Your search keyword '"Kristien Erven"' showing total 6 results

1. Anti-SARS-CoV-2 Activity and Cytotoxicity of Amaryllidaceae Alkaloids from Hymenocallis littoralis

Author

Ngoc-Thao-Hien Le, Steven De Jonghe, Kristien Erven, Tom Vermeyen, Aliou M. Baldé, Wouter A. Herrebout, Johan Neyts, Christophe Pannecouque, Luc Pieters, and Emmy Tuenter

Subjects

Amaryllidaceae alkaloids, Hymenocallis littoralis, lycorine-type, galanthamine-type, DFT calculation, SARS-CoV-2, Organic chemistry, QD241-441

Abstract

The Amaryllidaceae species are well-known as a rich source of bioactive compounds in nature. Although Hymenocallis littoralis has been studied for decades, its polar components were rarely explored. The current phytochemical investigation of Amaryllidaceae alkaloids from H. littoralis led to the identification of three previously undescribed compounds: O-demethyl-norlycoramine (1), (−)-2-epi-pseudolycorine (2) and (+)-2-epi-pseudolycorine (3), together with eight known compounds: 6α-hydroxyhippeastidine (4), 6β-hydroxyhippeastidine (5), lycorine (6), 2-epi-lycorine (7), zephyranthine (8), ungeremine (9), pancratistatin (10) and 9-O-demethyl-7-O-methyllycorenine (11). Among the eight previously reported compounds, five were isolated from H. littoralis for the first time (compounds 4, 5, 7, 8, and 9). Compounds 1, 4, 5, 7, 8, and 11 exhibited weak anti-SARS-CoV-2 activity (EC50 = 40–77 µM) at non-cytotoxic concentrations. Assessment of cytotoxicity on the Vero-E6 cell line revealed lycorine and pancratistatin as cytotoxic substances with CC50 values of 1.2 µM and 0.13 µM, respectively. The preliminary structure-activity relationship for the lycorine-type alkaloids in this study was further investigated, and as a result ring C appears to play a crucial role in their anti-SARS-CoV-2 activity.

Published

2023

2. Genetic evidence that culling increases badger movement: implications for the spread of bovine tuberculosis

Author

Roger K. Butlin, Tanya Franklin, Terry Burke, Lisa C. Pope, G. J. Wilson, Rosie Woodroffe, Chris M. Conyers, Kristien Erven, Richard J. Delahay, and Chris L. Cheeseman

Subjects

Male, Time Factors, Genotype, Badger, animal diseases, Population Dynamics, Culling, Meles, Sex Factors, Gene Frequency, Risk Factors, biology.animal, Mustelidae, Genetics, Bovine tuberculosis, Animals, Ecology, Evolution, Behavior and Systematics, Mycobacterium bovis, biology, Ecology, food and beverages, bacterial infections and mycoses, biology.organism_classification, Mixed effects, Biological dispersal, Cattle, Female, Tuberculosis, Bovine, Disease transmission, Locomotion, Microsatellite Repeats, Demography

Abstract

The Eurasian badger (Meles meles) has been implicated in the transmission of bovine tuberculosis (TB, caused by Mycobacterium bovis) to cattle. However, evidence suggests that attempts to reduce the spread of TB among cattle in Britain by culling badgers have mixed effects. A large-scale field experiment (the randomized badger culling trial, RBCT) showed that widespread proactive badger culling reduced the incidence of TB in cattle within culled areas but that TB incidence increased in adjoining areas. Additionally, localized reactive badger culling increased the incidence of TB in cattle. It has been suggested that culling-induced perturbation of badger social structure may increase individual movements and elevate the risk of disease transmission between badgers and cattle. Field studies support this hypothesis, by demonstrating increases in badger group ranges and the prevalence of TB infection in badgers following culling. However, more evidence on the effect of culling on badger movements is needed in order to predict the epidemiological consequences of this control strategy. Here, analysis of the genetic signatures of badger populations in the RBCT revealed increased dispersal following culling. While standard tests provided evidence for greater dispersal after culling, a novel method indicated that this was due to medium- and long-distance dispersal, in addition to previously reported increases in home-range size. Our results also indicated that, on average, badgers infected with M. bovis moved significantly farther than did uninfected badgers. A disease control strategy that included culling would need to take account of the potentially negative epidemiological consequences of increased badger dispersal.

Published

2007

3. Isolation by distance and gene flow in the Eurasian badger (Meles meles) at both a local and broad scale

Author

Lisa C. Pope, Kristien Erven, Xavier Domingo-Roura, and Terry Burke

Subjects

Badger, biology, Ecology, Range (biology), Meles, biology.organism_classification, Phylogeography, F-statistics, biology.animal, Genetics, Biological dispersal, Genetic isolate, Ecology, Evolution, Behavior and Systematics, Isolation by distance

Abstract

Eurasian badgers, Meles meles, have been shown to possess limited genetic population structure within Europe; however, field studies have detected high levels of philopatry, which are expected to increase population structure. Population structure will be a consequence of both contemporary dispersal and historical processes, each of which is expected to be evident at a different scale. Therefore, to gain a greater understanding of gene flow in the badger, we examined microsatellite diversity both among and within badger populations, focusing on populations from the British Isles and western Europe. We found that while populations differed in their allelic diversity, the British Isles displayed a similar degree of diversity to the rest of western Europe. The lower genetic diversity occurring in Ireland, Norway and Scotland was more likely to have resulted from founder effects rather than contemporary population density. While there was significant population structure (F(ST) = 0.19), divergence among populations was generally well explained by geographic distance (P < 0.0001) across the entire range studied of more than 3000 km. Transient effects from the Pleistocene appear to have been replaced by a strong pattern of genetic isolation by distance across western Europe, suggestive of colonization from a single refugium. Analysis of individuals within British populations through Mantel tests and spatial autocorrelation demonstrated that there was significant local population structure across 3-30 km, confirming that dispersal is indeed restricted. The isolation by distance observed among badger populations across western Europe is likely to be a consequence of this restricted local dispersal.

Published

2005

4. A TEST OF WORKER POLICING THEORY IN AN ADVANCED EUSOCIAL WASP, VESPULA RUFA

Author

Nichola S. Badcock, Fabio S. Nascimento, Tom Wenseleers, Terry Burke, Adam G. Hart, Kristien Erven, Michael E. Archer, Adam Tofilski, and Francis L. W. Ratnieks

Subjects

Male, Wasps, Vespula vulgaris, Zoology, Observation, Kin selection, Models, Biological, Vespula, Sexual Behavior, Animal, Gene Frequency, worker policing, Vespinae, Vespula rufa, Genetics, Animals, Yellowjacket, worker reproduction, reproductive and urinary physiology, Ecology, Evolution, Behavior and Systematics, Ovum, biology, Ecology, Reproduction, reproductive conflict, Worker policing, biology.organism_classification, Eusociality, Vespinae wasps, England, Social Dominance, behavior and behavior mechanisms, Female, queen policing, General Agricultural and Biological Sciences, Microsatellite Repeats

Abstract

Mutual policing is an important mechanism for maintaining social harmony in group-living organisms. In some ants, bees, and wasps, workers police male eggs laid by other workers in order to maintain the reproductive primacy of the queen. Kin selection theory predicts that multiple mating by the queen is one factor that can selectively favor worker policing. This is because when the queen is mated to multiple males, workers are more closely related to queen's sons than to the sons of other workers. Here we provide an additional test of worker policing theory in Vespinae wasps. We show that the yellowjacket Vespula rufa is characterized by low mating frequency, and that a significant percentage of the males are workers' sons. This supports theoretical predictions for paternities below 2, and contrasts with other Vespula species, in which paternities are higher and few or no adult males are worker produced, probably due to worker policing, which has been shown in one species, Vespula vulgaris. Behavioral observations support the hypothesis that V. rufa has much reduced worker policing compared to other Vespula. In addition, a significant proportion of worker-laid eggs were policed by the queen. ispartof: Evolution vol:59 issue:6 pages:1306-14 ispartof: location:United States status: published

Published

2005

5. Mating system of the Eurasian badger, Meles meles, in a high density population

Author

Deborah A. Dawson, Chris L. Cheeseman, Terry Burke, Petra J. Carpenter, Kristien Erven, Carolyn Greig, Lisa C. Pope, L. M. Rogers, G. J. Wilson, and Richard J. Delahay

Subjects

education.field_of_study, biology, Badger, Reproductive success, Ecology, Population, Meles, Mating system, biology.organism_classification, biology.animal, Genetics, Philopatry, Mating, education, Inbreeding, Ecology, Evolution, Behavior and Systematics, Demography

Abstract

Badgers are facultatively social, forming large groups at high density. Group-living appears to have high reproductive costs for females, and may lead to increased levels of inbreeding. The extent of female competition for reproduction has been estimated from field data, but knowledge of male reproductive success and the extent of extra-group paternity remains limited. Combining field data with genetic data (16 microsatellite loci), we studied the mating system of 10 badger social groups across 14 years in a high-density population. From 923 badgers, including 425 cubs, we were able to assign maternity to 307 cubs, with both parents assigned to 199 cubs (47%) with 80% confidence, and 14% with 95% confidence. Age had a significant effect on the probability of reproduction, seemingly as a result of a deficit of individuals aged two years and greater than eight years attaining parentage. We estimate that approximately 30% of the female population successfully reproduced in any given year, with a similar proportion of the male population gaining paternity across the same area. While it was known there was a cost to female reproduction in high density populations, it appears that males suffer similar, but not greater, costs. Roughly half of assigned paternity was attributed to extra-group males, the majority of which were from neighbouring social groups. Few successful matings occurred between individuals born in the same social group (22%). The high rate of extra-group mating, previously unquantified, may help reduce inbreeding, potentially making philopatry a less costly strategy.

Published

2004

6. Mating system of the Eurasian badger, Meles meles, in a high density population

Author

Petra J, Carpenter, Lisa C, Pope, Carolyn, Greig, Deborah A, Dawson, Lucy M, Rogers, Kristien, Erven, Gavin J, Wilson, Richard J, Delahay, Chris L, Cheeseman, and Terry, Burke

Subjects

Male, Population Density, Sexual Behavior, Animal, Genotype, Reproduction, Mustelidae, Animals, Female, DNA, Maternal Behavior, Social Behavior, Paternal Behavior

Abstract

Badgers are facultatively social, forming large groups at high density. Group-living appears to have high reproductive costs for females, and may lead to increased levels of inbreeding. The extent of female competition for reproduction has been estimated from field data, but knowledge of male reproductive success and the extent of extra-group paternity remains limited. Combining field data with genetic data (16 microsatellite loci), we studied the mating system of 10 badger social groups across 14 years in a high-density population. From 923 badgers, including 425 cubs, we were able to assign maternity to 307 cubs, with both parents assigned to 199 cubs (47%) with 80% confidence, and 14% with 95% confidence. Age had a significant effect on the probability of reproduction, seemingly as a result of a deficit of individuals aged two years and greater than eight years attaining parentage. We estimate that approximately 30% of the female population successfully reproduced in any given year, with a similar proportion of the male population gaining paternity across the same area. While it was known there was a cost to female reproduction in high density populations, it appears that males suffer similar, but not greater, costs. Roughly half of assigned paternity was attributed to extra-group males, the majority of which were from neighbouring social groups. Few successful matings occurred between individuals born in the same social group (22%). The high rate of extra-group mating, previously unquantified, may help reduce inbreeding, potentially making philopatry a less costly strategy.

Published

2005