ruminant. The white-tailed deer (Odocoileus virginianus), a popular ruminant of the Cervidae family, is habitually plagued by pathogens in its natural environment (e.g. Haemonchus contortus, Elaeophora). Due to the association between MHC haplotypes and disease susceptibility, a deeper understanding of MHC polymorphism and linkage between MHC genes can further aid in this species’ successful management. We sequenced MHC-DRB exon 2 (IIa) and MHC-DOB exon 2 (IIb) on the MiSeq platform from an enclosed white-tailed deer population located in Alabama. Results We identified 12 new MHC-DRB alleles, and resampled 7 alleles, which along with other published alleles brings the total number of documented alleles in white-tailed deer to 30 for MHC-DRB exon 2. The first examination of MHC-DOB in white-tailed deer found significantly less polymorphism (11 alleles), as was expected of a non-classical MHC gene. While MHC-DRB was found to be under positive, diversifying selection, MHC-DOB was found to be under purifying selection for white-tailed deer. We found no significant linkage disequilibrium between MHC-DRB and MHC-DOB, suggesting that these loci are unlikely to be closely linked. Conclusions Overall, this study identified 12 new MHC-DRB exon 2 alleles and characterized a new, non-classical, MHC II gene (MHC-DOB) for white-tailed deer. We also found a lack of significant linkage between these two loci, which supports previous findings of a chromosomal inversion within the MHC type II gene region in ruminants, and suggests that white-tailed deer may have a recombination hotspot between these MHC regions similar to that found for Bos taurus.

Published

2020

44. Highly specific PCR-RFLP assays for karyotyping the widespread 2Rb inversion in malaria vectors of the Anopheles gambiae complex

Author

Raquel Montanez-Gonzalez, Verena Pichler, Maria Calzetta, Rachel R. Love, Alexandra Vallera, Lydia Schaecher, Beniamino Caputo, Marco Pombi, Vincenzo Petrarca, Alessandra della Torre, and Nora J. Besansky

Subjects

Anopheles gambiae complex, Chromosomal inversion, Inversion genotyping, Malaria vector, Molecular karyotyping, PCR-RFLP, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Chromosomal inversion polymorphisms play a role in adaptation to heterogeneous environments. Inversion polymorphisms are implicated in the very high ecological flexibility of the three main malaria vector species of the Afrotropical Anopheles gambiae complex, facilitating the exploitation of anthropogenic environmental modifications and promoting a strong association with humans. In addition to extending the species’ spatial and temporal distribution, inversions are associated with epidemiologically relevant mosquito behavior and physiology, underscoring their medical importance. We here present novel PCR-RFLP based assays strongly predictive of genotype for the cosmopolitan 2Rb inversion in An. coluzzii and An. gambiae, a development which overcomes the numerous constraints inherent to traditional cytological karyotyping. Methods We designed PCR-RFLP genotyping assays based on tag SNPs previously computationally identified as strongly predictive (> 95%) of 2Rb genotype. We targeted those tags whose alternative allelic states destroyed or created the recognition site of a commercially available restriction enzyme, and designed assays with distinctive cleavage profiles for each inversion genotype. The assays were validated on 251 An. coluzzii and 451 An. gambiae cytologically karyotyped specimens from nine countries across Africa and one An. coluzzii laboratory colony. Results For three tag SNPs, PCR-RFLP assays (denoted DraIII, MspAI, and TatI) reliably produced robust amplicons and clearly distinguishable electrophoretic profiles for all three inversion genotypes. Results obtained with the DraIII assay are ≥ 95% concordant with cytogenetic assignments in both species, while MspAI and TatI assays produce patterns highly concordant with cytogenetic assignments only in An. coluzzii or An. gambiae, respectively. Joint application of species-appropriate pairs of assays increased the concordance levels to > 99% in An. coluzzii and 98% in An. gambiae. Potential sources of discordance (e.g. imperfect association between tag and inversion, allelic dropout, additional polymorphisms in the restriction target site, incomplete or failed restriction digestion) are discussed. Conclusions The availability of highly specific, cost effective and accessible molecular assays for genotyping 2Rb in An. gambiae and An. coluzzii allows karyotyping of both sexes and all developmental stages. These novel tools will accelerate deeper investigations into the role of this ecologically and epidemiologically important chromosomal inversion in vector biology.

Published

2020

45. Standing variation rather than recent adaptive introgression probably underlies differentiation of the texanus subspecies of Helianthus annuus.

Author

Owens, Gregory L., Todesco, Marco, Bercovich, Natalia, Légaré, Jean‐Sébastien, Mitchell, Nora, Whitney, Kenneth D., and Rieseberg, Loren H.

Subjects

*COMMON sunflower, *INTROGRESSION (Genetics), *WHOLE genome sequencing, *SUBSPECIES, *GENETIC variation, *HAPLOTYPES

Abstract

The origins of geographic races in wide‐ranging species are poorly understood. In Texas, the texanus subspecies of Helianthusannuus has long been thought to have acquired its defining phenotypic traits via introgression from a local congener, H. debilis, but previous tests of this hypothesis were inconclusive. Here, we explore the origins of H. a. texanus using whole genome sequencing data from across the entire range of H. annuus and possible donor species, as well as phenotypic data from a common garden study. We found that although it is morphologically convergent with H. debilis, H. a. texanus has conflicting signals of introgression. Genome wide tests (Patterson's D and TreeMix) only found evidence of introgression from H. argophyllus (sister species to H. annuus and also sympatric), but not H. debilis, with the exception of one individual of 109 analysed. We further scanned the genome for localized signals of introgression using PCAdmix and found minimal but nonzero introgression from H. debilis and significant introgression from H. argophyllus in some populations. Given the paucity of introgression from H. debilis, we argue that the morphological convergence observed in Texas is probably from standing genetic variation. We also found that genomic differentiation in H. a. texanus is mostly driven by large segregating inversions, several of which have signatures of natural selection based on haplotype frequencies. [ABSTRACT FROM AUTHOR]

Published

2021

46. A candidate chromosome inversion in Arctic charr (Salvelinus alpinus) identified by population genetic analysis techniques.

Author

Hale, Matthew C., Campbell, Matthew A., and McKinney, Garrett J.

Subjects

*ARCTIC char, *CHROMOSOMAL translocation, *LOCUS (Genetics), *LINKAGE disequilibrium, *CHAR fish, *GENETIC techniques, *CHROMOSOME inversions, *DNA copy number variations

Abstract

The "genomics era" has allowed questions to be asked about genome organization and genome architecture of non-model species at a rate not previously seen. Analyses of these genome-wide datasets have documented many examples of novel structural variants (SVs) such as chromosomal inversions, copy number variants, and chromosomal translocations, many of which have been linked to adaptation. The salmonids are a taxonomic group with abundant genome-wide datasets due to their importance in aquaculture and fisheries. However, the number of documented SVs in salmonids is surprisingly low and is most likely due to removing loci in high linkage disequilibrium when analyzing structure and gene flow. Here we re-analyze RAD-seq data from several populations of Arctic charr (Salvelinus alpinus) and document a novel ~1.2 MB SV at the distal end of LG12. This variant contains 15 protein-coding genes connected to a wide-range of functions including cell adhesion and signal transduction. Interestingly, we studied the frequency of this polymorphism in four disjointed populations of charr--one each from Nunavut, Newfoundland, Eastern Russia, and Scotland--and found evidence of the variant only in Nunavut, Canada, suggesting the polymorphism is novel and recently evolved. [ABSTRACT FROM AUTHOR]

Published

2021

47. The Etiology of Acute Leukemia

Author

Nichol, J. N., Kinal, M., Miller, W. H., Jr., Wiernik, Peter H., editor, Dutcher, Janice P., editor, and Gertz, Morie A., editor

Published

2018

48. The Effect of an Irradiation-Induced Recombination Suppressing Inversion on the Genetic Stability and Biological Quality of a White Eye-Based Aedes aegypti Genetic Sexing Strain

Author

Muhammad Misbah-ul-Haq, Antonios A. Augustinos, Danilo O. Carvalho, Lucia Duran de la Fuente, and Kostas Bourtzis

Subjects

sterile insect technique, vector control, dengue, Zika, chromosomal inversion, Science

Abstract

Aedes aegypti is the primary vector of diseases such as dengue, chikungunya, Zika fever, and yellow fever. The sterile insect technique (SIT) has been proposed as a species-specific and environment-friendly tool for the suppression of mosquito vector populations as a major component of integrated vector management strategies. As female mosquitoes are blood-feeders and may transmit pathogenic microorganisms, mosquito SIT depends on the release of sterile males. Genetic sexing strains (GSS) can be used for the efficient and robust separation of males from females. Two Ae. aegypti GSS were recently developed by exploiting eye colour mutations, resulting in the Red-eye GSS (RGSS) and the White-eye GSS (WGSS). In this study, we compared two WGSS, with and without the chromosomal inversion 35 (Inv35), and evaluated their biological quality, including genetic stability. Our results suggest that the WGSS/Inv35 presents a low recombination rate and long-term genetic stability when recombinants are removed from the colony (filtering) and a slow accumulation of recombinants when they are not removed from the colony (non-filtering). The two strains were similar with respect to fecundity, pupal and adult recovery rates, pupation curve, and pupal weight. However, differences were detected in fertility, survival rate of females, and flight ability of males. The WGSS/Inv35 presented lower fertility, higher survival rate of females, and better flight ability of males compared to the WGSS.

Published

2022

49. Local adaptation at fine spatial scale through chromosomal inversions and mito-nuclear epistasis: Findings in Drosophila subobscura (Diptera: Drosophilidae)

Author

Marija SAVIĆ VESELINOVIĆ, Zorana KURBALIJA NOVIČIĆ, Bojan KENIG, Mihailo JELIĆ, Aleksandra PATENKOVIĆ, Marija TANASKOVIĆ, Cino PERTOLDI, Marina STAMENKOVIĆ-RADAK, and Marko ANDJELKOVIĆ

Subjects

diptera, drosophilidae, drosophila subobscura, genetic differentiation, high dispersion, chromosomal inversion, nd5, microsatellites, local adaptation, Zoology, QL1-991

Abstract

To explore local adaptation in wild populations at a fine spatial scale we characterized the genetic variability of eight closely located populations of Drosophila subobscura and its associations with microhabitat environmental conditions. Three different genetic markers were assessed: chromosomal inversions, a SNP of mitochondrial ND5 gene and nuclear microsatellites. Population genetic analyses of chromosomal variability revealed significant genetic differentiation between these populations. Gene arrangement frequencies on the E chromosome contributed most to these differences. We also investigated role of mito-nuclear epistasis in mitochondrial genome differentiation and revealed weak linkage disequilibrium (LD) exclusively between O3+4 inversion arrangement and mitochondrial DNA haplotype I in two populations. In addition, the trend in the LD between OST chromosomal arrangement and haplotype II was general in the total sample. Microsatellite analysis revealed an absence of stochastic processes, like census reduction, upon population differentiation. Only a small amount of the genetic variation is related to geographic distance, while most (97%) is attributable to other factors and in some degree to microhabitat variables (temperature, humidity). The analysis of these factors revealed they effect inversion arrangement frequencies, especially E1+2+9, EST and OST. Even though this model organism is known for its high mobility and mostly large effective population size, the results presented here reveal that local adaptations can occur even at a small spatial scale. We propose that locally adapted alleles within chromosomal inversions, as well as joint selective pressures acting on mitochondrial and nuclear genomes, are responsible for the observed adaptation to microhabitat conditions.

Published

2019

50. Gene Expression Modification by an Autosomal Inversion Associated With Three Male Mating Morphs

Author

Jasmine L. Loveland, David B. Lank, and Clemens Küpper

Subjects

chromosomal inversion, alternative reproduction strategies, steroidogenic pathway, Philomachus pugnax, SDR42E1, aromatase, Genetics, QH426-470

Abstract

Chromosomal inversions are structural rearrangements that frequently provide genomic substrate for phenotypic diversity. In the ruff Philomachus pugnax, three distinct male reproductive morphs (Independents, Satellites and Faeders) are genetically determined by a 4.5 Mb autosomal inversion. Here we test how this stable inversion polymorphism affects gene expression in males during the lekking season. Gene expression may be altered through disruptions at the breakpoints and the accumulation of mutations due to suppressed recombination. We used quantitative PCR to measure expression of 11 candidate inversion genes across three different tissues (liver, adrenal glands and gonads) and tested for allelic imbalance in four inversion genes across 12 males of all three morphs (8 Independents, 2 Satellites, 2 Faeders). We quantified transcripts of CENPN, an essential gene disrupted by the inversion at the proximal breakpoint, at different exons distributed near and across the breakpoint region. Consistent with dosage dependent gene expression for the breakpoint gene CENPN, we found that expression in Independents was broadly similar for transcripts segments from inside and outside the inversion regions, whereas for Satellites and Faeders, transcript segments outside of the inversion showed at least twofold higher expression than those spanning over the breakpoint. Within the inversion, observed expression differences for inversion males across all four genes with allele-specific primers were consistent with allelic imbalance. We further analyzed gonadal expression of two inversion genes, HSD17B2 and SDR42E1, along with 12 non-inversion genes related to steroid metabolism and signaling in 25 males (13 Independents, 7 Satellites, 5 Faeders). Although we did not find clear morph differentiation for many individual genes, all three morphs could be separated based on gene expression differences when using linear discriminant analysis (LDA), regardless of genomic location (i.e., inside or outside of the inversion). This was robust to the removal of genes with the highest loadings. Pairwise correlations in the expression of genes showed significant correlations for 9–18 pairs of genes within morphs. However, between morphs, we only found a single association between genes SDR42E1 and AROM for Independents and Satellites. Our results suggest complex and wide-ranging changes in gene expression caused by structural variants.

Published

2021