Your search keyword '"Diapause"' showing total 14,060 results

1. Altered circadian rhythm, sleep, and rhodopsin 7-dependent shade preference during diapause in Drosophila melanogaster.

Author

Meyerhof, Geoff, Easwaran, Sreesankar, Bontempo, Angela, Montell, Craig, and Montell, Denise

Subjects

Drosophila melanogaster, circadian rhythm, diapause, sleep, Animals, Drosophila melanogaster, Sleep, Circadian Rhythm, Rhodopsin, Drosophila Proteins, Photoperiod, Temperature, Light, Diapause, Insect

Abstract

To survive adverse environments, many animals enter a dormant state such as hibernation, dauer, or diapause. Various Drosophila species undergo adult reproductive diapause in response to cool temperatures and/or short day-length. While flies are less active during diapause, it is unclear how adverse environmental conditions affect circadian rhythms and sleep. Here we show that in diapause-inducing cool temperatures, Drosophila melanogaster exhibit altered circadian activity profiles, including severely reduced morning activity and an advanced evening activity peak. Consequently, the flies have a single activity peak at a time similar to when nondiapausing flies take a siesta. Temperatures ≤15 °C, rather than photoperiod, primarily drive this behavior. At cool temperatures, flies rapidly enter a deep-sleep state that lacks the sleep cycles of flies at higher temperatures and require high levels of stimulation for arousal. Furthermore, we show that at 25 °C, flies prefer to siesta in the shade, a preference that is virtually eliminated at 10 °C. Resting in the shade is driven by an aversion to blue light that is sensed by Rhodopsin 7 outside of the eyes. Flies at 10 °C show neuronal markers of elevated sleep pressure, including increased expression of Bruchpilot and elevated Ca2+ in the R5 ellipsoid body neurons. Therefore, sleep pressure might overcome blue light aversion. Thus, at the same temperatures that cause reproductive arrest, preserve germline stem cells, and extend lifespan, D. melanogaster are prone to deep sleep and exhibit dramatically altered, yet rhythmic, daily activity patterns.

Published

2024

2. Temperature-dependent phototaxis in overwintering adults of the grasshopper Patanga japonica (Orthoptera, Acrididae)

Author

Tanaka, Seiji and Pensoft Publishers

Subjects

Body temperature, daily activity, Diapause, thermoregulation

Published

2024

3. Symbiotic bacteria and fungi proliferate in diapause and may enhance overwintering survival in a solitary bee

Author

Christensen, Shawn M, Srinivas, Sriram N, McFrederick, Quinn S, Danforth, Bryan N, Buchmann, Stephen L, and Vannette, Rachel L

Subjects

Microbiology, Biological Sciences, Ecology, Microbiome, Infectious Diseases, Infection, Animals, Bees, Symbiosis, Bacteria, Fungi, Larva, Gastrointestinal Microbiome, Seasons, Host Microbial Interactions, Diapause, core microbiome, host-microbe, solitary bee, insect development, host–microbe, Environmental Sciences, Technology, Biological sciences, Environmental sciences

Abstract

Host-microbe interactions underlie the development and fitness of many macroorganisms, including bees. Whereas many social bees benefit from vertically transmitted gut bacteria, current data suggests that solitary bees, which comprise the vast majority of species diversity within bees, lack a highly specialized gut microbiome. Here, we examine the composition and abundance of bacteria and fungi throughout the complete life cycle of the ground-nesting solitary bee Anthophora bomboides standfordiana. In contrast to expectations, immature bee stages maintain a distinct core microbiome consisting of Actinobacterial genera (Streptomyces, Nocardiodes) and the fungus Moniliella spathulata. Dormant (diapausing) larval bees hosted the most abundant and distinctive bacteria and fungi, attaining 33 and 52 times their initial copy number, respectively. We tested two adaptive hypotheses regarding microbial functions for diapausing bees. First, using isolated bacteria and fungi, we found that Streptomyces from brood cells inhibited the growth of multiple pathogenic filamentous fungi, suggesting a role in pathogen protection during overwintering, when bees face high pathogen pressure. Second, sugar alcohol composition changed in tandem with major changes in fungal abundance, suggesting links with bee cold tolerance or overwintering biology. We find that A. bomboides hosts a conserved core microbiome that may provide key fitness advantages through larval development and diapause, which raises the question of how this microbiome is maintained and faithfully transmitted between generations. Our results suggest that focus on microbiomes of mature or active insect developmental stages may overlook stage-specific symbionts and microbial fitness contributions during host dormancy.

Published

2024

4. Molecular characterization of a novel thioredoxin‐related transmembrane protein gene AcTMX3 that plays important roles in antioxidant defence in Arma chinensis diapause.

Author

Luo, Qiaozhi, Mao, Jianjun, Li, Yuyan, Wang, Mengqing, Zhang, Lisheng, and Shen, Zhongjian

Subjects

*PROTEIN disulfide isomerase, *MEMBRANE proteins, *MOLECULAR chaperones, *DIAPAUSE, *FAT

Abstract

Protein disulphide isomerase (PDI) possesses disulphide isomerase, oxidoreductase and molecular chaperone activities, and is involved in regulating various physiological processes. However, there are few studies on the function in insect diapause. In this study, we cloned one novel member PDI family (TMX3, thioredoxin‐related transmembrane protein 3) in Arma chinensis. The AcTMX3 encodes 426 amino acids that contains a predicted N‐terminal signal sequence, a thioredoxin‐like domain with the CXXC active site and a potential transmembrane region, which are typical sequence features of TMX3. RT‐qPCR results showed that AcTMX3 was mainly expressed in the head under non‐diapause conditions, while AcTMX3 was highly expressed in the fat body (central metabolic organ) under diapause conditions. Moreover, temporal expression profile showed that compared with non‐diapause conditions, diapause conditions significantly induced AcTMX3 expression, and the expression of AcTMX3 was enhanced at 15°C. Silencing AcTMX3 in A. chinensis significantly inhibited the expression of antioxidant genes (AcTrx2 and AcTrx‐like), increased the content of H2O2 and ascorbate and reduced the survival rate of A. chinensis under diapause conditions. Our results suggested that AcTMX3 played an important role in the resistance of A. chinensis to oxidative stress under diapause conditions. [ABSTRACT FROM AUTHOR]

Published

2024

5. Relationship of PSC to embryos: Extending and refining capture of PSC lines from mammalian embryos.

Author

Ying, Qi‐Long and Nichols, Jennifer

Subjects

*EMBRYONIC stem cells, *MAMMALIAN embryos, *PLURIPOTENT stem cells, *CELL separation, *STEM cell research

Abstract

Pluripotent stem cell lines derived from preimplantation mouse embryos have opened opportunities for the study of early mammalian development and generation of genetically uncompromised material for differentiation into specific cell types. Murine embryonic stem cells are highly versatile and can be engineered and introduced into host embryos, transferred to recipient females, and gestated to investigate gene function at multiple levels as well as developmental mechanisms, including lineage segregation and cell competition. In this review, we summarize the biomedical motivation driving the incremental modification to culture regimes and analyses that have advanced stem cell research to its current state. Ongoing investigation into divergent mechanisms of early developmental processes adopted by other species, such as agriculturally beneficial mammals and birds, will continue to enrich knowledge and inform strategies for future in vitro models. [ABSTRACT FROM AUTHOR]

Published

2024

6. The Field Assessment of Quiescent Egg Populations of Aedes aegypti and Aedes albopictus during the Dry Season in Tapachula, Chiapas, Mexico, and Its Potential Impact on Vector Control Strategies.

Author

Navarro-Kraul, José Ignacio, Vázquez, Luis Alberto Cisneros, Paiz-Moscoso, Keila Elizabeth, Danis-Lozano, Rogelio, Dávila-Barboza, Jesús A, Lopez-Monroy, Beatriz, Sánchez-Casas, Rosa María, Domínguez-Galera, Marco Antonio, Mis-Avila, Pedro Christian, and Fernandez-Salas, Ildefonso

Abstract

Simple Summary: The role of mosquito eggs in disease transmission is not well understood, despite reports of virus vertical transmission and their ability to survive dry periods in a dormant stage. Additionally, field evidence shows that new generations of mosquitoes often reappear weeks or months later in certain city areas. This may be because both species follow an "R strategy" reproduction pattern, laying many eggs to ensure survival in a harsh environment. This study was conducted in southern Mexico in 2023 and focused on the egg-laying activity of Ae. aegypti and Ae. albopictus mosquitoes during the dry inter-epidemic season. Ovitraps were used in the backyards of the houses to identify egg species, and further larval containers were surveyed. Most of the larval habitats were containers smaller than 1 L, commonly not treated as they were considered trash. Even though homeowners volunteer to remove them during government cleaning community-based campaigns, city waste disposal trucks transporting these containers do not take any measures to destroy the tiny eggs. We conclude with the urgent need to develop an egg-killing treatment, which could significantly enhance vector reduction and achieve a total stage strategy within the Integrated Vector Control Programs. Although integrated management and control programs implement intense control measures for adult, pupal, larval, and breeding sites during outbreaks, there is a lack of studies to understand the role of the vector egg stage in disease dynamics. This study aimed to assess the dry season quiescent Aedes aegypti and Aedes albopictus egg populations in houses and backyards in Tapachula, southern Mexico. Two hundred and fifty ovitraps were placed in 125 homes in the Las Americas neighborhood. A total of 7290 eggs were collected from 211 (84.4%) ovitraps. Only 5667 (77.7%) hatched under insectary water immersion and food supply conditions, with 4031 (71.1%) identified as Ae. aegypti, and 1636 (28.8%) as Ae. albopictus, respectively. The remaining 1623 (22.3%) did not hatch due to Delayed Hatching and/or quiescence tropical stage. Eighty-three larval containers were sampled with desiccated eggs during the dry season; most of them were described as trash waste because larvicides are only used for larger containers of 5–10 L. Evolutionary characteristics for the two species including partial egg hatching, ambient-regulated quiescence, the ability of the embryo to survive for a more extended period intra-seasonally, the egg sticking to inner container walls, demands urgent operational research to achieve successful egg-proof larval container methods. [ABSTRACT FROM AUTHOR]

Published

2024

7. A Study of Monarch Butterfly (Danaus plexippus L.) Migration and Its Establishment.

Author

Chaffin, Eugene F.

Subjects

*INSECT host plants, *ANIMAL migration, *MONARCH butterfly, *DESERT locust, *DIAPAUSE

Abstract

The fact that the monarch butterfly (Danaus plexippus L.) migrates from Canada to central Mexico is a well-known fact. Here, the migration of the Eastern and Western populations of monarchs is described. This article will not be a field study but an attempt to synthesize a theory of how this migration could originate in a young-Earth context, given that butterflies were created essentially as seen today or will be assumed to have originated this way. The Uvarov Phase Theory is discussed as it applies to desert locusts and its possible relation to the unique migratory generation of monarchs, that is, the larger size of the Fall migratory individuals, and the importance of diapause. The establishment of this interesting migratory pattern is discussed in terms of geography and topography and related to the unique flight abilities of these butterflies. [ABSTRACT FROM AUTHOR]

Published

2024

8. Sensory integration of food and population density during the diapause exit decision involves insulin-like signaling in Caenorhabditis elegans.

Author

Zhang, Mark G., Seyedolmohadesin, Maedeh, Mercado, Soraya Hawk, Tauffenberger, Arnaud, Park, Heenam, Finnen, Nerissa, Schroeder, Frank C., Venkatachalam, Vivek, and Sternberg, Paul W.

Subjects

*SENSORIMOTOR integration, *LIFE cycles (Biology), *SENSORY perception, *GENE expression, *CAENORHABDITIS elegans

Abstract

Decisions made over long time scales, such as life cycle decisions, require coordinated interplay between sensory perception and sustained gene expression. The Caenorhabditis elegans dauer (or diapause) exit developmental decision requires sensory integration of population density and food availability to induce an all-or-nothing organismal-wide response, but the mechanism by which this occurs remains unknown. Here, we demonstrate how the Amphid Single Cilium J (ASJ) chemosensory neurons, known to be critical for dauer exit, perform sensory integration at both the levels of gene expression and calcium activity. In response to favorable conditions, dauers rapidly produce and secrete the dauer exit-promoting insulin-like peptide INS-6. Expression of ins-6 in the ASJ neurons integrates population density and food level and can reflect decision commitment since dauers committed to exiting have higher ins-6 expression levels than those of noncommitted dauers. Calcium imaging in dauers reveals that the ASJ neurons are activated by food, and this activity is suppressed by pheromone, indicating that sensory integration also occurs at the level of calcium transients. We find that ins-6 expression in the ASJ neurons depends on neuronal activity in the ASJs, cGMP signaling, and the pheromone components ascr#8 and ascr#2. We propose a model in which decision commitment to exit the dauer state involves an autoregulatory feedback loop in the ASJ neurons that promotes high INS-6 production and secretion. These results collectively demonstrate how insulin-like peptide signaling helps animals compute long-term decisions by bridging sensory perception to decision execution. [ABSTRACT FROM AUTHOR]

Published

2024

9. Dormancy, Quiescence, and Diapause: Savings Accounts for Life.

Author

Özgüldez, Hatice Özge and Bulut-Karslioğlu, Aydan

Abstract

Life on Earth has been through numerous challenges over eons and, one way or another, has always triumphed. From mass extinctions to more daily plights to find food, unpredictability is everywhere. The adaptability of life-forms to ever-changing environments is the key that confers life's robustness. Adaptability has become synonymous with Darwinian evolution mediated by heritable genetic changes. The extreme gene-centric view, while being of central significance, at times has clouded our appreciation of the cell as a self-regulating entity informed of, and informing, the genetic data. An essential element that powers adaptability is the ability to regulate cell growth. In this review, we provide an extensive overview of growth regulation spanning species, tissues, and regulatory mechanisms. We aim to highlight the commonalities, as well as differences, of these phenomena and their molecular regulators. Finally, we curate open questions and areas for further exploration. [ABSTRACT FROM AUTHOR]

Published

2024

10. The diapausing mosquito Culex pipiens exhibits reduced levels of H3K27me2 in the fat body.

Author

Wei, Xueyan, Dhungana, Prabin, and Sim, Cheolho

Subjects

*CULEX pipiens, *TRANSCRIPTION factors, *WEST Nile virus, *HISTONE methylation, *ENERGY consumption, *FORKHEAD transcription factors

Abstract

Culex pipiens, the northern house mosquito, is a major vector of West Nile virus. To survive the severe winter, adult mosquitoes enter a diapause programme. Extended lifespan and an increase in lipid storage are key indicators of diapause. Post‐translational modifications to histone proteins impact the expression of genes and have been linked to the lifespan and energy utilisation of numerous insects. Here, we investigated the potential contribution of epigenetic alterations in initiating diapause in this mosquito species. Multiple sequence alignment of H3 sequences from other insect species demonstrates a high conservation of the H3 histone in Cx. pipiens throughout evolution. We then compared the levels of histone methylation in the ovaries and fat body tissues of diapausing and non‐diapausing Cx. pipiens using western blots. Our data indicate that histone methylation levels in the ovaries of Cx. pipiens do not change during diapause. In contrast, H3K27me2 levels decrease more than twofold in the fat body of diapausing mosquitoes relative to non‐diapausing counterparts. H3K27 methylation plays a crucial role in chromosome activation and inactivation during development in many insect species. This is predominantly governed by polycomb repressor complex 2. Intriguingly, a previous ChIP‐seq study demonstrated that the transcription factor FOXO (Forkhead box O) targets the genes that comprise this complex. In addition, H3K27me2 exhibits dynamic abundance throughout the diapause programme in Cx. pipiens, suggesting its potential role in the initial activation of the diapause programme. This study expands our understanding of the relationship between alterations in epigenetic regulation and diapause. [ABSTRACT FROM AUTHOR]

Published

2024

11. Hitting and Unhitting the Pause Button: Variable Hatching Patterns of Annual Killifish Embryos Over a Wetland Wet–Dry Cycle.

Author

Weber, Vinicius, Alonso, Felipe, Godoy, Robson Souza, Lanés, Luis Esteban Krause, Pires, Mateus Marques, Stenert, Cristina, Gava, Adriana, and Maltchik, Leonardo

Subjects

*VERNAL pools, *KILLIFISHES, *DIAPAUSE, *HEDGING (Finance), *EGGS, *EGG incubation

Abstract

ABSTRACT Hatching dynamics is key to population structure of annual fishes in temporary wetlands. Given the risk of false starts due to unpredictable hydroperiods, annual fish may employ risk‐spreading strategies in their hatching patterns consistent with bet hedging (such as the partial hatching of their egg bank and variable number of hatching cues) after being exposed to floods. However, the extent to which annual fish resort to bet hedging (as well as their potential drivers) over a wet–dry cycle is poorly understood. We assessed the hatching patterns of a South American killifish (Matilebias cyaneus; Cyprinodontiformes: Rivulidae) collected at different hydrological phases of a temporary wetland to test for variation in bet hedging over a wet–dry cycle. We incubated wild eggs of M. cyaneus obtained from male–female pairings separately reared in tanks originating in the ‘early‐wet’, ‘drying’ and ‘late‐wet’ phases of a temporary wetland and examined hatching patterns across a sequence of hydration trials under common‐garden conditions. We found variation in (i) the number of hatched and unhatched eggs and (ii) the number of hatched eggs across hydration trials among clutches from each phase (while controlling for parentage). Our results show that M. cyaneus variably commit to bet‐hedging hatching strategies over a wet–dry cycle, and suggest that the environmental conditions at specific periods of the year and the parental age at which eggs are produced drive annual fish hatching patterns. [ABSTRACT FROM AUTHOR]

Published

2024

12. Genome-wide analysis reveals transcriptional and translational changes during diapause of the Asian corn borer (Ostrinia furnacalis).

Author

Yang, Xingzhuo, Zhao, Xianguo, Zhao, Zhangwu, and Du, Juan

Subjects

*LIFE cycles (Biology), *LINCRNA, *GENE expression profiling, *GENETIC transcription regulation, *PHYSIOLOGICAL adaptation, *DIAPAUSE

Abstract

Background: Diapause, a pivotal phase in the insect life cycle, enables survival during harsh environmental conditions. Unraveling the gene expression profiles of the diapause process helps uncover the molecular mechanisms that underlying diapause, which is crucial for understanding physiological adaptations. In this study, we utilize RNA-seq and Ribo-seq data to examine differentially expressed genes (DEGs) and translational efficiency during diapause of Asian corn borer (Ostrinia furnacalis, ACB). Results: Our results unveil genes classified as "forwarded", "exclusive", "intensified", or "buffered" during diapause, shedding light on their transcription and translation regulation patterns. Furthermore, we explore the landscape of lncRNAs (long non-coding RNAs) during diapause and identify differentially expressed lncRNAs, suggesting their roles in diapause regulation. Comparative analysis of different types of diapause in insects uncovers shared and unique KEGG pathways. While shared pathways highlight energy balance, exclusive pathways in the ACB larvae indicate insect-specific adaptations related to nutrient utilization and stress response. Interestingly, our study also reveals dynamic changes in the HSP70 gene family and proteasome pathway during diapause. Manipulating HSP protein levels and proteasome pathway by HSP activator or inhibitor and proteasome inhibitor affects diapause, indicating their vital role in the process. Conclusions: In summary, these findings enhance our knowledge of how insects navigate challenging conditions through intricate molecular mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

13. A quantitative model of temperature-dependent diapause progression.

Author

von Schmalensee, Loke, Süess, Philip, Roberts, Kevin T., Gotthard, Karl, and Lehmann, Philipp

Subjects

*DIAPAUSE, *COLD (Temperature), *SPRING, *LOW temperatures, *PUPAE

Abstract

Winter diapause in insects is commonly terminated through cold exposure, which, like vernalization in plants, prevents development before spring arrives. Currently, quantitative understanding of the temperature dependence of diapause termination is limited, likely because diapause phenotypes are generally cryptic to human eyes. We introduce a methodology to tackle this challenge. By consecutively moving butterfly pupae of the species Pieris napi from several different cold conditions to 20 °C, we show that diapause termination proceeds as a temperature-dependent rate process, with maximal rates at relatively cold temperatures and low rates at warm and extremely cold temperatures. Further, we show that the resulting thermal reaction norm can predict P. napi diapause termination timing under variable temperatures. Last, we show that once diapause is terminated in P. napi, subsequent development follows a typical thermal performance curve, with a maximal development rate at around 31 °C and a minimum at around 2 °C. The sequence of these thermally distinct processes (diapause termination and postdiapause development) facilitates synchronous spring eclosion in nature; cold microclimates where diapause progresses quickly do not promote fast postdiapause development, allowing individuals in warmer winter microclimates to catch up, and vice versa. The unveiling of diapause termination as one temperature-dependent rate process among others promotes a parsimonious, quantitative, and predictive model, wherein winter diapause functions both as an adaptation against premature development during fall and winter and for synchrony in spring. [ABSTRACT FROM AUTHOR]

Published

2024

14. Reproductive Strategies and Embryonic Development of Autumn-Spawning Bitterling (Acheilognathus rhombeus) within the Mussel Host.

Author

Kim, Hyeongsu, Choe, Jongryeol, and Ko, Myeonghun

Subjects

*EMBRYOLOGY, *FISH eggs, *FRESHWATER mussels, *ECOSYSTEM dynamics, *BIOLOGICAL fitness

Abstract

Simple Summary: This study explores how the autumn-spawning bitterling, Acheilognathus rhombeus, reproduces and develops within its mussel host. The research highlights how these fish lay their eggs inside mussels, which then serve as a safe environment for the eggs to develop over winter. A critical phase, called diapause, allows the embryos to pause their development for about seven months, ensuring they survive the cold winter months. Once the temperature rises above 10 °C, development resumes. During this time, tiny structures on the embryos called minute tubercles help anchor them within the mussel, preventing them from being expelled prematurely. These findings provide valuable insights into the complex relationship between the bitterlings and their mussel hosts, revealing important evolutionary adaptations that aid in the reproductive success and survival of these fish. We investigated the reproductive strategies and embryonic development of Acheilognathus rhombeus (a bitterling species that spawns in autumn) within its freshwater mussel host in the Bongseo Stream, South Korea. By focusing on survival mechanisms during critical stages of embryonic development, the selective use of mussel gill demibranchs by the bitterlings and associated adaptive traits were observed over 1 year. A significant diapause phase occurs at developmental stage D, which lasts for approximately 7 months, allowing embryos to survive winter. Development resumes when the temperature exceeds 10 °C. Minute tubercles on the embryos (crucial for anchoring within the host gill demibranchs and preventing premature ejection) exhibit the largest height during diapause, and the height decreases when developmental stage E is reached, when growth resumes. Acheilognathus rhombeus embryos were observed in 30.5% of the mussels, mostly within the inner gills, thereby maximizing spatial use and oxygen access to enhance survival. These results highlight the intricate relationship between A. rhombeus and its mussel hosts, demonstrating the evolutionary adaptations that enhance reproductive success and survival. This study provides valuable insights into the ecological dynamics and conservation requirements of such symbiotic relationships. [ABSTRACT FROM AUTHOR]

Published

2024

15. Transcriptome-Wide Evaluation Characterization of microRNAs and Assessment of Their Functional Roles as Regulators of Diapause in Ostrinia furnacalis Larvae (Lepidoptera: Crambidae).

Author

Ma, Hongyue, Liu, Ye, Tian, Xun, Chen, Yujie, and Gao, Shujing

Subjects

*GENE expression, *INSECT growth, *INSECT development, *NON-coding RNA, *ENVIRONMENTAL history, *CIRCADIAN rhythms, *DIAPAUSE

Abstract

Simple Summary: Diapause is a state in which insects respond to environmental changes, leading to developmental stagnation, which is crucial in the life history of insects. miRNA regulates the expression of genes after transcription and participates in the regulation of important biological processes of insect growth and development. In this study, we screened differentially expressed miRNAs (DEMs) in non-diapause/diapause and diapause/non-diapause comparison groups of Ostrinia furnacalis and predicted their target genes. The expression patterns of key target genes Kr-h, JHE, JHEH, FOXO, Cry, and Per in diapause-related metabolic pathways at different stages of diapause were opposite to those of miRNAs, suggesting their regulatory roles in the diapause process. This study improves the scientific understanding of diapause in O. furnacalis; the learning can be applied to other insects. microRNAs (miRNAs) function as vital regulators of diapause in insects through their ability to post-transcriptionally suppress target gene expression. In this study, the miRNA of Ostrinia furnacalis, an economically important global crop pest species, was characterized. For the included analyses, 9 small RNA libraries were constructed using O. furnacalis larvae in different diapause states (non-diapause, ND; diapause, D; diapause-termination, DT). The results identified 583 total miRNAs, of which 256 had previously been identified, whereas 327 were novel. Furthermore, comparison analysis revealed that 119 and 27 miRNAs were differentially expressed in the D vs. ND and DT vs. D, respectively. Moreover, the expression patterns of their miRNAs were also analyzed. GO and KEGG analysis of the target genes of differentially expressed miRNAs highlighted the importance of these miRNAs as diapause regulators in O. furnacalis, especially through metabolic processes, endocrine processes, 20-hydroxyecdysone, and circadian clock signaling pathways. In summary, this study highlighted the involvement of specific miRNAs in the control of diapause in O. furnacalis. To the best of our knowledge, this is the first study to identify miRNA expression patterns in O. furnacalis, thereby providing reference and novel evidence enhancing our current understanding of how small RNAs influence insect diapause. [ABSTRACT FROM AUTHOR]

Published

2024

16. Life history and overwintering in multi‐ and univoltine species of family Tephritidae in a subtropical region of northwestern Argentina.

Author

Moyano, Andrea, Van Nieuwenhove, Guido, Diaz, Viviana, Abraham, Solana, Ovruski, Sergio, and Rull, Juan

Subjects

*NATURAL history, *MEDITERRANEAN fruit-fly, *LIFE cycles (Biology), *PLANT life cycles, *HOST plants

Abstract

Among phytophagous insects, life history often evolves as a strategy to cope with seasonality in host plant availability. Whereas specialization often leads to dormancy, aestivation, or longevity, polyphagous species bridge between periods of host availability by exploiting alternative host plants. The aim of the present work was to characterize the life histories of four species of specialist and generalist uni‐ and multivoltine frugivorous fruit flies – Ceratitis capitata Wiedemann, Anastrepha fraterculus Wiedemann, Rhagoletis blanchardi Aczel, and Rhagoletotrypeta pastranai Aczel (all Diptera: Tephritidae) – inhabiting in sympatry in Las Yungas phytogeographical province in Tucumán (northwestern Argentina). For this purpose, infested host plant fruits were sequentially collected during two consecutive years, and flies recovered from these fruits were subjected to demographic experiments to establish longevity and overwintering mechanisms. The results indicated that life cycles were tightly related to host fruit availability, where multivoltine species sequentially exploit different host plants over the year, whereas univoltine species must undergo pupal dormancy to reach the next host fructification period and may extend the duration of dormancy when climatic conditions are acyclic and unpredictable. The present study may broaden knowledge about diapausing Tephritidae in subtropical regions and may contribute to an increased conceptual basis for the improvement of pest control strategies, such as the sterile insect technique (SIT). [ABSTRACT FROM AUTHOR]

Published

2024

17. Conserved cold tolerance of Rhagoletis species from different host fruits and elevations in Colorado, USA.

Author

Lemay, Katelyn, Moore, Mackenzie, Brown, Paige, Gadey, Lahari, Ragland, Gregory J., and Toxopeus, Jantina

Subjects

*AUTUMN, *LOW temperatures, *SEA level, *CRABAPPLES, *SUPERCOOLING

Abstract

Understanding and characterizing how insects tolerate low temperatures is important for predicting their overwintering survival and subsequent geographic spread. This study characterized the cold tolerance of two members of the Rhagoletis genus (Diptera: Tephritidae) in Colorado, USA. Pupae were collected from the infested fruits in late summer and early fall. For the first time, we show that the rosehip fly Rhagoletis basiola Osten Sacken is freeze‐avoidant; overwintering pupae could supercool to temperatures as low as −26°C and survive. Interestingly, the temperature at which ice forms (supercooling point; SCP) did not vary between R. basiola at high (c. 2900 m above sea level [m a.s.l.]) and lower (c. 1650 m a.s.l.) elevations. We also report the apple maggot R. pomonella Walsh infesting an unusual host fruit, the Dolgo crabapple, in close proximity to infested hawthorn trees. R. pomonella infesting hawthorn fruits and crabapples had similar SCPs and survived temperatures as low as −21°C. Pupae from both host fruits also survived prolonged exposure (2 weeks or more) to mild low temperatures (0 to −5°C). Further study into the mechanisms underlying the impressive and conserved cold tolerance of R. pomonella and R. basiola is an interesting avenue for future research. [ABSTRACT FROM AUTHOR]

Published

2024

18. Genome-wide analysis reveals transcriptional and translational changes during diapause of the Asian corn borer (Ostrinia furnacalis)

Author

Xingzhuo Yang, Xianguo Zhao, Zhangwu Zhao, and Juan Du

Subjects

Ostrinia furnacalis, RNA-seq, Ribo-seq, Diapause, LncRNAs, Biology (General), QH301-705.5

Abstract

Abstract Background Diapause, a pivotal phase in the insect life cycle, enables survival during harsh environmental conditions. Unraveling the gene expression profiles of the diapause process helps uncover the molecular mechanisms that underlying diapause, which is crucial for understanding physiological adaptations. In this study, we utilize RNA-seq and Ribo-seq data to examine differentially expressed genes (DEGs) and translational efficiency during diapause of Asian corn borer (Ostrinia furnacalis, ACB). Results Our results unveil genes classified as “forwarded”, “exclusive”, “intensified”, or “buffered” during diapause, shedding light on their transcription and translation regulation patterns. Furthermore, we explore the landscape of lncRNAs (long non-coding RNAs) during diapause and identify differentially expressed lncRNAs, suggesting their roles in diapause regulation. Comparative analysis of different types of diapause in insects uncovers shared and unique KEGG pathways. While shared pathways highlight energy balance, exclusive pathways in the ACB larvae indicate insect-specific adaptations related to nutrient utilization and stress response. Interestingly, our study also reveals dynamic changes in the HSP70 gene family and proteasome pathway during diapause. Manipulating HSP protein levels and proteasome pathway by HSP activator or inhibitor and proteasome inhibitor affects diapause, indicating their vital role in the process. Conclusions In summary, these findings enhance our knowledge of how insects navigate challenging conditions through intricate molecular mechanisms.

Published

2024

19. An empirical model for predicting insects' diapause termination and phenology: An application to Cydia pomonella.

Author

Sperandio, Giorgio, Pasquali, Sara, Pradolesi, Gianfranco, Baiocco, Serena, Cavina, Federico, and Gilioli, Gianni

Subjects

*INSECT phenology, *INTEGRATED pest control, *INSECT populations, *INSECT pests, *DIAPAUSE, *CODLING moth

Abstract

Diapause is a vital survival strategy for insects, enabling them to conserve energy and endure adverse conditions. Understanding how diapause affects insect phenology and population dynamics is crucial for the effective management of insect pests. Predictive pest phenological models can be invaluable tools for providing essential information to support management strategies. This study presents a modelling framework to incorporate diapause into phenological models when biological information on variables regulating and functions describing diapause induction and termination are lacking or limited. In our framework, insect phenology is divided into a set of phases characterized by specific events (diapause induction and termination) and processes (development of diapausing and post‐diapausing biological stages). The phenology is simulated by a stage‐structured model based on the Kolmogorov equation, and the temperature‐dependent development rate functions are described by the Brière functional form. Our modelling framework was tested on a case study involving the prediction of the phenology of the codling moth, (Cydia pomonella L. 1758). Model calibration and validation were performed using four time‐series adult trap catch data collected in the Emilia Romagna Region from 2021 to 2023. The calibration procedure allowed obtaining realistic parameters related to the temperature threshold triggering diapause termination and the development rate function of post‐diapausing larvae and pupae. Model validation proved successful in simulating both the initial emergence and the overall phenological patterns of adults across the three observed generations. The methodological framework proposed here aims to facilitate the introduction of diapause in phenological models improving also their predictive abilities. The model may serve as an accurate and knowledge‐based tool for planning and implementing pest monitoring and control actions based on the realistic predictions provided by the model on the phenological status of the pest. [ABSTRACT FROM AUTHOR]

Published

2024

20. Changes in bumblebee queen gut microbiotas during and after overwintering diapause.

Author

Hotchkiss, Michelle Z., Forrest, Jessica R. K., and Poulain, Alexandre J.

Subjects

*QUEENS (Insects), *MICROBIAL communities, *SHOTGUN sequencing, *DIAPAUSE, *GUT microbiome

Abstract

Bumblebees are key pollinators with gut microbiotas that support host health. After bumblebee queens undergo winter diapause, which occurs before spring colony establishment, their gut microbiotas are disturbed, but little is known about community dynamics during diapause itself. Queen gut microbiotas also help seed worker microbiotas, so it is important that they recover post‐diapause to a typical community structure, a process that may be impeded by pesticide exposure. We examined how bumblebee queen gut microbiota community structure and metabolic potential shift during and after winter diapause, and whether post‐diapause recovery is affected by pesticide exposure. To do so, we placed commercial Bombus impatiens queens into diapause, euthanizing them at 0, 2 and 4 months of diapause. Additionally, we allowed some queens to recover from diapause for 1 week before euthanasia, exposing half to the common herbicide glyphosate. Using whole‐community, shotgun metagenomic sequencing, we found that core bee gut phylotypes dominated queen gut microbiotas before, during and after diapause, but that two phylotypes, Schmidhempelia and Snodgrassella, ceased to be detected during late diapause and recovery. Despite fluctuations in taxonomic community structure, metabolic potential remained constant through diapause and recovery. Also, glyphosate exposure did not affect post‐diapause microbiota recovery. However, metagenomic assembly quality and our ability to detect microbial taxa and metabolic pathways declined alongside microbial abundance, which was substantially reduced during diapause. Our study offers new insights into how bumblebee queen gut microbiotas change taxonomically and functionally during a key life stage and provides guidance for future microbiota studies in diapausing bumblebees. [ABSTRACT FROM AUTHOR]

Published

2024

21. Molecular identification of two thioredoxin genes and their function in antioxidant defense in Arma chinensis diapause.

Author

Zhongjian Shen, Qiaozhi Luo, Jianjun Mao, Yuyan Li, Mengqing Wang, and Lisheng Zhang

Subjects

REACTIVE oxygen species, DIAPAUSE, HYDROGEN peroxide, OXIDATIVE stress, FAT

Abstract

Thioredoxin (Trx), an important part of thioredoxin systems, plays crucial role in maintaining the intracellular redox balance by scavenging reactive oxygen species (ROS). However, few Trxs have been functionally characterized in Arma chinensis, especially in diapause. In this study, diapause induction condition promoted hydrogen peroxide accumulation and increased CAT enzymatic activity and ascorbate content, suggesting that A. chinensis was exposed to high level of ROS. Therefore, we identified AcTrx2 and AcTrx-like, and investigated the relationship with antioxidant defense. It was found that AcTrx2 expression was significantly induced, whereas AcTrx-like expression was the highest on day 10 under diapause conditions. The expression of AcTrx2 and AcTrx-like in fat body, a central metabolic organ of resisting oxidative stress, was significantly increased under diapause conditions, and was significantly improved by 5/15°C (diapause temperature).We investigated the knockdown of AcTrx2 and AcTrx-like in A. chinensis and found that some selected antioxidant genes were upregulated, indicating that the upregulated genes may be functional compensation for AcTrx2 and AcTrx-like silencing. We also found that the enzymatic activities of SOD and CAT, and the metabolite contents of hydrogen peroxide, ascorbate increased after AcTrx2 and AcTrx-like knockdown. These results suggested the AcTrx2 and AcTrx-like may play critical roles in antioxidant defense of A. chinensis diapause. [ABSTRACT FROM AUTHOR]

Published

2024

22. Experimental Approaches to Controlled Diapause in Mammals.

Author

Brusentsev, E. Yu., Rakhmanova, T. A., Rozhkova, I. N., Okotrub, S. V., Kozeneva, V. S., and Amstislavsky, S. Ya.

Subjects

*DIAPAUSE, *ECOSYSTEMS, *GENETIC variation, *PUTRESCINE, *EMBRYOS, *MICE

Abstract

Diapause is a coping strategy characteristic to many invertebrates and vertebrates including more than 100 mammalian species. Preserving the genetic diversity of rare and endangered diapausing species is important for maintaining ecological systems. The purpose of this work was to compare the surgical model of diapause and the pharmacological model based on injecting DL-α-difluoromethylornithine (DL-α-DFMO) into mice. Another goal was to investigate the intriguing possibility of controlling the state of diapause in vitro by exposing murine embryos to putrescine and/or DL-α-DFMO. Although the pharmacological model a priori seems to be attractive for applying it to other mammalian species besides mice, since it does not require surgical intervention, our results on mice demonstrated that this model is less effective compared to the traditional surgical model of diapause. Our data indicates that the effects of DL-α-DFMO on mouse embryos are mediated via its effect on the uterus, as it was not possible to maintain dormancy state in diapausing embryos in vitro by this agent. Meanwhile, in vitro exposure to putrescine facilitates the re-activation of diapausing embryos, as evidenced by the higher rate of blastocysts adhesion and the more advanced stages of ICM outgrowth compared to controls. Our results on mice presented hereby indicate that the surgical model is more reliable than DL-α-DFMO diapause model. Moreover, our results proved that putrescine is a potent tool to re-activate murine diapausing embryos in vitro; this may be considered an ecologically important issue relevant to the conservation problem. [ABSTRACT FROM AUTHOR]

Published

2024

23. Pupal diapause in Hypocosmia pyrochroma (Lepidoptera: Pyralidae), a biological control agent for Dolichandra unguis-cati (Bignoniaceae).

Author

Dhileepan, Kunjithapatham

Subjects

*BIOLOGICAL pest control agents, *DIAPAUSE, *SPRING, *SOLAR radiation, *AUTUMN

Abstract

Cats claw creeper leaf-tying moth Hypocosmia pyrochroma (Lepidoptera: Pyralidae) enter pupal diapause in the soil from middle of autumn (April), in response to declining photoperiod. Proportion of larvae entering pupal diapause increased with decreasing Daily Solar Radiation (DSR), and all larvae completing development in winter under low DSR entered pupal diapause. Under natural photoperiod, adults emerged from pupal diapause, from late spring (October) to middle of summer (January), with peak adult emergence in late spring (November) and early summer (December). Pupae did not undergo diapause when the entire development (eggs and all larval instars) occurred under prolonged photoperiod (14 L:10D). However, it was not possible to terminate the pupal diapause either by prolonging photoperiod or by increasing the temperate regimes. Based on larval incidence in the field it is proposed that H. pyrochroma is a bivoltine species with overlapping generations. [ABSTRACT FROM AUTHOR]

Published

2024

24. Seasonality of forest insects: why diapause matters.

Author

Schebeck, Martin, Lehmann, Philipp, Laparie, Mathieu, Bentz, Barbara J., Ragland, Gregory J., Battisti, Andrea, and Hahn, Daniel A.

Subjects

*FOREST insects, *INSECT populations, *ANTHROPOGENIC effects on nature, *DIAPAUSE, *FUNCTIONAL groups

Abstract

Diapause is a strategy in insects to mitigate seasonal stress and synchronize lifecycles with favorable times. Forests are 3D, dynamic ecosystems with contrasting microhabitats where numerous insects enter diapause and the duration of diapause affects their phenology. Ecologically important forest insects, like defoliators, bark breeders, or soil/litter-dwelling species have diverse diapause strategies. Anthropogenic change, like climate change and urbanization, has and will have substantial impacts on forest insects. Some species may increase their impact on ecosystems, while that of others may be reduced. Understanding how climate change or urbanization factors, like artificial light at night and the urban-heat-island effect, affect diapause may help develop generalizable rules to predict which species will show population expansion and which are likely to contract. Insects have major impacts on forest ecosystems, from herbivory and soil-nutrient cycling to killing trees at a large scale. Forest insects from temperate, tropical, and subtropical regions have evolved strategies to respond to seasonality; for example, by entering diapause, to mitigate adversity and to synchronize lifecycles with favorable periods. Here, we show that distinct functional groups of forest insects; that is, canopy dwellers, trunk-associated species, and soil/litter-inhabiting insects, express a variety of diapause strategies, but do not show systematic differences in diapause strategy depending on functional group. Due to the overall similarities in diapause strategies, we can better estimate the impacts of anthropogenic change on forest insect populations and, consequently, on key ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

25. Comparative Proteomics and Metabonomics Analysis of Different Diapause Stages Revealed a New Regulation Mechanism of Diapause in Loxostege sticticalis (Lepidoptera: Pyralidae).

Author

Shao, Lijun, Yue, Fangzheng, Fan, Jinfu, Su, Qin, Liu, Hairui, Zhang, Quanyi, and Xu, Linbo

Subjects

*PHYSIOLOGY, *TIME series analysis, *HISTONE deacetylase, *HISTONE acetylation, *GENE expression, *DIAPAUSE, *PROTEOMICS

Abstract

Histone acetylation is an important epigenetic mechanism that has been shown to play a role in diapause regulation. To explore the physiological and molecular mechanisms of histone deacetylase in the diapause process, LC-MS/MS analysis was used to perform TMT proteomic and metabolomic analysis on non-diapause (ND), pre-diapause (PreD), diapause (D), cold treatment (CT), and post-diapause (RD) stages of the meadow moth. A total of 5367 proteins were identified by proteomics, including 1179 differentially expressed proteins. We found 975 (602 up-regulated and 373 down-regulated), 997 (608 up-regulated and 389 down-regulated), 1119 (726 up-regulated and 393 down-regulated), 1179 (630 up-regulated and 549 down-regulated), 94 (51 up-regulated and 43 down-regulated), 111 (63 up-regulated and 48 down-regulated), 533 (243 up-regulated and 290 down-regulated), 58 (31 up-regulated and 27 down-regulated), and 516 (228 up-regulated and 288 down-regulated) proteins in ND and PreD, ND and D, ND and CT, ND and RD, PreD and D, PreD and CT, PreD and RD, D and CT, D and RD, and CT and RD stages, respectively. A total of 1255 differentially expressed metabolites were annotated by metabolomics. Through KEGG analysis and time series analysis of differentially expressed metabolites, we found that phospholipids were annotated in significantly different modules, demonstrating their important role in the diapause process of the meadow moth. Using phospholipids as an indicator for weighted gene co-expression network analysis, we analyzed the most relevant differentially expressed proteins in the module and found that ribosomal 40s and 60s subunits were the most relevant proteins for diapause. Because there have been studies that have shown that histone deacetylase is associated with the diapause of meadow moths, we believe that histone deacetylase regulates the 40s and 60s subunits of ribosomes, which in turn affects the diapause of meadow moths. This finding expands our understanding of the regulation of meadow moth diapause and provides new insights into its control mechanism. [ABSTRACT FROM AUTHOR]

Published

2024

26. Integrating ATAC-Seq and RNA-Seq Reveals the Signal Regulation Involved in the Artemia Embryonic Reactivation Process.

Author

Li, Anqi, Song, Zhentao, Zhang, Mingzhi, Duan, Hu, Sui, Liying, Wang, Bin, and Hao, Tong

Subjects

*CELL receptors, *METABOLIC regulation, *ANIMAL models in research, *CELLULAR signal transduction, *NUCLEOTIDE sequencing, *NOTCH genes, *DIAPAUSE

Abstract

Embryonic diapause is a common evolutionary adaptation observed across a wide range of organisms. Artemia is one of the classic animal models for diapause research. The current studies of Artemia diapause mainly focus on the induction and maintenance of the embryonic diapause, with little research on the molecular regulatory mechanism of Artemia embryonic reactivation. The first 5 h after embryonic diapause breaking has been proved to be most important for embryonic reactivation in Artemia. In this work, two high-throughput sequencing methods, ATAC-seq and RNA-seq, were integrated to study the signal regulation process in embryonic reactivation of Artemia at 5 h after diapause breaking. Through the GO and KEGG enrichment analysis of the high-throughput datasets, it was showed that after 5 h of diapause breaking, the metabolism and regulation of Artemia cyst were quite active. Several signal transduction pathways were identified in the embryonic reactivation process, such as G-protein-coupled receptor (GPCR) signaling pathway, cell surface receptor signaling pathway, hormone-mediated signaling pathway, Wnt, Notch, mTOR signaling pathways, etc. It indicates that embryonic reactivation is a complex process regulated by multiple signaling pathways. With the further protein structure analysis and RT-qPCR verification, 11 GPCR genes were identified, in which 5 genes function in the embryonic reactivation stage and the other 6 genes contribute to the diapause stage. The results of this work reveal the signal transduction pathways and GPCRs involved in the embryonic reactivation process of Artemia cysts. These findings offer significant clues for in-depth research on the signal regulatory mechanisms of the embryonic reactivation process and valuable insights into the mechanism of animal embryonic diapause. [ABSTRACT FROM AUTHOR]

Published

2024

27. Dormancy of a specialist herbivore, Anthonomus rufipennis (Coleoptera: Curculionidae), in a dry tropical forest.

Author

Jones, Robert Wallace and Luna-Cozar, Jesus

Subjects

TROPICAL dry forests, CURCULIONIDAE, BEETLES, DIAPAUSE, OVIPARITY

Abstract

The life history aspects of dormancy of the weevil Anthonomus rufipennis LeConte (Coleoptera: Curculionidae) were studied a 57-month period in a seasonally dry tropical forest of central Mexico. Weevil populations and their physiological status were monitored on both the reproductive host tree, Senna polyantha (Collad.) H.S: Irwin & Barneby (Fabales: Fabaceae) and the highly favored refuge host, Tillandsia recurvata L. (Poales: Bromeliaceae) or "ball moss." During the dry season, weevils were only found on the refuge host with a mean total density of 1.014 ± 2.532 individuals/ball moss (N  = 1,681). Weevil densities on T. recurvata between early and late dry seasons were not significantly different, suggesting that dry season survival was relatively high. Weevils collected during these seasons revealed little reproductive development and relatively high-fat accumulation in both sexes. During 5 of 6 yr, densities of the weevils in T. recurvata dropped significantly during the early rainy seasons, when the reproductive host trees leafed out and began producing oviposition sites (flower buds). At this time, more males than females initially moved to vegetative trees and showed significant signs of reproductive development. Recolonization of ball moss by weevils began during the late rainy season when oviposition sites (flower buds) were still available. A proportion of the weevils remained on the reproductive host, suggesting that A. rufipennis is facultatively multivoltine. The methodologies and results of the study can serve as a model system for future studies of the dormancy of other insects in dry tropical forests and provide insight into the dormancy of other anthonomine weevils of economic importance. [ABSTRACT FROM AUTHOR]

Published

2024

28. Key roles of insulin receptor InR1 in initiating reproductive diapause in males of the cabbage beetle Colaphellus bowringi (Coleoptera: Chrysomelidae).

Author

Zhang, Yi‐Ke, Zhang, Han‐Xue, An, Hao‐Min, Wang, Kou, Zhu, Fen, Liu, Wen, and Wang, Xiao‐Ping

Subjects

INSULIN receptors, DIAPAUSE, RNA interference, CHRYSOMELIDAE, INSECT populations, SMALL interfering RNA, CABBAGE

Abstract

BACKGROUND: Reproductive diapause serves as a valuable strategy enabling insects to survive unfavorable seasonal conditions. However, forcing insects into diapause when the environment is conducive to their well‐being can cause them to miss out on seasonal opportunities for reproduction. This outcome not only reduces insect populations but also minimizes crop losses caused by insect feeding. Therefore, altering the timing of diapause initiation presents a potential strategy for managing pests. In this study, we examined the possible role of the Insulin Receptor 1 (InR1) in controlling reproductive diapause entry in the male cabbage beetle, Colaphellus bowringi. RESULTS: Compared to short‐day (SD) conditions, long‐day (LD) conditions led to reproductive diapause of C. bowringi males, characterized by arrested gonad development, increased Triglyceride (TG) accumulation, and upregulated expression of diapause protein 1 and genes associated with lipogenesis and stress tolerance. Upon employing RNA interference to knock down InR1 under SD conditions, males destined for reproduction were compelled into diapause, evidenced by arrested gonadal development, accumulation of TG, and elevated expression of diapause‐related genes. Intriguingly, despite the common association of the absence of juvenile hormone (JH) with reproductive diapause in females, the knockdown of InR1 in males did not significant affect the expression of JH biosynthesis and JH response gene. CONCLUSION: The study highlight InR1 is a key factor involved in regulating male reproductive diapause in C. bowringi. Consequently, targeting insulin signaling could be a viable approach to perturb diapause timing, offering a promising strategy for managing pests with reproductive diapause capabilities. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

29. Morphological and Biochemical Changes in the Mediterranean Cereal Cyst Nematode (Heterodera latipons) during Diapause.

Author

Abumuslem, Motasem, Toktay, Halil, Sadder, Monther T., Dababat, Abdelfattah A., Salem, Nida' M., and AL-Banna, Luma

Subjects

CYST nematodes, ENZYME metabolism, ALTERNATIVE grains, GENE expression, DIAPAUSE, SOYBEAN cyst nematode

Abstract

The cereal cyst nematode (Heterodera latipons) is becoming an economically important species in global cereal production as it is being identified in many new cereal cultivated areas and causes significant losses. Consequently, understanding its biology becomes crucial for researchers in identifying its vulnerabilities and implementing effective control measures. In the current study, different morphological and biochemical changes of H. latipons cysts containing eggs with infective juveniles from a barley field in Jordan were studied during the summer of 2021, at two sample dates. The first, at the harvest of the cereal crop (June 2021), when the infective second-stage juveniles (J2s) were initiating diapause, and the second, before planting the sequent cereal crop (late October 2021), when the J2s were ending diapause. The studied population was characterized morphologically and molecularly, showing 98.4% molecular similarity to both JOD from Jordan and Syrian "300" isolates of H. latipons. The obtained results and observations revealed that there were dramatic changes in all the investigated features of the cysts and eggs they contained. Morphological changes such as cyst color, sub-crystalline layer, and thickness of the rigid eggshell wall were observed. A slight change in the emergence time of J2s from cysts was observed without any difference in the number of emerged J2s. The results of biochemical changes showed that the total contents of carbohydrates, glycogen, trehalose, glycerol, and protein were higher in cysts collected in October when compared to those cysts collected in June. The SDS-PAGE pattern indicated the presence of a protein with the size of ca. 100 kDa in both sampling dates, whereas another protein (ca. 20 kDa) was present only in the cysts of October. Furthermore, the expression of trehalase (tre) gene was detected only in H. latipons collected in October. The outcomes of this study provide new helpful information that elucidates diapause in H. latipons and may be used for the implementation of new management strategies of cyst nematodes. [ABSTRACT FROM AUTHOR]

Published

2024

30. Differences in nutritional requirements of adult codling moth, Cydia pomonella (L.), from field and laboratory populations.

Author

Mátray, Silvia and Herz, Annette

Subjects

*CODLING moth, *NUTRITIONAL requirements, *ADULTS, *APPLE growing, *TORTRICIDAE, *MOTHS, *BUCKWHEAT

Abstract

The codling moth Cydia pomonella (Linnaeus) (Lepidoptera: Tortricidae) is one of the most important pests in apple production. The provision of sugar resources improved adult fitness of this species in laboratory studies and could also be enhanced in the field, for example, by naturally occurring carbohydrate sources in the orchard environment. In addition, the effects of sugar resources on field populations may differ from those of laboratory strains due to altered nutritional requirements. The survival of moths from overwintered field populations was compared with that of a non‐diapausing laboratory strain in feeding experiments with water, two sugar solutions or buckwheat flowers. The effect of these diets was similar for all populations, yet moths from one field‐collected strain lived shorter than those reared in the laboratory. In general, males lived about 3–5 days longer than females. The provision of glucose resulted in the highest survival of both sexes in all populations (24 days). Buckwheat nectar tended to slightly prolong the moths' lifespan compared to the water control (+3 days). Female fecundity was highly variable and was affected by adult diet. Similar to the results obtained under laboratory conditions, the provision of glucose and buckwheat nectar prolonged adult survival in associated field exposure experiments. In general, the nutritional requirements of adult codling moths did not vary according to their origin, even when reared continuously in the laboratory for many generations. [ABSTRACT FROM AUTHOR]

Published

2024

31. Efficacy of sugar‐protein non‐membranous dietary system for diapause egg production in Aedes albopictus mosquitoes under short‐day conditions.

Author

Suman, Devi Shankar, Chandel, Kshitij, Wang, Yi, and Gaugler, Randy

Subjects

*AEDES albopictus, *DIAPAUSE, *MOSQUITO control, *MOSQUITOES, *CLIMATIC zones, *GUINEA pigs

Abstract

The Asian tiger mosquito, Aedes albopictus (Skuse) (Diptera: Culicidae), is a global vector of dengue, chikungunya and zika viruses. With extreme adaptability of survival as diapause eggs, this mosquito has invaded and established in temperate climatic zones. The diapause eggs are specially programmed to overcome the harsh winter conditions in temperate habitats. In the laboratory, diapausing females are reared from early larval instars under short‐day conditions (21°C and 16D:8 L photoperiods). Aedes albopictus is normally fed on Guinea pigs for the rearing of diapause mosquitoes which requires ethical approval from the animal use committee and costly arrangements. Therefore, the present study was conducted to find whether bovine serum albumin protein (10%) with sucrose (5%) solution (SAP‐10) offered through a membrane‐free feeding system would result in an alternative diet for the production of diapause eggs in comparison to blood‐feeding. This feeding system shows a considerable rate of engorgement of diapausing females under short‐day conditions and produced 30.8 diapause eggs/female in comparison to blood‐feeding on a guinea pig (40.9 eggs/female). The diapause rate of viable eggs for the SAP‐10 diet (95.28%) was similar to the blood‐feeding (96.32%). The findings suggest that the present diet feeding system is a promising tool for the rearing of diapause Ae. albopictus mosquitoes under short‐day conditions. Further studies are suggested to evaluate the physiological and developmental aspects of mosquitoes reared on the diet. [ABSTRACT FROM AUTHOR]

Published

2024

32. The integral role of de novo lipogenesis in the preparation for seasonal dormancy.

Author

Cedden, Doga, Güney, Gözde, and Toprak, Umut

Subjects

*COLORADO potato beetle, *LIPID metabolism, *BODY composition, *DIAPAUSE, *LIPID synthesis

Abstract

Animals can alter their body compositions in anticipation of dormancy to endure seasons with limited food availability. Accumulation of lipid reserves, mostly in the form of triglycerides (TAGs), is observed during the preparation for dormancy in diverse animals, including insects (diapause) and mammals (hibernation). However, the mechanisms involved in the regulation of lipid accumulation and the ecological consequences of failure to accumulate adequate lipid stores in preparation for animal dormancy remain understudied. In the broadest sense, lipid reserves can be accumulated in two ways: the animal either receives lipids directly from the environment or converts the sugars and amino acids present in food to fatty acids through de novo lipogenesis and then to TAGs. Here, we show that preparation for diapause in the Colorado potato beetle (Leptinotarsa decemlineata) involves orchestrated upregulation of genes involved in lipid metabolism with a transcript peak in 8-and 10-d-old diapause-destined insects. Regulation at the transcript abundance level was associated with the accumulation of substantial fat stores. Furthermore, the knockdown of de novo lipogenesis enzymes (ACCase and FAS-1) prolonged the preparatory phase, while the knockdown of fatty acid transportation genes shortened the preparatory phase. Our findings suggest a model in which the insects dynamically decide when to transition from the preparation phase into diapause, depending on the progress in lipid accumulation through de novo lipogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

33. Transgenerational expression profiles of a sex related and an epigenetic control gene in the rotifer Brachionus plicatilis in relation to environmental predictability.

Author

Colinas, Noemi, Montero-Pau, Javier, Carmona, María José, Sabatino, Raffaella, Di Cesare, Andrea, Eckert, Ester Maria, and García-Roger, Eduardo M.

Subjects

*GENE expression, *EPIGENETICS, *BRACHIONUS, *GENETIC regulation, *MOLECULAR cloning, *DIAPAUSE, *EPIGENOMICS

Abstract

A non-genetic transgenerational inhibitory effect on sexual reproduction has been demonstrated in Brachionus plicatilis in relation to environmental predictability. Indeed, clones of this species from more predictable environments do not respond to sex-inducing cues during several generations after leaving diapause. Notwithstanding, the molecular basis of this effect is still unknown. In this work, the expression level of genes related to the synthesis of sex hormones and to a potential epigenetic signalling mechanism were tracked along successive generations from diapausing eggs in clones of B. plicatilis populations inhabiting ponds with different level of environmental predictability. The selected genes were (1) the 17-β-dehydrogenase gene (edh), involved in the synthesis of 17-β-estradiol hormone in rotifers, and (2) the DNMT2 gene (meth), as a candidate epigenetic mechanism of control. According to expectations, results showed an increasing expression of edh across generations in clones from those the more predictable ponds. This finding provides a putative role of estradiol in the transgenerational effect. However, no differences were found in the meth gene neither across generations nor regarding the environmental predictability. Despite this, we point out alternatives for future research on the inherited gene regulation mechanism behind the transgenerational effect. [ABSTRACT FROM AUTHOR]

Published

2024

34. Genome‐wide identification of PAR domain protein 1 (PDP1) targets through ChIP‐seq reveals the regulation of diapause‐specific characteristics in Culex pipiens.

Author

Dhungana, Prabin, Wei, Xueyan, Meuti, Megan E., and Sim, Cheolho

Subjects

*DIAPAUSE, *CULEX pipiens, *PROTEIN domains, *AUTUMN, *TRANSCRIPTION factors, *CELL cycle regulation, *IDENTIFICATION

Abstract

Insects use seasonal diapause as an alternative strategy to endure adverse seasons. This developmental trajectory is induced by environmental cues like short‐day lengths in late summer and early fall, but how insects measure day length is unknown. The circadian clock has been implicated in regulating photoperiodic or seasonal responses in many insects, including the Northern house mosquito, Culex pipiens, which enters adult diapause. To investigate the potential control of diapause by circadian control, we employed ChIP‐sequencing to identify the downstream targets of a circadian transcription factor, PAR domain protein 1 (PDP1), that contribute to the hallmark features of diapause. We identified the nearest genes in a 10 kb region of the anticipated PDP1 binding sites, listed prospective targets and searched for PDP1‐specific binding sites. By examining the functional relevance to diapause‐specific behaviours and modifications such as metabolic pathways, lifespan extension, cell cycle regulation and stress tolerance, eight genes were selected as targets and validated using ChIP‐qPCR. In addition, qRT‐PCR demonstrated that the mRNA abundance of PDP1 targets increased in the heads of diapausing females during the middle of the scotophase (ZT17) compared with the early photophase (ZT1), in agreement with the peak and trough of PDP1 abundance. Thus, our investigation uncovered the mechanism by which PDP1 might generate a diapause phenotype in insects. [ABSTRACT FROM AUTHOR]

Published

2024

35. Regulatory mechanism of cold-inducible diapause in Caenorhabditis elegans.

Author

Horikawa, Makoto, Fukuyama, Masamitsu, Antebi, Adam, and Mizunuma, Masaki

Subjects

CAENORHABDITIS elegans, DIAPAUSE, LONGEVITY, HEAT shock factors, GENETIC testing, NEURAL pathways

Abstract

Temperature is a critical environmental cue that controls the development and lifespan of many animal species; however, mechanisms underlying low-temperature adaptation are poorly understood. Here, we describe cold-inducible diapause (CID), another type of diapause induced by low temperatures in Caenorhabditis elegans. A premature stop codon in heat shock factor 1 (hsf-1) triggers entry into CID at 9 °C, whereas wild-type animals enter CID at 4 °C. Furthermore, both wild-type and hsf-1(sy441) mutant animals undergoing CID can survive for weeks, and resume growth at 20 °C. Using epistasis analysis, we demonstrate that neural signalling pathways, namely tyraminergic and neuromedin U signalling, regulate entry into CID of the hsf-1 mutant. Overexpression of anti-ageing genes, such as hsf-1, XBP1/xbp-1, FOXO/daf-16, Nrf2/skn-1, and TFEB/hlh-30, also inhibits CID entry of the hsf-1 mutant. Based on these findings, we hypothesise that regulators of the hsf-1 mutant CID may impact longevity, and successfully isolate 16 long-lived mutants among 49 non-CID mutants via genetic screening. Furthermore, we demonstrate that the nonsense mutation of MED23/sur-2 prevents CID entry of the hsf-1(sy441) mutant and extends lifespan. Thus, CID is a powerful model to investigate neural networks involving cold acclimation and to explore new ageing mechanisms. Dormancy is induced by a cold environment. Here, the authors found that C. elegans undergoes diapause at low temperatures, namely cold-inducible diapause (CID). CID can be induced by the hsf-1 mutation and is regulated by neural pathways and longevity genes. [ABSTRACT FROM AUTHOR]

Published

2024

36. Behavioural assay of a newly identified lepidopteran, Pexicopia tungabhadrai (Lepidoptera: Gelechiidae) along with a first report of larval diapause.

Author

Rakhesh, S., Udikeri, S.S., Mahantesh, S.T., and Mahamed Ashiq, I.

Subjects

*LIFE cycles (Biology), *BIOLOGICAL pest control agents, *GELECHIIDAE, *MOTHS, *DIAPAUSE, *BIOLOGICAL weed control

Abstract

This study examined the ovipositional and olfactory preferences of gravid pod moths in both choice and non-choice settings. In terms of olfactory preferences, pod moth neonates strongly preferred Abutilon indicum under choice conditions, showing nil interest in other hosts. Under non-choice conditions, both neonates and final-instar larvae thrived on A. indicum but refrained from feeding on other hosts or diets, leading to neonate mortality. Remarkably, neonates exhibited an absolute preference for A. indicum seeds, being unable to feed on Abutilon seed diets or green cotton bolls, resulting in starvation-induced mortality. A majority of the final-instar larvae successfully fed, entered pupation and completed their life cycle on A. indicum seeds but the majority entered diapause when exposed to other hosts or diets as compared to A. indicum at a temperature of 21°C, a relative humidity of 60% and a photoperiod of 14:10 hours (light:dark). Cage studies confirmed pod moth's strong preference for A. indicum , allowing for successful larval feeding and adult emergence. However, pod moth failed to establish on cotton green bolls, underscoring their exclusive reliance on A. indicum as a host. These findings illuminate the intricate host preferences and behaviour of pod moth, underscoring the pivotal role of A. indicum in their life cycle, and is helpful for further research to exploit pod moth as an agent for biological control of the weed A. indicum. [ABSTRACT FROM AUTHOR]

Published

2024

37. Testing for variation in photoperiodic plasticity in a butterfly: Inconsistent effects of circadian genes between geographic scales.

Author

Lindestad, Olle, Nylin, Sören, Wheat, Christopher W., and Gotthard, Karl

Subjects

*INSECT genes, *GENETIC variation, *SINGLE nucleotide polymorphisms, *PHOTOPERIODISM, *GENES, *CIRCADIAN rhythms, *CLOCK genes, *DIAPAUSE

Abstract

The genetic components of the circadian clock have been implicated as involved in photoperiodic regulation of winter diapause across various insect groups, thereby contributing to adaptation to adverse seasonal conditions. So far, the effects of within‐population variation in these genes have not been well explored. Here, we present an experimental test of the effects of within‐population variation at two circadian genes, timeless and period, on photoperiodic responses in the butterfly Pararge aegeria. While nonsynonymous candidate SNPs in both of these genes have previously shown to be associated with diapause induction on a between‐population level, in the present experiment no such effect was found on a within‐population level. In trying to reconcile these results, we examine sequence data, revealing considerable, previously unknown protein‐level variation at both timeless and period across Scandinavian populations, including variants unique to the population studied here. Hence, we hypothesize that these variants may counteract the previously observed diapause‐averting effect of the candidate SNPs, possibly explaining the difference in results between the experiments. Whatever the cause, these results highlight how the effects of candidate SNPs may sometimes vary across genetic backgrounds, which complicates evolutionary interpretations of geographic patterns of genetic variation. [ABSTRACT FROM AUTHOR]

Published

2024

38. Impact of photoperiod and functional clock on male diapause in cryptochrome and pdf mutants in the linden bug Pyrrhocoris apterus.

Author

Kaniewska, Magdalena Maria, Chvalová, Daniela, and Dolezel, David

Subjects

*DIAPAUSE, *CRYPTOCHROMES, *CLOCK genes, *LINDENS, *MOLECULAR clock

Abstract

Numerous insect species living in temperate regions survive adverse conditions, such as winter, in a state of developmental arrest. The most reliable cue for anticipating seasonal changes is the day-to-night ratio, the photoperiod. The molecular mechanism of the photoperiodic timer in insects is mostly unclear. Multiple pieces of evidence suggest the involvement of circadian clock genes, however, their role might be independent of their well-established role in the daily oscillation of the circadian clock. Furthermore, reproductive diapause is preferentially studied in females, whereas males are usually used for circadian clock research. Given the idiosyncrasies of male and female physiology, we decided to test male reproductive diapause in a strongly photoperiodic species, the linden bug Pyrrhocoris apterus. The data indicate that reproduction is not under circadian control, whereas the photoperiod strongly determines males' mating capacity. Clock mutants in pigment dispersing factor and cryptochrome-m genes are reproductive even in short photoperiod. Thus, we provide additional evidence of the participation of circadian clock genes in the photoperiodic time measurement in insects. [ABSTRACT FROM AUTHOR]

Published

2024

39. Variation in photoperiod response corresponds to differences in circadian light sensitivity in northern and southern Nasonia vitripennis lines.

Author

Floessner, Theresa S. E., Benetta, Elena Dalla, Beersma, Domien G. M., and Hut, Roelof A.

Subjects

*BIOLOGICAL evolution, *CIRCADIAN rhythms, *DIAPAUSE, *TIME measurements, *PHOTOPERIODISM

Abstract

The circadian clock times physiological and behavioural processes and resets on a daily basis to synchronize with the environment. The involvement of the circadian clock in photoperiodic time measurement synchronising annual rhythms is still under debate and different models have been proposed explaining their integration. Insects overcome unfavourable conditions in diapause, a form of dormancy. A latitudinal cline in diapause induction in the parasitoid wasp Nasonia vitripennis as well as a difference in circadian light sensitivity between north and south provide us with additional evidence that the circadian system of Nasonia is involved in photoperiodic time measurement and that latitude-specific seasonality drives adaptive evolution in photoperiodism partly through adaptation responses in the circadian system. We tested diapause induction in a range of T-cycles and photoperiods and found diapause induction in short photoperiods in all T-cycles in the northern line but in the southern line, diapause only occurred in T-cycles close to 24 h. Due to a lower light sensitivity in the southern line, a wider distribution of phase angles of entrainment can be expected at a specific T-cycle duration, while the range of entrainment will decrease. Taking these oscillator properties into account, our data can be explained by an external coincidence model involving a single oscillator with a light-sensitive phase that drives annual timing of diapause in Nasonia vitripennis. [ABSTRACT FROM AUTHOR]

Published

2024

40. Drosophila ezoana uses morning and evening oscillators to adjust its rhythmic activity to different daylengths but only the morning oscillator to measure night length for photoperiodic responses.

Author

Vaze, Koustubh M., Manoli, Giulia, and Helfrich-Förster, Charlotte

Subjects

*DROSOPHILA, *MORNING, *DIAPAUSE, *FRUIT flies, *COINCIDENCE

Abstract

Animals living at high latitudes are exposed to prominent seasonal changes to which they need to adapt to survive. By applying Zeitgeber cycles of different periods and photoperiods we show here that high-latitude D. ezoana flies possess evening oscillators and highly damped morning oscillators that help them adapting their activity rhythms to long photoperiods. In addition, the damped morning oscillators are involved in timing diapause. The flies measure night length and use external coincidence for timing diapause. We discuss the clock protein TIMELESS (d-TIM) as the molecular correlate and the small ventrolateral clock neurons (s-LNvs) as the anatomical correlates of the components measuring night length. [ABSTRACT FROM AUTHOR]

Published

2024

41. Effect of photoperiod regime on the growth performance, survival, swim bladder inflation and vertebral anomalies of pikeperch (Sander lucioperca) larvae in recirculating aquaculture systems (RAS).

Author

Panana, Edson, Deceuninck, Gwendoline, Teerlinck, Stefan, and Adriaens, Dominique

Subjects

*WALLEYE (Fish), *LARVAE, *BLADDER, *AQUACULTURE, *PRICE inflation, *DIAPAUSE

Abstract

The effect of photoperiod on the growth performance, survival rate, swim bladder inflation (SBI) and presence of vertebral anomalies was evaluated in pikeperch larvae reared under intensive production in a recirculating system (RAS). Three different photoperiods were tested from 1 to 30 days post hatch, 12:12 LD, 16:8 LD and 24:0 LD. Larvae were stocked with an initial density of 100 larvae per liter, light intensity of 100 lx and 16.0°C water temperature. The SGR among treatments ranged between 11.17 and 12.04% day−1. The highest survival rate (56.7 ± 2.4%) was found in 24:0 LD with a negative effect on the number of larvae with SBI. The highest presence of vertebral anomalies at 30 dph was found in 24:0 LD (40.8 ± 8.2%) compared to 12:12 LD (2.5 ± 1.4%) and 16:8 LD (1.7 ± 1.6%). These results suggest that constant light compromises culture of pikeperch larvae in RAS. A 16:8 LD photoperiod seems suitable for the growth performance, SBI and low vertebral anomalies at this life stage. [ABSTRACT FROM AUTHOR]

Published

2024

42. Revealing the profound influence of diapause on gene expression: Insights from the annual transcriptome of the copepod Calanus finmarchicus.

Author

Payton, Laura, Last, Kim S., Grigor, Jordan, Noirot, Céline, Hüppe, Lukas, Conway, David V. P., Dannemeyer, Mona, Wilcockson, David, and Meyer, Bettina

Subjects

*CALANUS finmarchicus, *DIAPAUSE, *CIRCADIAN rhythms, *GENE expression, *LIFE cycles (Biology), *TRANSCRIPTOMES, *BIOLOGICAL rhythms

Abstract

Annual rhythms are observed in living organisms with numerous ecological implications. In the zooplanktonic copepod Calanus finmarchicus, such rhythms are crucial regarding its phenology, body lipid accumulation, and global carbon storage. Climate change drives annual biological rhythms out of phase with the prevailing environmental conditions with yet unknown but potentially catastrophic consequences. However, the molecular dynamics underlying phenology are still poorly described. In a rhythmic analysis of C. finmarchicus annual gene expression, results reveal that more than 90% of the transcriptome shows significant annual rhythms, with abrupt and dramatic upheaval between the active and diapause life cycle states. This work explores the implication of the circadian clock in the annual timing, which may control epigenetic mechanisms to profoundly modulate gene expression in response to calendar time. Results also suggest an increased light sensitivity during diapause that would ensure the photoperiodic entrainment of the endogenous annual clock. [ABSTRACT FROM AUTHOR]

Published

2024

43. Nature of diapause alters the damage potential and insecticide susceptibility in Chilo partellus (Swinhoe)

Author

Tanwar, Aditya K., Dhillon, Mukesh K., Hasan, Fazil, and Kirti, Jagbir S.

Abstract

The stability of host plant resistance to insects, and efficacy of insecticides against the insect pests is influenced by several inherent traits of the target insects in addition to the environmental factors. Spotted stem borer, Chilo partellus (Swinhoe) is a key pest of maize and sorghum. It undergoes both hibernation and aestivation depending upon the prevailing climatic conditions. We studied the host preference and damage potential of this pest in maize and sorghum, and its susceptibility to different insecticides in F1 progenies of hibernating, aestivating and nondiapausing strains of C. partellus. The larvae from hibernating strain resulted in greater leaf damage and deadhearts, and had greater larval weight and better survival on maize and sorghum than those from the aestivating and nondiapausing strains, although there were a few exceptions. The susceptible maize and sorghum genotypes were highly preferred by the hibernating larvae, while the resistant genotypes were preferred most by the aestivating strain. Maize was least preferred, while sorghum was most preferred by the larvae from hibernating as compared to aestivating and nondiapausing strains of C. partellus. The larvae from aestivating strain were least susceptible to cypermethrin and thiamethoxam, but highly susceptible to deltamethrin and imidacloprid as compared to the other strains. The present studies showed significant differences in preference and damage potential in the host crops, and susceptibility to insecticides in diapausing and nondiapausing strains of C. partellus. Identification of stem borer resistant genotypes of sorghum and maize, and the insecticides with stable efficacy will be useful for integrated management of this pest. [ABSTRACT FROM AUTHOR]

Published

2024

44. Lysine Methylation and Histone Modifications during Cold Stress of Insects: Freeze-Tolerant Eurosta solidaginis and Freeze-Avoiding Epiblema scudderiana.

Author

Yu, Zhijun, Pei, Tingwei, Wang, Han, Wang, Chunyuan, Liu, Jingze, and Storey, Kenneth B.

Subjects

*HISTONE methylation, *HISTONE acetylation, *GENETIC regulation, *ENZYME kinetics, *GENE expression

Abstract

Simple Summary: Insects, like other animals, must face severe winter low temperature conditions in northern areas. Some insects even freeze entirely and wait out the winter until spring comes. Epigenetic modifications have been suggested to play a vital role in regulating the cold responses of insects. However, the dynamics of the enzymes involved in histone lysine methylation, histone H3 acetylation and methylation in response to cold winters in the freeze-tolerant goldenrod gall fly larvae Eurosta solidaginis and the freeze-avoiding gall moth caterpillars Epiblema scudderiana remains unclear. This paper investigates the modifications of key nuclear proteins that act as gene regulators and mainly focuses on proteins—called histones—that act to depress metabolism. The results indicate that histones are modified in E. solidaginis and Ep. scudderiana during winter. Significant reductions were observed in most of the targets of histone methylation/acetylation for decreasing temperatures of Ep. scudderiana larvae, whereas selected histone methylation/acetylation targets were conversely elevated in E. solidaginis. These epigenetic changes are shown to be an important element in winter survival. Overwintering survival by insects, whether of the freeze-tolerant or freeze-avoiding types, is typically associated with a strong suppression of metabolic rate (e.g., entry into diapause) that involves the differential expression of many genes with regulation at the transcriptional, translational or post-translational levels. Epigenetic modifications have been suggested to play a vital role in regulating cold responses of insects. However, knowledge of the roles of epigenetic mechanisms in modulating gene expression for winter survival of the larvae of two goldenrod gall formers, the freeze-tolerant dipteran Eurosta solidaginis and the freeze-avoiding lepidopteran Epiblema scudderiana, remain unknown. The current study evaluates the role of cold-induced lysine methylation and histone modifications, with enzymes of lysine methylation (SETD8, SETD7, SUV39H1, SMYD2 and ASH2L), as well as relative levels of histone H3 acetylation (H3K9ac, H3K18ac, H3K27ac, H3K56ac) and methylation (H3K4me1, H3K9me3, H3K36me2) examined in two insects. Significant (p < 0.05) reductions were observed in most of the targets of histone methylation/acetylation for decreasing temperatures of Ep. scudderiana larvae, whereas selected histone methylation/acetylation targets were conversely elevated (p < 0.05) in E. solidaginis, particularly under conditions of 5 °C for 4 h. Histone H3 expression was found to be variable without statistical differences in larval goldenrod gall moths and gall flies. These results provide basic information on the patterns of epigenetic regulation involved in insect cold hardiness. [ABSTRACT FROM AUTHOR]

Published

2024

45. Optimal phenology of life history events in Calanus finmarchicus: exit from diapause in relation to interannual variation in spring bloom timing and predation.

Author

Anderson, Thomas R, Hessen, Dag O, Gentleman, Wendy C, Yool, Andrew, and Mayor, Daniel J

Subjects

*CALANUS finmarchicus, *ALGAL blooms, *FLOWERING time, *DIAPAUSE, *CARBON sequestration

Abstract

Respiration of lipids by copepods during diapause (overwintering dormancy) contributes to ocean carbon sequestration via the seasonal lipid pump (SLP). Parameterizing this flux in predictive models requires a mechanistic understanding of how life history adaptation in copepods shapes their timing of exit from diapause. We investigate the optimal phenology of Calanus finmarchicus in the Norwegian Sea using an individual-based model in which diapause exit is represented as a trait characterized by phenotypic mean and variance. Without interannual variability, optimal exit correlated with the onset of the spring phytoplankton bloom and phenotypic variance was of no benefit. In contrast, copepods endured reduced fitness and adopted bet-hedging strategies when exposed to interannual variability in bloom timing and predation: later exit from diapause and phenotypic variance maintained adult numbers in anomalous late-bloom years. Exit nevertheless remained well before the peak of the bloom which is a favorable strategy when low predation early in the year enhances survival of eggs and early developmental stages. Our work highlights the complex interactions between C. finmarchicus and its environment and the need for improved understanding of bet-hedging strategies and the cues of diapause exit to progress the representation of the SLP in global biogeochemical models. [ABSTRACT FROM AUTHOR]

Published

2024

46. 春尺蠖保幼激素结合蛋白 AcinJHBP 基因的 克隆、分子特征与表达分析.

Author

朱圣杰, 崔阔澍, 白松林, 张鹏飞, 郝水源, 郝雅娴, and 陈龙

Subjects

*CHEMICAL formulas, *GENE expression, *AMINO acid residues, *MOLECULAR cloning, *JUVENILE hormones, *DIAPAUSE

Abstract

[Objective] The present paper aimed to explore the role of AcinJHBP gene in the growth, development and diapause of Apocheima cinerarius. [Method] Based on the transcriptome data (non-diapause pupa/diapause pupa and diapause pupa/diapause depupa), JHBP gene was cloned and named as AcinJHBP (GenBank entry number: OR860357). The sequence and physicochemical properties of AcinJHBP gene were analyzed by bioinformatics software. The temporal and spatial expression of Acin JHBP (different developmental stages and tissues) was detected by qPCR. [Result] The complete CDS sequence of Acin JHBP gene of A. cinerarius was 726 bp, encoding 241 amino acids, the predicted molecular weight of protein was 26.97 kDa, and the predicted isoelectric point was 5. 13. The predicted molecular formula of Acin JHBP gene was C121 H1915 N313 0364 S9, the total charge of negative charge residues (Asp + Glu) was 34, the total charge of positive charge residues (Arg + Lys) was 26, the half-life and aliphatic index were 30 hours and 97.51, respectively. The average hydrophilicity of the protein was 0.098, and the predicted instability coefficient was 27. 13. Therefore, the protein was a hydrophilic stable protein, and the N-terminal amino acid was methionine (Met, M). AcinJHBP contained a signal peptide of 17 amino acid residues at the N-terminus, but had no transmembrane region. Phosphoric acid sites were found in serine, threonine and tyrosine phosphate sites were 9,6 and 3, respectively, and no glycosylation sites were found. Subcellular localization results showed that it was mainly located outside the cell. Phylogenetic analysis showed that AcinJHBP had the closest relationship with the hemolymph juvenile hormone binding protein JHBP of Operophtera brumata. The results of gene expression showed that the expression of Acin JHBP was lower at different developmental stages (except the 3rd instar larvae), and there was no significant difference between the egg and the 5th instar larvae (P>0.05), for all that the expression of Acin JHBP showed a decreasing trend in non-diapause pupa-adult stage. In different tissues, the expression of AcinJHBP gene was the highest in the male head of A. cinerarius. [Conclusion] Acin JHBP gene is closely related to the growth, development and diapause of A. cinerarius. The results lay a theoretical foundation for further revealing the function of the gene in the summer and winter diapause of the pupae in A. cinerarius. [ABSTRACT FROM AUTHOR]

Published

2024

47. Arthropod-Borne Viruses of Human and Animal Importance: Overwintering in Temperate Regions of Europe during an Era of Climate Change.

Author

Mansfield, Karen L., Schilling, Mirjam, Sanders, Christopher, Holding, Maya, and Johnson, Nicholas

Subjects

ARTHROPOD vectors, ARBOVIRUSES, GLOBAL warming, BIRD migration, ANIMAL wintering

Abstract

The past three decades have seen an increasing number of emerging arthropod-borne viruses in temperate regions This process is ongoing, driven by human activities such as inter-continental travel, combined with the parallel emergence of invasive arthropods and an underlying change in climate that can increase the risk of virus transmission and persistence. In addition, natural events such as bird migration can introduce viruses to new regions. Despite the apparent regularity of virus emergence, arthropod-borne viruses circulating in temperate regions face the challenge of the late autumn and winter months where the arthropod vector is inactive. Viruses therefore need mechanisms to overwinter or they will fail to establish in temperate zones. Prolonged survival of arthropod-borne viruses within the environment, outside of both vertebrate host and arthropod vector, is not thought to occur and therefore is unlikely to contribute to overwintering in temperate zones. One potential mechanism is continued infection of a vertebrate host. However, infection is generally acute, with the host either dying or producing an effective immune response that rapidly clears the virus. There are few exceptions to this, although prolonged infection associated with orbiviruses such as bluetongue virus occurs in certain mammals, and viraemic vertebrate hosts therefore can, in certain circumstances, provide a route for long-term viral persistence in the absence of active vectors. Alternatively, a virus can persist in the arthropod vector as a mechanism for overwintering. However, this is entirely dependent on the ecology of the vector itself and can be influenced by changes in the climate during the winter months. This review considers the mechanisms for virus overwintering in several key arthropod vectors in temperate areas. We also consider how this will be influenced in a warming climate. [ABSTRACT FROM AUTHOR]

Published

2024

48. Functional analysis of adipokinetic hormone signaling in reproductive diapause of Coccinella septempunctata.

Author

Shen, Zhongjian, Liu, Zhaohan, Chen, Junjie, Li, Yuyan, Mao, Jianjun, Wang, Mengqing, and Zhang, Lisheng

Subjects

SEVEN-spotted ladybug, DIAPAUSE, SWEETPOTATO whitefly, FUNCTIONAL analysis, FORKHEAD transcription factors, JUVENILE hormones, GENE expression

Abstract

BACKGROUND: The ladybeetle, Coccinella septempunctata, an important predator, is widely used to control aphids, whiteflies, mites, thrips, and lepidopteran pests. Diapause control technology is key to extending C. septempunctata shelf‐life and commercialization. Lipid accumulation is a major feature of reproductive diapause, but the function of AKH signaling as a regulator of lipid mobilization in reproductive diapause remains unclear. This study aimed to identify and characterize AKH and AKHR genes, and clarify their functions in reproductive diapause. RESULTS: The relative expression levels of CsAKH and CsAKHR were the highest in the head and fat body, respectively, and were significantly decreased under diapause conditions, both in developmental stages and tissues (head, midgut, fat body, and ovary). Furthermore, CsAKH and CsAKHR expression was increased significantly after juvenile hormone (JH) injection, but CsMet silencing significantly inhibited CsAKH and CsAKHR expression, whereas CsMet knockdown blocked the induction effect of JH. CsAKH and CsAKHR knockdown significantly reduced water content, increased lipid storage, and promoted the expression of genes related to lipid synthesis, but significantly blocked ovarian development, and induced forkhead box O (FOXO) gene expression in C. septempunctata under reproduction conditions. By contrast, injection of AKH peptide significantly inhibited FOXO expression, reduced lipid storage, and increased water content in C. septempunctata under diapause conditions. CONCLUSION: These results indicate that CsAKH and CsAKHR are involved in the regulation of lipid accumulation and ovarian development during diapause in C. septempunctata, and provide a promising target for manipulating C. septempunctata diapause. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

49. Bigger isn't always better: Challenging assumptions about the associations between diapause, body weight, and overwintering survival.

Author

Short, Clancy A., Walters, Jared L., and Hahn, Daniel A.

Subjects

*BODY weight, *PUPAE, *BASAL metabolism, *SARCOPHAGIDAE, *DIAPAUSE, *LIFE history theory, *INSECTS

Abstract

During the winter, animals face limited food availability. Many animals enter dormancy to reduce their winter energy expenditure. Most insects spend the winter in diapause, a state of programmed dormancy. It is often assumed that diapausing insects need nutrient stores to fuel their many months of basal metabolism and must grow heavier than their non‐diapause‐programmed counterparts. However, the extent to which food limitation affects body weight during overwintering preparation as well as the likelihood and duration of diapause remains unclear. We limited the duration of the feeding period and thus the total quantity of food available to diapause‐destined larvae of the pupal‐diapausing flesh fly, Sarcophaga crassipalpis, to test how food limitation affects body weight in the context of diapause programming. We also tested the extent to which food deprivation and body weight affect the likelihood and duration of diapause. We hypothesized that diapause‐destined larvae grow more quickly and pupariate at a heavier body weight than non‐diapause larvae. We also hypothesized that body weight is more dramatically reduced by food limitations when a larva is programmed for diapause. Finally, we hypothesized that larvae with lighter body weight (i.e., food limited) are less likely to enter pupal diapause and also stay in diapause for a shorter duration than heavier, well‐fed, individuals. Contrary to our hypotheses that diapausing insects are heavier than their non‐diapausing counterparts, we found diapausing pupae weighed less than non‐diapausing pupae, especially when larvae received limited food. We found light pupae did not abort their diapause program. In both diapausing and non‐diapausing pupae, body weight was positively correlated with simulated winter survival. However, above a weight threshold, body weight no longer affected simulated winter survival in diapausing pupae. Contrary to our predictions and the general consensus in much of the diapause literature, we also found that lighter pupae stayed in diapause longer than heavier pupae. Overall, our results challenge the precept that body weight and diapause are positively associated. The relationship between body weight and diapause is complex and may be affected by the availability of food before and after winter, the availability of high‐quality overwintering sites, and the life history of a particular insect. [ABSTRACT FROM AUTHOR]

Published

2024

50. Voltinism of a solitary bee was influenced by temperature but not provision size.

Author

Dorian, Nicholas N.

Subjects

*POLLINATION, *LIFE cycles (Biology), *BEES, *FACTORIAL experiment designs, *POLLINATORS, *BROOD parasites, *TEMPERATURE, *BEE colonies

Abstract

Changes in the timing and duration of life cycles are distinctive fingerprints of environmental change. Yet, the biotic and abiotic cues underpinning phenology and voltinism, i.e., number of generations per year, are poorly understood. Here, I experimentally test how temperature and provision size influence voltinism and survival to emergence in a solitary bee Colletes validus, and how temperature influences voltinism in the brood parasite Tricrania sanguinipennis. Within the same population, univoltine individuals emerge after 1 year (1-year form), whereas semivoltine individuals enter prolonged dormancy and emerge after 2 years (2-year form). I reared field-collected bees under 2 × 2 factorial experiments with cool (18.5 °C ± 0.5 °C) vs. warm (24 °C ± 0.5 °C) temperature treatments (bees and beetles) and no supplement vs. supplemental food treatments (+ 20% ± 5% pollen provision by mass); beetles were reared under temperature treatments only. Cool temperatures consistently increased the proportion of 2-year bees regardless of provision size, a finding that was consistent with three years of field observations. There was a demographic cost to prolonged dormancy in that both 1- and 2-year bees survived to emergence as adults, but survival of 2-year bees was approximately 50% lower than 1-year bees. Two-year beetles were produced under cooler temperatures, but unlike bees, beetles had nearly perfect survival to emergence in all treatments. This experiment advances our mechanistic understanding of the environmental drivers of voltinism in diverse insect taxa and underscores the importance of considering cryptic life stages when interpreting responses to environmental change. [ABSTRACT FROM AUTHOR]

Published

2024