Your search keyword '"GIURGIU, Alexandru"' showing total 26 results

1. Allele Frequencies of Genetic Variants Associated with Varroa Drone Brood Resistance (DBR) in Apis mellifera Subspecies across the European Continent

Author

Lefebre, Regis, primary, De Smet, Lina, additional, Tehel, Anja, additional, Paxton, Robert J., additional, Bossuyt, Emma, additional, Verbeke, Wim, additional, van Dooremalen, Coby, additional, Ulgezen, Zeynep N., additional, van den Bosch, Trudy, additional, Schaafsma, Famke, additional, Valkenburg, Dirk-Jan, additional, Dall’Olio, Raffaele, additional, Alaux, Cedric, additional, Dezmirean, Daniel S., additional, Giurgiu, Alexandru I., additional, Capela, Nuno, additional, Simões, Sandra, additional, Sousa, José Paulo, additional, Bencsik, Martin, additional, McVeigh, Adam, additional, Ramsey, Michael Thomas, additional, Ahmad, Sausan, additional, Kumar, Tarun, additional, Schäfer, Marc O., additional, Beaurepaire, Alexis L., additional, Moro, Arrigo, additional, Flener, Claude J., additional, Matthijs, Severine, additional, and de Graaf, Dirk C., additional

Published

2024

2. Allele Frequencies of Genetic Variants Associated with Varroa Drone Brood Resistance (DBR) in Apis mellifera Subspecies across the European Continent

Author

Lefebre, Regis, De Smet, Lina, Tehel, Anja, Paxton, Robert John, Bossuyt, Emma, Verbeke, Wim, van Dooremalen, J.A., Ülgezen, Z.N., van den Bosch, G.B.M., Schaafsma, F., Valkenburg, D.J., Dall’Olio, Raffaele, Alaux, Cedric, Dezmirean, Daniel, Giurgiu, Alexandru-Ioan, Capela, Nuno, Simões, Sandra, Sousa, José Paulo, Bencsik, Martin, McVeigh, Adam, Ramsey, Michael Thomas, Ahmad, Sausan, Kumar, Tarun, Schäfer, Marc O., Beaurepaire, Alexis, Moro, Arrigo, Flener, Claude J., Matthijs, Severine, de Graaf, Dirk C., Lefebre, Regis, De Smet, Lina, Tehel, Anja, Paxton, Robert John, Bossuyt, Emma, Verbeke, Wim, van Dooremalen, J.A., Ülgezen, Z.N., van den Bosch, G.B.M., Schaafsma, F., Valkenburg, D.J., Dall’Olio, Raffaele, Alaux, Cedric, Dezmirean, Daniel, Giurgiu, Alexandru-Ioan, Capela, Nuno, Simões, Sandra, Sousa, José Paulo, Bencsik, Martin, McVeigh, Adam, Ramsey, Michael Thomas, Ahmad, Sausan, Kumar, Tarun, Schäfer, Marc O., Beaurepaire, Alexis, Moro, Arrigo, Flener, Claude J., Matthijs, Severine, and de Graaf, Dirk C.

Abstract

Implementation of marker-assisted selection (MAS) in modern beekeeping would improve sustainability, especially in breeding programs aiming for resilience against the parasitic mite Varroa destructor. Selecting honey bee colonies for natural resistance traits, such as brood-intrinsic suppression of varroa mite reproduction, reduces the use of chemical acaricides while respecting local adaptation. In 2019, eight genomic variants associated with varroa non-reproduction in drone brood were discovered in a single colony from the Amsterdam Water Dune population in the Netherlands.Recently, a new study tested the applicability of these eight genetic variants for the same phenotype on a population-wide scale in Flanders, Belgium. As the properties of some variants varied between the two studies, one hypothesized that the difference in genetic ancestry of the sampled colonies may underly these contribution shifts. In order to frame this, we determined the allele frequencies of the eight genetic variants in more than 360 Apis mellifera colonies across the European continent and found that variant type allele frequencies of these variants are primarily related to the A. mellifera subspecies or phylogenetic honey bee lineage. Our results confirm that population-specific genetic markers should always be evaluated in a new population prior to using them in MAS programs.

Published

2024

3. Bridging the Gap between Field Experiments and Machine Learning: The EC H2020 B-GOOD Project as a Case Study towards Automated Predictive Health Monitoring of Honey Bee Colonies

Author

van Dooremalen, J.A., Ülgezen, Z.N., Dall’Olio, Raffaele, Ugoline Godeau, Ugoline, Duan, Xiaodong, Sousa, José Paulo, Schäfer, Marc Oliver, Beaurepaire, Alexis, van Gennip, Pim, Schoonman, Marten, Claude Flener, Claude, Matthijs, Severine, Claeys Boúúaert, David, Verbeke, Wim, Freshley, Dana, Valkenburg, D.J., van den Bosch, G.B.M., Schaafsma, F., Peters, Jeroen, Xi, Mang, Le Conte, Yves, Alaux, Cedric, Dalmon, Anne, Paxton, Robert John, Tehel, Anja, Streicher, Tabea, Dezmirean, Daniel, Giurgiu, Alexandru-Ioan, Topping, Christopher John, williams, James Henty, Capela, Nuno, Lopes, Sara, Alves, Fátima, Alves, Joana, Bica, João, Horčičková, Eva, Simões, Sandra, Alves da Silva, António, Castro, Sílvia, Loureiro, João, Bencsik, Martin, McVeigh, Adam, Kumar, Tarun, Moro, Arrigo, van Delden, April, Ziółkowska, Elżbieta, Filipiak, Filipiak, Mikołajczyk, Łukasz, Leufgen, Kirsten, van Dooremalen, J.A., Ülgezen, Z.N., Dall’Olio, Raffaele, Ugoline Godeau, Ugoline, Duan, Xiaodong, Sousa, José Paulo, Schäfer, Marc Oliver, Beaurepaire, Alexis, van Gennip, Pim, Schoonman, Marten, Claude Flener, Claude, Matthijs, Severine, Claeys Boúúaert, David, Verbeke, Wim, Freshley, Dana, Valkenburg, D.J., van den Bosch, G.B.M., Schaafsma, F., Peters, Jeroen, Xi, Mang, Le Conte, Yves, Alaux, Cedric, Dalmon, Anne, Paxton, Robert John, Tehel, Anja, Streicher, Tabea, Dezmirean, Daniel, Giurgiu, Alexandru-Ioan, Topping, Christopher John, williams, James Henty, Capela, Nuno, Lopes, Sara, Alves, Fátima, Alves, Joana, Bica, João, Horčičková, Eva, Simões, Sandra, Alves da Silva, António, Castro, Sílvia, Loureiro, João, Bencsik, Martin, McVeigh, Adam, Kumar, Tarun, Moro, Arrigo, van Delden, April, Ziółkowska, Elżbieta, Filipiak, Filipiak, Mikołajczyk, Łukasz, and Leufgen, Kirsten

Abstract

Honey bee colonies have great societal and economic importance. The main challenge that beekeepers face is keeping bee colonies healthy under ever-changing environmental conditions. In the past two decades, beekeepers that manage colonies of Western honey bees (Apis mellifera) have become increasingly concerned by the presence of parasites and pathogens affecting the bees, the reduction in pollen and nectar availability, and the colonies’ exposure to pesticides, among others. Hence, beekeepers need to know the health condition of their colonies and how to keep them alive and thriving, which creates a need for a new holistic data collection method to harmonize the flow of information from various sources that can be linked at the colony level for different health determinants, such as bee colony, environmental, socioeconomic, and genetic statuses. For this purpose, we have developed and implemented the B-GOOD (Giving Beekeeping Guidance by computational-assisted Decision Making) project as a case study to categorize the colony’s health condition and find a Health Status Index (HSI). Using a 3-tier setup guided by work plans and standardized protocols, we have collected data from inside the colonies (amount of brood, disease load, honey harvest, etc.) and from their environment (floral resource availability). Most of the project’s data was automatically collected by the BEEP Base Sensor System. This continuous stream of data served as the basis to determine and validate an algorithm to calculate the HSI using machine learning. In this article, we share our insights on this holistic methodology and also highlight the importance of using a standardized data language to increase the compatibility between different current and future studies. We argue that the combined management of big data will be an essential building block in the development of targeted guidance for beekeepers and for the future of sustainable beekeeping.

Published

2024

4. Unraveling the Physicochemical, Nutritional and Antioxidant Properties of the Honey Produced from the Fallopia japonica Plant.

Author

Cucu, Alexandra-Antonia, Bobiș, Otilia, Bonta, Victorița, Moise, Adela Ramona, Pașca, Claudia, Cornea-Cipcigan, Mihaiela, Mărgăoan, Rodica, Dezsi, Ștefan, Botezan, Sara, Baciu, Ecaterina-Daniela, Giurgiu, Alexandru-Ioan, Mălinaș, Anamaria, and Dezmirean, Daniel Severus

Subjects

JAPANESE knotweed, BUCKWHEAT, HONEY, SUSTAINABILITY, ELECTRIC conductivity, INVASIVE plants, FLAVONOIDS, AMYLASES

Abstract

Fallopia japonica (FJ), commonly known as Japanese knotweed, is now recognized as one of the most invasive plants in Europe and globally. Despite its widespread presence in Europe and its significant nectar production, there is currently limited scientific data on the unique unifloral honey derived from it. This study examines the physicochemical composition of Fallopia japonica honey (FJH) samples collected from various regions in Romania. Additionally, the nutritional and antioxidant profiles of FJH were assessed. The sensory analysis revealed a honey with a brown-caramel color and an intense flavor, characterized by fine, consistent crystals during crystallization. The results indicated that FJH has a high carbohydrate content (fructose: 35.12–40.65 g/100 g; glucose: 28.06–37.79 g/100 g); elevated electrical conductivity (387–692 µS/cm), diastase activity (9.11–17.01 DN), and acidity (21.61–42.89 meq/kg); and substantial total phenolic (89.87–120.08 mg/100 g) and flavonoid (18.13–39.38 mg/g) contents. These findings highlight FJH's favorable nutritional properties, aligning with the standard codex for honey. The antioxidant profile of FJH demonstrated strong DPPH and ferric reduction antioxidant power (FRAP) activities, comparable to those of buckwheat honey, underscoring its potential health benefits and commercial value. These results provide new insights into how this invasive plant can be harnessed as a valuable resource for sustainable beekeeping practices. [ABSTRACT FROM AUTHOR]

Published

2024

5. Bridging the Gap between Field Experiments and Machine Learning: The EC H2020 B-GOOD Project as a Case Study towards Automated Predictive Health Monitoring of Honey Bee Colonies

Author

van Dooremalen, Coby, primary, Ulgezen, Zeynep N., additional, Dall’Olio, Raffaele, additional, Godeau, Ugoline, additional, Duan, Xiaodong, additional, Sousa, José Paulo, additional, Schäfer, Marc O., additional, Beaurepaire, Alexis, additional, van Gennip, Pim, additional, Schoonman, Marten, additional, Flener, Claude, additional, Matthijs, Severine, additional, Claeys Boúúaert, David, additional, Verbeke, Wim, additional, Freshley, Dana, additional, Valkenburg, Dirk-Jan, additional, van den Bosch, Trudy, additional, Schaafsma, Famke, additional, Peters, Jeroen, additional, Xu, Mang, additional, Le Conte, Yves, additional, Alaux, Cedric, additional, Dalmon, Anne, additional, Paxton, Robert J., additional, Tehel, Anja, additional, Streicher, Tabea, additional, Dezmirean, Daniel S., additional, Giurgiu, Alexandru I., additional, Topping, Christopher J., additional, Williams, James Henty, additional, Capela, Nuno, additional, Lopes, Sara, additional, Alves, Fátima, additional, Alves, Joana, additional, Bica, João, additional, Simões, Sandra, additional, Alves da Silva, António, additional, Castro, Sílvia, additional, Loureiro, João, additional, Horčičková, Eva, additional, Bencsik, Martin, additional, McVeigh, Adam, additional, Kumar, Tarun, additional, Moro, Arrigo, additional, van Delden, April, additional, Ziółkowska, Elżbieta, additional, Filipiak, Michał, additional, Mikołajczyk, Łukasz, additional, Leufgen, Kirsten, additional, De Smet, Lina, additional, and de Graaf, Dirk C., additional

Published

2024

6. Evaluation of Functional Properties of Some Lactic Acid Bacteria Strains for Probiotic Applications in Apiculture.

Author

Urcan, Adriana Cristina, Criste, Adriana Dalila, Bobiș, Otilia, Cornea-Cipcigan, Mihaiela, Giurgiu, Alexandru-Ioan, and Dezmirean, Daniel Severus

Subjects

LACTIC acid bacteria, PROBIOTICS, LACTOBACILLUS acidophilus, BEEKEEPING

Abstract

This study evaluates the suitability of three lactic acid bacteria (LAB) strains—Lactiplantibacillus plantarum, Lactobacillus acidophilus, and Apilactobacillus kunkeei—for use as probiotics in apiculture. Given the decline in bee populations due to pathogens and environmental stressors, sustainable alternatives to conventional treatments are necessary. This study aimed to assess the potential of these LAB strains in a probiotic formulation for bees through various in vitro tests, including co-culture interactions, biofilm formation, auto-aggregation, antioxidant activity, antimicrobial activity, antibiotic susceptibility, and resistance to high osmotic concentrations. This study aimed to assess both the individual effects of the strains and their combined effects, referred to as the LAB mix. Results indicated no mutual antagonistic activity among the LAB strains, demonstrating their compatibility with multi-strain probiotic formulations. The LAB strains showed significant survival rates under high osmotic stress and simulated gastrointestinal conditions. The LAB mix displayed enhanced biofilm formation, antioxidant activity, and antimicrobial efficacy against different bacterial strains. These findings suggest that a probiotic formulation containing these LAB strains could be used for a probiotic formulation, offering a promising approach to mitigating the negative effects of pathogens. Future research should focus on in vivo studies to validate the efficacy of these probiotic bacteria in improving bee health. [ABSTRACT FROM AUTHOR]

Published

2024

7. IMPACT OF WEATHER CHANGES ON BEE FAMILIES DEVELOPMENT AND PRODUCTION WITH SPECIAL REFERENCE TO TRANSYLVANIA AREA.

Author

BOBIŞ, Otilia, BONTA, Victoriţa, MOISE, Adela Ramona, PAŞCA, Claudia, GIURGIU, Alexandru Ioan, and DEZMIREAN, Daniel Severus

Subjects

FLOWERING time, ATMOSPHERIC temperature, AGRICULTURAL intensification, GLOBAL warming, THERMAL stresses, POLLINATORS

Abstract

Lately, there have been increasing efforts to stimulate the strategic role of the bees in biodiversity protection, in agriculture & horticulture. European Union (EU) has invested in the beekeeping sector in the last years by funding Farm to Fork strategy. The aim of this strategy is to protect them and preserve their contribution in sustainable environmental models. Biodiversity is decreasing by using intensive agriculture, chimization and automatization and consequently a decline in ecosystem services in many parts of the world, most representatives being pollination. Over the past three decades, there was an increasing in atmospheric temperature. Because of changes in plant flowering times patterns, the interaction between pollinators and their food sources is also affected. The challenges facing bee health have multiple sources, including poor nutrition due to less nectar source, heat stress resulting from global warming, agrochemicals used in agriculture, and pathogens becoming increasingly resistant to conventional treatments. However, thermal stress can negatively affect hive activity, which can affect foraging activity, immunocompetence, reproductive capacity, and the growth and development of bees. This, in turn, will affect pollination services and hive production overall. [ABSTRACT FROM AUTHOR]

Published

2024

8. Sericultural By-Products: The Potential for Alternative Therapy in Cancer Drug Design

Author

Baci, Gabriela-Maria, primary, Baciu, Ecaterina-Daniela, additional, Cucu, Alexandra-Antonia, additional, Muscă, Adriana-Sebastiana, additional, Giurgiu, Alexandru Ioan, additional, Moise, Adela Ramona, additional, Zăhan, Marius, additional, and Dezmirean, Daniel Severus, additional

Published

2023

9. Virus Prevalence in Egg Samples Collected from Naturally Selected and Traditionally Managed Honey Bee Colonies across Europe

Author

Claeys Bouuaert, David, primary, De Smet, Lina, additional, Brunain, Marleen, additional, Dahle, Bjørn, additional, Blacquière, Tjeerd, additional, Dalmon, Anne, additional, Dezmirean, Daniel, additional, Elen, Dylan, additional, Filipi, Janja, additional, Giurgiu, Alexandru, additional, Gregorc, Aleš, additional, Kefuss, John, additional, Locke, Barbara, additional, de Miranda, Joachim R., additional, Oddie, Melissa, additional, Panziera, Delphine, additional, Parejo, Melanie, additional, Pinto, Maria Alice, additional, and de Graaf, Dirk C., additional

Published

2022

10. Virus Prevalence in Egg Samples Collected from Naturally Selected and Traditionally Managed Honey Bee Colonies across Europe

Author

Genética, antropología física y fisiología animal, Genetika,antropologia fisikoa eta animalien fisiologia, Claeys Bouuaert, David, De Smet, Lina, Brunain, Marleen, Dahle, Bjørn, Blacquière, Tjeerd, Dalmon, Anne, Dezmirean, Daniel, Elen, Dylan, Filipi, Janja, Giurgiu, Alexandru, Gregorc, Aleš, Kefuss, John, Locke, Barbara, de Miranda, Joachim R., Oddie, Melissa, Panziera, Delphine, Parejo Feuz, Melanie, Pinto, Maria Alice, de Graaf, Dirk C., Genética, antropología física y fisiología animal, Genetika,antropologia fisikoa eta animalien fisiologia, Claeys Bouuaert, David, De Smet, Lina, Brunain, Marleen, Dahle, Bjørn, Blacquière, Tjeerd, Dalmon, Anne, Dezmirean, Daniel, Elen, Dylan, Filipi, Janja, Giurgiu, Alexandru, Gregorc, Aleš, Kefuss, John, Locke, Barbara, de Miranda, Joachim R., Oddie, Melissa, Panziera, Delphine, Parejo Feuz, Melanie, Pinto, Maria Alice, and de Graaf, Dirk C.

Abstract

Monitoring virus infections can be an important selection tool in honey bee breeding. A recent study pointed towards an association between the virus-free status of eggs and an increased virus resistance to deformed wing virus (DWV) at the colony level. In this study, eggs from both naturally surviving and traditionally managed colonies from across Europe were screened for the prevalence of different viruses. Screenings were performed using the phenotyping protocol of the ‘suppressed in ovo virus infection’ trait but with qPCR instead of end-point PCR and a primer set that covers all DWV genotypes. Of the 213 screened samples, 109 were infected with DWV, 54 were infected with black queen cell virus (BQCV), 3 were infected with the sacbrood virus, and 2 were infected with the acute bee paralyses virus. It was demonstrated that incidences of the vertical transmission of DWV were more frequent in naturally surviving than in traditionally managed colonies, although the virus loads in the eggs remained the same. When comparing virus infections with queen age, older queens showed significantly lower infection loads of DWV in both traditionally managed and naturally surviving colonies, as well as reduced DWV infection frequencies in traditionally managed colonies. We determined that the detection frequencies of DWV and BQCV in honey bee eggs were lower in samples obtained in the spring than in those collected in the summer, indicating that vertical transmission may be lower in spring. Together, these patterns in vertical transmission show that honey bee queens have the potential to reduce the degree of vertical transmission over time.

Published

2022

11. Dynamics in vertical transmission of viruses in naturally selected and traditionally managed honey bee colonies across Europe

Author

Claeys Bouuaert, David, De Smet, Lina, Brunain, Marleen, Dahle, Bjorn, Blacquiere, T., Dalmon, Anne, Dezmirean, Daniel, Elen, Dylan, Filipi, Janja, Giurgiu, Alexandru, Gregorc, Aleš, Kefuss, John, Locke, Barbara, de Miranda, Joachim R., Oddie, Melissa, Panziera, D., Parejo, Melanie, Pinto, M.A., de Graaf, Dirk C., Claeys Bouuaert, David, De Smet, Lina, Brunain, Marleen, Dahle, Bjorn, Blacquiere, T., Dalmon, Anne, Dezmirean, Daniel, Elen, Dylan, Filipi, Janja, Giurgiu, Alexandru, Gregorc, Aleš, Kefuss, John, Locke, Barbara, de Miranda, Joachim R., Oddie, Melissa, Panziera, D., Parejo, Melanie, Pinto, M.A., and de Graaf, Dirk C.

Abstract

The ‘suppressed in-ovo virus infection’ trait (SOV) was the first trait applied in honey bee breeding programs aimed to increase resilience to virus infections, a major threat for colony survival. By screening drone eggs for viruses, the SOV trait scores the antiviral resistance of queens and its implications for vertical transmission. In this study, queens from both naturally surviving and traditionally managed colonies from across Europe were screened using a two-fold improved SOV phenotyping protocol. First, a gel-based RT-PCR was replaced by a RT-qPCR. This not only allowed quantification of the infection load but also increased the test sensitivity. Second, a genotype specific primer set was replaced by a primer set that covered all known deformed wing virus (DWV) genotypes, which resulted in higher virus loads and fewer false negative results. It was demonstrated that incidences of vertical transmission of DWV were more frequent in naturally surviving populations than in traditionally managed colonies, although the virus load in the eggs remained the same. Dynamics in vertical transmission were further emphasized when comparing virus infections with queen age. Interestingly, older queens showed significantly lower infection loads of DWV in both traditionally managed and naturally surviving colonies, as well as reduced DWV infection frequencies in traditionally managed colonies when compared with younger queens. Seasonal variation in vertical transmission was found with lower infection frequencies in spring compared to summer for DWV and black queen cell virus. Together, these patterns in vertical transmission suggest an adaptive antiviral response of queens aimed at reducing vertical transmission over time.

Published

2022

12. Virus Prevalence in Egg Samples Collected from Naturally Selected and Traditionally Managed Honey Bee Colonies across Europe

Author

Claeys Bouuaert, David, De Smet, Lina, Brunain, Marleen, Dahle, Bjørn, Blacquière, Tjeerd, Dalmon, Anne, Dezmirean, Daniel, Elen, Dylan, Filipi, Janja, Giurgiu, Alexandru, Gregorc, Aleš, Kefuss, John, Locke, Barbara, De Miranda, Joachim R., Oddie, Melissa, Panziera, Delphine, Parejo, Melanie, Pinto, Maria Alice, De Graaf, Dirk C., Claeys Bouuaert, David, De Smet, Lina, Brunain, Marleen, Dahle, Bjørn, Blacquière, Tjeerd, Dalmon, Anne, Dezmirean, Daniel, Elen, Dylan, Filipi, Janja, Giurgiu, Alexandru, Gregorc, Aleš, Kefuss, John, Locke, Barbara, De Miranda, Joachim R., Oddie, Melissa, Panziera, Delphine, Parejo, Melanie, Pinto, Maria Alice, and De Graaf, Dirk C.

Abstract

Monitoring virus infections can be an important selection tool in honey bee breeding. A recent study pointed towards an association between the virus-free status of eggs and an increased virus resistance to deformed wing virus (DWV) at the colony level. In this study, eggs from both naturally surviving and traditionally managed colonies from across Europe were screened for the prevalence of different viruses. Screenings were performed using the phenotyping protocol of the ‘suppressed in ovo virus infection’ trait but with qPCR instead of end-point PCR and a primer set that covers all DWV genotypes. Of the 213 screened samples, 109 were infected with DWV, 54 were infected with black queen cell virus (BQCV), 3 were infected with the sacbrood virus, and 2 were infected with the acute bee paralyses virus. It was demonstrated that incidences of the vertical transmission of DWV were more frequent in naturally surviving than in traditionally managed colonies, although the virus loads in the eggs remained the same. When comparing virus infections with queen age, older queens showed significantly lower infection loads of DWV in both traditionally managed and naturally surviving colonies, as well as reduced DWV infection frequencies in traditionally managed colonies. We determined that the detection frequencies of DWV and BQCV in honey bee eggs were lower in samples obtained in the spring than in those collected in the summer, indicating that vertical transmission may be lower in spring. Together, these patterns in vertical transmission show that honey bee queens have the potential to reduce the degree of vertical transmission over time.

Published

2022

13. Dynamics in vertical transmission of viruses in naturally selected and traditionally managed honey bee colonies across Europe

Author

Claeys Bouuaert, David, primary, De Smet, Lina, additional, Brunain, Marleen, additional, Dahle, Bjørn, additional, Blacquière, Tjeerd, additional, Dalmon, Anne, additional, Dezmirean, Daniel, additional, Dylan, Elen, additional, Filipi, Janja, additional, Giurgiu, Alexandru, additional, Gregorc, Aleš, additional, Kefuss, John, additional, Locke, Barbara, additional, de Miranda, Joachim R., additional, Oddie, Melissa, additional, Panziera, Delphine, additional, Parejo, Melanie, additional, Pinto, Alice M., additional, and de Graaf, Dirk C., additional

Published

2022

14. THE IMPACT OF TWO ANTICOAGULANTS ON ERYTHROCYTES MORPHOLOGY IN DIFFERENT VERTEBRATE SPECIES

Author

COCAN, Daniel, primary, MIREŞAN, Vioara, additional, RĂDUCU, Camelia, additional, UIUIU, Paul, additional, GIURGIU, Alexandru, additional, PĂPUC, Tudor, additional, CONSTANTINESCU, Radu, additional, and LAŢIU, Călin, additional

Published

2022

15. Advances in Editing Silkworms (Bombyx mori) Genome by Using the CRISPR-Cas System

Author

Baci, Gabriela-Maria, primary, Cucu, Alexandra-Antonia, additional, Giurgiu, Alexandru-Ioan, additional, Muscă, Adriana-Sebastiana, additional, Bagameri, Lilla, additional, Moise, Adela Ramona, additional, Bobiș, Otilia, additional, Rațiu, Attila Cristian, additional, and Dezmirean, Daniel Severus, additional

Published

2021

16. Juvenile hormone pathway in honey bee larvae:A source of possible signal molecules for the reproductive behavior of Varroa destructor

Author

Aurori, Cristian M., Giurgiu, Alexandru Ioan, Conlon, Benjamin H., Kastally, Chedly, Dezmirean, Daniel S., Routtu, Jarkko, Aurori, Adriana, Aurori, Cristian M., Giurgiu, Alexandru Ioan, Conlon, Benjamin H., Kastally, Chedly, Dezmirean, Daniel S., Routtu, Jarkko, and Aurori, Adriana

Abstract

The parasitic mite Varroa destructor devastates honey bee (Apis mellifera) colonies around the world. Entering a brood cell shortly before capping, the Varroa mother feeds on the honey bee larvae. The hormones 20-hydroxyecdysone (20E) and juvenile hormone (JH), acquired from the host, have been considered to play a key role in initiating Varroa's reproductive cycle. This study focuses on differential expression of the genes involved in the biosynthesis of JH and ecdysone at six time points during the first 30 hr after cell capping in both drone and worker larvae of A. mellifera. This time frame, covering the conclusion of the honey bee brood cell invasion and the start of Varroa's ovogenesis, is critical to the successful initiation of a reproductive cycle. Our findings support a later activation of the ecdysteroid cascade in honey bee drones compared to worker larvae, which could account for the increased egg production of Varroa in A. mellifera drone cells. The JH pathway was generally downregulated confirming its activity is antagonistic to the ecdysteroid pathway during the larva development. Nevertheless, the genes involved in JH synthesis revealed an increased expression in drones. The upregulation of jhamt gene involved in methyl farnesoate (MF) synthesis came into attention since the MF is not only a precursor of JH but it is also an insect pheromone in its own right as well as JH-like hormone in Acari. This could indicate a possible kairomone effect of MF for attracting the mites into the drone brood cells, along with its potential involvement in ovogenesis after the cell capping, stimulating Varroa's initiation of egg laying.

Published

2021

17. Juvenile hormone pathway in honey bee larvae: A source of possible signal molecules for the reproductive behavior ofVarroa destructor

Author

Aurori, Cristian M., primary, Giurgiu, Alexandru‐Ioan, additional, Conlon, Benjamin H., additional, Kastally, Chedly, additional, Dezmirean, Daniel S., additional, Routtu, Jarkko, additional, and Aurori, Adriana, additional

Published

2020

18. Varroa Destructor and the Sustainability of Apis Mellifera - an Overview

Author

GIURGIU, Alexandru Ioan, primary, MOISE, Adela Ramona, additional, and DEZMIREAN, Daniel Severus, additional

Published

2020

19. A gene for resistance to the Varroa mite (Acari) in honey bee (Apis mellifera) pupae

Author

Conlon, Benjamin H., Aurori, Adriana, Giurgiu, Alexandru Ioan, Kefuss, John, Dezmirean, Daniel S., Moritz, Robin F. A., Routtu, Jarkko, Conlon, Benjamin H., Aurori, Adriana, Giurgiu, Alexandru Ioan, Kefuss, John, Dezmirean, Daniel S., Moritz, Robin F. A., and Routtu, Jarkko

Abstract

Social insect colonies possess a range of defences which protect them against highly virulent parasites and colony collapse. The host–parasite interaction between honey bees (Apis mellifera) and the mite Varroa destructor is unusual, as honey bee colonies are relatively poorly defended against this parasite. The interaction has existed since the mid-20th Century, when Varroa switched host to parasitize A. mellifera. The combination of a virulent parasite and relatively naïve host means that, without acaricides, honey bee colonies typically die within 3 years of Varroa infestation. A consequence of acaricide use has been a reduced selective pressure for the evolution of Varroa resistance in honey bee colonies. However, in the past 20 years, several natural-selection-based breeding programmes have resulted in the evolution of Varroa-resistant populations. In these populations, the inhibition of Varroa's reproduction is a common trait. Using a high-density genome-wide association analysis in a Varroa-resistant honey bee population, we identify an ecdysone-induced gene significantly linked to resistance. Ecdysone both initiates metamorphosis in insects and reproduction in Varroa. Previously, using a less dense genetic map and a quantitative trait loci analysis, we have identified Ecdysone-related genes at resistance loci in an independently evolved resistant population. Varroa cannot biosynthesize ecdysone but can acquire it from its diet. Using qPCR, we are able to link the expression of ecdysone-linked resistance genes to Varroa's meals and reproduction. If Varroa co-opts pupal compounds to initiate and time its own reproduction, mutations in the host's ecdysone pathway may represent a key selection tool for honey bee resistance and breeding.

Published

2019

20. THE IMPACT OF TWO ANTICOAGULANTS ON ERYTHROCYTES MORPHOLOGY IN DIFFERENT VERTEBRATE SPECIES.

Author

COCAN, Daniel, MIREŞAN, Vioara, RĂDUCU, Camelia, UIUIU, Paul, GIURGIU, Alexandru, PĂPUC, Tudor, CONSTANTINESCU, Radu, and LAȚIU, Călin

Subjects

ANTICOAGULANTS, ERYTHROCYTES, CELL morphology, BLOOD sampling, HEPARIN

Abstract

In this study, we aimed to highlight the influence of anticoagulants on erythrocyte morphometry in different vertebrate species. Anticoagulants are a category of substances that inhibit blood clotting through various mechanisms. Due to this property, they are used to collect blood samples for a wide range of laboratory tests. The literature mentions that the use of anticoagulants produces morphological changes of erythrocytes, thus influencing results. Blood samples were collected from three warm-blooded vertebrate species (horse, rabbit, and chicken) and one lower vertebrate species with nucleated erythrocytes (fish) in vacutainers with Heparin and EDTA (ethylenediaminetetraacetic acid), in a normal concentration and a double concentration. At the time of harvesting, control smears were performed. In order to be able to compare the effects produced by anticoagulants on the morphology of erythrocytes, they were evaluated morphometrically at intervals of 3, 6, and 24 hrs. after harvest. The following features were evaluated using the Toup View software: length, width, surface and perimeter of erythrocytes for species with anucleated erythrocytes. The same characteristics were evaluated in the nucleus for species with nucleated erythrocytes. The data obtained were processed with statistical programs to highlight changes in erythrocyte morphology produced by anticoagulants. [ABSTRACT FROM AUTHOR]

Published

2021

21. A gene for resistance to the Varroa mite (Acari) in honey bee (Apis mellifera) pupae

Author

Conlon, Benjamin H., primary, Aurori, Adriana, additional, Giurgiu, Alexandru‐Ioan, additional, Kefuss, John, additional, Dezmirean, Daniel S., additional, Moritz, Robin F. A., additional, and Routtu, Jarkko, additional

Published

2019

22. Juvenile hormone pathway in honey bee larvae: A source of possible signal molecules for the reproductive behavior of Varroa destructor.

Author

Aurori, Cristian M., Giurgiu, Alexandru‐Ioan, Conlon, Benjamin H., Kastally, Chedly, Dezmirean, Daniel S., Routtu, Jarkko, and Aurori, Adriana

Subjects

*VARROA destructor, *HONEYBEES, *JUVENILE hormones, *ANIMAL sexual behavior, *INSECT pheromones, *BEE colonies

Abstract

The parasitic mite Varroa destructor devastates honey bee (Apis mellifera) colonies around the world. Entering a brood cell shortly before capping, the Varroa mother feeds on the honey bee larvae. The hormones 20‐hydroxyecdysone (20E) and juvenile hormone (JH), acquired from the host, have been considered to play a key role in initiating Varroa's reproductive cycle. This study focuses on differential expression of the genes involved in the biosynthesis of JH and ecdysone at six time points during the first 30 hr after cell capping in both drone and worker larvae of A. mellifera. This time frame, covering the conclusion of the honey bee brood cell invasion and the start of Varroa's ovogenesis, is critical to the successful initiation of a reproductive cycle. Our findings support a later activation of the ecdysteroid cascade in honey bee drones compared to worker larvae, which could account for the increased egg production of Varroa in A. mellifera drone cells. The JH pathway was generally downregulated confirming its activity is antagonistic to the ecdysteroid pathway during the larva development. Nevertheless, the genes involved in JH synthesis revealed an increased expression in drones. The upregulation of jhamt gene involved in methyl farnesoate (MF) synthesis came into attention since the MF is not only a precursor of JH but it is also an insect pheromone in its own right as well as JH‐like hormone in Acari. This could indicate a possible kairomone effect of MF for attracting the mites into the drone brood cells, along with its potential involvement in ovogenesis after the cell capping, stimulating Varroa's initiation of egg laying. [ABSTRACT FROM AUTHOR]

Published

2021

23. MICROSCOPICAL TECHNIQUES USED IN MELISSOPALINOLOGY FOR BOTANICAL ORIGIN OF HONEY DETERMINATION.

Author

BAGAMERI, Lilla, GIURGIU, Alexandru Ioan, BACI, Gabriela Maria, BOBIŞ, Otilia, and DEZMIREAN, Daniel Severus

Subjects

*MICROSCOPICAL technique, *HONEY, *PHASE-contrast microscopy, *POLLEN, *MICROSCOPY, *LASER microscopy

Abstract

The paper aimed to present the microscopic techniques used in botanical origin determination of honey samples, shortly melissopalynology. This technique is used for microscopic examination of pollen grains to determine the botanical origin of honey. It is known that a certain number of pollen grains must be recovered from sediment of honey solution, and the presence of small amounts of pollen may be related to falsification. Identification of pollen structure is generally made using light microscopy; phase contrast microscopy may be also used. Fluorescence microscopy is also a powerful method in palynology. Confocal laser scanning microscopy is effective in revealing the ultrastructure of pollen outer layer and shape of the pollen. The determination of the botanical origin of honey using palynology is based on the relative frequency of the pollen belonging to nectariferous plants. Honey is considered monofloral if the pollen from the sediment comes predominantly from a named botanical origin and overpasses 45% from the total count of pollen grains counted on the microscopic slide. [ABSTRACT FROM AUTHOR]

Published

2021

24. PARASITES DISEASES DETERMINATION IN AN UNTREATED LOCAL POPULATION OF APIS MELLIFERA FOR IT'S NATURAL RESISTANCE DEVELOPMENT.

Author

GIURGIU, Alexandru Ioan, MOISE, Adela Ramona, PASCA, Claudia, and DEZMIREAN, Daniel Severus

Subjects

*NATURAL immunity, *VARROA destructor, *HONEYBEES, *PARASITES, *NATURAL selection, *BEE colonies, *VARROA

Abstract

Over the last few years, the honeybees faced a significant decline worldwide. Despite many biotic and abiotic stressors, one of the leading causes of honeybee colony loses is Varroa destructor, followed by Nosema spp.. Given the importance of honeybee in agriculture and a significantly increased resistance to treatments identified in Varroa destructor, a more sustainable method to counter this mite is needed. One of these sustainable methods is breeding for resistance to Varroa destructor. Due to the rising number of honeybee populations with potential resistance to Varroa destructor, a new promising breeding plan for natural selection was proposed. This breeding plan was adapted and implemented on a local population of honey bees in Transilvania, with the primary objective of obtaining resistant colonies to Varroa destructor. Development of these colonies was observed, and analysis of Varroa infestation level and Nosema spp. was performed to assess the health status of the population or the cause of mortality. [ABSTRACT FROM AUTHOR]

Published

2021

25. Advances in Editing Silkworms (Bombyx mori) Genome by Using the CRISPR-Cas System.

Author

Baci, Gabriela-Maria, Cucu, Alexandra-Antonia, Giurgiu, Alexandru-Ioan, Muscă, Adriana-Sebastiana, Bagameri, Lilla, Moise, Adela Ramona, Bobiș, Otilia, Rațiu, Attila Cristian, and Dezmirean, Daniel Severus

Subjects

GENOME editing, BIOLOGICAL systems, LIFE sciences, GENOMES, SILKWORMS, RECOMBINANT proteins, CRISPRS

Abstract

Simple Summary: One of the most powerful gene editing approaches is the CRISPR (clustered regularly interspaced short palindromic repeats)-Cas (CRISPR-associated) tool. The silkworm (Bombyx mori) has a great impact on the global economy, playing a pivotal role in the sericulture industry. However, B. mori came into the spotlight by representing one of science's greatest contributors, being used to establish extraordinary bioreactors for the production of target proteins and illustrating a great experimental model organism. Herein, we focus on progress made in the field of B. mori's genome manipulation by using CRISPR-Cas. In order to edit B. mori's genome, remarkable advances were made, such as exposing gene functions and developing mutant lines that exhibit enhanced resistance against B. mori nucleopolyhedrovirus (BmNPV). We also discuss how CRISPR-Cas accelerated the fundamental investigation in B. mori, and beyond, thus highlighting the great potential of the insect's biotechnology in numerous scientific fields. CRISPR (clustered regularly interspaced short palindromic repeats)-Cas (CRISPR-associated) represents a powerful genome editing technology that revolutionized in a short period of time numerous natural sciences branches. Therefore, extraordinary progress was made in various fields, such as entomology or biotechnology. Bombyx mori is one of the most important insects, not only for the sericulture industry, but for numerous scientific areas. The silkworms play a key role as a model organism, but also as a bioreactor for the recombinant protein production. Nowadays, the CRISPR-Cas genome editing system is frequently used in order to perform gene analyses, to increase the resistance against certain pathogens or as an imaging tool in B. mori. Here, we provide an overview of various studies that made use of CRISPR-Cas for B. mori genome editing, with a focus on emphasizing the high applicability of this system in entomology and biological sciences. [ABSTRACT FROM AUTHOR]

Published

2022

26. Juvenile hormone pathway in honey bee larvae: A source of possible signal molecules for the reproductive behavior of Varroa destructor .

Author

Aurori CM, Giurgiu AI, Conlon BH, Kastally C, Dezmirean DS, Routtu J, and Aurori A

Abstract

The parasitic mite Varroa destructor devastates honey bee ( Apis mellifera ) colonies around the world. Entering a brood cell shortly before capping, the Varroa mother feeds on the honey bee larvae. The hormones 20-hydroxyecdysone (20E) and juvenile hormone (JH), acquired from the host, have been considered to play a key role in initiating Varroa's reproductive cycle. This study focuses on differential expression of the genes involved in the biosynthesis of JH and ecdysone at six time points during the first 30 hr after cell capping in both drone and worker larvae of A. mellifera . This time frame, covering the conclusion of the honey bee brood cell invasion and the start of Varroa's ovogenesis, is critical to the successful initiation of a reproductive cycle. Our findings support a later activation of the ecdysteroid cascade in honey bee drones compared to worker larvae, which could account for the increased egg production of Varroa in A. mellifera drone cells. The JH pathway was generally downregulated confirming its activity is antagonistic to the ecdysteroid pathway during the larva development. Nevertheless, the genes involved in JH synthesis revealed an increased expression in drones. The upregulation of jhamt gene involved in methyl farnesoate (MF) synthesis came into attention since the MF is not only a precursor of JH but it is also an insect pheromone in its own right as well as JH-like hormone in Acari. This could indicate a possible kairomone effect of MF for attracting the mites into the drone brood cells, along with its potential involvement in ovogenesis after the cell capping, stimulating Varroa's initiation of egg laying., Competing Interests: None declared., (© 2020 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2020