Your search keyword '"Wenseleers T"' showing total 103 results

1. DNA methylation is associated with codon degeneracy in a species of bumblebee

Author

Marshall, H., Nicholas, M. T., van Zweden, J. S., Wäckers, F., Ross, L., Wenseleers, T., and Mallon, E. B.

Published

2023

2. Chemical and behavioural strategies along the spectrum of host specificity in ant-associated silverfish

Author

Parmentier, T., Gaju-Ricart, M., Wenseleers, T., and Molero-Baltanás, R.

Published

2022

3. Contrasting indirect effects of an ant host on prey–predator interactions of symbiotic arthropods

Author

Parmentier, T., De Laender, F., Wenseleers, T., and Bonte, D.

Published

2018

4. Metapopulation processes affecting diversity and distribution of myrmecophiles associated with red wood ants

Author

Parmentier, T., Dekoninck, W., and Wenseleers, T.

Published

2015

5. Context-dependent specialization in colony defence in the red wood ant Formica rufa

Author

Parmentier, T., Dekoninck, W., and Wenseleers, T.

Published

2015

6. Track-a-Forager: a program for the automated analysis of RFID tracking data to reconstruct foraging behaviour

Author

Van Geystelen, A., Benaets, K., de Graaf, D. C., Larmuseau, M. H. D., and Wenseleers, T.

Published

2016

7. Additional file 2 of Chemical and behavioural strategies along the spectrum of host specificity in ant-associated silverfish

Author

Parmentier, T., Gaju-Ricart, M., Wenseleers, T., and Molero-Baltanás, R.

Abstract

Additional file 2. Coordinates of nests where ants and silverfish were collected for chemical analyses.

Published

2022

8. Additional file 1 of Chemical and behavioural strategies along the spectrum of host specificity in ant-associated silverfish

Author

Parmentier, T., Gaju-Ricart, M., Wenseleers, T., and Molero-Baltanás, R.

Abstract

Additional file 1. Phylogeny based on morphological traits of the studied species.

Published

2022

9. Caste- and sex-specific DNA methylation in a bumblebee is associated with codon degeneracy

Author

Marshall, H., primary, Nicholas, M.T., additional, van Zweden, J.S., additional, Wäckers, F., additional, Ross, L., additional, Wenseleers, T., additional, and Mallon, E.B., additional

Published

2021

10. Long-term Trends in Human Extra-Pair Paternity: Increased Infidelity or Adaptive Strategy? A Reply to Harris

Author

Larmuseau, M.H.D., Matthijs, K., and Wenseleers, T.

Published

2016

11. Conserved queen pheromones in bumblebees: a reply to Amsalem et al.

Author

Holman, L, van Zweden, JS, Oliveira, RC, van Oystaeyen, A, Wenseleers, T, Holman, L, van Zweden, JS, Oliveira, RC, van Oystaeyen, A, and Wenseleers, T

Abstract

In a recent study, Amsalem, Orlova & Grozinger (2015) performed experiments with Bombus impatiens bumblebees to test the hypothesis that saturated cuticular hydrocarbons are evolutionarily conserved signals used to regulate reproductive division of labor in many Hymenopteran social insects. They concluded that the cuticular hydrocarbon pentacosane (C25), previously identified as a queen pheromone in a congeneric bumblebee, does not affect worker reproduction in B. impatiens. Here we discuss some shortcomings of Amsalem et al.'s study that make its conclusions unreliable. In particular, several confounding effects may have affected the results of both experimental manipulations in the study. Additionally, the study's low sample sizes (mean n per treatment = 13.6, range: 4-23) give it low power, not 96-99% power as claimed, such that its conclusions may be false negatives. Inappropriate statistical tests were also used, and our reanalysis found that C25 substantially reduced and delayed worker egg laying in B. impatiens. We review the evidence that cuticular hydrocarbons act as queen pheromones, and offer some recommendations for future queen pheromone experiments.

Published

2017

12. Track-a-Forager: a program for the automated analysis of RFID tracking data to reconstruct foraging behaviour

Author

Van Geystelen, A., primary, Benaets, K., additional, de Graaf, D. C., additional, Larmuseau, M. H. D., additional, and Wenseleers, T., additional

Published

2015

13. Variability in growth/no growth boundaries of 188 different Escherichia coli strains reveals that approximately 75 % have a higher growth probability under low pH conditions than E. coli O157:H7 strain ATCC 43888

Author

Haberbeck, L.U., primary, Oliveira, R.C., additional, Vivijs, B., additional, Wenseleers, T., additional, Aertsen, A., additional, Michiels, C., additional, and Geeraerd, A.H., additional

Published

2015

14. A Historical-Genetic Reconstruction of Human Extra-Pair Paternity

Author

Pieter van den Berg, Michiel Vandenbosch, Leen Gruyters, Tom Wenseleers, Kelly Nivelle, Francesc Calafell, Alessio Boattini, Ronny Decorte, Maarten Larmuseau, Sofie Claerhout, Generalitat de Catalunya, European Commission, Ministerio de Economía y Competitividad (España), Larmuseau M.H.D., van den Berg P., Claerhout S., Calafell F., Boattini A., Gruyters L., Vandenbosch M., Nivelle K., Decorte R., and Wenseleers T.

Subjects

0301 basic medicine, Sexual behavior, Male, Luxembourg, Genetic genealogy, Low Countries, Sexual Behavior, Family history, Paternity, Biology, Citizen science, Affect (psychology), Y chromosome, General Biochemistry, Genetics and Molecular Biology, Sexual conflict, 03 medical and health sciences, 0302 clinical medicine, extra-pair paternity, Belgium, citizen science, genetic genealogy, Humans, Human behavioral ecology, Socioeconomic status, Netherlands, family history, Social environment, Low Countrie, human behavioral ecology, 030104 developmental biology, Genetic marker, Extra-pair paternity, Female, General Agricultural and Biological Sciences, 030217 neurology & neurosurgery, Demography

Abstract

Paternity testing using genetic markers has shown that extra-pair paternity (EPP) is common in many pair-bonded species [1, 2]. Evolutionary theory and empirical data show that extra-pair copulations can increase the fitness of males as well as females [3, 4]. This can carry a significant fitness cost for the social father, who then invests in rearing offspring that biologically are not his own [5]. In human populations, the incidence and correlates of extra-pair paternity remain highly contentious [2, 6, 7]. Here, we use a population-level genetic genealogy approach [6, 8] to reconstruct spatiotemporal patterns in human EPP rates. Using patrilineal genealogies from the Low Countries spanning a period of over 500 years and Y chromosome genotyping of living descendants, our analysis reveals that historical EPP rates, while low overall, were strongly impacted by socioeconomic and demographic factors. Specifically, we observe that estimated EPP rates among married couples varied by more than an order of magnitude, from 0.4% to 5.9%, and peaked among families with a low socioeconomic background living in densely populated cities of the late 19 century. Our results support theoretical predictions that social context can strongly affect the outcomes of sexual conflict in human populations by modulating the incentives and opportunities for engaging in extra-pair relationships [9–11]. These findings show how contemporary genetic data combined with in-depth genealogies open up a new window on the sexual behavior of our ancestors. Larmuseau et al. combine genetic data with family trees to reconstruct historical patterns of human extra-pair paternity (EPP). They show that EPP rates in Western society were low overall (∼1%) but varied in function of social context, peaking at ∼6% among families with low socioeconomic status in densely populated cities of the 19 century., Funding was provided by KU Leuven (BOF-C1 grant C12/15/013) and the Fund for Scientific Research – Flanders (Research grant number 1503216N and postdoc grants of M.H.D.L. and P.v.d.B.). F.C. was supported by Agencia Estatal de Investigación and Fondo Europeo de Desarollo Regional (FEDER) (grant CGL2016-75389-P), Agència de Gestió d’Ajuts Universitaris i de la Recerca (Generalitat de Catalunya) grant 2017 SGR00702, and “Unidad de Excelencia María de Maeztu,” funded by the MINECO (ref: MDM-2014-0370).

Published

2019

15. Monomorium pharaonis insect control using porous adsorbent materials : Monomorium pharaonis insectbestrijding met behulp van poreuze, adsorberende materialen

Author

Van Den Noortgate, H, Lagrain, B, Wenseleers, T, and Martens, J

Abstract

While insecticides in the past evolved from natural insecticidal powders to synthetic chemical pesticides, the devastating effects of many of the early synthetic chemicals such as the organochloride DDT (Dichlorodiphenyltrichloroethane) were soon revealed and they were consequently banned from use. When we add to this the increasing demand of the current market for increasingly more environmentally friendly products with fewer health risks, we obtain the perfect context to return to some of the older, more natural pesticide products. In order to facilitate this evolution, the efficiency of these products has to be increased to be competitive in the current day pesticide market. Research into insecticidal dusts dates back to the 1960's, when researchers theorized, based on the observation that insects died from desiccation when exposed to the powders, that the mode of action was either adsorption or abrasion of the insects' epicuticular wax layer. The hardness of the material ultimately determined whether it was adsorption or abrasion. Since these are non-targeted modes of action, most research was conducted on stored product pests, which are managed inside enclosed spaces. This research was put on the back burner when the movement towards synthetic chemicals started, leaving many of the more recently developed porous materials untested. We took the challenge to not only test the insecticidal efficacy of these materials, but also to determine which material properties most strongly influenced the insecticidal effectiveness of the materials. For this purpose we used the pharaoh ant as a test species, since it is a notorious insect, residing inside buildings and hospitals, posing a threat by spreading pathogens and damaging electrical equipment. We devised a lab scale setup where we determined the insecticidal effectiveness of 32 different materials from several material classes. Diatomaceous earth was used as a benchmark. We also determined the material properties to investigate their influence on insecticidal effectiveness. The results showed that activated carbon was the most insecticidal material, with a mean forager survival time of only 25 minutes. Zeolites also performed well, but their shortest mean survival time of 40 minutes only landed them in second place. We also showed that the material properties determining insecticidal effectiveness depended on the type of material used. For zeolites, the most important material property was the BET specific surface area, for the ordered zeolites this proved to be the large mesopore surface area and for the activated carbon materials, the particle size had the greatest effect on insecticidal effectiveness. We then continued with the assessment of the best delivery method for the activated carbon. For this purpose, the queen mortality was monitored, since this ultimately defines colony survival. A bait formula, mimicked by mixing food with either activated carbon powder or pellets, proved to be the least effective delivery method. While the food was entrained and the powder treatment even resulted in high forager mortality, no queens died as a result of the treatment. Application of activated carbon as a barrier proved to be more effective, with a median survival time of 47 hours, but the practical application seemed limited. A surface treatment, directly targeting the nest, proved to be the best delivery method, resulting in a median survival time of 1.5 hours. However, queens escaping this treatment did not return to the nest, which could result in a relocation of the problem. For this reason we suggest incorporating it in an IPM system. This left us with one last goal, defining the mode of action of the insecticidal powders. A first step was analyzing the epicuticular wax layer by immersing pharaoh ants in n-hexane. This provided us with the composition of the wax layer as well as the major alkaloids excreted by the abdominal glands. It also resulted in the identification of 4 alkaloids which were not previously found in Monomorium species. The zeolites selectively adsorbed specific compounds from the epicuticular wax layer, leading to an identification of three compounds which were not found in the hexane wash. We discovered both pronounced shape and size selectivity in the zeolites with the smallest pore sizes and inverse shape selectivity in H-BEA-300. These are phenomena that are also of great interest in the fields of refinery processes and catalysis and lead us to the conclusion that pore mouth and key-lock adsorption are also at play in the adsorption mechanism of insecticidal powders. Since one of the most adsorbent zeolites showed very little insecticidal effectivity, we conclude that not the adsorption capacity, but rather adsorption selectivity lies at the basis of insecticidal effectivity. status: published

Published

2018

16. Chemical communication in Drosophila suzukii : Chemische communicatie in Drosophila suzukii

Author

Snellings, Y, Wenseleers, T, and Callaerts, P

Subjects

animal structures, fungi

Abstract

Drosophila suzukii (Matsumura) (Insecta: Diptera: Drosophilidae), commonly named spotted wing Drosophila, is a highly invasive pest insect originating in South East Asia (Rota-Stabbeli, 2013). This species is classified as a pest due to its rapid reproduction and ability to cause damage to ripening soft fruits such as cherries, blueberries and strawberries (Dreves, 2009). Females are capable of cutting through the skin of soft fruit using a sharp ovipositor and subsequently lay eggs inside. This can cause crop losses up to 80% leading to potential economical disasters (Walsh, 2011 & Rota-Stabbeli, 2013). Even though Drosophila suzukii has been reported throughout America and Western Europe since 2008, no clear species-specific integrated pest management (IPM) strategy has been described (Rota-Stabbelli, 2013). Many potential IPM strategies such as attract-and-kill (El-Sayed, 2009), mass trapping (El-Sayed, 2006) and mating disruption (Byers, 2007) involve the usage of pheromones (Abrol, 2014). The most predominant pheromone amongst all Drosophila species is Cis-11-octadecenyl acetate (cVA), a short acting volatile sex pheromone. In Drosophila melanogaster cVA is produced by males and transferred to females during copulation. This causes the suppression of courtship by other Drosophila males. However it has been discovered that Drosophila suzukii does not actually produce cVA (Dekker, 2015). Since Drosophila suzukii does not produce cVA it's likely other compounds such as cuticular hydrocarbons (CH) take over the role of the major sex pheromone. CHs are long-chain hydrocarbons produced in the oenocytes of Drosophila (Romer, 1991 & Ferveur, 1997). The primary function of these cuticular compounds is to prevent desiccation (Bontonou, 2013). The secondary function involves chemical communication. Since these long-chain molecules are non-volatile or only partially volatile their pheromone function is limited to short distance contact (Ferveur, 2005 & Farine, 2012). Some of these long-chain pheromones have been extensively described in Drosophila and are known to elicit a behavioral response (Ferveur, 2005). In Drosophila melanogaster, a dimorphic species, exclusively the females produce 7,11-dienes, whereas only the males produce 7-tricosene. The 7,11-dienes provoke courtship behavior in Drosophila melanogaster males (Grillet, 2006) as opposed to 7-tricosene that reduces male courtship (Ferveur, 1996). This demonstrates that the sex of a Drosophila species can be a detrimental factor in the CH production. Besides the sex of the fly other factors such as maturation and social experience can also account for changes in the CH profile. It has been shown that maturation shifts the relative levels of certain CHs in Drosophila melanogaster. This shift in the CH profile influences the sexual attractiveness in Drosophila melanogaster (Kuo, 2012). Also early social experience, more so than sexual experience, during the development of the fly can modulate the CH profile in Drosophila melanogaster (Everaerts, 2010 & Farine 2012). In this study we determined the effect of maturation, sex and the social experience on the CH profile of Drosophila suzukii by using gas chromatography - mass spectrometry (GC-MS) analysis. We show that maturation is the most important factor for the increase in abundance of certain CH compounds. Several compounds where identified to show a significant change with maturation. The most interesting of which were 7-tricosene as well as 9-tricosene. Both are known to have an impact on Drosophila melanogaster courtship behavior. 7-Tricosene has been identified in Drosophila melanogaster as an anti-aphrodisiac for males (Grillet, 2006). Drosophila suzukii displays a similar effect of 7-tricosene on mating. However 9-tricosene has been described to be an aphrodisiac in Musca domestica (Blomquist, 2012), whereas our findings in Drosophila suzukii show the opposite effect and thus 9-tricosene is another potential anti-aphrodisiac. These findings could provide novel insights into a potential IPM for Drosophila suzukii. Broader, it shows that CH pheromones in closely related insect species can elicit different responses. status: published

Published

2018

17. Emergence of the B.1.214.2 SARS-CoV-2 lineage with an Omicron-like spike insertion and a unique upper airway immune signature.

Author

Holtz A, Van Weyenbergh J, Hong SL, Cuypers L, O'Toole Á, Dudas G, Gerdol M, Potter BI, Ntoumi F, Mapanguy CCM, Vanmechelen B, Wawina-Bokalanga T, Van Holm B, Menezes SM, Soubotko K, Van Pottelbergh G, Wollants E, Vermeersch P, Jacob AS, Maes B, Obbels D, Matheeussen V, Martens G, Gras J, Verhasselt B, Laffut W, Vael C, Goegebuer T, van der Kant R, Rousseau F, Schymkowitz J, Serrano L, Delgado J, Wenseleers T, Bours V, André E, Suchard MA, Rambaut A, Dellicour S, Maes P, Durkin K, and Baele G

Subjects

Humans, Aged, Male, Travel, Belgium epidemiology, Middle Aged, Female, Adult, Phylogeography, Nasopharynx virology, SARS-CoV-2 genetics, SARS-CoV-2 immunology, COVID-19 immunology, COVID-19 virology, COVID-19 epidemiology, Spike Glycoprotein, Coronavirus genetics, Spike Glycoprotein, Coronavirus immunology

Abstract

We investigate the emergence, mutation profile, and dissemination of SARS-CoV-2 lineage B.1.214.2, first identified in Belgium in January 2021. This variant, featuring a 3-amino acid insertion in the spike protein similar to the Omicron variant, was speculated to enhance transmissibility or immune evasion. Initially detected in international travelers, it substantially transmitted in Central Africa, Belgium, Switzerland, and France, peaking in April 2021. Our travel-aware phylogeographic analysis, incorporating travel history, estimated the origin to the Republic of the Congo, with primary European entry through France and Belgium, and multiple smaller introductions during the epidemic. We correlate its spread with human travel patterns and air passenger data. Further, upon reviewing national reports of SARS-CoV-2 outbreaks in Belgian nursing homes, we found this strain caused moderately severe outcomes (8.7% case fatality ratio). A distinct nasopharyngeal immune response was observed in elderly patients, characterized by 80% unique signatures, higher B- and T-cell activation, increased type I IFN signaling, and reduced NK, Th17, and complement system activation, compared to similar outbreaks. This unique immune response may explain the variant's epidemiological behavior and underscores the need for nasal vaccine strategies against emerging variants., (© 2024. The Author(s).)

Published

2024

18. Drosophila suzukii and Drosophila melanogaster prefer distinct microbial and plant aroma compounds in a complex fermented matrix.

Author

Dzialo MC, Arumugam S, Piampongsant S, Cool L, Vanderaa C, Herrera-Malaver B, Opsomer T, Dehaen W, Wenseleers T, Roncoroni M, Alawamleh A, Wäckers F, Lievens B, Hansson BS, Voordeckers K, Sachse S, and Verstrepen KJ

Abstract

Volatile aroma compounds are important chemical cues for insects. Behavioral responses to specific odors differ strongly between insect species, and the exact causative molecules are often unknown. Beer is frequently used in insect traps because it combines hundreds of plant and microbial aromas that attract many insects. Here, we analyzed responses of the pest fruit fly Drosophila suzukii and benign Drosophila melanogaster to beers with different chemical compositions. Using extensive chemical and behavioral assays, we identified ecologically relevant chemicals that influence drosophilid behavior and that induce different odor-evoked activity patterns in the antennal lobe of the two species obtained by functional imaging. Specific mixes of compounds increased the species-specificity and sex-specificity of lures in both laboratory and greenhouse settings. Together, our study shows how examining insect responses to highly complex natural mixtures of aroma compounds provides insight into insect-specific behavioral responses and also opens avenues for improved pest control., Competing Interests: F.W. is employed by Biobest, a producer of commercial insect traps., (© 2024 The Author(s).)

Published

2024

19. The inheritance of alternative nest architectural traditions in stingless bees.

Author

Di Pietro V, Menezes C, de Britto Frediani MG, Pereira DJ, Fajgenblat M, Ferreira HM, Wenseleers T, and Oliveira RC

Subjects

Animals, Bees physiology, Bees genetics, Social Learning, Social Behavior, Nesting Behavior

Abstract

The transmission of complex behavior and culture in humans has long been attributed to advanced forms of social learning, 1 , 2 which play a crucial role in our technological advancement. 3 While similar phenomena of behavioral traditions and cultural inheritance have been observed in animals, 1 , 2 , 4 , 5 , 6 including in primates, 7 whales, 8 birds, 9 and even insects, 10 the underlying mechanisms enabling the persistence of such animal traditions, particularly in insects, are less well understood. This study introduces pioneering evidence of enduring architectural traditions in the stingless bee Scaptotrigona depilis, which are maintained without any evidence for social learning. We demonstrate that S. depilis exhibits two distinct nest architectures, comprising either helicoidal or flat, stacked horizontal combs, which are transmitted across generations through stigmergy 11 , 12 , 13 , 14 , 15 , 16 , 17 -an environmental feedback mechanism whereby the presence of the existing comb structures guides subsequent construction behaviors-thereby leading to a form of environmental inheritance. 18 , 19 , 20 Cross-fostering experiments further show that genetic factors or prior experience does not drive the observed variation in nest architecture. Moreover, the experimental introduction of corkscrew dislocations within the combs prompted helicoidal building, confirming the use of stigmergic building rules. At a theoretical level, we establish that the long-term equilibrium of building in the helicoidal pattern fits with the expectations of a two-state Markov chain model. Overall, our findings provide compelling evidence for the persistence of behavioral traditions in an insect, based on a simple mechanism of environmental inheritance and stigmergic interactions, without requiring any sophisticated learning mechanism, thereby expanding our understanding of how traditions can be maintained in non-human species., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

20. The impact of quality-adjusted life years on evaluating COVID-19 mitigation strategies: lessons from age-specific vaccination roll-out and variants of concern in Belgium (2020-2022).

Author

Willem L, Abrams S, Franco N, Coletti P, Libin PJK, Wambua J, Couvreur S, André E, Wenseleers T, Mao Z, Torneri A, Faes C, Beutels P, and Hens N

Subjects

Humans, Belgium epidemiology, Child, Child, Preschool, Adult, Age Factors, Models, Theoretical, Adolescent, Immunization Programs, Middle Aged, Vaccination statistics & numerical data, Aged, Young Adult, COVID-19 prevention & control, COVID-19 epidemiology, COVID-19 mortality, Quality-Adjusted Life Years, COVID-19 Vaccines administration & dosage, SARS-CoV-2

Abstract

Background: When formulating and evaluating COVID-19 vaccination strategies, an emphasis has been placed on preventing severe disease that overburdens healthcare systems and leads to mortality. However, more conventional outcomes such as quality-adjusted life years (QALYs) and inequality indicators are warranted as additional information for policymakers., Methods: We adopted a mathematical transmission model to describe the infectious disease dynamics of SARS-COV-2, including disease mortality and morbidity, and to evaluate (non)pharmaceutical interventions. Therefore, we considered temporal immunity levels, together with the distinct transmissibility of variants of concern (VOCs) and their corresponding vaccine effectiveness. We included both general and age-specific characteristics related to SARS-CoV-2 vaccination. Our scenario study is informed by data from Belgium, focusing on the period from August 2021 until February 2022, when vaccination for children aged 5-11 years was initially not yet licensed and first booster doses were administered to adults. More specifically, we investigated the potential impact of an earlier vaccination programme for children and increased or reduced historical adult booster dose uptake., Results: Through simulations, we demonstrate that increasing vaccine uptake in children aged 5-11 years in August-September 2021 could have led to reduced disease incidence and ICU occupancy, which was an essential indicator for implementing non-pharmaceutical interventions and maintaining healthcare system functionality. However, an enhanced booster dose regimen for adults from November 2021 onward could have resulted in more substantial cumulative QALY gains, particularly through the prevention of elevated levels of infection and disease incidence associated with the emergence of Omicron VOC. In both scenarios, the need for non-pharmaceutical interventions could have decreased, potentially boosting economic activity and mental well-being., Conclusions: When calculating the impact of measures to mitigate disease spread in terms of life years lost due to COVID-19 mortality, we highlight the impact of COVID-19 on the health-related quality of life of survivors. Our study underscores that disease-related morbidity could constitute a significant part of the overall health burden. Our quantitative findings depend on the specific setup of the interventions under review, which is open to debate or should be contextualised within future situations., (© 2024. The Author(s).)

Published

2024

21. Predicting and improving complex beer flavor through machine learning.

Author

Schreurs M, Piampongsant S, Roncoroni M, Cool L, Herrera-Malaver B, Vanderaa C, Theßeling FA, Kreft Ł, Botzki A, Malcorps P, Daenen L, Wenseleers T, and Verstrepen KJ

Subjects

Machine Learning, Consumer Behavior, Taste, Beer analysis, Taste Perception

Abstract

The perception and appreciation of food flavor depends on many interacting chemical compounds and external factors, and therefore proves challenging to understand and predict. Here, we combine extensive chemical and sensory analyses of 250 different beers to train machine learning models that allow predicting flavor and consumer appreciation. For each beer, we measure over 200 chemical properties, perform quantitative descriptive sensory analysis with a trained tasting panel and map data from over 180,000 consumer reviews to train 10 different machine learning models. The best-performing algorithm, Gradient Boosting, yields models that significantly outperform predictions based on conventional statistics and accurately predict complex food features and consumer appreciation from chemical profiles. Model dissection allows identifying specific and unexpected compounds as drivers of beer flavor and appreciation. Adding these compounds results in variants of commercial alcoholic and non-alcoholic beers with improved consumer appreciation. Together, our study reveals how big data and machine learning uncover complex links between food chemistry, flavor and consumer perception, and lays the foundation to develop novel, tailored foods with superior flavors., (© 2024. The Author(s).)

Published

2024

22. Toward greater realism in inclusive fitness models: the case of caste fate conflict in insect societies.

Author

Ferreira HM, Alves DA, Cool L, Oi CA, Oliveira RC, and Wenseleers T

Abstract

In the field of social evolution, inclusive fitness theory has been successful in making a wide range of qualitative predictions on expected patterns of cooperation and conflict. Nevertheless, outside of sex ratio theory, inclusive fitness models that make accurate quantitative predictions remain relatively rare. Past models dealing with caste fate conflict in insect societies, for example, successfully predicted that if female larvae can control their own caste fate, an excess should opt to selfishly develop as queens. Available models, however, were unable to accurately predict levels of queen production observed in Melipona bees-a genus of stingless bees where caste is self-determined-as empirically observed levels of queen production are approximately two times lower than the theoretically predicted ones. Here, we show that this discrepancy can be resolved by explicitly deriving the colony-level cost of queen overproduction from a dynamic model of colony growth, requiring the incorporation of parameters of colony growth and demography, such as the per-capita rate at which new brood cells are built and provisioned, the percentage of the queen's eggs that are female, costs linked with worker reproduction and worker mortality. Our revised model predicts queen overproduction to more severely impact colony productivity, resulting in an evolutionarily stable strategy that is approximately half that of the original model, and is shown to accurately predict actual levels of queen overproduction observed in different Melipona species. Altogether, this shows how inclusive fitness models can provide accurate quantitative predictions, provided that costs and benefits are modeled in sufficient detail and are measured precisely., (© The Author(s) 2024. Published by Oxford University Press on behalf of The Society for the Study of Evolution (SSE) and European Society for Evolutionary Biology (ESEN).)

Published

2024

23. Antibiotic dose and nutrient availability differentially drive the evolution of antibiotic resistance and persistence.

Author

Windels EM, Cool L, Persy E, Swinnen J, Matthay P, Van den Bergh B, Wenseleers T, and Michiels J

Subjects

Nutrients metabolism, Models, Theoretical, Bacteria drug effects, Bacteria genetics, Bacteria metabolism, Mutation, Escherichia coli drug effects, Escherichia coli genetics, Escherichia coli metabolism, Anti-Bacterial Agents pharmacology, Drug Resistance, Bacterial

Abstract

Effective treatment of bacterial infections proves increasingly challenging due to the emergence of bacterial variants that endure antibiotic exposure. Antibiotic resistance and persistence have been identified as two major bacterial survival mechanisms, and several studies have shown a rapid and strong selection of resistance or persistence mutants under repeated drug treatment. Yet, little is known about the impact of the environmental conditions on resistance and persistence evolution and the potential interplay between both phenotypes. Based on the distinct growth and survival characteristics of resistance and persistence mutants, we hypothesized that the antibiotic dose and availability of nutrients during treatment might play a key role in the evolutionary adaptation to antibiotic stress. To test this hypothesis, we combined high-throughput experimental evolution with a mathematical model of bacterial evolution under intermittent antibiotic exposure. We show that high nutrient levels during antibiotic treatment promote selection of high-level resistance, but that resistance mainly emerges independently of persistence when the antibiotic concentration is sufficiently low. At higher doses, resistance evolution is facilitated by the preceding or concurrent selection of persistence mutants, which ensures survival of populations in harsh conditions. Collectively, our experimental data and mathematical model elucidate the evolutionary routes toward increased bacterial survival under different antibiotic treatment schedules, which is key to designing effective antibiotic therapies., (© The Author(s) 2024. Published by Oxford University Press on behalf of the International Society for Microbial Ecology.)

Published

2024

24. Uncovering the role of juvenile hormone in ovary development and egg laying in bumble bees.

Author

Wynants E, Van Dun C, Lenaerts N, Princen SA, Tuyttens E, Shpigler HY, Wenseleers T, and Van Oystaeyen A

Abstract

Juvenile hormone (JH) regulates developmental and physiological processes in insects. In bumble bees, the hormone acts as a gonadotropin that mediates ovary development, but the exact physiological pathways involved in ovary activation and subsequent egg laying are poorly understood. In this study, we examine how queen hibernation state, caste, and species impact the gonadotropic effect of JH in bumble bee queens through methoprene (JH analogue) application. We extend previous research by assessing queen egg laying and colony initiation, alongside ovary development. Furthermore, we compared sensitivity of workers of both species to the juvenile hormone's gonadotropic effect. In both bumble bee species, the ovaries of hibernated queens were developed five to six days after breaking diapause, regardless of methoprene treatment. By contrast, methoprene did have a stimulatory effect on ovary development in non-hibernated queens. The dose needed to obtain this effect was higher in B. impatiens. Methoprene did not have gonadotropic effects in callow workers of both species. These results indicate that the physiological effect of exogenous methoprene application varies according to species, caste and hibernation status. Interestingly, despite gonadotropic effects in non-hibernated queens, oviposition was not accelerated by JH. This suggests that JH alone is insufficient to induce egg laying and that an additional stimulus, which is naturally present in hibernated queens, is required. Consequently, our findings indicate that other physiological processes, beyond a rise in JH alone, are required for oviposition and colony initiation., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

25. Bacterial volatiles elicit differential olfactory responses in insect species from the same and different trophic levels.

Author

van Neerbos FAC, Dewitte P, Wäckers F, Wenseleers T, Jacquemyn H, and Lievens B

Abstract

Insect communities consist of species from several trophic levels that have to forage for suitable resources among and within larger patches of nonresources. To locate their resources, insects use diverse stimuli, including olfactory, visual, acoustic, tactile and gustatory cues. While most research has focused on cues derived from plants and other insects, there is mounting evidence that insects also respond to volatile organic compounds (VOCs) emitted by microorganisms. However, to date little is known about how the olfactory response of insects within and across different trophic levels is affected by bacterial VOCs. In this study, we used Y-tube bioassays and chemical analysis of VOCs to assess how VOCs emitted by bacteria affect the olfactory response of insects of the same and different trophic levels. Experiments were performed using two aphid species (Amphorophora idaei Börner and Myzus persicae var. nicotianae Blackman), three primary parasitoid species (Aphidius colemani Viereck, A. ervi Haliday, and A. matricariae Viereck), and two hyperparasitoid species (Asaphes suspensus Nees and Dendrocerus aphidum Rondani). Olfactory responses were evaluated for three bacterial strains (Bacillus pumilus ST18.16/133, Curtobacterium sp. ST18.16/085, and Staphylococcus saprophyticus ST18.16/160) that were isolated from the habitat of the insects. Results revealed that insects from all trophic levels responded to bacterial volatiles, but olfactory responses varied between and within trophic levels. All bacteria produced the same set of volatile compounds, but often in different relative concentrations. For 11 of these volatiles we found contrasting correlations between their concentration and the behavior of the primary parasitoids and hyperparasitoids. Furthermore, olfactometer experiments on three of these compounds confirmed the contrasting olfactory responses of primary parasitoids and hyperparasitoids. The potential of these findings for the development of novel semiochemical-based strategies to improve biological aphid control has been discussed., (© 2023 Institute of Zoology, Chinese Academy of Sciences.)

Published

2023

26. Chemical signatures of egg maternity and Dufour's gland in Vespine wasps.

Author

da Silva RC, do Nascimento FS, Wenseleers T, and Oi CA

Subjects

Humans, Pregnancy, Animals, Female, Reproduction, Fertility, Pheromones chemistry, Hydrocarbons, Wasps physiology

Abstract

Cuticular hydrocarbons (CHCs) are often used in the chemical communication among social insects. CHCs can be used in nestmate recognition and as queen pheromones, the latter allows the regulation of the reproductive division of labor. In the common wasp Vespula vulgaris, CHCs and egg-marking hydrocarbons are caste-specific, being hydrocarbon queen pheromones and egg maternity signals. Whether these compounds are conserved among other Vespinae wasps remains unknown. Queens, virgin queens, reproductive workers, and workers belonging to four different wasp species, Dolichovespula media, Dolichovespula saxonica, Vespa crabro, and Vespula germanica, were collected and studied. The cuticular hydrocarbons, egg surface, and Dufour's gland composition were characterized and it was found that chemical compounds are caste-specific in the four species. Quantitative and qualitative differences were detected in the cuticle, eggs, and Dufour's gland. Some specific hydrocarbons that were shown to be overproduced in the cuticle of queens were also present in higher quantities in queen-laid eggs and in their Dufour's gland. These hydrocarbons can be indicated as putative fertility signals that regulate the division of reproductive labor in these Vespine societies. Our results are in line with the literature for V. vulgaris and D. saxonica, in which hydrocarbons were shown to be conserved queen signals. This work presents correlative evidence that queen chemical compounds are found not only over the body surface of females but also in other sources, such as the Dufour's gland and eggs., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

27. Evolution of self-organised division of labour driven by stigmergy in leaf-cutter ants.

Author

Di Pietro V, Govoni P, Chan KH, Oliveira RC, Wenseleers T, and van den Berg P

Subjects

Animals, Plant Leaves, Social Behavior, Ants

Abstract

Social insects owe their widespread success to their ability to efficiently coordinate behaviour to carry out complex tasks. Several leaf-cutter ant species employ an advanced type of division of labour known as task partitioning, where the task of retrieving leaves is distributed between workers that cut and drop and those that collect the fallen leaves. It is not entirely clear how such highly coordinated behaviour can evolve, as it would seem to require the simultaneous mutations of multiple traits during the same generation. Here, we use an agent-based simulation model to show how task partitioning in leaf-cutter ants can gradually evolve by exploiting stigmergy (indirect coordination through the environment) through gravity (leaves falling from the treetop on the ground forming a cache). Our simple model allows independent variation in two core behavioural dimensions: the tendency to drop leaves and the tendency to pick up dropped leaves. Task partitioning readily evolves even under these minimal assumptions through adaptation to an arboreal environment where traveling up and down the tree is costly. Additionally, we analyse ant movement dynamics to demonstrate how the ants achieve efficient task allocation through task switching and negative feedback control., (© 2022. The Author(s).)

Published

2022

28. Do microbes have a memory? History-dependent behavior in the adaptation to variable environments.

Author

Vermeersch L, Cool L, Gorkovskiy A, Voordeckers K, Wenseleers T, and Verstrepen KJ

Abstract

Microbes are constantly confronted with changes and challenges in their environment. A proper response to these environmental cues is needed for optimal cellular functioning and fitness. Interestingly, past exposure to environmental cues can accelerate or boost the response when this condition returns, even in daughter cells that have not directly encountered the initial cue. Moreover, this behavior is mostly epigenetic and often goes hand in hand with strong heterogeneity in the strength and speed of the response between isogenic cells of the same population, which might function as a bet-hedging strategy. In this review, we discuss examples of history-dependent behavior (HDB) or "memory," with a specific focus on HDB in fluctuating environments. In most examples discussed, the lag time before the response to an environmental change is used as an experimentally measurable proxy for HDB. We highlight different mechanisms already implicated in HDB, and by using HDB in fluctuating carbon conditions as a case study, we showcase how the metabolic state of a cell can be a key determining factor for HDB. Finally, we consider possible evolutionary causes and consequences of such HDB., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Vermeersch, Cool, Gorkovskiy, Voordeckers, Wenseleers and Verstrepen.)

Published

2022

29. Misrepresentation of group contributions undermines conditional cooperation in a human decision making experiment.

Author

van den Berg P, Liu S, Wenseleers T, and Zhang J

Subjects

China, Decision Making, Humans, Cooperative Behavior, Social Behavior

Abstract

Cooperative behaviour can evolve through conditional strategies that direct cooperation towards interaction partners who have themselves been cooperative in the past. Such strategies are common in human cooperation, but they can be vulnerable to manipulation: individuals may try to exaggerate their past cooperation to elicit reciprocal contributions or improve their reputation for future gains. Little is known about the prevalence and the ramifications of misrepresentation in human cooperation, neither in general nor about its cultural facets (self-sacrifice for the group is valued differently across cultures). Here, we present a large-scale interactive decision making experiment (N = 870), performed in China and the USA, in which individuals had repeated cooperative interactions in groups. Our results show that (1) most individuals from both cultures overstate their contributions to the group if given the opportunity, (2) misrepresentation of cooperation is detrimental to cooperation in future interactions, and (3) the possibility to build up a personal reputation amplifies the effects of misrepresentation on cooperation in China, but not in the USA. Our results suggest that misrepresentation of cooperation is likely to be an important factor in (the evolution of) human social behaviour, with, depending on culture, diverging impacts on cooperation outcomes., (© 2022. The Author(s).)

Published

2022

30. Cuticular hydrocarbons as caste-linked cues in Neotropical swarm-founding wasps.

Author

da Silva RC, Prato A, Tannure-Nascimento I, Akemi Oi C, Wenseleers T, and Nascimento F

Subjects

Animals, Cues, Social Behavior, Hydrocarbons, Phenotype, Wasps anatomy & histology

Abstract

Wasps (Vespidae) are important organisms to understand the evolution of social behaviour. Wasps show different levels of sociality, which includes solitary to highly eusocial organisms. In social insect species, queens and workers differ in physiology and morphology. The Neotropical swarm-founding wasps (Epiponini) show a variety of caste syndromes. In this clade, the caste-flexibility is a unique characteristic, in which workers can become queens and swarm to start a new nest. The investigation of the caste system comparing several Epiponini species show a clear-cut morphological distinction between queens and workers, with a morphological continuum between queens and workers. However, whether cuticular hydrocarbons (CHCs) are used as cues for caste recognition in swarm-founding wasps is still unknown. We studied whether CHCs may display caste-linked differences in eleven species of Epiponini wasps and if CHCs differences would follow morphological patterns. Our results suggest that queens and workers of Epiponini wasps are chemically different from each other at two levels, qualitatively and quantitatively, or merely quantitatively. This variation seems to exist regardless of their morphological traits and may be useful to help us understanding how chemical communication evolved differently in these species., Competing Interests: The authors declare that they have no competing interests., (© 2022 da Silva et al.)

Published

2022

31. Tragedy of the commons in Melipona bees revisited.

Author

Oliveira RC, Di Pietro V, Quezada-Euán JJG, Pech JR, Moo-Valle H, and Wenseleers T

Subjects

Animals, Bees, Larva, Microsatellite Repeats, Reproduction

Abstract

Melipona stingless bees display a paradoxical overproduction of queens, which are later eliminated by nest-mate workers. Mechanistically, it was suggested that the monoterpenoid geraniol deposited into newly provisioned cells by adult bees would cause larvae to develop into queens in Melipona beecheii . This system could be evolutionarily stable if many of these new queens were to leave the nest and parasitize other genetically unrelated colonies nearby, as was shown to occur in a congeneric species . Here, we use microsatellite markers to test whether queen overproduction could be a strategy by which adult workers control the caste fate of the developing larvae to export copies of their own genes to the rest of the population via queen parasitism in M. beecheii . In addition, we re-examined whether artificially increasing the levels of geraniol indeed caused larvae to develop as queens rather than workers. Contrary to our prediction, we found no evidence for queen parasitism in M. beecheii and observed no effect of geraniol on the rearing of new queens. Together, these results support the original 'tragedy of the commons' hypothesis for queen overproduction in Melipona bees, where individual larvae selfishly bias their development towards the queen pathway according to their best evolutionary interests.

Published

2022

32. Similarities in Recognition Cues Lead to the Infiltration of Non-Nestmates in an Ant Species.

Author

Caliari Oliveira R, van Zweden J, and Wenseleers T

Subjects

Animals, Biological Assay, Cues, Humans, Hydrocarbons, Odorants, Social Behavior, Ants

Abstract

Chemical cues are among the most important information-sharing mechanisms in insect societies, in which cuticular hydrocarbons play a central role, e.g., from nestmate recognition to queen signaling. The nestmate recognition mechanism usually prevents intruders from taking advantage of the resources stored in the nest. However, nestmate recognition is not unconditionally effective, and foreign individuals can sometimes infiltrate unrelated nests and take advantage of the colony resources. In this study, we investigated the role of overall colony odor profiles on the ability of conspecific workers to drift into unrelated colonies. We hypothesized that drifters would have higher chances of success by infiltrating colonies with the odor profiles most similar to their own nest, avoiding being detected as non-nestmates. By performing a drifting bioassay, we found that workers of the ant Formica fusca infiltrated unrelated conspecific colonies at a rate of 2.4%, significantly infiltrating colonies displaying CHC profiles most similar to their natal nests. Notably, methyl branched hydrocarbons seem to play a role as recognition cues in this species. In addition, we show that environmental rather than genetic factors are responsible for most contributions on the CHC phenotype, presenting ca. of 50% and 27.5% of explained variation respectively, and playing a major role in how worker ants detect and prevent the infiltration of non-nestmates in the colony. Hence, relying on cuticular hydrocarbons similarities could be a profitably evolutionary strategy by which workers can identify conspecific colonies, evade detection by guards, and avoid competition with genetic relatives., (© 2021. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

33. Population Bottlenecks Strongly Affect the Evolutionary Dynamics of Antibiotic Persistence.

Author

Windels EM, Fox R, Yerramsetty K, Krouse K, Wenseleers T, Swinnen J, Matthay P, Verstraete L, Wilmaerts D, Van den Bergh B, and Michiels J

Subjects

Escherichia coli, Gene Editing, Genetic Fitness, Population Dynamics, Biological Evolution, Drug Resistance, Bacterial genetics

Abstract

Bacterial persistence is a potential cause of antibiotic therapy failure. Antibiotic-tolerant persisters originate from phenotypic differentiation within a susceptible population, occurring with a frequency that can be altered by mutations. Recent studies have proven that persistence is a highly evolvable trait and, consequently, an important evolutionary strategy of bacterial populations to adapt to high-dose antibiotic therapy. Yet, the factors that govern the evolutionary dynamics of persistence are currently poorly understood. Theoretical studies predict far-reaching effects of bottlenecking on the evolutionary adaption of bacterial populations, but these effects have never been investigated in the context of persistence. Bottlenecking events are frequently encountered by infecting pathogens during host-to-host transmission and antibiotic treatment. In this study, we used a combination of experimental evolution and barcoded knockout libraries to examine how population bottlenecking affects the evolutionary dynamics of persistence. In accordance with existing hypotheses, small bottlenecks were found to restrict the adaptive potential of populations and result in more heterogeneous evolutionary outcomes. Evolutionary trajectories followed in small-bottlenecking regimes additionally suggest that the fitness landscape associated with persistence has a rugged topography, with distinct trajectories toward increased persistence that are accessible to evolving populations. Furthermore, sequencing data of evolved populations and knockout libraries after selection reveal various genes that are potentially involved in persistence, including previously known as well as novel targets. Together, our results do not only provide experimental evidence for evolutionary theories, but also contribute to a better understanding of the environmental and genetic factors that guide bacterial adaptation to antibiotic treatment., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2021

34. Effects of juvenile hormone in fertility and fertility-signaling in workers of the common wasp Vespula vulgaris.

Author

Oi CA, Ferreira HM, da Silva RC, Bienstman A, Nascimento FSD, and Wenseleers T

Subjects

Animals, Female, Oocytes drug effects, Oocytes metabolism, Signal Transduction drug effects, Ovary drug effects, Ovary metabolism, Reproduction drug effects, Methoprene pharmacology, Wasps physiology, Fertility drug effects, Juvenile Hormones metabolism

Abstract

In the highly eusocial wasp, Vespula vulgaris, queens produce honest signals to alert their subordinate workers of their fertility status, and therefore they are reproductively suppressed and help in the colony. The honesty of the queen signals is likely maintained due to hormonal regulation, which affects fertility and fertility cue expression. Here, we tested if hormonal pleiotropy could support the hypothesis that juvenile hormone controls fertility and fertility signaling in workers. In addition, we aimed to check oocyte size as a proxy of fertility. To do that, we treated V. vulgaris workers with synthetic versions of juvenile hormone (JH) analogue and a JH inhibitor, methoprene and precocene, respectively. We dissected the treated females to check ovary activation and analyzed their chemical profile. Our results showed that juvenile hormone has an influence on the abundance of fertility linked compounds produced by workers, and it also showed to increase oocyte size in workers. Our results corroborate the hypothesis that juvenile hormone controls fertility and fertility signaling in workers, whereby workers are unable to reproduce without alerting other colony members of their fertility. This provides supports the hypothesis that hormonal pleiotropy contributes to keeping the queen fertility signals honest., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

35. Identification of Blackberry ( Rubus fruticosus ) Volatiles as Drosophila suzukii Attractants.

Author

Dewitte P, Van Kerckvoorde V, Beliën T, Bylemans D, and Wenseleers T

Abstract

The spotted wing drosophila, Drosophila suzukii , is an invasive pest species from Southeast Asia that was recently introduced in Europe and North America. As this fruit fly lays its eggs in ripening soft-skinned fruit, it causes great damage to a variety of crops, including cherries, blueberries, blackberries, raspberries, grapes, plums and strawberries. Consequently, there is a great demand for an effective and species-specific lure, which requires the development of successful attractants. Until now, there is no lure available that is species-specific and can detect the presence of D. suzukii before infestation. As blackberry ( Rubus fruticosus ) is one of the preferred host crops of D. suzukii , the volatile compounds of R. fruticosus berries are here identified and quantified using multiple headspace SPME (solid phase micro extraction) GC-MS (gas chromatography-mass spectrometry). Subsequently, the attractivity of 33 of the identified compounds was tested with a two-choice laboratory bioassay. Acetaldehyde, hexyl acetate, linalool, myrtenol, L -limonene and camphene came out as significantly attractive to D. suzukii . The first four attractive compounds induced the strongest effect and therefore provided the best prospects to be implemented in a potential lure. These findings could contribute towards the development of more effective attractants for monitoring and mass trapping D. suzukii .

Published

2021

36. Close-range cues used by males of Polistes dominula in sex discrimination.

Author

da Silva RC, Van Meerbeeck L, do Nascimento FS, Wenseleers T, and Oi CA

Subjects

Animals, Female, Hydrocarbons pharmacology, Male, Sexual Behavior, Animal drug effects, Videotape Recording, Cues, Hydrocarbons metabolism, Sex Attractants chemistry, Wasps physiology

Abstract

Sexual pheromones are chemical molecules responsible for mediating sex recognition and mating events. Long- and close-range sexual pheromones act differently. The first type is released to attract potential partners, whereas the second coordinates the interactions after potential mating partners encounter each other. Cuticular hydrocarbons (CHCs) have been suggested to be important cues in the mating systems of several Hymenoptera species, although empirical data are still lacking for many species. Here, we evaluated whether males of the model species Polistes dominula can differentiate the sex of individuals based on their CHC composition. In August 2019, several post-worker emergent nests (n = 19) were collected in the vicinity of Leuven (Belgium) and taken to the lab (KU Leuven), where newly emerged females and males were sampled, marked individually, and kept in plastic boxes for at least a week before being used in the mating trials. Focal males were paired with females and males from different nests and subjected to five different conditions: (I) alive, (II) dead, (III) CHCs washed, (IV) CHCs partially returned, and (V) CHCs from the opposite sex. We videotaped the interactions for 10 min and analysed the duration and different behavioural interactions of the focal male. Our results indicate that CHCs may be used by males as cues to recognise a potential mating partner in P. dominula, since the focal males displayed specific courtship behaviours exclusively toward females. Although we cannot exclude that visual cues could also be used in combination with the chemical ones, we empirically demonstrate that CHCs may be important to convey sexual information at close range in mating systems, allowing fast decisions toward potential sexual partners or rivals.

Published

2021

37. Estimated transmissibility and impact of SARS-CoV-2 lineage B.1.1.7 in England.

Author

Davies NG, Abbott S, Barnard RC, Jarvis CI, Kucharski AJ, Munday JD, Pearson CAB, Russell TW, Tully DC, Washburne AD, Wenseleers T, Gimma A, Waites W, Wong KLM, van Zandvoort K, Silverman JD, Diaz-Ordaz K, Keogh R, Eggo RM, Funk S, Jit M, Atkins KE, and Edmunds WJ

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Basic Reproduction Number, COVID-19 epidemiology, COVID-19 mortality, COVID-19 Vaccines, Child, Child, Preschool, Communicable Disease Control, England epidemiology, Europe epidemiology, Female, Humans, Infant, Male, Middle Aged, Models, Theoretical, Mutation, Severity of Illness Index, Socioeconomic Factors, United States epidemiology, Viral Load, Young Adult, COVID-19 transmission, COVID-19 virology, SARS-CoV-2 genetics, SARS-CoV-2 growth & development, SARS-CoV-2 pathogenicity

Abstract

A severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) variant, VOC 202012/01 (lineage B.1.1.7), emerged in southeast England in September 2020 and is rapidly spreading toward fixation. Using a variety of statistical and dynamic modeling approaches, we estimate that this variant has a 43 to 90% (range of 95% credible intervals, 38 to 130%) higher reproduction number than preexisting variants. A fitted two-strain dynamic transmission model shows that VOC 202012/01 will lead to large resurgences of COVID-19 cases. Without stringent control measures, including limited closure of educational institutions and a greatly accelerated vaccine rollout, COVID-19 hospitalizations and deaths across England in the first 6 months of 2021 were projected to exceed those in 2020. VOC 202012/01 has spread globally and exhibits a similar transmission increase (59 to 74%) in Denmark, Switzerland, and the United States., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2021

38. Hormonal modulation of reproduction and fertility signaling in polistine wasps.

Author

Oi CA, da Silva RC, Stevens I, Ferreira HM, Nascimento FS, and Wenseleers T

Abstract

In social insects, it has been suggested that reproduction and the production of particular fertility-linked cuticular hydrocarbons (CHC) may be under shared juvenile hormone (JH) control, and this could have been key in predisposing such cues to later evolve into full-fledged queen pheromone signals. However, to date, only few studies have experimentally tested this "hormonal pleiotropy" hypothesis. Here, we formally test this hypothesis using data from four species of Polistine wasps, Polistes dominula , Polistes satan , Mischocyttarus metathoracicus , and Mischocyttarus cassununga , and experimental treatments with JH using the JH analogue methoprene and the anti-JH precocene. In line with reproduction being under JH control, our results show that across these four species, precocene significantly decreased ovary development when compared with both the acetone solvent-only control and the methoprene treatment. Consistent with the hormonal pleiotropy hypothesis, these effects on reproduction were further matched by subtle shifts in the CHC profiles, with univariate analyses showing that in P. dominula and P. satan the abundance of particular linear alkanes and mono-methylated alkanes were affected by ovary development and our hormonal treatments. The results indicate that in primitively eusocial wasps, and particularly in Polistes , reproduction and the production of some CHC cues are under joint JH control. We suggest that pleiotropic links between reproduction and the production of such hydrocarbon cues have been key enablers for the origin of true fertility and queen signals in more derived, advanced eusocial insects., (© The Author(s) (2021). Published by Oxford University Press on behalf of Editorial Office, Current Zoology.)

Published

2021

39. Reproduction and signals regulating worker policing under identical hormonal control in social wasps.

Author

Oi CA, Brown RL, da Silva RC, and Wenseleers T

Subjects

Animals, Female, Hierarchy, Social, Pheromones metabolism, Reproduction drug effects, Wasps classification, Wasps drug effects, Behavior, Animal drug effects, Methoprene pharmacology, Wasps physiology

Abstract

In social Hymenoptera, fertility and fertility signalling are often under identical hormonal control, and it has been suggested that such hormonal pleiotropies can help to maintain signal honesty. In the common wasp Vespula vulgaris, for example, fertile queens have much higher juvenile hormone (JH) titers than workers, and JH also controls the production of chemical fertility cues present on the females' cuticle. To regulate reproductive division of labour, queens use these fertility cues in two distinct ways: as queen pheromones that directly suppress the workers' reproduction as well as to mark queen eggs and enable the workers to recognize and police eggs laid by other workers. Here, we investigated the hormonal pleiotropy hypothesis by testing if experimental treatment with the JH analogue methoprene could enable the workers to lay eggs that evade policing. In support of this hypothesis, we find that methoprene-treated workers laid more eggs, and that the chemical profiles of their eggs were more queen-like, thereby causing fewer of their eggs to be policed compared to in the control. Overall, our results identify JH as a key regulator of both reproduction and the production of egg marking pheromones that mediate policing behaviour in eusocial wasps.

Published

2020

40. How the incentive to contribute affects contributions in the one-shot public goods game.

Author

van den Berg P, Dewitte P, Aertgeerts I, and Wenseleers T

Abstract

Enmeshed in various social structures, humans must often weigh their own interest against the interest of others-including the common interest of groups they belong to. The Public Goods Game (PGG), which succinctly pits individual interest against group interest, has been a staple of research into how people make such decisions. It has been studied in many variations, in the laboratory and (increasingly) online. One of the defining parameters of the PGG is the marginal per capita return of the group project (MPCR), which determines the incentive for contributing to the group project relative to the incentive of keeping points in the personal account. The effect of MPCR on contributions has been investigated before, but its effects have never been characterised with high resolution. Here, we present a systematic and high-resolution investigation of the effect of MPCR in groups of three. We do this in a large-scale online decision making experiment recruiting participants from Amazon Mechanical Turk. Our results provide a fine-grained account of the relationship between incentive to cooperate on the one hand and cooperation on the other, and can help to provide a basis for choosing MPCR magnitudes for future research endeavours using online PGG studies.

Published

2020

41. Parent of origin gene expression in the bumblebee, Bombus terrestris , supports Haig's kinship theory for the evolution of genomic imprinting.

Author

Marshall H, van Zweden JS, Van Geystelen A, Benaets K, Wäckers F, Mallon EB, and Wenseleers T

Abstract

Genomic imprinting is the differential expression alleles in diploid individuals, with the expression being dependent on the sex of the parent from which it was inherited. Haig's kinship theory hypothesizes that genomic imprinting is due to an evolutionary conflict of interest between alleles from the mother and father. In social insects, it has been suggested that genomic imprinting should be widespread. One recent study identified parent-of-origin expression in honey bees and found evidence supporting the kinship theory. However, little is known about genomic imprinting in insects and multiple theoretical predictions must be tested to avoid single-study confirmation bias. We, therefore, tested for parent-of-origin expression in a primitively eusocial bee. We found equal numbers of maternally and paternally biased expressed genes. The most highly biased genes were maternally expressed, offering support for the kinship theory. We also found low conservation of potentially imprinted genes with the honey bee, suggesting rapid evolution of genomic imprinting in Hymenoptera., (© 2020 The Authors. Evolution Letters published by Wiley Periodicals, LLC on behalf of Society for the Study of Evolution (SSE) and European Society for Evolutionary Biology (ESEB).)

Published

2020

42. Identification of a queen pheromone mediating the rearing of adult sexuals in the pharaoh ant Monomorium pharaonis .

Author

Oliveira RC, Warson J, Sillam-Dussès D, Herrera-Malaver B, Verstrepen K, Millar JG, and Wenseleers T

Subjects

Animals, Female, Fertility, Male, Oviposition, Pheromones, Reproduction, Ants

Abstract

The division of labour between reproductive queens and mostly sterile workers is among the defining characteristics of social insects. Queen-produced chemical signals advertising her presence and fertility status, i.e. queen pheromones, are normally used to assert the queen's reproductive dominance in the colony. Most queen pheromones identified to date are chemicals that stop the daughter workers from reproducing. Nevertheless, it has long been suggested that queen pheromones could also regulate reproduction in different ways. In some multiple-queen ants with obligately sterile workers, for example-such as fire ants and pharaoh ants-queen pheromones are thought to regulate reproduction by inhibiting the rearing of new sexuals. Here, we identify the first such queen pheromone in the pharaoh ant Monomorium pharaonis and demonstrate its mode of action via bioassays with the pure biosynthesized compound. In particular, we show that the monocyclic diterpene neocembrene, which in different Monomorium species is produced solely by fertile, egg-laying queens, strongly inhibits the rearing of new sexuals (queens and males) and also exerts a weakly attractive 'queen retinue' effect on the workers. This is the first time that a queen pheromone with such a dual function has been identified in a social insect species with obligately sterile workers.

Published

2020

43. Hydrocarbon Signatures of the Ectoparasitoid Sphecophaga vesparum Shows Wasp Host Dependency.

Author

Oi CA, Brown RL, Stevens I, and Wenseleers T

Abstract

Sphecophaga vesparum often parasitizes nests of vespid wasps such as Vespula vulgaris and Vespula germanica . Inside the colonies, the ectoparasitic larvae feed on the immature forms of the wasps. There are two adult forms of S. vesparum . The large, winged adults emerge from either rigid yellow cocoons or the orange cocoons used for overwintering. The small, brachypterous females emerge from soft, white cocoons. The species is facultative deuterotokous, producing mostly parthenogenic females and infrequently producing males. Here, we describe the production of chemical compounds related to the different developmental forms of the parasitoid S. vesparum (larvae, pupae and adults). We also compare the chemical profiles of the parasitoid wasp adults to those of their two main host species, Vespula vulgaris and Vespula germanica . The results show differences in hydrocarbon composition of larvae, pupae and adults of S. vesparum . Our results also suggest a partial mimicry of each of the two host species, mostly relating to linear alkanes present in both parasitoids and the host vespid wasp species. This matching is likely due to the recycling of the prey's hydrocarbons, as has been found in other species of parasitoids.

Published

2020

44. A Historical-Genetic Reconstruction of Human Extra-Pair Paternity.

Author

Larmuseau MHD, van den Berg P, Claerhout S, Calafell F, Boattini A, Gruyters L, Vandenbosch M, Nivelle K, Decorte R, and Wenseleers T

Subjects

Belgium, Female, Humans, Luxembourg, Male, Netherlands, Sexual Behavior, Paternity

Abstract

Paternity testing using genetic markers has shown that extra-pair paternity (EPP) is common in many pair-bonded species [1, 2]. Evolutionary theory and empirical data show that extra-pair copulations can increase the fitness of males as well as females [3, 4]. This can carry a significant fitness cost for the social father, who then invests in rearing offspring that biologically are not his own [5]. In human populations, the incidence and correlates of extra-pair paternity remain highly contentious [2, 6, 7]. Here, we use a population-level genetic genealogy approach [6, 8] to reconstruct spatiotemporal patterns in human EPP rates. Using patrilineal genealogies from the Low Countries spanning a period of over 500 years and Y chromosome genotyping of living descendants, our analysis reveals that historical EPP rates, while low overall, were strongly impacted by socioeconomic and demographic factors. Specifically, we observe that estimated EPP rates among married couples varied by more than an order of magnitude, from 0.4% to 5.9%, and peaked among families with a low socioeconomic background living in densely populated cities of the late 19 th century. Our results support theoretical predictions that social context can strongly affect the outcomes of sexual conflict in human populations by modulating the incentives and opportunities for engaging in extra-pair relationships [9-11]. These findings show how contemporary genetic data combined with in-depth genealogies open up a new window on the sexual behavior of our ancestors., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

45. Fifteen shades of green: The evolution of Bufotes toads revisited.

Author

Dufresnes C, Mazepa G, Jablonski D, Oliveira RC, Wenseleers T, Shabanov DA, Auer M, Ernst R, Koch C, Ramírez-Chaves HE, Mulder KP, Simonov E, Tiutenko A, Kryvokhyzha D, Wennekes PL, Zinenko OI, Korshunov OV, Al-Johany AM, Peregontsev EA, Masroor R, Betto-Colliard C, Denoël M, Borkin LJ, Skorinov DV, Pasynkova RA, Mazanaeva LF, Rosanov JM, Dubey S, and Litvinchuk S

Subjects

Animals, Bufonidae classification, Bufonidae genetics, DNA, Mitochondrial genetics, Genetic Speciation, Genome Size, Genome, Mitochondrial, Genomics, Hybridization, Genetic, Mitochondria genetics, Phenotype, Phylogeny, Phylogeography, Principal Component Analysis, Time Factors, Biological Evolution, Bufonidae physiology

Abstract

The radiation of Palearctic green toads (Bufotes) holds great potential to evaluate the role of hybridization in phylogeography at multiple stages along the speciation continuum. With fifteen species representing three ploidy levels, this model system is particularly attractive to examine the causes and consequences of allopolyploidization, a prevalent yet enigmatic pathway towards hybrid speciation. Despite substantial efforts, the evolutionary history of this species complex remains largely blurred by the lack of consistency among the corresponding literature. To get a fresh, comprehensive view on Bufotes phylogeography, here we combined genome-wide multilocus analyses (RAD-seq) with an extensive compilation of mitochondrial, genome size, niche modelling, distribution and phenotypic (bioacoustics, morphometrics, toxin composition) datasets, representing hundreds of populations throughout Eurasia. We provide a fully resolved nuclear phylogeny for Bufotes and highlight exceptional cyto-nuclear discordances characteristic of complete mtDNA replacement (in 20% of species), mitochondrial surfing during post-glacial expansions, and the formation of homoploid hybrid populations. Moreover, we traced the origin of several allopolyploids down to species level, showing that all were exclusively fathered by the West Himalayan B. latastii but mothered by several diploid forms inhabiting Central Asian lowlands, an asymmetry consistent with hypotheses on mate choice and Dobzhansky-Muller incompatibilities. Their intermediate call phenotypes potentially allowed for rapid reproductive isolation, while toxin compositions converged towards the ecologically-closest parent. Across the radiation, we pinpoint a stepwise progression of reproductive isolation through time, with a threshold below which hybridizability is irrespective of divergence (<6My), above which species barely admix and eventually evolve different mating calls (6-10My), or can successfully cross-breed through allopolyploidization (>15My). Finally, we clarified the taxonomy of Bufotes (including genetic analyses of type series) and formally described two new species, B. cypriensis sp. nov. (endemic to Cyprus) and B. perrini sp. nov. (endemic to Central Asia). Embracing the genomic age, our framework marks the advent of a new exciting era for evolutionary research in these iconic amphibians., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

46. The association between mitochondrial genetic variation and reduced colony fitness in an invasive wasp.

Author

Dobelmann J, Alexander A, Baty JW, Gemmell NJ, Gruber MAM, Quinn O, Wenseleers T, and Lester PJ

Subjects

Animals, Belgium, DNA, Circular genetics, Genetics, Population, Genome, Mitochondrial, Geography, Haplotypes genetics, New Zealand, Sequence Analysis, DNA, Genetic Variation, Introduced Species, Mitochondria genetics, Wasps genetics

Abstract

Despite the mitochondrion's long-recognized role in energy production, mitochondrial DNA (mtDNA) variation commonly found in natural populations was assumed to be effectively neutral. However, variation in mtDNA has now been increasingly linked to phenotypic variation in life history traits and fitness. We examined whether the relative fitness in native and invasive common wasp (Vespula vulgaris) populations in Belgium and New Zealand (NZ), respectively, can be linked to mtDNA variation. Social wasp colonies in NZ were smaller with comparatively fewer queen cells, indicating a reduced relative fitness in the invaded range. Interestingly, queen cells in this population were significantly larger leading to larger queen offspring. By sequencing 1,872 bp of the mitochondrial genome, we determined mitochondrial haplotypes and detected reduced genetic diversity in NZ. Three common haplotypes in NZ frequently produced many queens, whereas the four rare haplotypes produced significantly fewer or no queens. The entire mitochondrial genome for each of these haplotypes was sequenced to identify polymorphisms associated with fitness reduction. We found 16 variable sites; however, no nonsynonymous mutation that was clearly causing impaired mitochondrial function was detected. We discuss how detected variants may alter secondary structures, gene expression or mito-nuclear interactions, or could be associated with nuclear-encoded variation. Whatever the ultimate mechanism, we show reduced fitness and mtDNA variation in an invasive wasp population as well as specific mtDNA variants associated with fitness variation within this population. Ours is one of only a few studies that confirm fitness impacts of mtDNA variation in wild nonmodel populations., (© 2019 John Wiley & Sons Ltd.)

Published

2019

47. Honeybees possess a structurally diverse and functionally redundant set of queen pheromones.

Author

Princen SA, Oliveira RC, Ernst UR, Millar JG, van Zweden JS, and Wenseleers T

Subjects

Animals, Female, Pheromones chemistry, Protein Structural Elements, Reproduction, Social Behavior, Bees physiology, Pheromones metabolism

Abstract

Queen pheromones, which signal the presence of a fertile queen and induce workers to remain sterile, play a key role in regulating reproductive division of labour in insect societies. In the honeybee, volatiles produced by the queen's mandibular glands have been argued to act as the primary sterility-inducing pheromones. This contrasts with evidence from other groups of social insects, where specific queen-characteristic hydrocarbons present on the cuticle act as conserved queen signals. This led us to hypothesize that honeybee queens might also employ cuticular pheromones to stop workers from reproducing. Here, we support this hypothesis with the results of bioassays with synthetic blends of queen-characteristic alkenes, esters and carboxylic acids. We show that all these compound classes suppress worker ovary development, and that one of the blends of esters that we used was as effective as the queen mandibular pheromone (QMP) mix. Furthermore, we demonstrate that the two main QMP compounds 9-ODA and 9-HDA tested individually were as effective as the blend of all four major QMP compounds, suggesting considerable signal redundancy. Possible adaptive reasons for the observed complexity of the honeybee queen signal mix are discussed.

Published

2019

48. Bacterial persistence promotes the evolution of antibiotic resistance by increasing survival and mutation rates.

Author

Windels EM, Michiels JE, Fauvart M, Wenseleers T, Van den Bergh B, and Michiels J

Subjects

Bacteria genetics, Escherichia coli drug effects, Escherichia coli genetics, Evolution, Molecular, Microbial Viability, Drug Resistance, Bacterial genetics, Mutation Rate

Abstract

Persisters are transiently antibiotic-tolerant cells that complicate the treatment of bacterial infections. Both theory and experiments have suggested that persisters facilitate genetic resistance by constituting an evolutionary reservoir of viable cells. Here, we provide evidence for a strong positive correlation between persistence and the likelihood to become genetically resistant in natural and lab strains of E. coli. This correlation can be partly attributed to the increased availability of viable cells associated with persistence. However, our data additionally show that persistence is pleiotropically linked with mutation rates. Our theoretical model further demonstrates that increased survival and mutation rates jointly affect the likelihood of evolving clinical resistance. Overall, these results suggest that the battle against antibiotic resistance will benefit from incorporating anti-persister therapies.

Published

2019

49. The Crabtree Effect Shapes the Saccharomyces cerevisiae Lag Phase during the Switch between Different Carbon Sources.

Author

Perez-Samper G, Cerulus B, Jariani A, Vermeersch L, Barrajón Simancas N, Bisschops MMM, van den Brink J, Solis-Escalante D, Gallone B, De Maeyer D, van Bael E, Wenseleers T, Michiels J, Marchal K, Daran-Lapujade P, and Verstrepen KJ

Subjects

Aerobiosis, Anaerobiosis, Electron Transport Chain Complex Proteins metabolism, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae Proteins metabolism, Adaptation, Physiological, Galactose metabolism, Gene Expression Regulation, Fungal, Glucose metabolism, Saccharomyces cerevisiae growth & development, Saccharomyces cerevisiae metabolism

Abstract

When faced with environmental changes, microbes often enter a temporary growth arrest during which they reprogram the expression of specific genes to adapt to the new conditions. A prime example of such a lag phase occurs when microbes need to switch from glucose to other, less-preferred carbon sources. Despite its industrial relevance, the genetic network that determines the duration of the lag phase has not been studied in much detail. Here, we performed a genome-wide Bar-Seq screen to identify genetic determinants of the Saccharomyces cerevisiae glucose-to-galactose lag phase. The results show that genes involved in respiration, and specifically those encoding complexes III and IV of the electron transport chain, are needed for efficient growth resumption after the lag phase. Anaerobic growth experiments confirmed the importance of respiratory energy conversion in determining the lag phase duration. Moreover, overexpression of the central regulator of respiration, HAP4 , leads to significantly shorter lag phases. Together, these results suggest that the glucose-induced repression of respiration, known as the Crabtree effect, is a major determinant of microbial fitness in fluctuating carbon environments. IMPORTANCE The lag phase is arguably one of the prime characteristics of microbial growth. Longer lag phases result in lower competitive fitness in variable environments, and the duration of the lag phase is also important in many industrial processes where long lag phases lead to sluggish, less efficient fermentations. Despite the immense importance of the lag phase, surprisingly little is known about the exact molecular processes that determine its duration. Our study uses the molecular toolbox of S. cerevisiae combined with detailed growth experiments to reveal how the transition from fermentative to respirative metabolism is a key bottleneck for cells to overcome the lag phase. Together, our findings not only yield insight into the key molecular processes and genes that influence lag duration but also open routes to increase the efficiency of industrial fermentations and offer an experimental framework to study other types of lag behavior., (Copyright © 2018 Perez-Samper et al.)

Published

2018

50. Bioassay-guided isolation of active substances from Semen Torreyae identifies two new anthelmintic compounds with novel mechanism of action.

Author

Liu M, Veryser C, Lu JG, Wenseleers T, De Borggraeve WM, Jiang ZH, and Luyten W

Subjects

Acetates isolation & purification, Animals, Anthelmintics isolation & purification, Benzene Derivatives analysis, Benzene Derivatives isolation & purification, Biological Assay, Caenorhabditis elegans genetics, Diterpenes isolation & purification, Drug Synergism, Mutation, Plant Extracts isolation & purification, Transient Receptor Potential Channels genetics, Acetates pharmacology, Anthelmintics pharmacology, Benzene Derivatives pharmacology, Caenorhabditis elegans drug effects, Diterpenes pharmacology, Plant Extracts pharmacology, Seeds chemistry, Taxaceae chemistry

Abstract

Ethnopharmacological Relevance: Semen Torreyae, the seeds of Torreya grandis Fortune ex Lindley (Cephalotaxaceae) is a well-known traditional Chinese medicinal plant recorded in the Chinese Pharmacopeia (2010 version). It is widely used for treating intestinal parasites in China, owing to its desirable efficacy and safety. However, the anthelmintic compounds in Semen Torreyae have not yet been identified., Aim of the Study: This study aims to identify the compounds active against helminths from Semen Torreyae. In addition, we tested whether C. elegans strains resistant to currently-used anthelmintic drugs showed cross-resistance to these compounds., Methods: A bioassay-guided isolation of anthelmintic compounds from Semen Torreyae was performed using a Caenorhabditis elegans (C. elegans) testing model. The structures of active compounds were elucidated by a combination of GC-MS, high resolution MS, and NMR. The median-effect method was employed to generate a combination index (CI) to evaluate the synergistic effect of the anthelmintic compounds. A panel of C. elegans mutant strains resistant against the major anthelmintic drug classes was used to study the cross-resistance to currently-used anthelmintic drugs. A panel of transient receptor potential (TRP) channel mutant strains was also tested to explore the possible mechanisms of action of the anthelmintic compounds., Results: The bioassay-guided isolation led to two active compounds, i.e. galangal acetate (IC 50 : 58.5 ± 8.9 μM) and miogadial (IC 50 : 25.1 ± 5.4 μM). The combination of galangal acetate and miogadial resulted in a synergistic effect at IC 50 , IC 70 , and IC 90 levels (CIs < 1). Galangal acetate and miogadial demonstrated similar activity against drug-resistant C. elegans strains compared to the wild-type strain. In addition, none of the TRP mutants was significantly resistant to galangal acetate or miogadial compared to wild type worms., Conclusions: We identified the bioactive compounds from Semen Torreyae responsible for its anthelmintic activity: galangal acetate and miogadial. The two anthelmintic compounds demonstrated a synergistic effect against C. elegans. Galangal acetate and miogadial are unlikely to act on the targets of currently-used anthelmintics (ivermectin, levamisole, benomyl and aldicarb), and an action on TRP channels appears to be ruled out as well. In summary, galangal acetate and miogadial are promising anthelmintic hits worth further investigation., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018