Your search keyword '"GENETIC variation"' showing total 8,593 results

1. Correction: A 20 bp Duplication in Exon 2 of the Aristaless-Like Homeobox 4 Gene (ALX4) Is the Candidate Causative Mutation for Tibial Hemimelia Syndrome in Galloway Cattle.

Author

Brenig, Bertram, Schütz, Ekkehard, Hardt, Michael, Scheuermann, Petra, and Freick, Markus

Subjects

*AMINO acid sequence, *HOMEOBOX genes, *CATTLE, *STOP codons, *GENETIC variation

Published

2024

2. Unravelling the genetic landscape of cervical insufficiency: Insights into connective tissue dysfunction and hormonal pathways.

Author

Voložonoka, Ludmila, Bārdiņa, Līvija, Kornete, Anna, Krūmiņa, Zita, Rots, Dmitrijs, Minkauskienė, Meilė, Rota, Adele, Strelcoviene, Zita, Vilne, Baiba, Kempa, Inga, Miskova, Anna, Gailīte, Linda, and Rezeberga, Dace

Subjects

*UTERINE cervix incompetence, *CONNECTIVE tissues, *GENETIC variation, *GLUCOCORTICOID receptors, *LIGANDS (Biochemistry), *PREMATURE labor

Abstract

Background: The intricate molecular pathways and genetic factors that underlie the pathophysiology of cervical insufficiency (CI) remain largely unknown and understudied. Methods: We sequenced exomes from 114 patients in Latvia and Lithuania, diagnosed with a short cervix, CI, or a history of CI in previous pregnancies. To probe the well-known link between CI and connective tissue dysfunction, we introduced a connective tissue dysfunction assessment questionnaire, incorporating Beighton and Brighton scores. The phenotypic data obtained from the questionnaire was correlated with the number of rare damaging variants identified in genes associated with connective tissue disorders (in silico NGS panel). SKAT, SKAT-O, and burden tests were performed to identify genes associated with CI without a priori hypotheses. Pathway enrichment analysis was conducted using both targeted and genome-wide approaches. Results: No patient could be assigned monogenic connective tissue disorder neither genetically, neither clinically upon clinical geneticist evaluation. Expanding our exploration to a genome-wide perspective, pathway enrichment analysis replicated the significance of extracellular matrix-related pathways as important contributors to CI's development. A genome-wide burden analysis unveiled a statistically significant prevalence of rare damaging variants in genes and pathways associated with steroids (p-adj = 5.37E-06). Rare damaging variants, absent in controls (internal database, n = 588), in the progesterone receptor (PGR) (six patients) and glucocorticoid receptor (NR3C1) (two patients) genes were identified within key functional domains, potentially disrupting the receptors' affinity for DNA or ligands. Conclusion: Cervical insufficiency in non-syndromic patients is not attributed to a single connective tissue gene variant in a Mendelian fashion but rather to the cumulative effect of multiple inherited gene variants highlighting the significance of the connective tissue pathway in the multifactorial nature of CI. PGR or NR3C1 variants may contribute to the pathophysiology of CI and/or preterm birth through the impaired progesterone action pathways, opening new perspectives for targeted interventions and enhanced clinical management strategies of this condition. [ABSTRACT FROM AUTHOR]

Published

2024

3. Epistatic interactions between oxytocin- and dopamine-related genes and trust.

Author

Koyama, Yuna, Nawa, Nobutoshi, Ochi, Manami, Surkan, Pamela J., and Fujiwara, Takeo

Subjects

*CATECHOL-O-methyltransferase gene, *GENETIC variation, *OXYTOCIN receptors, *TRUST, *GENOTYPES, *DOPAMINE receptors

Abstract

Trust is an essential human trait. Although research suggests that the interplay between oxytocinergic and dopaminergic systems affects trust formation, little research has focused on epistatic (i.e., gene by gene) interaction effects of oxytocin- and dopamine-related genes on trust. Using a sample of 348 adults (114 men), we aimed to investigate the associations between genetic variants in oxytocin- and dopamine-related genes and the general, neighborhood, and institutional trust with consideration of sex differences. Three-way interaction between oxytocin-related gene genotypes, dopamine-related genotypes, and sex was found for the oxytocin receptor gene (OXTR)rs1042778 and the Catechol-O-Methyltransferase gene (COMT) rs4680 genotypes (p = 0.02) and for OXTR rs2254298 and the dopamine D2 receptor gene (DRD2) rs1800497 genotypes (p = 0.01). Further sex-stratified analyses revealed that the interaction between OXTR rs1042778 and COMT rs4680 genotypes was associated with neighborhood trust among men (p = 0.0007). Also, the interaction between OXTR rs2254298 and DRD2 rs1800497 genotypes was associated with institutional trust among men (p = 0.005). Post-hoc analyses found that men with OXTR rs1042778 TG/TT and COMT rs4680 GG genotypes reported higher neighborhood trust than those with GG + AG/AA (B = 13.49, SE = 4.68, p = 0.02), TG/TT + AG/AA (B = 23.00, SE = 5.99, p = 0.001), and GG + GG (B = 18.53, SE = 5.25, p = 0.003). Similarly, men with OXTR rs2254298 AG/AA and DRD2 rs1800497 CC genotypes showed higher institutional trust than those with AG/AA + TT/TC (B = 15.67, SE = 5.30, p = 0.02). We could not find any interacting associations among women. While we note that our sample size and candidate gene approach have a potential risk of chance findings, our study provides an important foundation toward further exploration of sex-specific epistatic interaction effects of oxytocin- and dopamine-related genes on trust, indicating the importance of both systems in trust formation. [ABSTRACT FROM AUTHOR]

Published

2024

4. HIV-1 diversity in viral reservoirs obtained from circulating T-cell subsets during early ART and beyond.

Author

Zhang, Yuepeng, Otte, Fabian, Stoeckle, Marcel, Thielen, Alexander, Däumer, Martin, Kaiser, Rolf, Kusejko, Katharina, Metzner, Karin J., and Klimkait, Thomas

Subjects

*VIRAL genomes, *VIRAL envelopes, *GENETIC variation, *IMMUNITY, *CD4 lymphocyte count

Abstract

Even during extended periods of effective immunological control, a substantial dynamic of the viral genome can be observed in different cellular compartments in HIV-1 positive individuals, indicating the persistence of active viral reservoirs. To obtain further insights, we studied changes in the proviral as well as in the viral HIV-1 envelope (Env) sequence along with transcriptional, translational and viral outgrowth activity as indicators for viral dynamics and genomic intactness. Our study identified distinct reservoir patterns that either represented highly sequence-diverse HIV-1 populations or only a single / few persisting virus variants. The single dominating variants were more often found in individuals starting ART during early infection phases, indicating that early treatment might limit reservoir diversification. At the same time, more sequence-diverse HIV reservoirs correlated with a poorer immune status, indicated by lower CD4 count, a higher number of regimen changes and more co-morbidities. Furthermore, we noted that in T-cell populations in the peripheral blood, replication-competent HIV-1 is predominantly present in Lymph node homing TN (naïve) and TCM (central memory) T cells. Provirus genomes archived in TTM (transitional memory) and TEM (effector memory) T cells more frequently tended to carry inactivating mutations and, population-wise, possess changes in the genetic diversity. These discriminating properties of the viral reservoir in T-cell subsets may have important implications for new early therapy strategies, underscoring the critical role of early therapy in preserving robust immune surveillance and constraining the viral reservoir. Author summary: Our study demonstrates that a poor immune status associates with and may form a basis for HIV reservoir diversification. Reservoirs for replication-competent, infectious viruses are mainly found in TN and TCM, which harbor a small number of intact viral variants. A distinct population of archived HIV sequences, residing in TTM and TEM, is characterized by a shifted genetic diversity. While the former cells are likely to harbor a promptly re-activatable latent reservoir, the latter with often defective but more variable viral genomes could thus represent a source for retroviral recombination and reactivation. [ABSTRACT FROM AUTHOR]

Published

2024

5. Assisted sexual coral recruits show high thermal tolerance to the 2023 Caribbean mass bleaching event.

Author

Miller, Margaret W., Mendoza Quiroz, Sandra, Lachs, Liam, Banaszak, Anastazia T., Chamberland, Valérie F., Guest, James R., Gutting, Alexandra N., Latijnhouwers, Kelly R. W., Sellares-Blasco, Rita I., Virdis, Francesca, Villalpando, Maria F., and Petersen, Dirk

Subjects

*MARINE heatwaves, *GENETIC recombination, *CORALS, *REPRODUCTIVE technology, *CORAL bleaching, *CORAL reefs & islands, *GENETIC variation

Abstract

Assisted sexual coral propagation, resulting in greater genet diversity via genetic recombination, has been hypothesized to lead to more adaptable and, hence, resilient restored populations compared to more common clonal techniques. Coral restoration efforts have resulted in substantial populations of 'Assisted sexual Recruits' (i.e., juvenile corals derived from assisted sexual reproduction; AR) of multiple species outplanted to reefs or held in in situ nurseries across many locations in the Caribbean. These AR populations provided context to evaluate their relative resilience compared to co-occurring coral populations during the 2023 marine heat wave of unprecedented duration and intensity that affected the entire Caribbean. Populations of six species of AR, most ranging in age from 1–4 years, were surveyed across five regions during the mass bleaching season in 2023 (Aug-Dec), alongside co-occurring groups of corals to compare prevalence of bleaching and related mortality. Comparison groups included conspecific adult colonies as available, but also the extant co-occurring coral assemblages in which conspecifics were rare or lacking, as well as small, propagated coral fragments. Assisted sexual recruits had significantly lower prevalence of bleaching impacts (overall pooled ~ 10%) than conspecific coral populations typically comprised of larger colonies (~ 60–100% depending on species). In addition, small corals derived from fragmentation (rather than sexual propagation) in two regions showed bleaching susceptibility intermediate between AR and wild adults. Overall, AR exhibited high bleaching resistance under heat stress exposure up to and exceeding Degree Heating Weeks of 20°C-weeks. As coral reefs throughout the globe are subject to increasingly frequent and intense marine heatwaves, restoration activities that include sexual reproduction and seeding can make an important contribution to sustain coral populations. [ABSTRACT FROM AUTHOR]

Published

2024

6. Genome-wide association study between SARS-CoV-2 single nucleotide polymorphisms and virus copies during infections.

Author

Li, Ke, Chaguza, Chrispin, Stamp, Julian, Chew, Yi Ting, Chen, Nicholas F. G., Ferguson, David, Pandya, Sameer, Kerantzas, Nick, Schulz, Wade, Hahn, Anne M., Ogbunugafor, C. Brandon, Pitzer, Virginia E., Crawford, Lorin, Weinberger, Daniel M., and Grubaugh, Nathan D.

Subjects

*SARS-CoV-2 Omicron variant, *VIRAL genetics, *GENOME-wide association studies, *GENETIC variation, *WHOLE genome sequencing

Abstract

Significant variations have been observed in viral copies generated during SARS-CoV-2 infections. However, the factors that impact viral copies and infection dynamics are not fully understood, and may be inherently dependent upon different viral and host factors. Here, we conducted virus whole genome sequencing and measured viral copies using RT-qPCR from 9,902 SARS-CoV-2 infections over a 2-year period to examine the impact of virus genetic variation on changes in viral copies adjusted for host age and vaccination status. Using a genome-wide association study (GWAS) approach, we identified multiple single-nucleotide polymorphisms (SNPs) corresponding to amino acid changes in the SARS-CoV-2 genome associated with variations in viral copies. We further applied a marginal epistasis test to detect interactions among SNPs and identified multiple pairs of substitutions located in the spike gene that have non-linear effects on viral copies. We also analyzed the temporal patterns and found that SNPs associated with increased viral copies were predominantly observed in Delta and Omicron BA.2/BA.4/BA.5/XBB infections, whereas those associated with decreased viral copies were only observed in infections with Omicron BA.1 variants. Our work showcases how GWAS can be a useful tool for probing phenotypes related to SNPs in viral genomes that are worth further exploration. We argue that this approach can be used more broadly across pathogens to characterize emerging variants and monitor therapeutic interventions. Author summary: Our study explores why viral load (copies measured by RT-qPCR) varies during SARS-CoV-2 infections by analyzing viral mutations and measuring viral copies in 9,902 individuals over two years. We aimed to understand how genetic differences in SARS-CoV-2 influence viral copies, considering host age and vaccination status. Using a genome-wide association study (GWAS), we identified several single-nucleotide polymorphisms (SNPs) in the virus linked to variations in viral levels. Notably, interactions between certain SNPs in the spike gene had non-linear effects on viral copies. Our analysis revealed that SNPs associated with higher viral copies were common in Delta and Omicron BA.2/BA.4/BA.5/XBB variants, while those linked to lower levels were mainly found in Omicron BA.1. This research highlights GWAS as a powerful tool for exploring virus genetics and suggests it can be broadly applied to monitor new variants of COVID-19 and other infectious diseases. [ABSTRACT FROM AUTHOR]

Published

2024

7. Susceptibility of BS90 Biomphalaria glabrata snails to infection by SmLE Schistosoma mansoni segregates as a dominant allele in a cluster of polymorphic genes for single-pass transmembrane proteins.

Author

Blouin, Michael S., Bollmann, Stephanie R., Le Clec'h, Winka, Chevalier, Frédéric D., Anderson, Timothy J. C., and Tennessen, Jacob A.

Subjects

*BIOMPHALARIA glabrata, *SCHISTOSOMA mansoni, *GENETIC variation, *MEMBRANE proteins, *PARASITIC diseases

Abstract

The trematodes that cause schistosomiasis in humans require aquatic snails as intermediate hosts. Identifying the genes in snails at which allelic variation controls resistance to infection by schistosomes could lead to novel ways to break the cycle of transmission. We therefore mapped genetic variation within the BS90 population of Biomphalaria glabrata snails that controls their resistance to infection by the SmLE population of Schistosoma mansoni. A marker in the PTC2 genomic region strongly associates with variation in resistance. The S-haplotype, which confers increased susceptibility, appears to be almost completely dominant to the R-haplotype, which confers increased resistance. This result suggests a model in which the parasite must match a molecule on the host side to successfully infect. The genomic region surrounding our marker shows high structural and sequence variability between haplotypes. It is also highly enriched for genes that code for single-pass transmembrane (TM1) genes. Several of the TM1 genes present on the S-haplotype lack orthologs on the R-haplotype, which makes them intriguing candidate genes in a model of dominant susceptibility. These results add to a growing body of work that suggests TM1 genes, especially those in this exceptionally diverse genomic region, may play an important role in snail-schistosome compatibility polymorphisms. Author summary: Schistosomiasis is a parasitic disease of humans that is caused by trematodes in the genus Schistosoma. Schistosomes require aquatic snails as an intermediate host. Infected snails shed parasites into water, which then infect people through their skin. Biomphalaria glabrata host snails show substantial genetic variation for susceptibility to infection by Schistosoma mansoni. Via genome-wide mapping we identified the general location of a gene in the B. glabrata genome at which different alleles control whether snails can be infected or not. The allele that causes susceptibility is dominant to the allele that causes resistance. This uncommon pattern suggests that an invading parasite must match some target on the host side to successfully establish an infection. The mapped snail genomic region contains multiple genes that code for proteins that span cell membranes. These proteins have an extracellular piece that can interact with molecules outside of cells. We hypothesize that these proteins are the targets of molecules produced by the schistosome. If so, then identifying the interacting molecules on the schistosome side, and how they interact with snail proteins, might reveal ways we could genetically modify snails to make them unable to transmit schistosomes to humans. [ABSTRACT FROM AUTHOR]

Published

2024

8. Accurate multi-population imputation of MICA, MICB, HLA-E, HLA-F and HLA-G alleles from genome SNP data.

Author

Tammi, Silja, Koskela, Satu, Biobank, Blood Service, Hyvärinen, Kati, Partanen, Jukka, and Ritari, Jarmo

Subjects

*GENETIC variation, *CHROMOSOMES, *HISTOCOMPATIBILITY class I antigens, *GENOMES, *INDIVIDUALIZED medicine

Abstract

In addition to the classical HLA genes, the major histocompatibility complex (MHC) harbors a high number of other polymorphic genes with less established roles in disease associations and transplantation matching. To facilitate studies of the non-classical and non-HLA genes in large patient and biobank cohorts, we trained imputation models for MICA, MICB, HLA-E, HLA-F and HLA-G alleles on genome SNP array data. We show, using both population-specific and multi-population 1000 Genomes references, that the alleles of these genes can be accurately imputed for screening and research purposes. The best imputation model for MICA, MICB, HLA-E, -F and -G achieved a mean accuracy of 99.3% (min, max: 98.6, 99.9). Furthermore, validation of the 1000 Genomes exome short-read sequencing-based allele calling against a clinical-grade reference data showed an average accuracy of 99.8%, testifying for the quality of the 1000 Genomes data as an imputation reference. We also fitted the models for Infinium Global Screening Array (GSA, Illumina, Inc.) and Axiom Precision Medicine Research Array (PMRA, Thermo Fisher Scientific Inc.) SNP content, with mean accuracies of 99.1% (97.2, 100) and 98.9% (97.4, 100), respectively. Author summary: The major histocompatibility complex (MHC) region on chromosome 6 significantly influences disease risk, particularly in autoimmune conditions. To improve fine-mapping of potentially causal genetic variants within this region, we developed accurate imputation methods for inferring functional allelic variation from MHC SNP data. While existing tools primarily focus on classical HLA genes, our study extends to non-classical HLA genes (HLA-E, HLA-F, and HLA-G) and MHC Class I Chain-Related MIC genes (MICA and MICB) which have specific functions in innate and adaptive immunity. Leveraging population-specific Finnish and multi-population 1000 Genomes references, our imputation models demonstrate high accuracy. Moreover, we tailored models for two widely used genome SNP arrays: the Infinium Global Screening Array (Illumina, Inc.) and the Axiom Precision Medicine Research Array (Thermo Fisher Scientific Inc.). These freely available, multi-population models empower researchers to explore genetic MHC associations in more detail and contribute to our understanding of immune-related disease mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

9. Salt stress memory in tall fescue: Interaction of different stress stages, pollination system and genetic diversity.

Author

Safari, Maryam and Majidi, Mohammad Mahdi

Subjects

*SALICYLIC acid, *PHOTOSYNTHETIC pigments, *SPECTRAL reflectance, *TALL fescue, *GENETIC variation

Abstract

Introduction: The effects of salinity memory and its interaction with genetic diversity for drought tolerance and pollination system in terms of morphological, physiological, root characteristics and spectral reflectance indices (SRIs) in tall fescue is still unknown. Methods: Four tall fescue genotypes (two drought-sensitive and two drought-tolerant) were manually controlled to produce four selfed (S1) and four open-pollinated (OP) progeny genotypes (finally eight progeny genotypes). Then all genotypes were assessed for two years in greenhouse under five salinity treatments including control treatment (C), twice salinity stress treatment (primary mild salinity stress in two different stages and secondary at the end stage) (S1t1S2 and S1t2S2), once severe salinity stress treatment (secondary only, S2), and foliar spray of salicylic acid (SA) simultaneously with secondary salinity stress (H2S2). Results: Results indicated that obligate selfing (S1) caused to inbreeding depression in RWC, plant growth, catalase activity, root length and the ratio of root/shoot (R/S). Once salinity stress treatment (S2) led to depression in most measured traits, while pre-exposure to salinity (salinity memory) (S1t1S2 and S1t2S2) improved photosynthetic pigments, proline, antioxidant enzymes and R/S. Conclusion: Salinity memory was more pronounced in drought-sensitive genotypes, while it was more evident in OP than S1 population. Foliar spray of salicylic acid (SA) was almost equally effective in reducing the effects of salinity stress in both populations. The efficacy of application was more pronounced in tolerant genotypes compared to sensitive ones. The possibility of modeling correlated spectral reflectance indices (SRIs) for prediction of different morphological, physiological and root characteristics will be discussed. [ABSTRACT FROM AUTHOR]

Published

2024

10. The discovery of novel variants reveals the genetic diversity and potential origin of Seoul orthohantavirus.

Author

Kuang, Guopeng, Wang, Jing, Feng, Yun, Wu, Weichen, Han, Xi, Xin, Genyang, Yang, Weihong, Pan, Hong, Yang, Lifen, Wang, Juan, Shi, Mang, and Gao, Zihou

Subjects

*HEMORRHAGIC fever with renal syndrome, *RATTUS norvegicus, *RODENT populations, *GENETIC variation, *VIRAL transmission

Abstract

Seoul orthohantavirus (SEOV) has been identified as one of the main causative agents of hemorrhagic fever with renal syndrome (HFRS) in China. The virus was found circulating in rodent populations in almost all provinces of the country, reflecting the wide distribution of HFRS. Here, using the direct immunofluorescence assay (DFA) and real-time quantitative reverse transcription PCR (qRT-PCR) approach, we performed screening in 1784 small mammals belonging to 14 species of three orders captured in the main areas of HFRS endemicity in Yunnan province (southwestern China) and identified 37 SEOV-positive rats (36 Rattus norvegicus and 1 Rattus tanezumi). A 3-year surveillance of HFRS epidemics and dynamics of rodent reservoir density and virus prevalence implied a potential correlation between them. The subsequent meta-transcriptomic sequencing and phylogenetic analyses revealed three SEOV variants, among which two are completely novel. The ancestral character state reconstruction (ACSR) analysis based on both novel variants and documented strains from 5 continents demonstrated that SEOV appeared to originate near the southwestern area (Yunnan-Kweichow Plateau) of China, then could spread to other regions and countries by their rodent carriers, resulting in a global distribution today. In summary, these data furthered the understanding regards genetic diversity and the potential origin for SEOV. However, the expanding endemic foci in the province suggest that the virus is spreading over a wider region and is much more diverse than previous depicted, which means that increased sampling is necessary. Author summary: Hantaviruses are primarily hosted by small mammals such as rodents, shrews, moles, and bats. In recent years, the diseases caused by rodent-associated hantaviruses become more frequent among humans in Yunnan province. In order to curb human infections, it is necessary to monitor the dynamics of virus prevalence in their natural reservoir populations. As expected, we detected 37 SEOV strains harbored by rats in the main endemic areas of the province, and the subsequent meta-transcriptomic and phylogenetic analyses revealed two SEOV variants that diverged early from the rest of the viruses, based on which Yunnan-Kweichow Plateau appears to be the region where earlier SEOV was originated. Further studies and more samples are needed to clarify how the virus migrates worldwide, and the pathogenicity of newly discovered viruses. [ABSTRACT FROM AUTHOR]

Published

2024

11. Creating cell-specific computational models of stem cell-derived cardiomyocytes using optical experiments.

Author

Yang, Janice, Daily, Neil J., Pullinger, Taylor K., Wakatsuki, Tetsuro, and Sobie, Eric A.

Subjects

*PHENOTYPIC plasticity, *STEM cell donors, *GENETIC algorithms, *ION channels, *GENETIC variation, *MATHEMATICAL models, *CALCIUM channels

Abstract

Human induced pluripotent stem cell-derived cardiomyocytes (iPSC-CMs) have gained traction as a powerful model in cardiac disease and therapeutics research, since iPSCs are self-renewing and can be derived from healthy and diseased patients without invasive surgery. However, current iPSC-CM differentiation methods produce cardiomyocytes with immature, fetal-like electrophysiological phenotypes, and the variety of maturation protocols in the literature results in phenotypic differences between labs. Heterogeneity of iPSC donor genetic backgrounds contributes to additional phenotypic variability. Several mathematical models of iPSC-CM electrophysiology have been developed to help to predict cell responses, but these models individually do not capture the phenotypic variability observed in iPSC-CMs. Here, we tackle these limitations by developing a computational pipeline to calibrate cell preparation-specific iPSC-CM electrophysiological parameters. We used the genetic algorithm (GA), a heuristic parameter calibration method, to tune ion channel parameters in a mathematical model of iPSC-CM physiology. To systematically optimize an experimental protocol that generates sufficient data for parameter calibration, we created in silico datasets by simulating various protocols applied to a population of models with known conductance variations, and then fitted parameters to those datasets. We found that calibrating to voltage and calcium transient data under 3 varied experimental conditions, including electrical pacing combined with ion channel blockade and changing buffer ion concentrations, improved model parameter estimates and model predictions of unseen channel block responses. This observation also held when the fitted data were normalized, suggesting that normalized fluorescence recordings, which are more accessible and higher throughput than patch clamp recordings, could sufficiently inform conductance parameters. Therefore, this computational pipeline can be applied to different iPSC-CM preparations to determine cell line-specific ion channel properties and understand the mechanisms behind variability in perturbation responses. Author summary: Many drug treatments or environmental factors can trigger cardiac arrhythmias, which are dangerous and often unpredictable. Human cardiomyocytes derived from donor stem cells have proven to be a promising model for studying these events, but variability in donor genetic background and cell maturation methods, as well as overall immaturity of stem cell-derived cardiomyocytes relative to the adult heart, have hindered reproducibility and reliability of these studies. Mathematical models of these cells can aid in understanding the underlying electrophysiological contributors to this variability, but determining these models' parameters for multiple cell preparations is challenging. In this study, we tackle these limitations by developing a computational method to simultaneously estimate multiple model parameters using data from imaging-based experiments, which can be easily scaled to rapidly characterize multiple cell lines. This method can generate many personalized models of individual cell preparations, improving drug response predictions and revealing specific differences in electrophysiological properties that contribute to variability in cardiac maturity and arrhythmia susceptibility. [ABSTRACT FROM AUTHOR]

Published

2024

12. The genetic basis of the kākāpō structural color polymorphism suggests balancing selection by an extinct apex predator.

Author

Urban, Lara, Santure, Anna W., Uddstrom, Lydia, Digby, Andrew, Vercoe, Deidre, Eason, Daryl, Crane, Jodie, Wylie, Matthew J., Davis, Tāne, LeLec, Marissa F., Guhlin, Joseph, Poulton, Simon, Slate, Jon, Alexander, Alana, Fuentes-Cross, Patricia, Dearden, Peter K., Gemmell, Neil J., Azeem, Farhan, Weyland, Marvin, and Schwefel, Harald G. L.

Subjects

*POLYMORPHISM (Zoology), *COLOR of birds, *GENETIC drift, *STRUCTURAL colors, *GENETIC variation

Abstract

The information contained in population genomic data can tell us much about the past ecology and evolution of species. We leveraged detailed phenotypic and genomic data of nearly all living kākāpō to understand the evolution of its feather color polymorphism. The kākāpō is an endangered and culturally significant parrot endemic to Aotearoa New Zealand, and the green and olive feather colorations are present at similar frequencies in the population. The presence of such a neatly balanced color polymorphism is remarkable because the entire population currently numbers less than 250 birds, which means it has been exposed to severe genetic drift. We dissected the color phenotype, demonstrating that the two colors differ in their light reflectance patterns due to differential feather structure. We used quantitative genomics methods to identify two genetic variants whose epistatic interaction can fully explain the species' color phenotype. Our genomic forward simulations show that balancing selection might have been pivotal to establish the polymorphism in the ancestrally large population, and to maintain it during population declines that involved a severe bottleneck. We hypothesize that an extinct apex predator was the likely agent of balancing selection, making the color polymorphism in the kākāpō a "ghost of selection past." The kākāpō is an endangered and culturally significant parrot endemic to Aotearoa New Zealand. This genomic, phenotypic and simulation study of most living kākāpō explores the evolution of green and olive feather coloration, concluding that this polymorphism is likely a remnant of past predation. [ABSTRACT FROM AUTHOR]

Published

2024

13. Genetic variation in CCDC93 is associated with elevated central systolic blood pressure, impaired arterial relaxation, and mitochondrial dysfunction.

Author

Kumar, Nitin, Yang, Min-Lee, Sun, Pengfei, Hunker, Kristina L., Li, Jianping, Jia, Jia, Fan, Fangfang, Wang, Jinghua, Ning, Xianjia, Gao, Wei, Xu, Ming, Zhang, Jifeng, Chang, Lin, Chen, Yuqing E., Huo, Yong, Zhang, Yan, and Ganesh, Santhi K.

Subjects

*FREE fatty acids, *CHINESE people, *THORACIC aorta, *GENETIC variation, *GENETIC regulation, *BLOOD pressure, *SYSTOLIC blood pressure

Abstract

Genetic studies of blood pressure (BP) traits to date have been performed on conventional measures by brachial cuff sphygmomanometer for systolic BP (SBP) and diastolic BP, integrating several physiologic occurrences. Genetic associations with central SBP (cSBP) have not been well-studied. Genetic discovery studies of BP have been most often performed in European-ancestry samples. Here, we investigated genetic associations with cSBP in a Chinese population and functionally validated the impact of a novel associated coiled-coil domain containing 93 (CCDC93) gene on BP regulation. An exome-wide association study (EWAS) was performed using a mixed linear model of non-invasive cSBP and peripheral BP traits in a Han Chinese population (N = 5,954) from Beijing, China genotyped with a customized Illumina ExomeChip array. We identified four SNP-trait associations with three SNPs, including two novel associations (rs2165468-SBP and rs33975708-cSBP). rs33975708 is a coding variant in the CCDC93 gene, c.535C>T, p.Arg179Cys (MAF = 0.15%), and was associated with increased cSBP (β = 29.3 mmHg, P = 1.23x10-7). CRISPR/Cas9 genome editing was used to model the effect of Ccdc93 loss in mice. Homozygous Ccdc93 deletion was lethal prior to day 10.5 of embryonic development. Ccdc93+/- heterozygous mice were viable and morphologically normal, with 1.3-fold lower aortic Ccdc93 protein expression (P = 0.0041) and elevated SBP as compared to littermate Ccdc93+/+ controls (110±8 mmHg vs 125±10 mmHg, P = 0.016). Wire myography of Ccdc93+/- aortae showed impaired acetylcholine-induced relaxation and enhanced phenylephrine-induced contraction. RNA-Seq transcriptome analysis of Ccdc93+/- mouse thoracic aortae identified significantly enriched pathways altered in fatty acid metabolism and mitochondrial metabolism. Plasma free fatty acid levels were elevated in Ccdc93+/- mice (96±7mM vs 124±13mM, P = 0.0031) and aortic mitochondrial dysfunction was observed through aberrant Parkin and Nix protein expression. Together, our genetic and functional studies support a novel role of CCDC93 in the regulation of BP through its effects on vascular mitochondrial function and endothelial function. Author summary: More than 1000 loci have been reported in previous gene discovery efforts for blood pressure and hypertension. cSBP is a unique blood pressure trait that has not been as extensively studied as peripheral BP, and correlates of cSBP may provide a better indication of future cardiovascular events. In this study we replicated several BP associations in a Han Chinese cohort and found a novel association with a coding variant in CCDC93 (rs33975708, c.535C>T, p.Arg179Cys, MAF 0.15%) which was strongly associated with higher cSBP. To model loss of Ccdc93 and functionally validate the human genetic association, a new transgenic mouse was created. Ccdc93 homozygous deletion was embryonic lethal, and mice with heterozygous loss of Ccdc93 exhibited impaired arterial relaxation and enhanced contractile responses. Aortic RNA-seq analysis of Ccdc93+/- heterozygous mice identified metabolic dysregulation and mitochondrial dysfunction, which was validated by features of elevated plasma free fatty acids and increased aortic Parkin and Nix protein expression. Improved knowledge of the genes involved in BP regulation is needed to develop effective therapies to manage elevated BP, and this study identified the gene CCDC93 as a novel regulator of blood pressure and vascular function. [ABSTRACT FROM AUTHOR]

Published

2024

14. A comprehensive in silico investigation into the pathogenic SNPs in the RTEL1 gene and their biological consequences.

Author

Tanshee, Rifah Rownak, Mahmud, Zimam, Nabi, A. H. M. Nurun, and Sayem, Mohammad

Subjects

*GENETIC variation, *MUTANT proteins, *PROTEIN structure, *MISSENSE mutation, CANCER susceptibility

Abstract

The Regulator of Telomere Helicase 1 (RTEL1) gene encodes a critical DNA helicase intricately involved in the maintenance of telomeric structures and the preservation of genomic stability. Germline mutations in the RTEL1 gene have been clinically associated with Hoyeraal-Hreidarsson syndrome, a more severe version of Dyskeratosis Congenita. Although various research has sought to link RTEL1 mutations to specific disorders, no comprehensive investigation has yet been conducted on missense mutations. In this study, we attempted to investigate the functionally and structurally deleterious coding and non-coding SNPs of the RTEL1 gene using an in silico approach. Initially, out of 1392 nsSNPs, 43 nsSNPs were filtered out through ten web-based bioinformatics tools. With subsequent analysis using nine in silico tools, these 43 nsSNPs were further shortened to 11 most deleterious nsSNPs. Furthermore, analyses of mutated protein structures, evolutionary conservancy, surface accessibility, domains & PTM sites, cancer susceptibility, and interatomic interaction revealed the detrimental effect of these 11 nsSNPs on RTEL1 protein. An in-depth investigation through molecular docking with the DNA binding sequence demonstrated a striking change in the interaction pattern for F15L, M25V, and G706R mutant proteins, suggesting the more severe consequences of these mutations on protein structure and functionality. Among the non-coding variants, two had the highest likelihood of being regulatory variants, whereas one variant was predicted to affect the target region of a miRNA. Thus, this study lays the groundwork for extensive analysis of RTEL1 gene variants in the future, along with the advancement of precision medicine and other treatment modalities. [ABSTRACT FROM AUTHOR]

Published

2024

15. Genome-wide association studies on periodontitis: A systematic review.

Author

Gao, Chenyi, Iles, Mark, Larvin, Harriet, Bishop, David Timothy, Bunce, David, Ide, Mark, Sun, Fanyiwen, Pavitt, Susan, Wu, Jianhua, and Kang, Jing

Subjects

*GENOME-wide association studies, *GENETIC variation, *SINGLE nucleotide polymorphisms, *DENTAL research, *PERIODONTITIS

Abstract

Objectives: This study aims to systematically review the existing literature and critically appraise the evidence of genome-wide association studies (GWAS) on periodontitis. This study also aims to synthesise the findings of genetic risk variants of periodontitis from included GWAS. Methods: A systematic search was conducted on PubMed, GWAS Catalog, MEDLINE, GLOBAL HEALTH and EMBASE via Ovid for GWAS on periodontitis. Only studies exploring single-nucleotide polymorphisms(SNPs) associated with periodontitis were eligible for inclusion. The quality of the GWAS was assessed using the Q-genie tool. Information such as study population, ethnicity, genomic data source, phenotypic characteristics(definition of periodontitis), and GWAS methods(quality control, analysis stages) were extracted. SNPs that reached conventional or suggestive GWAS significance level(5e-8 or 5e-06) were extracted and synthesized. Results: A total of 15 good-quality GWAS on periodontitis were included (Q-genie scores ranged from 38–50). There were huge heterogeneities among studies. There were 11 identified risk SNPs (rs242016, rs242014, rs10491972, rs242002, rs2978951, rs2738058, rs4284742, rs729876, rs149133391, rs1537415, rs12461706) at conventional GWAS significant level (p<5x10-8), and 41 at suggestive level (p<5x10-6), but no common SNPs were found between studies. Three SNPs (rs4284742 [G], rs11084095 [A], rs12461706 [T]) from three large studies were from the same gene region–SIGLEC5. Conclusion: GWAS of periodontitis showed high heterogeneity of methodology used and provided limited SNPs statistics, making identifying reliable risk SNPs challenging. A clear guidance in dental research with requirement of expectation to make GWAS statistics available to other investigators are needed. [ABSTRACT FROM AUTHOR]

Published

2024

16. Isolation and characterization of genetic variants of Orthohantavirus hantanense from clinical cases of HFRS in Jiangxi Province, China.

Author

Liu, Shiwen, Deng, Zhishi, Li, Jianxiong, Zou, Long, Sun, Xiuhui, Liu, Xiaoqing, Shi, Yong, Huang, Shunqiang, Wu, Yangbowen, Lei, Jinhui, Liu, Peipei, Zhang, Pei, Xiong, Ying, and Long, Zhong-er

Subjects

*HEMORRHAGIC fever with renal syndrome, *MONONUCLEAR leukocytes, *WHOLE genome sequencing, *GENETIC variation, *ACUTE kidney failure

Abstract

Background: Hemorrhagic fever with renal syndrome (HFRS) is a severe public health problem in Jiangxi province, China. Previous studies reported genetic variants of Orthohantavirus hantanense (Hantaan virus, HTNV) in rodents in this area. However, the relationship between HTNV variants and human infection needs to be confirmed. This study aimed to identify the HTNV variants in patients and to understand the clinical characteristics of HFRS caused by these variants. Methods: Samples were collected from hospitalized suspected cases of HFRS during the acute phase. HFRS cases were confirmed using quantitative real-time RT-PCR. Peripheral blood mononuclear cells (PBMC) from patients with HFRS were inoculated into Vero-E6 cells for viral isolation. The genomic sequences of HTNV from patients were obtained by amplicon-based next-generation sequencing. A retrospective analysis was conducted on the clinical characteristics of the patients. Results: HTNV RNA was detected in 53 of 183 suspected HFRS patients. Thirteen HTNVs were isolated from 32 PBMCs of HFRS cases. Whole genome sequences of 14 HTNVs were obtained, including 13 isolates in cell culture from 13 patients, and one from plasma of the fatal case which was not isolated successfully in cell culture. Genetic analysis revealed that the HTNV sequence from the 14 patients showed significant variations in nucleotide and amino acid to the HTNV strains found in other areas. Fever (100%, 53/53), thrombocytopenia (100%, 53/53), increased serum aspartate aminotransferase (100%, 53/53), and increased lactate dehydrogenase (96.2%, 51/53) were the most common characteristics. Severe acute kidney injury was observed in 13.2% (7/53) of cases. Clinical symptoms, such as pain, petechiae, and gastrointestinal or respiratory symptoms were uncommon. Conclusion: The HTNV genetic variants cause human infections in Jiangxi. The clinical symptoms of HFRS caused by the HTNV genetic variant during the acute phase are atypical. In addition to renal dysfunction, attention should be paid to the common liver injuries caused by these genetic variants. Author summary: HTNV causes severe HFRS in Eastern Asia. Previous studies reported genetic variants or new genotypes of HTNV in animals in South Korea and many parts of China. However, little is known about the clinical characteristics of patients infected by the HTNV variant, because it is difficult to isolate HTNV from patients, and few HTNV variants were confirmed from patients. In this study, we use PBMC from patient to coculture with Vero-E6 cells and a 28-day passage isolation protocol for vial isolation, 13 HTNVs were successfully isolated from patients with a recovery rate of over 40%. We also established an amplicon-based next-generation sequencing method for HTNV whole gene sequencing and whole genome sequences of HTNVs from 14 patients were obtained. Genetic analysis revealed that the complete sequences from the patients showed significant variations in nucleotide and amino acid to the HTNVs found in other areas. Viral isolation and whole genome sequencing confirm that the HTNV variant causes human infection in Jiangxi province. The clinical symptoms of HFRS caused by the HTNV genetic variant during the acute phase are atypical, and laboratory diagnoses are needed. These results provide useful guidance for orthohantaviruses isolation from clinical cases and are important for HFRS diagnosis in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2024

17. Evaluation of genetic diversity and population structure of Annamocarya sinensis using SCoT markers.

Author

Pan, Hong, Deng, Libao, Zhu, Kaixian, Shi, Deju, Wang, Feiyong, and Cui, Guofa

Subjects

*GENETIC variation, *GENETIC polymorphisms, *GERMPLASM, *SPECIES diversity, *ENDANGERED species

Abstract

Annamocarya sinensis (Dode) Leroy, a relict plant from the Tertiary period, is a member of Annamocarya genus in the Juglandaceae family. Despite its wide distribution in Guangxi Province, the habitats of this species had become fragmented and isolated, causing it facing deterioration. For protecting this endangered species, it is crucial to understand its status in the wild and genetic diversity. In this study, 216 A. sinensis accessions from 18 populations in Guangxi were examined using Start Codon Target Polymorphism (SCoT) markers for PCR amplification, genetic diversity, and population structure analysis. Out of the 20 SCoT primers used, 222 sites were amplified, with 185 being polymorphic (PPB of 83.33%). Polymorphic information content values ranged from 0.4380 to 0.4999, Nei's genetic diversity index ranging from 0.1573 to 0.2503, and Shannon diversity index ranged from 0.1583 to 0.3812. Through AMOVA analysis, the total genetic diversity and genetic diversity within populations was calculated out as 0.3271 and 0.1542 respectively, the genetic differentiation coefficient between populations was 0.5286, with a gene flow 0.4458. Cluster analysis categorized A. sinensis germplasm into three groups, while population structure analysis divided all accessions into three ancestral sources with 19.91% showing mixed ancestral origins. No significant correlation was observed between genetic and geographical distance on the Mentel test (r = 0.07348, p = 0.7468). Overall, A. sinensis displays a relatively rich genetic diversity at the species level, albeit with a fairly uniform genetic background and high genetic differentiation. This study provides a crucial basis for the conservation and innovative use of A. sinensis germplasm resources. [ABSTRACT FROM AUTHOR]

Published

2024

18. Y-Chromosomal insights into the paternal genealogy of the Kerey tribe have called into question their descent from the Stepfather of Genghis Khan.

Author

Zhabagin, Maxat, Bukayev, Alizhan, Dyussenova, Zhanargul, Zhuraliyeva, Altyn, Tashkarayeva, Assel, Zhunussova, Aigul, Aidarov, Baglan, Darmenov, Akynkali, Akilzhanova, Ainur, Schamiloglu, Uli, and Sabitov, Zhaxylyk

Subjects

*GENETIC genealogy, *GENETIC testing, *GENETIC variation, *TRIBES, *MONGOLS

Abstract

The Kerey is one of the prominent Kazakh tribes and has long been a subject of ethnographic scrutiny, with a lack of consensus on its origin and traditional genealogy. Their historical significance, intertwined with the emergence of the empire established by Genghis Khan, necessitates a comprehensive understanding of their genetic history. This study focuses on unraveling the genetic heritage of the Kerey tribe. We conducted a comprehensive analysis of Y-chromosome data from genetic genealogy as citizen science and genetic screening of 23 Y-STRs and 37 Y-SNPs on 207 males from the Kerey tribe within academic science. Our results reveal two prevalent phylogenetic lineages within the C2a1a3a-F3796 haplogroup, also known as the C2*-Star Cluster (C2*-ST), which is one of the founding paternal lineages of the ancient Niru'un clan of the Mongols: C2-FT411734 and C2-FT224144, corresponding to the Abak and Ashamaily clans. While indicating a common male ancestry for them, our findings challenge the notion that they are full siblings. Additionally, genetic diversity analysis of the Y-chromosomes in the Kerey tribe and Kazakhs confirms their kinship with the Uissun tribe but refutes the claim of the Abak clan's progenitor originating from this tribe. Furthermore, genetic evidence fails to support popular historical and ethnographic hypotheses regarding the Kerey tribe's kinship with the Uak, Sirgeli, Adai, Törtkara, Karakerey, and Kereyit Kazakh tribes. The absence of a genetic paternal connection with the Kereyt tribe raises doubts about the genealogical link between the Kerey tribe and the stepfather of Genghis Khan. [ABSTRACT FROM AUTHOR]

Published

2024

19. HIV-1 residual risk and pre-treatment drug resistance among blood donors: A sentinel surveillance from Gabon.

Author

Mangala, Christian, Takou, Désiré, Maulot-Bangola, Denis, Beloumou, Grace, Rebienot Pellegrin, Olivier, Sosso, Samuel Martin, Ambe Chenwi, Collins, Ngoufack Jagni Semengue, Ezechiel, Vigan Codjo, Franck, Boussougou, Olga, Nka, Alex Durand, Tommo, Michel, Fainguem, Nadine, Kamgaing, Rachel, Ama Moor, Vicky, Kamga Gonsu, Hortense, Penlap, Veronique, Nkoa, Thérèse, Colizzi, Vittorio, and Perno, Carlo-Federico

Subjects

*HIV infection transmission, *BLOOD donors, *BLOOD transfusion, *DRUG resistance, *GENETIC variation, *HIV infections

Abstract

Background: Surveillance of HIV-1 pre-treatment drug resistance (PDR) is essential for ensuring the success of first-line antiretroviral therapy (ART). Beside population-based surveys, sentinel surveillance of PDR and circulating HIV-1 clades in specific populations such as blood donors could efficiently inform decision-making on ART program. We therefore sought to ascertain HIV-1 residual infection, the threshold of PDR and viral diversity among recently-diagnosed blood donors in Gabon. Methods: A sentinel surveillance was conducted among 381 consenting blood donors at the National Blood Transfusion Center (NBTC) in Gabon from August 3,2020 to August, 31, 2021. In order to determine the residual risk of HIV transmission, viral load and HIV-1 Sanger-sequencing were performed at the Chantal BIYA International Reference Center (CIRCB)-Cameroon on HIV samples previously tested seronegative with ELISA in Gabon. Phylogeny was performed using MEGA X, PDR threshold>10% was considered high and data were analysed using p≤0.05 for statistical significance. Results: Five HIV-negative blood donors had a detectable viral load indicating a high residual risk of HIV transmission. Among the samples successfully sequenced, four participants had major drug resistance mutations (DRMs), giving a threshold of PDR of 25% (4/16). By drug class, major DRMs targeting NNRTI (K103N, E138G), NRTIs (L210W) and PI/r (M46L). The most representative viral clades were CRF02_AG and subtype A1. The genetic diversity of HIV-1 had no significant effect on the residual risk in blood transfusion (CRF02_AG, P = 0.3 and Recombinants, P = 0.5). Conclusion: This sentinel surveillance indicates a high residual risk of HIV-1 transfusion in Gabon, thereby underscoring the need for optimal screening strategy for blood safety. Moreover, HIV-1 transmission goes with high-risk of PDR, suggesting suboptimal efficacy of ART. Nonetheless, the genetic diversity has limited (if any effect) on the residual risk of infection and PDR in blood donors. [ABSTRACT FROM AUTHOR]

Published

2024

20. Bioinformatics analysis to identify the relationship between human papillomavirus-associated cervical cancer, toll-like receptors and exomes: A genetic epidemiology study.

Author

Gomes, Fabiana de Campos, Galhardo, Deizyane dos Reis, Navegante, Aline Carvalho Gonçalves, Santos, Gabriela Sepêda dos, Dias, Helana Augusta Andrade Leal, Dias Júnior, José Ribamar Leal, Pierre, Marie Esther, Luz, Marlucia Oliveira, and de Melo Neto, João Simão

Subjects

*GENETIC epidemiology, *SOUTH Asians, *GENE expression, *GENETIC variation, *HUMAN papillomavirus

Abstract

Introduction: Genetic variants may influence Toll-like receptor (TLR) signaling in the immune response to human papillomavirus (HPV) infection and lead to cervical cancer. In this study, we investigated the pattern of TLR expression in the transcriptome of HPV-positive and HPV-negative cervical cancer samples and looked for variants potentially related to TLR gene alterations in exomes from different populations. Materials and methods: A cervical tissue sample from 28 women, which was obtained from the Gene Expression Omnibus database, was used to examine TLR gene expression. Subsequently, the transcripts related to the TLRs that showed significant gene expression were queried in the Genome Aggregation Database to search for variants in more than 5,728 exomes from different ethnicities. Results: Cancer and HPV were found to be associated (p<0.0001). TLR1(p = 0.001), TLR3(p = 0.004), TLR4(221060_s_at)(p = 0.001), TLR7(p = 0.001;p = 0.047), TLR8(p = 0.002) and TLR10(p = 0.008) were negatively regulated, while TLR4(1552798_at)(p<0.0001) and TLR6(p = 0.019) were positively regulated in HPV-positive patients (p<0.05). The clinical significance of the variants was statistically significant for TLR1, TLR3, TLR6 and TLR8 in association with ethnicity. Genetic variants in different TLRs have been found in various ethnic populations. Variants of the TLR gene were of the following types: TLR1(5_prime_UTR), TLR4(start_lost), TLR8(synonymous;missense) and TLR10(3_prime_UTR). The "missense" variant was found to have a risk of its clinical significance being pathogenic in South Asian populations (OR = 56,820[95%CI:40,206,80,299]). Conclusion: The results of this study suggest that the variants found in the transcriptomes of different populations may lead to impairment of the functional aspect of TLRs that show significant gene expression in cervical cancer samples caused by HPV. [ABSTRACT FROM AUTHOR]

Published

2024

21. Uncovering structural variants in Creole cattle from Guadeloupe and their impact on environmental adaptation through whole genome sequencing.

Author

Ben-Jemaa, Slim, Boussaha, Mekki, Mandonnet, Nathalie, Bardou, Philippe, and Naves, Michel

Subjects

*WHOLE genome sequencing, *BODY temperature regulation, *CHROMOSOMAL rearrangement, *MUSCLE tone, *GENETIC variation, *TRANSFER RNA, *OLFACTORY receptors

Abstract

Structural variants play an important role in evolutionary processes. Besides, they constitute a large source of inter individual genetic variation that might represent a major factor in the aetiology of complex, multifactorial traits. Their importance in adaptation is becoming increasingly evident in literature. Yet, the characterization of the genomic landscape of structural variants in local breeds remains scarce to date. Herein, we investigate patterns and gene annotation of structural variants in the Creole cattle from Guadeloupe breed using whole genome sequences from 23 bulls representative of the population. In total, we detected 32821 ascertained SV defining 15258 regions, representing ~ 17% of the Creole cattle genome. Among these, 6639 regions have not been previously reported in the Database of Genomic Variants archive. Average number of structural variants detected per individual in the studied population is in the same order of magnitude of that observed in indicine populations and higher than that reported in taurine breeds. We observe an important within-individual variability where approximately half of the detected structural variants have low frequency (MAF < 0.25). Most of the detected structural variants (55%) occurred in intergenic regions. Genic structural variants overlapped with 7793 genes and the predicted effect of most of them is ranked as "modifier". Among the structural variants that were predicted to have a high functional impact on the protein, a 5.5 Kb in length, highly frequent deletion on chromosome 2, affects ALPI, a gene associated with the interaction between gut microbiota and host immune system. The 6639 newly identified structural variants regions include three deletions and three duplications shared by more than 80% of individuals that are significantly enriched for genes related to tRNA threonylcarbamoyladenosine metabolic process, important for temperature adaptation in thermophilic organisms, therefore suggesting a potential role in the thermotolerance of Creole cattle from Guadeloupe cattle to tropical climate. Overall, highly frequent structural variants that are specific to the Creole cattle population encompass olfactory receptor and immunity genes as well as genes involved in muscle tone, muscle development and contraction. Beyond mapping and characterizing structural variants in the Creole cattle from Guadeloupe breed, this study provides valuable information for a better understanding of the potential role of chromosomal rearrangements in adaptive traits in cattle. [ABSTRACT FROM AUTHOR]

Published

2024

22. Corynebacterium pseudotuberculosis: Whole genome sequencing reveals unforeseen and relevant genetic diversity in this pathogen.

Author

Hiller, Ekkehard, Hörz, Verena, and Sting, Reinhard

Subjects

*NITRATE reductase, *WHOLE genome sequencing, *CORYNEBACTERIUM pseudotuberculosis, *GENETIC variation, *ATP-binding cassette transporters

Abstract

Corynebacterium pseudotuberculosis (CPS) is an important bacterial animal pathogen. CPS causes chronic, debilitating and currently incurable infectious diseases affecting a wide range of livestock and wild herbivores including camelids worldwide. Belonging to the Corynebacterium diphtheriae complex, this pathogen can also infect humans. The classical characterization of CPS is typically based on the testing of nitrate reductase activity, separating the two biovars Equi and Ovis. However, more refined resolutions are required to unravel routes of infection. This was realized in our study by generating and analyzing whole genome sequencing (WGS) data. Using newly created core genome multilocus sequence typing (cgMLST) profiles we were the first to discover isolates grouping in a cluster adjacent to clusters formed by CPS biovar Equi isolates. This novel cluster includes CPS isolates from alpacas, llamas, camels and dromedaries, which are characterized by a lack of nitrate reductase activity as encountered in biovar Ovis. This is of special interest for molecular epidemiology. Nevertheless, these isolates bear the genes of the nitrate locus, which are characteristic of biovar Equi isolates. However, sequence analysis of the genes narG and narH of the nitrate locus revealed indels leading to frameshifts and inactivity of the enzymes involved in nitrate reduction. Interestingly, one CPS isolate originating from another lama with an insertion in the MFS transporter (narT) is adjacent to a cluster formed by ovine CPS isolates biovar Equi. Based on this knowledge, the combination of biochemical and PCR based molecular biological nitrate reductase detection can be used for a fast and uncomplicated classification of isolates in routine diagnostics in order to check the origin of camelid CPS isolates. Further analysis revealed that partial sequencing of the ABC transporter substrate binding protein (CP258_RS07935) is a powerful tool to assign the biovars and the novel genomovar. [ABSTRACT FROM AUTHOR]

Published

2024

23. Population genetic structure and historical demography of the population of forest elephants in Côte d'Ivoire.

Author

Kouakou, Jean-Louis and Gonedelé-Bi, Sery

Subjects

*POPULATION differentiation, *GENETIC variation, *DEMOGRAPHY, *MITOCHONDRIAL DNA, *BAYESIAN analysis

Abstract

The population of forest elephant (Loxodonta cyclotis) has continuously declined in Côte d'Ivoire and, the remaining population largely consists of subpopulations that are fragmented and isolated. No data actually exist on the level of genetic diversity and population genetic structure of current forest elephant populations in Côte d'Ivoire. In this sense, determining genetic diversity and the underlying mechanisms of population differentiation is crucial for the initiation of effective conservation management. A total of 158 dung samples of forest elephants were collected at stage 1 of decompositions (dung pile intact, very fresh) in three Classified Forests (CF) (Bossématié, Dassioko and Port-Gauthier) in Côte d'Ivoire. A total of 101 sequences of the mitochondrial DNA control region measuring 600 base pair and 26 haplotypes were obtained. A haplotypic diversity ranging from 0.655 ± 0.050 at Bossématié and 0.859 ± 0.088 at Port Gauthier was obtained. Fifteen (15) out of 26 haplotypes observed were singletons and only the Dassioko and Port Gauthier CFs shared the same haplotypes. The strong genetic connectivity between forest elephant populations of the Dassioko and Port Gauthier CFs is supported by the grouping of these populations into a single cluster by Bayesian analysis. Although populations of L. cyclotis exhibit relatively high genetic diversity, habitat fragmentation could affect the genetic variability of current populations. Urgent measures including the reinforcement/establishment of genetic corridors and the strengthening of protection measures need to be undertaken to save the remaining populations of forest elephants in Côte d'Ivoire. [ABSTRACT FROM AUTHOR]

Published

2024

24. Regression convolutional neural network models implicate peripheral immune regulatory variants in the predisposition to Alzheimer's disease.

Author

Ramamurthy, Easwaran, Agarwal, Snigdha, Toong, Noelle, Sestili, Heather, Kaplow, Irene M., Chen, Ziheng, Phan, BaDoi, and Pfenning, Andreas R.

Subjects

*CONVOLUTIONAL neural networks, *ARTIFICIAL neural networks, *ALZHEIMER'S disease, *REGULATOR genes, *GENETIC variation

Abstract

Alzheimer's disease (AD) involves aggregation of amyloid β and tau, neuron loss, cognitive decline, and neuroinflammatory responses. Both resident microglia and peripheral immune cells have been associated with the immune component of AD. However, the relative contribution of resident and peripheral immune cell types to AD predisposition has not been thoroughly explored due to their similarity in gene expression and function. To study the effects of AD associated variants on cis-regulatory elements, we train convolutional neural network (CNN) regression models that link genome sequence to cell type-specific levels of open chromatin, a proxy for regulatory element activity. We then use in silico mutagenesis of regulatory sequences to predict the relative impact of candidate variants across these cell types. We develop and apply criteria for evaluating our models and refine our models using massively parallel reporter assay (MPRA) data. Our models identify multiple AD-associated variants with a greater predicted impact in peripheral cells relative to microglia or neurons. Our results support their use as models to study the effects of AD-associated variants and even suggest that peripheral immune cells themselves may mediate a component of AD predisposition. We make our library of CNN models and predictions available as a resource for the community to study immune and neurological disorders. Author summary: Human genetic association studies continue to identify a large number of genetic variants associated with common diseases. However, genetic linkage renders it difficult to identify truly causal variants from these associations. The problem is further complicated by the fact that most disease-associated variants lie in non-coding regions of the genome which are involved in regulating gene expression. Gene regulatory elements are highly tissue- and cell-type-specific which makes it important to study disease variant effects in the right tissue or cell type. In this study, we propose a computational framework to identify functional variants that influence disease predisposition by disruption of gene regulatory element activity. We first identify potential cell types that may influence disease predisposition through cell-type-specific gene regulatory element activity. Then, we use machine learning (ML) models that relate human genetic sequence to cell-type-specific gene regulatory activity to characterize potential effects of genetic variants. Finally, using in silico mutagenesis, we identify putative functional variants and predict their ability to disrupt regulatory activity in various cell types. Further, we define best practices to train, benchmark, improve and apply these models to interpret the cell-type-specific determinants of disease. In a specific use case, we apply this framework to interpret the cell type-specific contributions of regulatory genetic variants in Alzheimer's Disease (AD). For AD, we show that we can separate out peripheral immune and brain resident immune microglial signals to understand their specific contributions to AD predisposition. We find that gene regulatory elements active in peripheral immune cells strongly colocalize with AD genetic variants compared to regulatory elements active in neural cell types. In addition, our models predict that many functional AD variants have variant effects that are specific to peripheral immune cells and not brain resident immune cells (microglia). Our study opens up opportunities to experimentally study Alzheimer's Disease variants in peripheral immune cell models that are often easier to manipulate than many neural cell types and yet not usually considered in functional studies on AD variants. [ABSTRACT FROM AUTHOR]

Published

2024

25. Exploring the genetic diversity and population structure of aerial yams (Dioscorea bulbifera L.) DArT-seq and agronomic traits.

Author

Ekaette, Eunice, Nwofia, Emeka, Okocha, Peter, Nnnabue, Ikenna, Eluwa, Kenneth, Obidiegwu, Jude, and Agre, Paterne A.

Subjects

*GENETIC variation, *YAMS, *CLUSTER analysis (Statistics), *GENOTYPES, *MULTIVARIATE analysis

Abstract

Dioscorea bulbifera is an edible yam specie with aerial bulbils. Assessing the genetic diversity of D. bulbifera accession for cultivation and breeding purposes is essential for it genetic improvement, especially where the crop faces minimal attention. The aims of this study was to assess the genetic diversity of Dioscorea bulbifera accessions collected from Nigeria and accessions maintained at the genebank of International Institute of Tropical Agriculture (IITA) Ibadan. Accessions were profiled using quatitative and qualitative phenotypic traits and Diversity Array Technology SNP-markers. Multivariate analysis based phenotypic traits revealed high variability among the evaluated accessions and all phenotypic traits assessed were useful in discriminating the aerial yam accessions. Clustering analysis based phenotypic traits revealed the presence of two well defined clusters. Using DArT-Seq marker, the 94 accessions were classified into three genetic group through the admixture and the phylogeny analysis. The comparision of phenotypic and genotypic clustering revealed inconsistency membership across the two clustering methods. The study established a baseline for the selection of parental lines from the genetic groups for genetic improvement of the D. bulbifera. [ABSTRACT FROM AUTHOR]

Published

2024

26. Complete mitochondrial genomes of three vulnerable cave bat species and their phylogenetic relationships within the order Chiroptera.

Author

Molina, Michele, Oliveira, Guilherme, Oliveira, Renato R. M., Nunes, Gisele L., Pires, Eder S., Prous, Xavier, Ribeiro, Mariane, and Vasconcelos, Santelmo

Subjects

*STOP codons, *GENETIC variation, *AMINO acid sequence, *ENDANGERED species, *PHYLLOSTOMIDAE, *TRANSFER RNA

Abstract

The IUCN Red List of Threatened Species contains 175 Brazilian bat species that are threatened by extinction in some degree. From this perspective, it is essential to expand the knowledge about the genetic diversity of vulnerable bats. Genomic sequencing can be useful to generate robust and informative genetic references, increasing resolution when analyzing relationships among populations, species, or higher taxonomic levels. In this study, we sequenced and characterized in detail the first complete mitochondrial genomes of Furipterus horrens, Lonchorhina aurita, and Natalus macrourus, and investigated their phylogenetic position based on amino acid sequences of protein-coding genes (PCGs). The mitogenomes of these species are 16,516, 16,697, and 16,668 bp in length, respectively, and each comprises 13 PCGs, 22 tRNA genes, two rRNA genes, and a putative control region (CR). In the three species, genes were arranged similarly to all other previously described bat mitogenomes, and nucleotide composition was also consistent with the reported range. The length and arrangement of rrnS and rrnL were also consistent with those of other bat species, showing a positive AT-skew and a negative GC-skew. Except for trnS1, for which we did not observe the DHU arm, all other tRNAs showed the cloverleaf secondary structure in the three species. In addition, the mitogenomes showed minor differences in start and stop codons, and in all PCGs, codons ending in adenine were more common compared to those ending in guanine. We found that PCGs of the three species use multiple codons to encode each amino acid, following the previously documented pattern. Furthermore, all PCGs are under purifying selection, with atp8 experiencing the most relaxed purifying selection. Considering the phylogenetic reconstruction, F. horrens was recovered as sister to Noctilio leporinus, L. aurita and Tonatia bidens shared a node within Phyllostomidae, and N. macrourus appeared as sister to Molossidae and Vespertilionidae. [ABSTRACT FROM AUTHOR]

Published

2024

27. Pervasive tissue-, genetic background-, and allele-specific gene expression effects in Drosophila melanogaster.

Author

Glaser-Schmitt, Amanda, Lemoine, Marion, Kaltenpoth, Martin, and Parsch, John

Subjects

*GENETIC regulation, *GENE expression, *GENETIC variation, *DROSOPHILA melanogaster, *REGULATOR genes

Abstract

The pervasiveness of gene expression variation and its contribution to phenotypic variation and evolution is well known. This gene expression variation is context dependent, with differences in regulatory architecture often associated with intrinsic and environmental factors, and is modulated by regulatory elements that can act in cis (linked) or in trans (unlinked) relative to the genes they affect. So far, little is known about how this genetic variation affects the evolution of regulatory architecture among closely related tissues during population divergence. To address this question, we analyzed gene expression in the midgut, hindgut, and Malpighian tubule as well as microbiome composition in the two gut tissues in four Drosophila melanogaster strains and their F1 hybrids from two divergent populations: one from the derived, European range and one from the ancestral, African range. In both the transcriptome and microbiome data, we detected extensive tissue- and genetic background-specific effects, including effects of genetic background on overall tissue specificity. Tissue-specific effects were typically stronger than genetic background-specific effects, although the two gut tissues were not more similar to each other than to the Malpighian tubules. An examination of allele specific expression revealed that, while both cis and trans effects were more tissue-specific in genes expressed differentially between populations than genes with conserved expression, trans effects were more tissue-specific than cis effects. Despite there being highly variable regulatory architecture, this observation was robust across tissues and genetic backgrounds, suggesting that the expression of trans variation can be spatially fine-tuned as well as or better than cis variation during population divergence and yielding new insights into cis and trans regulatory evolution. Author summary: Genetic variants regulating gene expression can act in cis (linked) or in trans (unlinked) relative to the genes they affect and are thought to be important during adaptation because they can spatially and temporally fine-tune gene expression. In this study, we used the fruit fly Drosophila melanogaster to compare gene expression between inbred parental strains and their offspring in order to characterize the basis of gene expression regulation and inheritance. We examined gene expression in three tissues (midgut, hindgut, and Malpighian tubule) and four genetic backgrounds stemming from Europe and the ancestral range in Africa. Additionally, we characterized the bacterial community composition in the two gut tissues. We detected extensive tissue- and genetic background-specific effects on gene expression and bacterial community composition, although tissue-specific effects were typically stronger than genetic background effects. Genes with cis and trans regulatory effects were more tissue-specific than genes with conserved expression, while those with trans effects were more tissue-specific than those with cis effects. These results suggest that the expression of trans variation can be spatially fine-tuned as well as (or better than) cis variation as populations diverge from one another. Our study yields novel insight into the genetic basis of gene regulatory evolution. [ABSTRACT FROM AUTHOR]

Published

2024

28. Sequence typing of Haemophilus ducreyi isolated from patients in the Namatanai region of Papua New Guinea: Infections by Class I and Class II strain types differ in ulcer duration and resurgence of infection after azithromycin treatment.

Author

Medappa, Monica, Pospíšilová, Petra, John, Lucy N., González-Beiras, Camila, Vall-Mayans, Marti, Mitjà, Oriol, and Šmajs, David

Subjects

*GENETIC variation, *HAEMOPHILUS, *DRUG administration, *ULCERS, *TREPONEMA pallidum, *AZITHROMYCIN

Abstract

Haemophilus ducreyi (HD) is an important cause of cutaneous ulcers in several endemic regions, including the Western Pacific Region, especially among children. An HD sequence typing on swab samples taken from 1,081 ulcers in the Namatanai district of Papua New Guinea, during the pilot study for treatment of yaws, has been performed using the Grant typing system. Of the 363 samples that tested positive for the 16S rDNA of HD, the dsrA sequences of 270 samples were determined. Altogether they revealed 8 HD strain types circulating in Namatanai, including seven strain types of Class I (I.3, I.4, I.5, I.9, I.10, I.11, I.12) and one strain of Class II (II.3); four Class I types (I.9, I.10, I.11, I.12) were novel. The southern region of Namatanai (Matalai Rural) was identified as the region with the lowest genotype diversity and with most infections caused by HD Class II. The middle and northern subdistricts were affected mainly by HD Class I. Analysis of patient characteristics revealed that Class II HD infections were more often represented by longer-lasting ulcers than Class I HD infections. An increase in the prevalence of the I.10 strain was found after azithromycin administration compared to the untreated population at baseline likely reflecting higher infectivity of HD Class I, and more specifically strain type I.10. Author summary: Haemophilus ducreyi (HD) is one of the main causative agents of cutaneous ulcers in children across substantial parts of Africa and the Pacific. A yaws eradication study conducted in the Namatanai district of Papua New Guinea revealed that nearly one-third of all patients were infected with HD. Single locus sequence typing (SLST) of the HD dsrA locus revealed presence of multiple HD strains circulating in the human population of Namatanai region. In contrast to Treponema pallidum subsp. pertenue, the pathogen responsible for yaws, the prevalence of HD strains did not significantly decrease following mass drug administration. In addition, HD strains from patients in Namatanai region revealed a higher genetic diversity compared to the yaws agent present in the same area and the HD strain composition changed following antibiotic treatment. Infections caused by at least some different HD strain types appear to differ in reported ulcer duration and also in resurgence of infection after antibiotic treatment. Therefore, important pathophysiological differences among HD strain types were predicted. [ABSTRACT FROM AUTHOR]

Published

2024

29. Genetic structure of black soldier flies in northern Iran.

Author

Boukan, Afrooz, Nozari, Jamasb, Naseri Karimi, Nazanin, Talebzadeh, Fahimeh, Pahlavan Yali, Katayoun, and Oshaghi, Mohammad Ali

Subjects

*HERMETIA illucens, *CYTOCHROME oxidase, *GENETIC variation, *INSECT larvae, *ORGANIC wastes

Abstract

Background: The black soldier fly (BSF), Hermetia illucens, is known for nutrient-recycling through the bioconversion of organic waste into protein-rich insect larvae that can be processed into an animal feed ingredient. However, information on species distribution and its genetic structure in Iran is scarce. Methods and results: We directed a survey on the Caspian Sea coast, with a reconstructing demographic relationships study using two parts of mitochondrial cytochrome C oxidase 1 (COI) gene (barcode and 3' end regions) and nuclear internal transcribed spacer 2 (ITS2) to identify BSF' genetic diversity in retrospect to the global diversity and the potential origin of the Iranian BSF population. Larvae and adults were recovered from highly decomposed poultry manure, in May 2020. Sequence analysis of both regions of COI gene (about 1500 bp) revealed a single haplotype, identical to that of haplotype C, a worldwide commercial strain originated from Nearctic, Palearctic, or African biogeographic regions. However, the ITS2 locus was confirmed to be invariable across samples from diverse biogeographic regions. Conclusion: The results proved the presence of BSF in north of Iran. However, it is not possible to determine with certainty when and where this species first established in Iran, and they have likely been released to nature due to the existence of companies importing and breeding such flies. Due to heavy international trading, the introduction and settlement of this fly in the southern coasts of the country is highly suggested. [ABSTRACT FROM AUTHOR]

Published

2024

30. Finemap-MiXeR: A variational Bayesian approach for genetic finemapping.

Author

Akdeniz, Bayram Cevdet, Frei, Oleksandr, Shadrin, Alexey, Vetrov, Dmitry, Kropotov, Dmitry, Hovig, Eivind, Andreassen, Ole A., and Dale, Anders M.

Subjects

*GENOME-wide association studies, *GENETIC variation, *MATRIX inversion, *LINKAGE disequilibrium, *BAYESIAN field theory

Abstract

Genome-wide association studies (GWAS) implicate broad genomic loci containing clusters of highly correlated genetic variants. Finemapping techniques can select and prioritize variants within each GWAS locus which are more likely to have a functional influence on the trait. Here, we present a novel method, Finemap-MiXeR, for finemapping causal variants from GWAS summary statistics, controlling for correlation among variants due to linkage disequilibrium. Our method is based on a variational Bayesian approach and direct optimization of the Evidence Lower Bound (ELBO) of the likelihood function derived from the MiXeR model. After obtaining the analytical expression for ELBO's gradient, we apply Adaptive Moment Estimation (ADAM) algorithm for optimization, allowing us to obtain the posterior causal probability of each variant. Using these posterior causal probabilities, we validated Finemap-MiXeR across a wide range of scenarios using both synthetic data, and real data on height from the UK Biobank. Comparison of Finemap-MiXeR with two existing methods, FINEMAP and SuSiE RSS, demonstrated similar or improved accuracy. Furthermore, our method is computationally efficient in several aspects. For example, unlike many other methods in the literature, its computational complexity does not increase with the number of true causal variants in a locus and it does not require any matrix inversion operation. The mathematical framework of Finemap-MiXeR is flexible and may also be applied to other problems including cross-trait and cross-ancestry finemapping. Author summary: Genome-Wide Association Studies report the effect size of each genomic variant as summary statistics. Due to the correlated structure of the genomic variants, it may not be straightforward to determine the actual causal genomic variants from these summary statistics. Finemapping studies aim to identify these causal SNPs using different approaches. Here, we presented a novel finemapping method, called Finemap-MiXeR, to determine the actual causal variants using summary statistics data and weighted linkage disequilibrium matrix as input. Our method is based on Variational Bayesian inference on MiXeR model and Evidence Lower Bound of the model is determined to obtain a tractable optimization function. Afterwards, we determined the first derivatives of this Evidence Lower Bound, and finally, Adaptive Moment Estimation is applied to perform optimization. Our method has been validated on synthetic and real data, and similar or better performance than the existing finemapping tools has been observed. [ABSTRACT FROM AUTHOR]

Published

2024

31. Impact of feralization on evolutionary trajectories in the genomes of feral cat island populations.

Author

Nieto-Blázquez, María Esther, Gómez-Suárez, Manuela, Pfenninger, Markus, and Koch, Katrin

Subjects

*FERAL cats, *CATS, *WHOLE genome sequencing, *DOMESTIC animals, *GENETIC variation, *POPULATION genetics, *DOMESTICATION of animals

Abstract

Feralization is the process of domesticated animals returning to the wild and it is considered the counterpart of domestication. Molecular genetic changes are well documented in domesticated organisms but understudied in feral populations. In this study, the genetic differentiation between domestic and feral cats was inferred by analysing whole-genome sequencing data of two geographically distant feral cat island populations, Dirk Hartog Island (Australia) and Kaho'olawe (Hawaii) as well as domestic cats and European wildcats. The study investigated population structure, genetic differentiation, genetic diversity, highly differentiated genes, and recombination rates. Genetic structure analyses linked both feral cat populations to North American domestic and European cat populations. Recombination rates in feral cats were lower than in domestic cats but higher than in wildcats. For Australian and Hawaiian feral cats, 105 and 94 highly differentiated genes compared to domestic cats respectively, were identified. Annotated genes had similar functions, with almost 30% of the divergent genes related to nervous system development in both feral groups. Twenty mutually highly differentiated genes were found in both feral populations. Evolution of highly differentiated genes was likely driven by specific demographic histories, the relaxation of the selective pressures associated with domestication, and adaptation to novel environments to a minor extent. Random drift was the prevailing force driving highly divergent regions, with relaxed selection in feral populations also playing a significant role in differentiation from domestic cats. The study demonstrates that feralization is an independent process that brings feral cats on a unique evolutionary trajectory. [ABSTRACT FROM AUTHOR]

Published

2024

32. A single origin and high genetic diversity of cultivated medicinal herb Glehnia littoralis subsp. littoralis (Apiaceae) deciphered by SSR marker and phenotypic analysis.

Author

Li, Weiwei, Liu, Shuliang, Wang, Shimeng, Li, Yihui, Kong, Dongrui, and Wang, Ailan

Subjects

*SUSTAINABILITY, *PEARSON correlation (Statistics), *GENETIC variation, *AGRICULTURE, *GENE flow, *CARROTS

Abstract

Ten SSR markers based on transcriptome sequencing were employed to genotype 231 samples of G. littoralis subsp. littoralis (Apiaceae) from nine cultivated populations and seven wild populations, aiming to assess the genetic diversity and genetic structure, and elucidate the origin of the cultivated populations. Cultivated populations exhibited relatively high genetic diversity (h = 0.441, I = 0.877), slightly lower than that of their wild counterparts (h = 0.491, I = 0.930), likely due to recent domestication and ongoing gene flow between wild and cultivated germplasm. The primary cultivated population in Shandong have the crucial genetic status. A single origin of domestication was inferred through multiple analysis, and wild populations from Liaoning and Shandong are inferred to be potentially the ancestor source for the present cultivated populations. Phenotypic analysis revealed a relatively high heritability of root length across three growth periods (0.683, 0.284, 0.402), with significant correlations observed between root length and petiole length (Pearson correlation coefficient = 0.30, P<0.05), as well as between root diameter and leaf area (Pearson correlation coefficient = 0.36, P<0.01). These parameters can serve as valuable indicators for monitoring the developmental progress of medicinal plants during field management. In summary, this study can shed light on the intricate genetic landscape of G. littoralis subsp. littoralis, providing foundational insights crucial for conservation strategies, targeted breeding initiatives, and sustainable management practices in both agricultural and natural habitats. [ABSTRACT FROM AUTHOR]

Published

2024

33. Genetic diversity of a recovering European roller (Coracias garrulus) population from Serbia.

Author

Matić, Ivana, Veličković, Nevena, Radišić, Dimitrije, Milinski, Lea, Djan, Mihajla, and Stefanović, Milomir

Subjects

*GENETIC variation, *BIRDHOUSES, *HAPLOGROUPS, *CONTINUOUS distributions, *INBREEDING, *PHYLOGEOGRAPHY

Abstract

The European Roller (Coracias garrulus), a long-distance migratory bird, faced a considerable decline in breeding pairs throughout Europe at the end of the 20th century. Due to conservation efforts and the installation of nesting boxes, the population of the European Roller in Serbia has made a remarkable recovery. Here, we used the variability of nucleotide sequences of the mitochondrial DNA (mtDNA) control region and 10 microsatellite loci to assess the genetic diversity and structuring, phylogeographic patterns and demographic history of this species using 224 individuals from Serbia. Our results showed moderate level of genetic diversity (HO = 0.392) and a slightly elevated level of inbreeding and homozygosity (FIS = 0.393). Genetic structuring based on microsatellite data indicated three genetic clusters, but without a clear spatial pattern. High haplotype diversity (Hd = 0.987) of the mtDNA control region sequences was detected, and neutrality tests indicated a recent demographic expansion. The phylogeographic analysis, which also included previously published sequences of the mtDNA control region, supported the subdivision into two distinct European and Asian haplogroups (ΦST = 0.712). However, the results of our study showed that a larger number of haplotypes sampled in Serbia are clustered in the Asian haplogroup as compared to previous studies, indicating a historically continuous distribution of this species and possibly a wider distribution of the subspecies Coracias garrulus semenovwi. Our results suggest that the European Roller population in Serbia is genetically stable, with no evidence of recent bottlenecks, and emphasize the importance of artificial nest boxes for promoting and maintaining population dynamics of European Rollers. [ABSTRACT FROM AUTHOR]

Published

2024

34. Evolution of phenotypic plasticity leads to tumor heterogeneity with implications for therapy.

Author

Syga, Simon, Jain, Harish P., Krellner, Marcus, Hatzikirou, Haralampos, and Deutsch, Andreas

Subjects

*PHENOTYPIC plasticity, *CELLULAR evolution, *BRAIN tumors, *GENETIC variation, *DISEASE relapse

Abstract

Cancer is a significant global health issue, with treatment challenges arising from intratumor heterogeneity. This heterogeneity stems mainly from somatic evolution, causing genetic diversity within the tumor, and phenotypic plasticity of tumor cells leading to reversible phenotypic changes. However, the interplay of both factors has not been rigorously investigated. Here, we examine the complex relationship between somatic evolution and phenotypic plasticity, explicitly focusing on the interplay between cell migration and proliferation. This type of phenotypic plasticity is essential in glioblastoma, the most aggressive form of brain tumor. We propose that somatic evolution alters the regulation of phenotypic plasticity in tumor cells, specifically the reaction to changes in the microenvironment. We study this hypothesis using a novel, spatially explicit model that tracks individual cells' phenotypic and genetic states. We assume cells change between migratory and proliferative states controlled by inherited and mutation-driven genotypes and the cells' microenvironment. We observe that cells at the tumor edge evolve to favor migration over proliferation and vice versa in the tumor bulk. Notably, different genetic configurations can result in this pattern of phenotypic heterogeneity. We analytically predict the outcome of the evolutionary process, showing that it depends on the tumor microenvironment. Synthetic tumors display varying levels of genetic and phenotypic heterogeneity, which we show are predictors of tumor recurrence time after treatment. Interestingly, higher phenotypic heterogeneity predicts poor treatment outcomes, unlike genetic heterogeneity. Our research offers a novel explanation for heterogeneous patterns of tumor recurrence in glioblastoma patients. Author summary: Intratumor heterogeneity presents a significant barrier to effective cancer therapy. This heterogeneity stems from the evolution of cancer cells and their capability for phenotypic plasticity. However, the interplay between these two factors still needs to be fully understood. This study examines the interaction between cancer cell evolution and phenotypic plasticity, focusing on the phenotypic switch between migration and proliferation. Such plasticity is particularly relevant to glioblastoma, the most aggressive form of brain tumor. By employing a novel model, we explore how tumor cell evolution, influenced by both genotype and microenvironment, contributes to tumor heterogeneity. We observe that cells at the tumor periphery tend to migrate, while those within the tumor are more inclined to proliferate. Interestingly, our analysis reveals that distinct genetic configurations of the tumor can lead to this observed pattern. Further, we delve into the implications for cancer treatment and discover that it is phenotypic, rather than genetic, heterogeneity that more accurately predicts tumor recurrence following therapy. Our findings offer insights into the significant variability observed in glioblastoma recurrence times post-treatment. [ABSTRACT FROM AUTHOR]

Published

2024

35. Southern African Origin of HTLV-1 in Romania.

Author

Cassar, Olivier, Marçais, Ambroise, Hermine, Olivier, Deruelle, Emilie, Begliomini, Giovanni, Bardas, Alexandru, Bumbea, Horia, Colita, Andrei, Coriu, Daniel, Popov, Viola Maria, Tanase, Alina, Afonso, Philippe Vicente, and Gessain, Antoine

Subjects

*GENETIC variation, *ROMANIANS, *SEQUENCE analysis, *GENOTYPES, *GENOMES

Abstract

In Europe, most HTLV-1-infected individuals originate from highly endemic regions such as West Indies, sub-Saharan Africa, and South America. The only genuine endemic region for HTLV-1 in Europe is Romania where ATL series have been reported among Romanian patients. Our objective is to better understand the origin of this endemic focus based on a study of the genetic diversity of HTLV-1 in Romanians. DNA was obtained from PBMCs/buffy coats of 11 unrelated HTLV-1-infected individuals of Romanian origin. They include 9 ATL cases and 2 asymptomatic carriers. LTR sequences were obtained for all specimens. Complete genomic HTLV-1 sequences were obtained using four PCR series on 10 specimens. Phylogenetic trees were generated from multiple alignments using HTLV-1 prototypic sequences and the new generated sequences. Most of the complete LTR sequences (756-bp) showed low nucleotide diversity, ranging from 0% to 0.8% difference, and were closely related (less than 0.8% divergence) to the only previously characterized Romanian strain, RKI2. One strain, ROU7, diverged slightly (1.5% on average) from the others. Phylogenetic analyses both on partial LTR and the complete genome demonstrate that the 11 sequences belong to the HTLV-1a cosmopolitan genotype and 10 of them belong to the previously denominated a-TC Mozambique–Southern Africa A subgroup. In this study, we demonstrated that the HTLV-1 present in Romania most probably originated in Southern Africa. As most Romanian HTLV-1 strains are very closely related, we can assume that HTLV-1 has been introduced into the Romanian population recently. Further studies are ongoing to decipher the routes of arrival and dissemination of these HTLV-1 strains, and to date the emergence of this endemic focus in Central Europe. Author summary: In Europe, HTLV-1 infections mainly originate in regions such as the West Indies, sub-Saharan Africa and South America. However, Romania has been identified as a true endemic area, due to reported cases of ATL among Romanian patients. To understand this situation, we analyzed the genetic diversity of HTLV-1 in Romanians and collected DNA from 11 infected individuals, most of them ATL cases. The results showed a close genetic relationship between most of the sequences, closely matching the previously identified Romanian RKI2 strain. However, one strain, ROU7, showed a slight divergence. Phylogenetic analysis positioned these sequences in the cosmopolitan HTLV-1a genotype, belonging mainly to the a-TC Mozambique-Southern Africa subgroup. This suggests a probable origin of HTLV-1 in Romania from South Africa, perhaps recently introduced. Further studies aim to elucidate the transmission routes and emergence of this HTLV-1 endemicity in Central Europe. [ABSTRACT FROM AUTHOR]

Published

2024

36. Genotypic and phenotypic characterisation of three local chicken ecotypes of Ghana based on principal component analysis and body measurements.

Author

Botchway, Princess K., Amuzu-Aweh, Esinam N., Naazie, Augustine, Aning, George K., Otsyina, Hope R., Saelao, Perot, Wang, Ying, Zhou, Huaijun, Dekkers, Jack C. M., Lamont, Sue J., Gallardo, Rodrigo A., Kelly, Terra R., Bunn, David, and Kayang, Boniface B.

Subjects

*SINGLE nucleotide polymorphisms, *PRINCIPAL components analysis, *GENETIC variation, *COASTAL forests, *CHICKENS, *FEATHERS

Abstract

This study aimed to characterise three Ghanaian local chicken ecotypes, namely, Interior Savannah, Forest, and Coastal Savannah, based on morphological data and single nucleotide polymorphism (SNP) genotypes. Morphological data including body weight, shank length, body girth, back length, thigh length, beak length, comb length, and wattle length were collected from 250 local chickens. DNA isolated from blood of 1,440 local chickens was used for SNP genotyping with the Affymetrix chicken 600k SNP chip. Principal component analysis showed that Forest and Coastal Savannah birds were closely related. Generally, all three ecotypes exhibited high genetic diversity, especially birds from the Interior Savannah zone. Morphological characterisation showed that ecotype (p = 0.016) and sex (p = 0.000) had significant effects on body weight. Birds of the Interior Savannah ecotype were the heaviest (p = 0.004), with mean weights of 1.23 kg for females and 1.40 kg for males. Sex also had a strong significant effect on most of the morphological measurements, but the sex * ecotype interaction effect was not significant. Very few of the feather phenotypes previously reported to be associated with heat resistance–frizzle (2%) and naked neck (1.6%)–were found in the studied populations. It is concluded that the three local ecotypes are genetically diverse but with similar morphological features and the information provided would be useful for future selection decisions. [ABSTRACT FROM AUTHOR]

Published

2024

37. Genetic diversity of a Silybum marianum (L.) Gaertn. germplasm collection revealed by DNA Diversity Array Technology (DArTseq).

Author

Puglisi, Damiano, Pasquariello, Marianna, Martinelli, Tommaso, Paris, Roberta, De Vita, Pasquale, Pecchioni, Nicola, Esposito, Salvatore, and Bassolino, Laura

Subjects

*MILK thistle, *NATURAL selection, *GENETIC variation, *HAPLOTYPES, *SILYMARIN

Abstract

Silybum marianum (L.) Gaertn. is a multipurpose crop native to the Mediterranean and middle east regions and mainly known for the hepatoprotective properties of fruit-derived silymarin. Despite growing interest in milk thistle as a versatile crop with medicinal value, its potential in agroindustry is hindered by incomplete domestication and limited genomic knowledge, impeding the development of competitive breeding programs. The present study aimed to evaluate genetic diversity in a panel of S. marianum accessions (n = 31), previously characterized for morphological and phytochemical traits, using 5,178 polymorphic DArTseq SNP markers. The genetic structure investigated using both parametric and non-parametric approaches (e.g. PCA, AWclust, Admixture), revealed three distinctive groups reflecting geographical origins. Indeed, Pop1 grouped accessions from Central Europe and UK, Pop3 consisted mainly of accessions of Italian origin, and Pop2 included accessions from different geographical areas. Interestingly, Italian genotypes showed a divergent phenotypic distribution, particularly in fruit oleic and linoleic acid content, compared to the other two groups. Genetic differentiation among the three groups, investigated by computing pairwise fixation index (FST), confirmed a greater differentiation of Pop3 compared to other subpopulations, also based on other diversity indices (e.g. private alleles, heterozygosity). Finally, 22 markers were declared as putatively under natural selection, of which seven significantly affected some important phenotypic traits such as oleic, arachidonic, behenic and linoleic acid content. These findings suggest that these markers, and overall, the seven SNP markers identified within Pop3, could be exploited in specific breeding programs, potentially aimed at diversifying the use of milk thistle. Indeed, incorporating genetic material from Pop3 haplotypes carrying the selected loci into milk thistle breeding populations might be the basis for developing milk thistle lines with higher levels of oleic, arachidonic, and behenic acids, and lower levels of linoleic acid, paving new avenues for enhancing the nutritional and agronomic characteristics of milk thistle. [ABSTRACT FROM AUTHOR]

Published

2024

38. Genetic diversity analysis of tropical and sub-tropical maize germplasm for Striga resistance and agronomic traits with SNP markers.

Author

Dossa, Emeline N., Shimelis, Hussein, and Shayanowako, Admire I. T.

Subjects

*PURPLE witchweed, *SINGLE nucleotide polymorphisms, *GENETIC variation, *CORN breeding, *WITCHWEEDS

Abstract

Striga hermonthica (Sh) and S. asiatica (Sa) are major parasitic weeds limiting cereal crop production and productivity in sub-Saharan Africa (SSA). Under severe infestation, Striga causes yield losses of up to 100%. Breeding for Striga-resistant maize varieties is the most effective and economical approach to controlling the parasite. Well-characterized and genetically differentiated maize germplasm is vital to developing inbred lines, hybrids, and synthetic varieties with Striga resistance and desirable product profiles. The objective of this study was to determine the genetic diversity of 130 tropical and sub-tropical maize inbred lines, hybrids, and open-pollinated varieties germplasm using phenotypic traits and single nucleotide polymorphism (SNP) markers to select Striga-resistant and complementary genotypes for breeding. The test genotypes were phenotyped with Sh and Sa infestations using a 13x10 alpha lattice design with two replications. Agro-morphological traits and Striga-resistance damage parameters were recorded under a controlled environment. Further, high-density Diversity Array Technology Sequencing-derived SNP markers were used to profile the test genotypes. Significant phenotypic differences (P<0.001) were detected among the assessed genotypes for the assessed traits. The SNP markers revealed mean gene diversity and polymorphic information content of 0.34 and 0.44, respectively, supporting the phenotypic variation of the test genotypes. Higher significant variation was recorded within populations (85%) than between populations using the analysis of molecular variance. The Structure analysis allocated the test genotypes into eight major clusters (K = 8) in concordance with the principal coordinate analysis (PCoA). The following genetically distant inbred lines were selected, displaying good agronomic performance and Sa and Sh resistance: CML540, TZISTR25, TZISTR1248, CLHP0303, TZISTR1174, TZSTRI113, TZDEEI50, TZSTRI115, CML539, TZISTR1015, CZL99017, CML451, CML566, CLHP0343 and CML440. Genetically diverse and complementary lines were selected among the tropical and sub-tropical maize populations that will facilitate the breeding of maize varieties with Striga resistance and market-preferred traits. [ABSTRACT FROM AUTHOR]

Published

2024

39. The kpc-1 3′UTR facilitates dendritic transport and translation efficiency of mRNAs for dendrite arborization of a mechanosensory neuron important for male courtship.

Author

Shih, Mushaine, Zou, Yan, Ferreira, Tarsis, Suzuki, Nobuko, Kim, Eunseo, Chuang, Chiou-Fen, and Chang, Chieh

Subjects

*DENDRITES, *ANIMAL sexual behavior, *GENETIC variation, *GENETIC translation, *CAENORHABDITIS elegans

Abstract

A recently reported Schizophrenia-associated genetic variant in the 3′UTR of the human furin gene, a homolog of C. elegans kpc-1, highlights an important role of the furin 3′UTR in neuronal development. We isolate three kpc-1 mutants that display abnormal dendrite arborization in PVD neurons and defective male mating behaviors. We show that the kpc-1 3′UTR participates in dendrite branching and self-avoidance. The kpc-1 3′UTR facilitates mRNA localization to branching points and contact points between sibling dendrites and promotes translation efficiency. A predicted secondary structural motif in the kpc-1 3′UTR is required for dendrite self-avoidance. Animals with over-expression of DMA-1, a PVD dendrite receptor, exhibit similar dendrite branching and self-avoidance defects that are suppressed with kpc-1 over-expression. Our results support a model in which KPC-1 proteins are synthesized at branching points and contact points to locally down-regulate DMA-1 receptors to promote dendrite branching and self-avoidance of a mechanosensory neuron important for male courtship. Author summary: Here, we report a non-coding sequence immediately downstream of the kpc-1 gene participating in the transport and, subsequently, the translation of the kpc-1 messenger RNA in the nerve process of a mechanosensory neuron, which is required to establish a functional neuronal circuit regulating the male mating behavior in C. elegans. Interestingly, a human Schizophrenia-associated mutation located in the non-coding sequence immediately downstream of the human furin gene, a kpc-1 homologous gene, was recently shown to contribute to the pathogenesis of Schizophrenia. By analogy, whether this human furin downstream mutation disrupts the transport and the translation of the furin mRNA in the nerve process of Schizophrenia-causing neurons during its differentiation remains to be seen. [ABSTRACT FROM AUTHOR]

Published

2024

40. Database size positively correlates with the loss of species-level taxonomic resolution for the 16S rRNA and other prokaryotic marker genes.

Author

Commichaux, Seth, Luan, Tu, Muralidharan, Harihara Subrahmaniam, and Pop, Mihai

Subjects

*NUCLEOTIDE sequencing, *GENETIC variation, *MICROBIAL diversity, *DATABASES, *SCIENTIFIC community

Abstract

For decades, the 16S rRNA gene has been used to taxonomically classify prokaryotic species and to taxonomically profile microbial communities. However, the 16S rRNA gene has been criticized for being too conserved to differentiate between distinct species. We argue that the inability to differentiate between species is not a unique feature of the 16S rRNA gene. Rather, we observe the gradual loss of species-level resolution for other nearly-universal prokaryotic marker genes as the number of gene sequences increases in reference databases. This trend was strongly correlated with how represented a taxonomic group was in the database and indicates that, at the gene-level, the boundaries between many species might be fuzzy. Through our study, we argue that any approach that relies on a single marker to distinguish bacterial taxa is fraught even if some markers appear to be discriminative in current databases. Author summary: The use of reference databases for assigning taxonomic labels to genomic and metagenomic sequences is a fundamental bioinformatic task in the characterization of microbial communities. The increasing accessibility of high throughput sequencing has led to a rapid increase in the size and number of sequences in databases. This has been beneficial for improving our understanding of the global microbial genetic diversity. However, there is evidence that as the microbial diversity is more densely sampled, increasingly longer genomic segments are needed to differentiate between distinct bacterial species. The scientific community needs to be aware of this issue and needs to develop methods that better account for it when assigning taxonomic labels to metagenomic sequences from microbial communities. [ABSTRACT FROM AUTHOR]

Published

2024

41. Genetic diversity analysis of big-bracted dogwood (Cornus florida and C. kousa) cultivars, interspecific hybrids, and wild-collected accessions using RADseq.

Author

Moreau, Erin L. P., Medberry, Ava N., Honig, Josh A., and Molnar, Thomas J.

Subjects

*GENETIC variation, *ORNAMENTAL plant industry, *DOGWOODS, *SINGLE nucleotide polymorphisms, *ORNAMENTAL trees, *ORNAMENTAL plants, *CULTIVARS

Abstract

Big-bracted dogwoods are popular ornamental trees known for their beautiful spring blooms with showy bracts and four-season appeal. The two most widely grown species are Cornus florida and Cornus kousa, native to Eastern North America and East Asia. Despite their horticultural prominence, there is little information available regarding genetic diversity, population structure, relatedness, and subspecies origins of dogwood cultivars. In this study, 313 cultivars, wild-collected plants, and Rutgers University breeding selections, focusing on C. florida, C. kousa, and interspecific hybrids, were genotyped using restriction-site associated DNA sequencing (RADseq) generating thousands of single nucleotide polymorphism (SNP) and insertion deletion (Indel) markers. The research results showed high genetic diversity among C. florida and C. kousa wild-collected plants and cultivars. For C. florida, pink-bracted plants formed a distinct clade from those with white-bracts with the Mexican C. florida ssp. urbiniana forming an outgroup. For C. kousa, Chinese-collected plants (ssp. chinensis) were a distinct subspecies with clear separation from Japanese and Korean accessions (ssp. kousa) and cultivars were designated as ssp. chinensis, ssp. kousa, or ssp. hybrid. Using this information, a Kompetitive allele specific PCR (KASP) assay genotyping panel was designed to determine C. kousa trees' subspecies makeup. Results revealed many cases of genetically identical cultivars being sold under different names, especially for pink-bracted cultivars of both species. Additionally, reported parent-progeny relationships were evaluated and either validated or discredited. Finally, the hybrid germplasm analysis validated pedigrees of interspecific F1 hybrids and found many of the recent Rutgers breeding selections contain small regions of pacific dogwood (C. nuttallii) DNA introgressed into C. kousa backgrounds. This diversity study elucidates origins, diversity, and relationships of a large population of big-bracted dogwoods. The results can inform plant breeders, arboreta, and the ornamental plant industry, as most modern cultivars and popular historic cultivars are represented. [ABSTRACT FROM AUTHOR]

Published

2024

42. Allelic variations in the chpG effector gene within Clavibacter michiganensis populations determine pathogen host range.

Author

Verma, Raj Kumar, Roman-Reyna, Veronica, Raanan, Hagai, Coaker, Gitta, Jacobs, Jonathan M., and Teper, Doron

Subjects

*PHYTOPATHOGENIC bacteria, *PHYTOPATHOGENIC microorganisms, *MOLECULAR cloning, *EGGPLANT, *GENETIC variation, *GENOMICS

Abstract

Plant pathogenic bacteria often have a narrow host range, which can vary among different isolates within a population. Here, we investigated the host range of the tomato pathogen Clavibacter michiganensis (Cm). We determined the genome sequences of 40 tomato Cm isolates and screened them for pathogenicity on tomato and eggplant. Our screen revealed that out of the tested isolates, five were unable to cause disease on any of the hosts, 33 were exclusively pathogenic on tomato, and two were capable of infecting both tomato and eggplant. Through comparative genomic analyses, we identified that the five non-pathogenic isolates lacked the chp/tomA pathogenicity island, which has previously been associated with virulence in tomato. In addition, we found that the two eggplant-pathogenic isolates encode a unique allelic variant of the putative serine hydrolase chpG (chpGC), an effector that is recognized in eggplant. Introduction of chpGC into a chpG inactivation mutant in the eggplant-non-pathogenic strain Cm101, failed to complement the mutant, which retained its ability to cause disease in eggplant and failed to elicit hypersensitive response (HR). Conversely, introduction of the chpG variant from Cm101 into an eggplant pathogenic Cm isolate (C48), eliminated its pathogenicity on eggplant, and enabled C48 to elicit HR. Our study demonstrates that allelic variation in the chpG effector gene is a key determinant of host range plasticity within Cm populations. Author summary: Most plant-pathogenic bacteria are specialists and have a narrow host range. However, the true host range of plant-pathogenic species is usually not well defined. Here, we demonstrate a variation in the host range of different clones of the specialist pathogen Clavibacter michiganensis (Cm), which is mainly reported to cause disease in tomato. We characterized a Cm clone library by combining dual-host virulence phenotyping, using tomato and eggplant, and genomic approaches. Our analysis showed that individual Cm clones harbor a differential host range. While most clones were solely pathogenic on tomato, a few were pathogenic on eggplant, and some were non-pathogenic in either host. Comparative genomic analyses identified that non-pathogenic clones lacked the chp/tomA pathogenicity island, a major virulence determinant of Cm. In addition, we found that eggplant-pathogenic clones harbored a distinct allelic variant of the putative secreted serine hydrolase chpG, a known immune elicitor in eggplant. We demonstrated that the presence of this allelic variant in eggplant-pathogenic Cm clones allows them to evade detection and cause disease. Our study provides novel insights into the phenotypic complexity within the population of bacterial plant pathogens and establishes a link between phenotypic variations and distinct genetic features. [ABSTRACT FROM AUTHOR]

Published

2024

43. Treponema pallidum genetic diversity and its implications for targeted vaccine development: A cross-sectional study of early syphilis cases in Southwestern Colombia.

Author

Salazar, Juan C., Vargas-Cely, Fabio, García-Luna, Jonny A., Ramirez, Lady G., Bettin, Everton B., Romero-Rosas, Nelson, Amórtegui, María F., Silva, Sebastián, Oviedo, Oscar, Vigil, Julie, La Vake, Carson J., Galindo, Ximena, Ramirez, Jose D., Martínez-Valencia, Alvaro J., Caimano, Melissa J., Hennelly, Christopher M., Aghakhanian, Farhang, Moody, M. Anthony, Seña, Arlene C., and Parr, Jonathan B.

Subjects

*TREPONEMA pallidum, *VACCINE development, *SYPHILIS, *GENETIC variation, *HEALTH facilities, *WHOLE genome sequencing

Abstract

Background: Venereal syphilis, caused by the spirochete Treponema pallidum subsp. pallidum (TPA), is surging worldwide, underscoring the need for a vaccine with global efficacy. Vaccine development requires an understanding of syphilis epidemiology and clinical presentation as well as genomic characterization of TPA strains circulating within at-risk populations. The aim of this study was to describe the clinical, demographic, and molecular features of early syphilis cases in Cali, Colombia. Methods and findings: We conducted a cross-sectional study to identify individuals with early syphilis (ES) in Cali, Colombia through a city-wide network of public health centers, private sector HIV clinics and laboratory databases from public health institutions. Whole blood (WB), skin biopsies (SB), and genital and oral lesion swabs were obtained for measurement of treponemal burdens by polA quantitative polymerase chain reaction (qPCR) and for whole-genome sequencing (WGS). Among 1,966 individuals screened, 128 participants met enrollment criteria: 112 (87%) with secondary (SS), 15 (12%) with primary (PS) and one with early latent syphilis; 66/128 (52%) self-reported as heterosexual, while 48 (38%) were men who have sex with men (MSM). Genital ulcer swabs had the highest polA copy numbers (67 copies/μl) by qPCR with a positivity rate (PR) of 73%, while SS lesions had 42 polA copies/μl with PR of 62%. WB polA positivity was more frequent in SS than PS (42% vs 7%, respectively; p = 0.009). Isolation of TPA from WB by rabbit infectivity testing (RIT) was achieved in 5 (56%) of 9 ES WB samples tested. WGS from 33 Cali patient samples, along with 10 other genomic sequences from South America (9 from Peru, 1 from Argentina) used as comparators, confirmed that SS14 was the predominant clade, and that half of all samples had mutations associated with macrolide (i.e., azithromycin) resistance. Variability in the outer membrane protein (OMP) and vaccine candidate BamA (TP0326) was mapped onto the protein's predicted structure from AlphaFold. Despite the presence of mutations in several extracellular loops (ECLs), ECL4, an immunodominant loop and proven opsonic target, was highly conserved in this group of Colombian and South American TPA isolates. Conclusions: This study offers new insights into the sociodemographic and clinical features of venereal syphilis in a highly endemic area of Colombia and illustrates how genomic sequencing of regionally prevalent TPA strains can inform vaccine development. [ABSTRACT FROM AUTHOR]

Published

2024

44. An analysis of morphological and genetic diversity of mango fruit flies in Pakistan.

Author

Gul, Anbareen, Shah, Syed Hamid Jalal, Faris, Sabyan, Qazi, Javaria, Qazi, Atika, and Dey, Samrat Kumar

Subjects

*FRUIT flies, *GENETIC variation, *MANGO, *ORIENTAL fruit fly, *INSECT pests, *GENETIC barcoding

Abstract

Fruit flies of genus Bactrocera are important insect pests of commercially cultivated mangos in Pakistan limiting its successful production in the country. Despite the economic risk, the genetic diversity and population dynamics of this pest have remained unexplored. This study aimed to morphologically identify Bactrocera species infesting Mango in major production areas of the country and to confirm the results with insect DNA barcode techniques. Infested mango fruits from the crop of 2022, were collected from 46 locations of 11major production districts of Punjab and Sindh provinces, and first-generation flies were obtained in the laboratory. All 10,653 first generation flies were morphologically identified as two species of Bactrocera; dorsalis and zonata showing geography-based relative abundance in the two provinces; Punjab and Sindh. Morphological identification was confirmed by mitochondrial cytochrome oxidase gene subunit I (mt-COI) based DNA barcoding. Genetic analysis of mtCOI gene region of 61 selected specimens by the presence of two definite clusters and reliable intraspecific distances validated the results of morphological identification. This study by morphological identification of a large number of fruit fly specimens from the fields across Pakistan validated by insect DNA barcode reports two species of Bactrocera infesting mango in the country. [ABSTRACT FROM AUTHOR]

Published

2024

45. Polygenic selection to a changing optimum under self–fertilisation.

Author

Hartfield, Matthew and Glémin, Sylvain

Subjects

*GENETIC variation, *OVUM, *SPERMATOZOA, *LINKAGE disequilibrium, *ANALYTICAL solutions

Abstract

Many traits are polygenic, affected by multiple genetic variants throughout the genome. Selection acting on these traits involves co–ordinated allele–frequency changes at these underlying variants, and this process has been extensively studied in random–mating populations. Yet many species self–fertilise to some degree, which incurs changes to genetic diversity, recombination and genome segregation. These factors cumulatively influence how polygenic selection is realised in nature. Here, we use analytical modelling and stochastic simulations to investigate to what extent self–fertilisation affects polygenic adaptation to a new environment. Our analytical solutions show that while selfing can increase adaptation to an optimum, it incurs linkage disequilibrium that can slow down the initial spread of favoured mutations due to selection interference, and favours the fixation of alleles with opposing trait effects. Simulations show that while selection interference is present, high levels of selfing (at least 90%) aids adaptation to a new optimum, showing a higher long–term fitness. If mutations are pleiotropic then only a few major–effect variants fix along with many neutral hitchhikers, with a transient increase in linkage disequilibrium. These results show potential advantages to self–fertilisation when adapting to a new environment, and how the mating system affects the genetic composition of polygenic selection. Author summary: Many biological traits of scientific interest are polygenic, which are influenced by multiple genetic variants present throughout the genome. Emerging whole-genome data from several species is shedding light on how such traits respond to selection, traditionally through co-ordinated changes in variant frequencies. However, many species in nature reproduce via self-fertilisation, where hermaphrodite individuals produce both male and female gametes that can be used to propagate without mates. This reproductive mode can reduce population-level diversity and the reassorting effects of recombination, which affects how polygenic traits respond to selection. In this paper, we theoretically explore how polygenic selection is realised under self-fertilisation, following a shift in the environment. We first show analytically how the mating–system affects the dynamics of polygenic selection, showing that there are two competing effects. First, it can expose mutations to selection more quickly, strengthening adaptation to a changing environment. Conversely, it can reduce the efficacy of selection through weakening the efficacy of recombination. We then use multi–locus stochastic simulations to investigate outcomes under more realistic scenarios, and find that high selfing can lead to higher fitness in the long–term, in contrast to classic expectations. We also investigate how many traits each variant influences, a property known as pleiotropy. If pleiotropy is absent we see that under very high levels of self-fertilisation, populations fix mutations with opposite effects on a trait. If pleiotropy is present then we instead see only a few major-effect genetic variants fixing in the population, alongside many neutral mutations. These findings provide insights into how natural populations adapt to changing environments. [ABSTRACT FROM AUTHOR]

Published

2024

46. Improving the performance of mutation-based evolving artificial neural networks with self-adaptive mutations.

Author

Hiraga, Motoaki, Komura, Masahiro, Miyamoto, Akiharu, Morimoto, Daichi, and Ohkura, Kazuhiro

Subjects

*ARTIFICIAL neural networks, *DIFFERENTIAL evolution, *GENETIC mutation, *EVOLUTIONARY algorithms, *GENETIC variation

Abstract

Neuroevolution is a promising approach for designing artificial neural networks using an evolutionary algorithm. Unlike recent trending methods that rely on gradient-based algorithms, neuroevolution can simultaneously evolve the topology and weights of neural networks. In neuroevolution with topological evolution, handling crossover is challenging because of the competing conventions problem. Mutation-based evolving artificial neural network is an alternative topology and weights neuroevolution approach that omits crossover and uses only mutations for genetic variation. This study enhances the performance of mutation-based evolving artificial neural network in two ways. First, the mutation step size controlling the magnitude of the parameter perturbation is automatically adjusted by a self-adaptive mutation mechanism, enabling a balance between exploration and exploitation during the evolution process. Second, the structural mutation probabilities are automatically adjusted depending on the network size, preventing excessive expansion of the topology. The proposed methods are compared with conventional neuroevolution algorithms using locomotion tasks provided in the OpenAI Gym benchmarks. The results demonstrate that the proposed methods with the self-adaptive mutation mechanism can achieve better performance. In addition, the adjustment of structural mutation probabilities can mitigate topological bloat while maintaining performance. [ABSTRACT FROM AUTHOR]

Published

2024

47. Meiotic double-strand break repair DNA synthesis tracts in Arabidopsis thaliana.

Author

Hernández Sánchez-Rebato, Miguel, Schubert, Veit, and White, Charles I.

Subjects

*DOUBLE-strand DNA breaks, *ARABIDOPSIS thaliana, *GENE conversion, *DNA replication, *GENETIC variation, *DNA synthesis, *NEOLIGNANS

Abstract

We report here the successful labelling of meiotic prophase I DNA synthesis in the flowering plant, Arabidopsis thaliana. Incorporation of the thymidine analogue, EdU, enables visualisation of the footprints of recombinational repair of programmed meiotic DNA double-strand breaks (DSB), with ~400 discrete, SPO11-dependent, EdU-labelled chromosomal foci clearly visible at pachytene and later stages of meiosis. This number equates well with previous estimations of 200–300 DNA double-strand breaks per meiosis in Arabidopsis, confirming the power of this approach to detect the repair of most or all SPO11-dependent meiotic DSB repair events. The chromosomal distribution of these DNA-synthesis foci accords with that of early recombination markers and MLH1, which marks Class I crossover sites. Approximately 10 inter-homologue cross-overs (CO) have been shown to occur in each Arabidopsis male meiosis and, athough very probably under-estimated, an equivalent number of inter-homologue gene conversions (GC) have been described. Thus, at least 90% of meiotic recombination events, and very probably more, have not previously been accessible for analysis. Visual examination of the patterns of the foci on the synapsed pachytene chromosomes corresponds well with expectations from the different mechanisms of meiotic recombination and notably, no evidence for long Break-Induced Replication DNA synthesis tracts was found. Labelling of meiotic prophase I, SPO11-dependent DNA synthesis holds great promise for further understanding of the molecular mechanisms of meiotic recombination, at the heart of reproduction and evolution of eukaryotes. Author summary: Sexual reproduction involves the fusion of two cells, one from each parent. To maintain a stable chromosome complement across generations, these specialized reproductive cells must be produced through a specialized cell division called meiosis. Meiosis halves the chromosome complement of gametes and recombines the parental genetic contributions in each gamete, generating the genetic variation that drives evolution. The complex mechanisms of meiotic recombination have been intensely studied for many years and we now know that it involves the repair of programmed chromosomal breaks through recombination with intact template DNA sequences on another chromatid. At the molecular level, this is known to involve new DNA synthesis at the sites of repair/recombination and we report here the successful identification and characterisation of this DNA neo-synthesis during meiosis in the flowering plant Arabidopsis. Both the characteristics and numbers of these DNA synthesis tracts accord with expectations from theory and earlier studies. Potentially applicable to studies in many organisms, this approach provides indelible footprints in the chromosomes and has the great advantage of freeing researchers from dependence on indirect methods involving detection of proteins involved in these dynamic processes. [ABSTRACT FROM AUTHOR]

Published

2024

48. Diagnostic ability of Peptidase S8 gene in the Arthrodermataceae causing dermatophytoses: A metadata analysis.

Author

Kenjar, Apoorva R., Mohan Raj, Juliet Roshini, Girisha, Banavasi Shanmukha, and Karunasagar, Indrani

Subjects

*RINGWORM, *DERMATOMYCOSES, *PEPTIDASE, *GENETIC variation, *SUBTILISINS

Abstract

An unambiguous identification of dermatophytes causing dermatophytoses is necessary for accurate clinical diagnosis and epidemiological implications. In the current taxonomy of the Arthrodermataceae, the etiological agents of dermatophytoses consist of seven genera and members of the genera Trichophyton are the most prevalent etiological agents at present. The genera Trichophyton consists of 16 species that are grouped as clades, but the species borderlines are not clearly delimited. The aim of the present study was to determine the discriminative power of subtilisin gene variants (SUB1-SUB12) in family Arthrodermataceae, particularly in Trichophyton. Partial and complete reads from 288 subtilisin gene sequences of 12 species were retrieved and a stringent filtering following two different approaches for analysis (probability of correct identification (PCI) and gene gap analysis) conducted to determine the uniqueness of the subtilisin gene subtypes. SUB1 with mean PCI value of 60% was the most suitable subtilisin subtype for specific detection of T.rubrum complex, however this subtype is not reported in members of T. mentagrophytes complex which is one of the most prevalent etiological agent at present. Hence, SUB7 with 40% PCI value was selected for testing its discriminative power in Trichophyton species. SUB7 specific PCR based detection of dermatophytes was tested for sensitivity and specificity. Sequences of SUB7 from 42 isolates and comparison with the ITS region showed that differences within the subtilisin gene can further be used to differentiate members of the T. mentagrophytes complex. Further, subtilisin cannot be used for the differentiation of T. benhamiae complex since all SUB subtypes show low PCI scores. Studies on the efficiency and limitations of the subtilisin gene as a diagnostic tool are currently limited. Our study provides information that will guide researchers in considering this gene for identifying dermatophytes causing dermatophytoses in human and animals. [ABSTRACT FROM AUTHOR]

Published

2024

49. Dynamic evolution of the heterochromatin sensing histone demethylase IBM1.

Author

Zhang, Yinwen, Jang, Hosung, Luo, Ziliang, Dong, Yinxin, Xu, Yangyang, Kantamneni, Yamini, and Schmitz, Robert J.

Subjects

*GENE expression, *HETEROCHROMATIN, *DEMETHYLASE, *GENETIC variation, *ANGIOSPERMS

Abstract

Heterochromatin is critical for maintaining genome stability, especially in flowering plants, where it relies on a feedback loop involving the H3K9 methyltransferase, KRYPTONITE (KYP), and the DNA methyltransferase CHROMOMETHYLASE3 (CMT3). The H3K9 demethylase INCREASED IN BONSAI METHYLATION 1 (IBM1) counteracts the detrimental consequences of KYP-CMT3 activity in transcribed genes. IBM1 expression in Arabidopsis is uniquely regulated by methylation of the 7th intron, allowing it to monitor global H3K9me2 levels. We show the methylated intron is prevalent across flowering plants and its underlying sequence exhibits dynamic evolution. We also find extensive genetic and expression variations in KYP, CMT3, and IBM1 across flowering plants. We identify Arabidopsis accessions resembling weak ibm1 mutants and Brassicaceae species with reduced IBM1 expression or deletions. Evolution towards reduced IBM1 activity in some flowering plants could explain the frequent natural occurrence of diminished or lost CMT3 activity and loss of gene body DNA methylation, as cmt3 mutants in A. thaliana mitigate the deleterious effects of IBM1. Author summary: In flowering plants, IBM1 histone demethylase plays a crucial role in regulating chromatin structure by removing H3K9me2, a modification associated with heterochromatin. This process involves a distinctive mechanism where the methylation of a repetitive sequence within an intron allows IBM1 to monitor and respond to global H3K9me2 levels. We discovered that this intron methylation sensor is widely observed across flowering plants, although the exact sequences involved show considerable variation. This suggests that while the mechanism for controlling IBM1 activity is conserved, it has adapted differently in various plant species. Additionally, our findings include the identification of Arabidopsis thaliana accessions that mimic weak ibm1 mutants and several Brassicaceae species with diminished IBM1 expression or deletions, which correlate with reduced CMT3 activity and gene body DNA methylation. [ABSTRACT FROM AUTHOR]

Published

2024

50. Exome sequencing identifies novel genetic variants associated with varicose veins.

Author

Zhang, Dan-Dan, He, Xiao-Yu, Yang, Liu, Wu, Bang-Sheng, Fu, Yan, Liu, Wei-Shi, Guo, Yu, Fei, Chen-Jie, Kang, Ju-Jiao, Feng, Jian-Feng, Cheng, Wei, Tan, Lan, and Yu, Jin-Tai

Subjects

*GENETIC variation, *EXOMES, *VARICOSE veins, *GENOME-wide association studies, *GENE mapping, *BODY size

Abstract

Background: Varicose veins (VV) are one of the common human diseases, but the role of genetics in its development is not fully understood. Methods: We conducted an exome-wide association study of VV using whole-exome sequencing data from the UK Biobank, and focused on common and rare variants using single-variant association analysis and gene-level collapsing analysis. Findings: A total of 13,823,269 autosomal genetic variants were obtained after quality control. We identified 36 VV-related independent common variants mapping to 34 genes by single-variant analysis and three rare variant genes (PIEZO1, ECE1, FBLN7) by collapsing analysis, and most associations between genes and VV were replicated in FinnGen. PIEZO1 was the closest gene associated with VV (P = 5.05 × 10−31), and it was found to reach exome-wide significance in both single-variant and collapsing analyses. Two novel rare variant genes (ECE1 and METTL21A) associated with VV were identified, of which METTL21A was associated only with females. The pleiotropic effects of VV-related genes suggested that body size, inflammation, and pulmonary function are strongly associated with the development of VV. Conclusions: Our findings highlight the importance of causal genes for VV and provide new directions for treatment. Author summary: In this study, whole-exome sequencing data from the UK Biobank were used to explore the effect of genetic variants on varicose veins (VV) and search for new VV-related genes. In contrast to traditional association studies, large-scale whole-exome sequencing analysis is more capable of identifying rare genetic variants (MAF < 1%) in diseases. The current study identified 34 VV-associated common variant genes by single-variant analysis and three rare variant genes (PIEZO1, ECE1, FBLN7) by collapsing analysis, and most associations were validated in FinnGen. In addition to replicating several genes reported in previous genome-wide association studies, we identified 17 novel genes that may be associated with VV. Through subsequent phenome-wide association analyses of identified genes, we found that these genes are also strongly associated with body size, inflammation, and pulmonary function. These findings contribute to understanding the underlying mechanisms of pathogenesis and developing novel therapeutic strategies for VV. [ABSTRACT FROM AUTHOR]

Published

2024