Your search keyword '"Dormancy"' showing total 24,655 results

1. Resting in plain sight: Dormancy ecology of the intermediate snail host of Schistosoma haematobium.

Author

Starkloff, Naima C., Mahalila, Moses P., Kinung'hi, Safari, and Civitello, David J.

Published

2024

2. Warm temperature perceived at the vegetative stage affects progeny seed germination in natural accessions of Arabidopsis thaliana.

Author

Wang, Yu, Zhang, Tania L., Barnett, Emma M., Sureshkumar, Sridevi, Balasubramanian, Sureshkumar, and Fournier‐Level, Alexandre

Abstract

Summary Temperatures perceived early in the life cycle of mother plants can affect the germination of the offspring seeds. In Arabidopsis thaliana, vernalisation‐insensitive mutants showed altered germination response to elevated maternal temperature, hence revealing a strong genetic determinism. However, the genetic control of this maternal effect and its prevalence across natural populations remain unclear. Here, we exposed a collection of European accessions of A. thaliana to increased temperature during the vegetative phase and assessed germination in their progeny to identify the genetic basis of transgenerational germination response. We found that genotypes with rapidly germinating progeny after early maternal exposure to elevated temperature originated from regions with low‐light radiation. Combining genome‐wide association, expression analysis and functional assays across multiple genetic backgrounds, we show a central role for PHYB in mediating the response to maternally perceived temperature at the vegetative stage. Differential gene expression analysis in leaves identified a similar genetic network as previously found in seed endosperm under elevated temperature, supporting the pleiotropic involvement of PHYB signalling across different tissues and stages. This provides evidence that complex environmental responses modulated by the maternal genotype can rely on a consistent set of genes yet produce different effects at the different stages of exposure. [ABSTRACT FROM AUTHOR]

Published

2024

3. Lung-resident alveolar macrophages regulate the timing of breast cancer metastasis.

Author

Dalla, Erica, Papanicolaou, Michael, Park, Matthew D., Barth, Nicole, Hou, Rui, Segura-Villalobos, Deisy, Valencia Salazar, Luis, Sun, Dan, Forrest, Alistair R.R., Casanova-Acebes, Maria, Entenberg, David, Merad, Miriam, and Aguirre-Ghiso, Julio A.

Subjects

*METASTATIC breast cancer, *ALVEOLAR macrophages, *TRANSFORMING growth factors, *CANCER cells, *NATURAL immunity

Abstract

Breast disseminated cancer cells (DCCs) can remain dormant in the lungs for extended periods, but the mechanisms limiting their expansion are not well understood. Research indicates that tissue-resident alveolar macrophages suppress breast cancer metastasis in lung alveoli by inducing dormancy. Through ligand-receptor mapping and intravital imaging, it was found that alveolar macrophages express transforming growth factor (TGF)-β2. This expression, along with persistent macrophage-cancer cell interactions via the TGF-βRIII receptor, maintains cancer cells in a dormant state. Depleting alveolar macrophages or losing the TGF-β2 receptor in cancer cells triggers metastatic awakening. Aggressive breast cancer cells are either suppressed by alveolar macrophages or evade this suppression by avoiding interaction and downregulating the TGF-β2 receptor. Restoring TGF-βRIII in aggressive cells reinstates TGF-β2-mediated macrophage growth suppression. Thus, alveolar macrophages act as a metastasis immune barrier, and downregulation of TGF-β2 signaling allows cancer cells to overcome macrophage-mediated growth suppression. [Display omitted] • Embryo-derived alveolar macrophages (AMs) induce disseminated cancer cell dormancy • Disseminated cancer cells (DCCs) interact frequently with AMs in the lung alveolus • DCC dormancy is due to persistent AM-DCC interactions via TGF-β2-TGF-βRIII signaling • Loss of AMs or TGF-βRIII in DCCs eliminates an innate immune barrier to metastasis We find that when disseminated breast cancer cells enter the lung, embryo-derived alveolar macrophages (AMs) serve as an innate immune barrier to metastasis. This occurs because AMs produce signals that induce dormancy in the cancer cells. As cancer evolves, cancer cells eliminate their ability to sense the AM-derived pro-dormancy signals, developing a mechanism of resistance to this AM-dependent innate immune control of metastasis. [ABSTRACT FROM AUTHOR]

Published

2024

4. mTOR activity paces human blastocyst stage developmental progression.

Author

Iyer, Dhanur P., Khoei, Heidar Heidari, van der Weijden, Vera A., Kagawa, Harunobu, Pradhan, Saurabh J., Novatchkova, Maria, McCarthy, Afshan, Rayon, Teresa, Simon, Claire S., Dunkel, Ilona, Wamaitha, Sissy E., Elder, Kay, Snell, Phil, Christie, Leila, Schulz, Edda G., Niakan, Kathy K., Rivron, Nicolas, and Bulut-Karslioğlu, Aydan

Subjects

*PLURIPOTENT stem cells, *HUMAN stem cells, *BLASTOCYST, *CELLULAR signal transduction, *PARTURITION

Abstract

Many mammals can temporally uncouple conception from parturition by pacing down their development around the blastocyst stage. In mice, this dormant state is achieved by decreasing the activity of the growth-regulating mTOR signaling pathway. It is unknown whether this ability is conserved in mammals in general and in humans in particular. Here, we show that decreasing the activity of the mTOR signaling pathway induces human pluripotent stem cells (hPSCs) and blastoids to enter a dormant state with limited proliferation, developmental progression, and capacity to attach to endometrial cells. These in vitro assays show that, similar to other species, the ability to enter dormancy is active in human cells around the blastocyst stage and is reversible at both functional and molecular levels. The pacing of human blastocyst development has potential implications for reproductive therapies. [Display omitted] • Human pluripotent cells are capable of entering a reversible dormant state • Human blastoids under mTOR inhibition show a diapause-like response • Dormant human blastoids show altered developmental progression and attachment • Species-specific metabolic profiles of mouse and human cells can be seen in dormancy The timing of human blastoid post-implantation development can be paced down by inhibition of mTOR, which elicits a tissue-specific response similar to mouse in vivo diapause. [ABSTRACT FROM AUTHOR]

Published

2024

5. Understanding abscisic acid-mediated stress signaling to affect rice development under stress.

Author

Gul, Rao Muhammad Samran, Rauf, Saeed, Ortiz, Rodomiro, Waqas Khalid, Muhammad, and Kaya, Yalcin

Subjects

PLANT regulators, REACTIVE oxygen species, ABIOTIC stress, POLLEN viability, ABSCISIC acid, DROUGHTS

Abstract

Introduction: Rice is a vital staple food for many countries, and its yield is known to be significantly affected by various abiotic stresses, which are expected to intensify with climate change, posing a threat to global food security. Abscisic acid (ABA), a crucial plant growth regulator, plays a crucial role in plant responses to these abiotic stresses. It influences several processes, such as seed dormancy, leaf gas exchange, reactive oxygen species (ROS) scavenging, ion toxicity reduction, and root elongation, all of which contribute to enhancing plant survival under stress. Methods: This article reviews recent research on ABA-mediated gene responses and expressions involved in rice plant architecture and its response to abiotic stress. Results and discussion: Abscisic acid responses were primarily driven by changes in gene expression. Expression analyses of the gene related to ABA biosynthesis or catabolism indicated several changes in plant architecture, such as changes in leaf angle, delayed flowering, and modifications in growth regulators. Additionally, tolerance-related mechanisms, such as increased ROS scavenging, reduced membrane leakage, and vacuolar compartmentation of toxic radicals, were activated under single or multiple stress conditions. While these adaptations may improve plant survival and yield sustainability under stress, they may not necessarily enhance yield potential in environments affected by drought, salinity, or heat stress. ABA expression was also associated with improved pollen viability, grain-filling potential, and seed setting under abiotic stresses such as heat, which could enhance seed yield in such challenging environments. [ABSTRACT FROM AUTHOR]

Published

2024

6. The Developmental Cycle of Spirodela polyrhiza Turions: A Model for Turion-Based Duckweed Overwintering?

Author

Ziegler, Paul

Subjects

BODIES of water, AQUATIC plants, SPRING, TEMPERATE climate, DUCKWEEDS

Abstract

Duckweeds are widely distributed small, simply constructed aquatic higher plants (the Lemnaceae) found on quiet freshwater surfaces. Species inhabiting temperate climates may have to cope with long periods of severe cold during the winter season. Several duckweeds form compact resting structures from the assimilatory fronds of the growing season that can bridge inhospitable conditions in a quiescent state. Of these, turions separate from the mother fronds and overwinter on the water body bottom in a dormant state. They can surface, germinate, and sprout to resume active growth upon warming in the spring. The turions of the largest duckweed, Spirodela polyrhiza, have been intensively examined as to ultrastructure, the factors governing their formation and release from dormancy, and the signals driving their germination and sprouting and the accompanying starch degradation. Comparative transcriptomics of assimilatory fronds and dormant turions are revealing the molecular features of this developmental cycle. The results illustrate an elegant sequence of reactions that ensures aquatic survival of even severe winters by frost avoidance in a vegetative mode. Since little is known about other duckweed resting fronds, the S. polyrhiza turion developmental cycle cannot be considered to be representative of duckweed resting fronds in general but can serve as a reference for corresponding investigations. [ABSTRACT FROM AUTHOR]

Published

2024

7. Utilizing Short Interspersed Nuclear Element as a Genetic Marker for Pre-Harvest Sprouting in Wheat.

Author

Kandpal, Purnima, Kaur, Karminderbir, Dhariwal, Raman, Kaur, Simranjeet, Brar, Gagandeep Kaur, Randhawa, Harpinder, and Singh, Jaswinder

Subjects

GENETIC testing, SEED dormancy, GENETIC markers, DNA methylation, WHEAT breeding

Abstract

Pre-harvest sprouting (PHS) is a complex abiotic stress caused by multiple exogenous and endogenous variables that results in random but significant quality and yield loss at the terminal crop stage in more than half of the wheat-producing areas of the world. Systematic research over more than five decades suggests that addressing this challenge requires tools beyond the traditional genetic manipulation approach. Previous molecular studies indicate a possible role of epigenetics in the regulation of seed dormancy and PHS in crops, especially through RNA-directed DNA methylation (RdDM) pathways mediated by Argonaute (AGO) proteins. In this study, we explore the role of the AGO802B gene associated with PHS resistance in wheat, through the presence of a SINE retrotransposon insertion. The current study found the SINE insertion at 3′UTR of the TaAGO802B present in 73.2% of 41 cultivars analyzed and in 92.6% of the resistant cultivar subset. The average expression of TaAGO802B in cultivars with the SINE insertion was 73.3% lower than in cultivars without insertion. This study also indicated a significant positive correlation between the PHS score and methylation levels in the cultivars. The resistant cultivars with the SINE insertion recorded 54.7% lower methylation levels than susceptible cultivars. Further analysis of a DH population (Sadash × P2711) reveals that SINE insertion co-segregates with PHS resistance. This sets forth the SINE insertion in TaAGO802B as a genetic marker for screening wheat germplasm and as an efficient tool for breeding PHS-resistant wheat cultivars. [ABSTRACT FROM AUTHOR]

Published

2024

8. Strategies of invasive snail Pomacea canaliculata during hibernation in rice fields of south China: effects of body size, sex, and soil depth.

Author

Yao, Fucheng, Chen, Yingtong, Liu, Jimin, Zhang, Jiaen, Xiao, Zeheng, Shi, Zhaoji, Chen, Qi, and Qin, Zhong

Subjects

POMACEA canaliculata, FRESHWATER snails, SOIL depth, PADDY fields, BODY size

Abstract

BACKGROUND: The invasive freshwater snail Pomacea canaliculata is an agricultural pest with a certain level of tolerance to abiotic stress. After the harvest of late rice, the snails usually burrow themselves into the soil surface layers to overwinter and pose a renewed threat to rice production in the following year. Revealing the response of snails to environmental stresses is crucial for developing countermeasures to control their damage and spread. RESULTS: In this study, we conducted a 120‐day in situ experiment during the winter to investigate the survival and physiological changes of hibernating snails in 0‐5 and 5‐10 cm soil depths, aiming to explore their overwintering strategies. Our results showed that 73.61%, 87.50%, and 90.28% of male, female, and juvenile snails survived after hibernation for 120 days in 0–10 cm soil depth, respectively. The differences in survival rates based on sex and size of snails potentially reflect the countermeasures of snails to rapidly reproduce after hibernation. Simultaneously, the hibernating snails exhibited the ability to maintain a certain level of body weight. During this period, the snails increased their antioxidant enzyme activities to cope with oxidative stress, and enhanced their lipid storage. The hibernation survival of snails was not significantly affected by different soil depths, indicating that they have the potential to hibernate into deeper soils. Furthermore, snails were capable of increasing their contents of bound water and glycerol to cope with sudden cold spells during hibernation. CONCLUSION: Our findings emphasize the adaptive changes of P. canaliculata snails overwintering in paddy soils. In future studies, the vulnerabilities of P. canaliculata during hibernation (e.g. shell characteristics, nutrient reserves, and dehydration tolerance, etc.,) should be investigated to develop effective control methods for this period. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

9. Role of dormancy survival regulator and resuscitation-promoting factors antigens in differentiating between active and latent tuberculosis: a systematic review and meta-analysis.

Author

Wu, Yu, Xiong, Yuanyuan, Zhong, Ying, Liao, Juanjuan, and Wang, Jin

Subjects

LATENT tuberculosis, MYCOBACTERIUM tuberculosis, TUBERCULOSIS, DATABASE searching, INTERFERON gamma

Abstract

Background: Dormancy survival regulator (DosR) and resuscitation-promoting factor (Rpf) antigens of Mycobacterium tuberculosis are activated during dormant phase of tuberculosis (TB). This study evaluates the differential immunogenicity potentials of DosR and Rpf antigens in individuals with latent tuberculosis infection (LTBI) and active TB patients. Methods: After a literature search in electronic databases, studies were selected by following precise eligibility criteria. Outcomes were synthesized systematically, and meta-analyses were performed to estimate standardized mean differences (SMDs) in interferon-gamma (IFNγ) levels, and IFNγ positive immune cells between individuals with LTBI and active TB patients. Results: Twenty-six studies (1278 individuals with LTBI and 1189 active TB patients) were included. DosR antigens Rv0569 (Standardized mean difference; SMD 2.44 [95%CI: 1.21, 3.66]; p < 0.0001), Rv1733c (SMD 0.60 [95%CI: 0.14, 1.07]; p = 0.011), Rv1735c (SMD 1.16 [95%CI: 0.44, 1.88]; p = 0.002), Rv1737c (SMD 1.26 [95%CI: 0.59, 1.92]; p < 0.0001), Rv2029c (SMD 0.89 [95%CI: 0.35, 1.42]; p = 0.002), RV2626c (SMD 1.24 [95%CI: 0.45, 2.02); p = 0.002), and Rv2628 (SMD 0.65 [95%CI: 0.38, 0.91]; p < 0.0001) and Rpf antigens Rv0867c (SMD 1.33 [95%CI: 0.48, 2.18]; p = 0.002), Rv1009 (SMD 0.65 [95%CI: 0.05, 1.25]; p = 0.034), and Rv2450c (SMD 1.54 [95%CI: 0.92, 2.16]; p < 0.0001) elicited higher IFNγ levels in individuals with LTBI in comparison with active TB patients. IFNγ-positive immunoresponsive cells were significantly higher in individuals with LTBI than in active TB patients for antigens Rv1733c (SMD 1.02 [95%CI: 0.15, 1.88]; p = 0.021), Rv2029c (SMD 0.57 [95%CI: 0.05, 1.09]; p = 0.031), and Rv2628 [SMD 0.38 [95%CI: 0.15, 0.61]; p = 0.001). Conclusion: DosR antigens Rv0569, Rv1733c, Rv1735c, Rv1737c, RV2626c, Rv2628, and Rv2029c, and Rpf antigens Rv0867c, Rv1009, and Rv2450c are found to elicit immune responses differently in individuals with LTBI and active TB patients. [ABSTRACT FROM AUTHOR]

Published

2024

10. Autophagy is required for mammary tumor recurrence by promoting dormant tumor cell survival following therapy.

Author

Dwyer, Samantha, Ruth, Jason, Seidel, Hans E., Raz, Amelie A., and Chodosh, Lewis A.

Subjects

BREAST cancer research, CELL survival, DISEASE relapse, ANTINEOPLASTIC agents, BREAST cancer

Abstract

Background: Mortality from breast cancer is principally due to tumor recurrence. Recurrent breast cancers arise from the pool of residual tumor cells, termed minimal residual disease, that survive treatment and may exist in a dormant state for 20 years or more following treatment of the primary tumor. As recurrent breast cancer is typically incurable, understanding the mechanisms underlying dormant tumor cell survival is a critical priority in breast cancer research. The importance of this goal is further underscored by emerging evidence suggesting that targeting dormant residual tumor cells in early-stage breast cancer patients may be a means to prevent tumor recurrence and its associated mortality. In this regard, the role of autophagy in dormant tumor cell survival and recurrence remains unresolved, with conflicting reports of both pro-survival/recurrence-promoting and pro-death/recurrence-suppressing effects of autophagy inhibition in dormant tumor cells. Resolving this question has important clinical implications. Methods: We used genetically engineered mouse models that faithfully recapitulate key features of human breast cancer progression, including minimal residual disease, tumor dormancy, and recurrence. We used genetic and pharmacological approaches to inhibit autophagy, including treatment with chloroquine, genetic knockdown of ATG5 or ATG7, or deletion of BECN and determined their effects on dormant tumor cell survival and recurrence. Results: We demonstrate that the survival and recurrence of dormant mammary tumor cells following therapy is dependent upon autophagy. We find that autophagy is induced in vivo following HER2 downregulation and remains activated in dormant residual tumor cells. Using genetic and pharmacological approaches we show that inhibiting autophagy by chloroquine administration, ATG5 or ATG7 knockdown, or deletion of a single allele of the tumor suppressor Beclin 1 is sufficient to inhibit mammary tumor recurrence, and that autophagy inhibition results in the death of dormant mammary tumor cells in vivo. Conclusions: Our findings demonstrate a pro-tumorigenic role for autophagy in tumor dormancy and recurrence following therapy, reveal that dormant tumor cells are uniquely reliant upon autophagy for their survival, and indicate that targeting dormant residual tumor cells by inhibiting autophagy impairs tumor recurrence. These studies identify a pharmacological target for a cellular state that is resistant to commonly used anti-neoplastic agents and suggest autophagy inhibition as an approach to reduce dormant minimal residual disease in order to prevent lethal tumor recurrence. [ABSTRACT FROM AUTHOR]

Published

2024

11. The potential for an increasing threat of unseasonal temperature cycles to dormant plants.

Author

Kovaleski, Al P.

Subjects

*WEATHER & climate change, *SPRING, *CLIMATE change, *WOODY plants, *LOW temperatures

Abstract

Summary: Two functional responses largely guide woody plants' survival to winter conditions: cold hardiness and dormancy. Dormancy affects budbreak timing based on chill accumulation. Effects of warming on dormancy may appear time‐shifted: fall and winter warming events decrease chill accumulation, delaying budbreak observed in spring. The same warming events also affect cold hardiness dynamics, having immediate implications. As cold deacclimation rates increase with dormancy progression, the same amount of warming has greater damage risk the later it occurs in the season, depending on return of low temperatures. Should frequency of erratic weather increase with climate change, more instances of risk are expected. However, understanding how plants fare through seasons now and in future climates still requires better knowledge of winter physiology. [ABSTRACT FROM AUTHOR]

Published

2024

12. Quiescence and dormancy underpin plasticity and resilience: the virtue of being idle.

Author

Considine, Michael J

Subjects

*MOLECULAR biology, *PLANT phenology, *MOLECULAR structure, *OVULES, *AGRICULTURAL conservation, *SEED dormancy, *POTATOES, *LILIES

Abstract

This article discusses the concept of quiescence and dormancy in plants and their importance in plant development, acclimation, and survival. The article highlights recent research on the molecular and metabolic regulation of quiescence, as well as the ecological modeling and molecular perception of temperature in relation to dormancy. The integration of hormone and cell-to-cell signaling, as well as the role of epigenetic mechanisms in establishing and maintaining dormancy, is also explored. The article concludes by emphasizing the potential applications of this research in enhancing plant resilience in the face of climate change. [Extracted from the article]

Published

2024

13. Altered expression of a raspberry homologue of VRN1 is associated with disruption of dormancy induction and misregulation of subsets of dormancy-associated genes.

Author

Mateos, Brezo, Preedy, Katharine, Milne, Linda, Morris, Jenny, Hedley, Pete E, Simpson, Craig, Hancock, Robert D, and Graham, Julie

Subjects

*GENE expression, *GENE regulatory networks, *NUCLEIC acids, *GENE clusters, *SIGNAL processing, *DORMANCY in plants

Abstract

Winter dormancy is a key process in the phenology of temperate perennials. Climate change is severely impacting its course leading to economic losses in agriculture. A better understanding of the underlying mechanisms, as well as the genetic basis of the different responses, is necessary for the development of climate-resilient cultivars. This study aims to provide an insight into winter dormancy in red raspberry (Rubus idaeus L). We report the transcriptomic profiles during dormancy in two raspberry cultivars with contrasting responses. The cultivar 'Glen Ample' showed a typical perennial phenology, whereas 'Glen Dee' registered consistent dormancy dysregulation, exhibiting active growth and flowering out of season. RNA-seq combined with weighted gene co-expression network analysis identified gene clusters in both genotypes that exhibited time-dependent expression profiles. Functional analysis of 'Glen Ample' gene clusters highlighted the significance of the cell and structural development prior to dormancy entry as well the role of genetic and epigenetic processes such as RNAi and DNA methylation in regulating gene expression. Dormancy release in 'Glen Ample' was associated with up-regulation of transcripts associated with the resumption of metabolism, nucleic acid biogenesis, and processing signal response pathways. Many of the processes occurring in 'Glen Ample' were dysregulated in 'Glen Dee' and 28 transcripts exhibiting time-dependent expression in 'Glen Ample' that also had an Arabidopsis homologue were not found in 'Glen Dee'. These included a gene with homology to Arabidopsis VRN1 (RiVRN1.1) that exhibited a sharp decline in expression following dormancy induction in 'Glen Ample'. Characterization of the gene region in the 'Glen Dee' genome revealed two large insertions upstream of the ATG start codon. We propose that expression below detection level of a specific VRN1 homologue in 'Glen Dee' causes dormancy misregulation as a result of inappropriate expression of a subset of genes that are directly or indirectly regulated by RiVRN1.1. [ABSTRACT FROM AUTHOR]

Published

2024

14. Reinterpreting olive bud dormancy.

Author

Arias-Sibillotte, Mercedes, Considine, Michael J, and Signorelli, Santiago

Subjects

*SCIENTIFIC ability, *BUDS, *DECIDUOUS plants, *PHYSIOLOGY, *TROPICAL fruit, *OLIVE

Abstract

This article, published in the Journal of Experimental Botany, reinterprets the concept of olive bud dormancy. The authors argue that olive buds do not undergo true physiological dormancy, but rather go through a process of para-dormancy and eco-dormancy. They discuss the challenges of studying bud dormancy in olive trees, which are evergreen and have different growth patterns compared to deciduous trees. The article also explores the relationship between cold temperatures and flowering in olive trees, highlighting the role of the FT gene in promoting flower induction. Overall, the authors suggest that further research is needed to better understand the reproductive biology of olive trees and improve olive production. [Extracted from the article]

Published

2024

15. Cold hardiness-informed budbreak reveals role of freezing temperatures and daily fluctuation in a chill accumulation model.

Author

North, Michael G, Workmaster, Beth Ann, Atucha, Amaya, and Kovaleski, Al P

Subjects

*TREATMENT effectiveness, *LOW temperatures, *GRAPES, *PHENOTYPES, *BUDS

Abstract

Fundamental questions in bud dormancy remain, including what temperatures fulfill dormancy requirements (i.e. chill accumulation). Recent studies demonstrate freezing temperatures promote chill accumulation and cold hardiness influences time to budbreak—the phenotype used for dormancy evaluations. Here we evaluated bud cold hardiness and budbreak responses of grapevines (Vitis hybrids) throughout chill accumulation under three treatments: constant (5 °C), fluctuating (−3.5 to 6.5 °C daily), and field conditions (Madison, WI, USA). Chill treatments experiencing lower temperatures promoted greater gains in cold hardiness (field>fluctuating>constant). All treatments decreased observed time to budbreak with increased chill accumulation. However, perceived treatment effectiveness changed when time to budbreak was adjusted to remove cold acclimation effects. Among three classic chill models (North Carolina, Utah, and Dynamic), none was able to correctly describe adjusted time to budbreak responses to chill accumulation. Thus, a new model is proposed that expands the range of chill accumulation temperatures to include freezing temperatures and enhances chill accumulation under fluctuating temperature conditions. Most importantly, our analysis demonstrates that adjustments for uneven acclimation change the perceived effectiveness of chill treatments. Therefore, future work in bud dormancy would benefit from simultaneously evaluating cold hardiness. [ABSTRACT FROM AUTHOR]

Published

2024

16. Stem cell quiescence and dormancy in plant meristems.

Author

Eljebbawi, Ali, Dolata, Anika, Strotmann, Vivien I, and Stahl, Yvonne

Subjects

*SHOOT apical meristems, *STEM cell niches, *GENE regulatory networks, *PLANT adaptation, *PLANT development

Abstract

Plants exhibit opportunistic developmental patterns, alternating between growth and dormancy in response to external cues. Moreover, quiescence plays a critical role in proper plant growth and development, particularly within the root apical meristem and the shoot apical meristem. In these meristematic tissues, cells with relatively slower mitotic activity are present in the quiescent center and the central zone, respectively. These centers form long-term reservoirs of stem cells maintaining the meristematic stem cell niche, and thus sustaining continuous plant development and adaptation to changing environments. This review explores early observations, structural characteristics, functions, and gene regulatory networks of the root and shoot apical meristems. It also highlights the intricate mechanism of dormancy within the shoot apical meristem. The aim is to contribute to a holistic understanding of quiescence in plants, which is fundamental for the proper growth and environmental response of plants. [ABSTRACT FROM AUTHOR]

Published

2024

17. Molecular advances in bud dormancy in trees.

Author

Ding, Jihua, Wang, Kejing, Pandey, Shashank, Perales, Mariano, Allona, Isabel, Khan, Md Rezaul Islam, Busov, Victor B, and Bhalerao, Rishikesh P

Subjects

*ABSCISIC acid, *PLANT development, *WOODY plants, *PLASMODESMATA, *GIBBERELLINS

Abstract

Seasonal bud dormancy in perennial woody plants is a crucial and intricate process that is vital for the survival and development of plants. Over the past few decades, significant advancements have been made in understanding many features of bud dormancy, particularly in model species, where certain molecular mechanisms underlying this process have been elucidated. We provide an overview of recent molecular progress in understanding bud dormancy in trees, with a specific emphasis on the integration of common signaling and molecular mechanisms identified across different tree species. Additionally, we address some challenges that have emerged from our current understanding of bud dormancy and offer insights for future studies. [ABSTRACT FROM AUTHOR]

Published

2024

18. Plant quiescence strategy and seed dormancy under hypoxia.

Author

Pucciariello, Chiara and Perata, Pierdomenico

Subjects

*DORMANCY in plants, *OVULES, *HYPOXEMIA, *SUGAR, *STARVATION, *SEED dormancy, *GERMINATION

Abstract

Plant quiescence and seed dormancy can be triggered by reduced oxygen availability. Under water, oxygen depletion caused by flooding can culminate in a quiescent state, which is a plant strategy for energy preservation and survival. In adult plants, a quiescent state can be activated by sugar starvation, leading to metabolic depression. In seeds, secondary dormancy can be activated by reduced oxygen availability, which creates an unfavourable state for germination. The physical dormancy of some seeds and buds includes barriers to external conditions, which indirectly results in hypoxia. The molecular processes that support seed dormancy and plant survival through quiescence under hypoxia include the N-degron pathway, which enables the modulation of ethylene-responsive factors of group VII and downstream targets. This oxygen- and nitric oxide-dependent mechanism interacts with phytohormone-related pathways to control growth. [ABSTRACT FROM AUTHOR]

Published

2024

19. Redox regulation of meristem quiescence: outside/in.

Author

Considine, Michael J and Foyer, Christine H

Subjects

*PEPTIDE hormones, *REACTIVE oxygen species, *CELL cycle, *CELL division, *OXIDATION-reduction reaction

Abstract

Quiescence is an essential property of meristematic cells, which restrains the cell cycle while retaining the capacity to divide. This crucial process not only facilitates life-long tissue homeostasis and regenerative capacity but also provides protection against adverse environmental conditions, enabling cells to conserve the proliferative potency while minimizing DNA damage. As a survival attribute, quiescence is inherently regulated by the products of aerobic life, in particular reactive oxygen species (ROS) and the redox (reduction/oxidation) mechanisms that plant have evolved to channel these into pervasive signals. Adaptive responses allow quiescent cells to compensate for reduced oxygen tension (hypoxia) in a reversible manner, while the regulated production of the superoxide anion (O2·−) facilitates cell division and the maintenance of stem cells. Here we discuss the role of ROS and redox reactions in the control of the quiescent state in plant meristems, and how this process is integrated with cellular energy and hormone biochemistry. We consider the pathways that sense and transmit redox signals with a focus on the central significance of redox regulation in the mitochondria and nucleus, which is a major regulator of quiescence in meristems. We discuss recent studies that suggest that ROS are a critical component of the feedback loops that control stem cell identity and fate, and suggest that the ROS/hypoxia interface is an important 'outside/in' positional cue for plant cells, particularly in meristems. [ABSTRACT FROM AUTHOR]

Published

2024

20. Delayed Distant Recurrence of a Uveal Melanoma 4 Decades after Enucleation.

Author

Eide, Nils A., Noer, Agate, Jespersen, Henrik, Jebsen, Peter, and Geisler, Jürgen

Subjects

*LIVER biopsy, *LUNG diseases, *MELANOMA, *METASTASIS, *RADIOTHERAPY

Abstract

Introduction: This report presents a case of an exceptionally delayed distant recurrence of a choroidal melanoma, occurring 4 decades after the enucleation of the affected eye. Case Presentation: In 1977, a 29-year-old man underwent enucleation for a choroidal melanoma. At the age of 68 years, he was diagnosed with advanced prostate cancer. Although the metastatic prostate cancer responded to treatment, a persistent lung lesion warranted further examination. A lung biopsy, somewhat surprisingly, confirmed the presence of melanoma metastasis, 4 decades after the enucleation. The cells were positive for Melan-A, while no BRAF mutation was identified. Two years later, new lesions appeared in the liver, and CT showed progression with multiple new sites. A liver biopsy revealed again melanoma recurrence, and its choroidal origin was verified by the presence of a GNA11 mutation. The patient underwent radiation therapy for the lung and liver lesions, followed by immunotherapy. However, the patient died 11 months after the recurrence in the liver. In this case report, the micrometastatic melanoma cells appear to have remained dormant for an extended period, before the patient’s treatment in 1977, but the reason for the late reactivation from the dormant state remains unclear. Conclusion: The recurrence of a choroidal melanoma is substantiated by the histopathological and molecular analyses, including the finding of a GNA11 mutation. This case exemplifies a remarkably delayed distant recurrence of a choroidal melanoma, which manifested clinically 40 years following enucleation. [ABSTRACT FROM AUTHOR]

Published

2024

21. Dormancy promotes coexistence in fluctuating environments.

Author

Jones, Natalie T., Bundus, Joanna D., Shurin, Jonathan B., and Rifkin, Scott A.

Subjects

*COEXISTENCE of species, *BIOLOGICAL extinction, *POPULATION dynamics, *SPECIES, *TEMPERATURE

Abstract

Dormancy allows organisms to survive hostile conditions and is hypothesized to enable species to coexist in fluctuating environments. Although determining how species avoid extinction is critical to understanding the dynamics of natural populations, experimental work exploring if and when dormancy rescues populations from extinction remains rare. We conducted an experiment, where we grew two species of nematode at three temperatures. Strains of Caenorhabditis elegans had mutations altering their propensity to enter a dormant stage and Caenorhabditis briggsae was a single strain with a wildtype background. We used those empirical results to parameterize a model and simulate competitive outcomes in fluctuating environments between the two species. We show that upregulating the dormancy pathway rescues populations that would otherwise go extinct, thereby increasing coexistence between competing species. By leveraging the genetic tools available from a model system, this study provides experimental confirmation that dormancy specifically facilitates species coexistence and thereby promotes diversity. This study system could be used more expansively to explore the role of dormancy in species interactions. [ABSTRACT FROM AUTHOR]

Published

2024

22. Seed germination requirements of the rare Helosciadium repens (aka Apium repens) determine persistence of seeds in the soil seed bank.

Author

Ronse, A., Van de Vyver, A., and Vandelook, F.

Abstract

The rare and threatened Heliosciadium repens grows in moist grasslands and has a distinct life cycle. Plants reproduce both clonally, although ramets tend to be short‐lived, and sexually, with seeds that can form a persistent soil seed bank. The germination requirements of H. repens were investigated, yielding important information for its habitat management and conservation.We examined the soil seed bank in three populations and carried out germination experiments and embryo growth measurements with fresh seeds in laboratory, greenhouse and outdoor conditions. We also investigated the effects of storage and burial of seeds.H. repens formed a long‐term persistent (>6 years) soil seed bank with very pronounced primary dormancy, but no secondary dormancy or dormancy cycles. Seeds can germinate throughout the growing season when temperatures are sufficiently high. Embryo growth and seed germination are triggered by light and, to a lesser extent, daily temperature fluctuations.Seeds of H. repens seem to have developed a unique germination syndrome with several strategies to remain dormant in the soil until optimal conditions are present for seedling establishment and survival. Both sexual reproduction and seed bank formation are crucial for the long‐term survival of the populations. [ABSTRACT FROM AUTHOR]

Published

2024

23. Effects of Foliar Silicon and Nitrogen Applications on Winter Color Retention and Spring Green-Up of Zoysia Grass.

Author

Çakır, Mert, Mutlu, Songül Sever, and Dönmez, Şirin

Subjects

*TURF management, *SPRING, *POTASSIUM silicate, *AMMONIUM sulfate, *SILICON

Abstract

Zoysia japonica Steud. (zoysia grass), with its high drought, shade, and salt tolerance, it is an excellent choice for green areas. However, in regions with subtropical climates, it goes into winter dormancy with a loss of green color and functionality, which is a main barrier to its widespread use. The application of silicon and nitrogen in fall was hypothesized to enhance winter color retention of Z. japonica. This study assessed the impact of fall (late-season) nitrogen (0, 2.5, or 5.0 g/m2 ammonium sulfate) and foliar silicon (0, 3, or 6 mL/L potassium silicate) applications on the winter color retention of Z. japonica grown in the field. The experiment was conducted over two consecutive growing seasons in Antalya, Türkiye. Turfgrass quality, color, chlorophyll content, shoot density, and winter dormancy were all improved by late-season nitrogen application. Overall, two sequential nitrogen applications at 5 g/m2 in fall provided 65% to 100% green coverage with acceptable turfgrass quality during fall and winter, indicating the possibility of maintaining the year-round green color of Z. japonica in subtropical climates. However, the silicon treatment did not affect the winter color retention of Z. japonica. The apparent lack of a beneficial response of Z. japonica to the silicon application might be due to the dose, application methods, and silicon source. [ABSTRACT FROM AUTHOR]

Published

2024

24. Effectiveness of freezing temperatures on dormancy release of temperate woody species.

Author

Wang, Huanjiong, Bai, Wenrui, Hu, Zhi, Lin, Shaozhi, and Ge, Quansheng

Subjects

*SPRING, *GLOBAL warming, *CLIMATE change, *TEMPERATURE effect, *TWIGS

Abstract

Background and Aims Spring phenological change of plants in response to global warming may affect many ecological processes and functions. Chilling temperature regulates budburst date by releasing dormancy. However, whether freezing temperatures (<0 °C) contribute to dormancy release remains of debate. Our poor understanding of the role of chilling makes estimating shifts in budburst date difficult. Methods A 2-year chilling–forcing experiment was explicitly designed to test the effects of chilling temperatures on dormancy release of nine temperate woody species in Beijing, China. A total of 1620 twigs were first exposed to a wide range of temperatures (−10 to 10 °C) with different durations and then moved to growth chambers. Based on budburst data in experimental conditions, we examined whether freezing temperatures are effective on dormancy release. We also developed a new framework for constructing chilling functions based on the curve between chilling duration and forcing requirement (FR) of budburst. The chilling function derived from this framework was not affected by experimental forcing conditions. Key Results We demonstrated that freezing temperatures down to −10 °C were effective in dormancy release. The rate of dormancy release, indicated by the rate of decay in the chilling duration–FR curve, did not differ significantly between chilling temperatures in most cases, although it exhibited a maximum value at 0 or 5 °C. The chilling function-associated phenological models could simulate budburst date from independent experimental and observational data with a mean RMSE of 7.07 d. Conclusions The effective freezing temperatures found here are contrary to the well-known assumption of <0 °C temperature generally not contributing to accumulated chilling in many previous chilling functions. A chilling function assuming that temperature below an upper temperature threshold has the same effects on dormancy release could be adopted to calculate chilling accumulation when using experiments to develop spring phenological models based on the chilling–forcing relationship. [ABSTRACT FROM AUTHOR]

Published

2024

25. 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

26. Heat resistance of Listeria monocytogenes persistent cells following osmotic stress in cooked pork sausages.

Author

Nalbone, Luca, Forgia, Salvatore, Ziino, Graziella, Sorrentino, Giorgia, Giarratana, Filippo, and Giuffrida, Alessandro

Subjects

*FOOD preservation, *IMAGE processing software, *PORK, *LISTERIA monocytogenes, *FOOD safety

Abstract

Summary: Persistent bacteria are subset of cells capable of surviving bactericidal treatments longer. They originate in response to environmental stressors and show a longer lag phase compared to the rest of the population they are part of. Impact of persistent cells on food safety and role of common food preservation techniques in their formation are still unclear. This study aims to investigate whether osmotic stress induces formation of persistent cells in Listeria monocytogenes capable of resisting longer during cooking cycle of pork sausages. Lag‐phase duration at single‐cell level of a strain grown in 6%‐NaCl broth using image processing software was first investigated. Then, trend of the strain inactivation curve was evaluated in experimentally contaminated pork sausages cooked at 65 °C for 11 min. Results showed that salt triggers the formation of persistent cells characterised by a longer lag phase and increased heat resistance, posing a concern especially for ready‐to‐eat foods. [ABSTRACT FROM AUTHOR]

Published

2024

27. Leptin gene expression in the brain is associated with the physiological onset of estivation in western sand lance Ammodytes japonicus.

Author

Amiya, Noriko, Nakano, Nayu, Tanaka, Chikaya, Hibino, Shizuha, Takakura, Ryota, Amano, Masafumi, and Yoshinaga, Tatsuki

Subjects

*PEPTIDE hormones, *MARINE fishes, *GENE expression, *APPETITE disorders, *LEPTIN

Abstract

Dormancy is an essential ecological characteristic for the survival of organisms that experience harsh environments. Although factors that initiate dormancy vary, suppression or cessation of feeding activities are common among taxa. To distinguish between extrinsic and intrinsic causes of metabolic reduction, we focused on estivation, which occurs in summer when the feeding activity is generally enhanced. Sand lances (genus Ammodytes) are a unique marine fish with a long estivation period from early summer to late autumn. In the present study, we aimed to elucidate the control mechanisms of estivation in western sand lance (A. japonicus), and firstly examined behavioral changes in 8 months including a transition between active and dormant phases. We found that swimming/feeding behavior gradually decreased from June, and completely disappeared by late August, indicating all individuals had entered estivation. Next, we focused on leptin, known as a feeding suppression hormone in various organisms, and examined leptin‐A gene (AjLepA) expression in the brain that may regulate the seasonal behavioral pattern. AjLepA expression decreased after 7 days of fasting, suggesting that leptin has a function to regulate feeding in this species. The monthly expression dynamics of AjLepA during the feeding (active) and non‐feeding (estivation) periods showed that the levels gradually increased with the onset of estivation and reached its peak when all the experimental fish had estivated. The present study suggests that the suppression of feeding activity by leptin causes shift in the physiological modes of A. japonicus before estivation. Research highlights: Sand lance spends in sand for more than half a year without feeding, a unique dormancy among teleosts called estivationLeptin, a peptide hormone, was found to be involved in appetite suppression in brain and work to exert the onset of estivation [ABSTRACT FROM AUTHOR]

Published

2024

28. Metabolite and Transcriptomic Changes Reveal the Cold Stratification Process in Sinopodophyllum hexandrum Seeds.

Author

Ning, Rongchun, Li, Caixia, Fan, Tingting, Ji, Tingting, and Xu, Wenhua

Subjects

PLANT genetic transformation, PLANT hormones, HORMONE synthesis, ABSCISIC acid, GENE expression, SEED dormancy

Abstract

Sinopodophyllum hexandrum (Royle) Ying, an endangered perennial medicinal herb, exhibits morpho-physiological dormancy in its seeds, requiring cold stratification for germination. However, the precise molecular mechanisms underlying this transition from dormancy to germination remain unclear. This study integrates transcriptome and plant hormone-targeted metabolomics techniques to unravel these intricate molecular regulatory mechanisms during cold stratification in S. hexandrum seeds. Significant alterations in the physicochemical properties (starch, soluble sugars, soluble proteins) and enzyme activities (PK, SDH, G-6-PDH) within the seeds occur during stratification. To characterize and monitor the formation and transformation of plant hormones throughout this process, extracts from S. hexandrum seeds at five stratification stages of 0 days (S0), 30 days (S1), 60 days (S2), 90 days (S3), and 120 days (S4) were analyzed using UPLC-MS/MS, revealing a total of 37 differential metabolites belonging to seven major classes of plant hormones. To investigate the biosynthetic and conversion processes of plant hormones related to seed dormancy and germination, the transcriptome of S. hexandrum seeds was monitored via RNA-seq, revealing 65,372 differentially expressed genes associated with plant hormone synthesis and signaling. Notably, cytokinins (CKs) and gibberellins (GAs) exhibited synergistic effects, while abscisic acid (ABA) displayed antagonistic effects. Furthermore, key hub genes were identified through integrated network analysis. In this rigorous scientific study, we systematically elucidate the intricate dynamic molecular regulatory mechanisms that govern the transition from dormancy to germination in S. hexandrum seeds during stratification. By meticulously examining these mechanisms, we establish a solid foundation of knowledge that serves as a scientific basis for facilitating large-scale breeding programs and advancing the artificial cultivation of this highly valued medicinal plant. [ABSTRACT FROM AUTHOR]

Published

2024

29. Microfluidic Applications in Prostate Cancer Research.

Author

Szewczyk, Kailie, Jiang, Linan, Khawaja, Hunain, Miranti, Cindy K., and Zohar, Yitshak

Subjects

CASTRATION-resistant prostate cancer, MICROPHYSIOLOGICAL systems, MALE reproductive organs, ORGANS (Anatomy), PROSTATE cancer, PROSTATE

Abstract

Prostate cancer is a disease in which cells in the prostate, a gland in the male reproductive system below the bladder, grow out of control and, among men, it is the second-most frequently diagnosed cancer (other than skin cancer). In recent years, prostate cancer death rate has stabilized and, currently, it is the second-most frequent cause of cancer death in men (after lung cancer). Most deaths occur due to metastasis, as cancer cells from the original tumor establish secondary tumors in distant organs. For a long time, classical cell cultures and animal models have been utilized in basic and applied scientific research, including clinical applications for many diseases, such as prostate cancer, since no better alternatives were available. Although helpful in dissecting cellular mechanisms, these models are poor predictors of physiological behavior mainly because of the lack of appropriate microenvironments. Microfluidics has emerged in the last two decades as a technology that could lead to a paradigm shift in life sciences and, in particular, controlling cancer. Microfluidic systems, such as organ-on-chips, have been assembled to mimic the critical functions of human organs. These microphysiological systems enable the long-term maintenance of cellular co-cultures in vitro to reconstitute in vivo tissue-level microenvironments, bridging the gap between traditional cell cultures and animal models. Several reviews on microfluidics for prostate cancer studies have been published focusing on technology advancement and disease progression. As metastatic castration-resistant prostate cancer remains a clinically challenging late-stage cancer, with no curative treatments, we expanded this review to cover recent microfluidic applications related to prostate cancer research. The review includes discussions of the roles of microfluidics in modeling the human prostate, prostate cancer initiation and development, as well as prostate cancer detection and therapy, highlighting potentially major contributions of microfluidics in the continuous march toward eradicating prostate cancer. [ABSTRACT FROM AUTHOR]

Published

2024

30. Exploratory genomic sequence analysis reveals structural differences at key loci for growth habit, seed dormancy, and rust resistance in barley.

Author

Massman, Chris, Maughan, Peter J., Nandety, Raja Sekhar, Clare, Shaun J., Fiedler, Jason D., and Hayes, Patrick M.

Abstract

Barley (Hordeum vulgare L.) is a major cereal grain with uses in the feed, food, and malting industries. Growth habit, seed dormancy, and disease resistance are important considerations when selecting germplasm for production or release. With the ever-increasing availability of sequencing technologies, a deeper understanding of the genes underlying these key traits is within reach. In the present case study, the VRN-H1 (HvBM5A), SD2 (HvMKK3), and the novel stem and stripe rust resistance quantitative trait locus (QTL) described by Hernandez et al. (Hernandez et al. Phytopathology 110:1082–1092, 2020b) were investigated. These loci in three advanced barley inbred genotypes were the focus of the present study using next-generation sequencing. The intent behind the study was the identification and exploration of possible causal sequence variation in the genotypes within the context of the whole gene or QTL region. The sequence data was used to identify an intron one deletion in the HvBM5A sequence of the spring genotype that was conserved in the winter and facultative genotypes. Interestingly, a tandem duplication of the HvMKK3 sequence was identified in one of the genotypes, Thunder, that merits further investigation. Finally, 13 high confidence genes were identified within the Morex V3 reference genome in proximity to the rust QTL identified previously. Sequence variation between all tested genotypes was identified for 11 of the genes. This study explored structural and sequence variation of key genes in barley development and outlined directions for future research. The remaining, unexplored genome sequence will be a resource for identifying allelic variation and will contribute to the growing barley pangenome. [ABSTRACT FROM AUTHOR]

Published

2024

31. The trade‐off between immunity and product quality of Opisthoplatia orientalis (Blattodea: Blaberidae) under low temperatures.

Author

Qiu, Xiaoming, Lin, Yongwen, Huang, Jing, and Akutse, Komivi S.

Subjects

*METARHIZIUM anisopliae, *PHENOL oxidase, *LOW temperatures, *FATTY acids, *BODY weight, *ENTOMOPATHOGENIC fungi

Abstract

Opisthoplatia orientalis Burmeister is a traditional medicinal insect in China that is mass‐produced by entrepreneur farmers. However, low temperatures pose a serious threat to the survival and quality of this insect, causing economic losses to the farmers. This study aimed to test the hypothesis that low temperatures induce a trade‐off between immunity and physical condition of O. orientalis. The phenoloxidase activity and hemocyte concentration of O. orientalis under 25°C and 5°C were measured by micro‐determination and haemocytometre, respectively. The immunocompetence of the insect was also evaluated by inoculating it with Metarhizium anisopliae M11, an entomopathogenic fungus. The physical factors (protein content, fatty acid content and body weight) of O. orientalis were determined accordingly. The results showed that phenoloxidase activity and hemocyte concentration increased from 9.21 mOD/min and 122.30 hemocyte/ml to 3.64 mOD/min and 55.70 hemocyte/ml when temperature down‐regulated from 25 to 5°C. However, the insects at 5°C had higher protein and fatty acid content, but lower body weight, than those at 25°C. Moreover, there was a significant negative correlation between immunity and protein or fatty acid content, indicating a trade‐off between immunity and physical condition in O. orientalis under low temperatures. This study provides useful insights for improving the efficiency of insect breeding and enhancing the quality of this medicinal insect. [ABSTRACT FROM AUTHOR]

Published

2024

32. Room–temperature hydrogen sensitive Pt–SnO2 composite nanoceramics: Dormancy and a practicable regeneration method.

Author

Song, Jiannan, Zhao, Jieting, Liu, Yong, Hu, Yongming, and Chen, Wanping

Subjects

*X-ray photoelectron spectroscopy, *STANNIC oxide, *GAS detectors, *CERAMIC metals, *ENERGY futures

Abstract

Dormancy has been suggested to be used for metal oxide gas sensors to specifically refer to their response decrease or disappearance after long periods of inactivity at room temperature. In this paper, 1 wt% Pt–SnO 2 composite nanoceramics with especially strong responses to hydrogen–containing atmospheres at room temperature, e.g. a response of 11170 to 1 % H 2 –20 % O 2 –N 2 , were successfully prepared through pressing and sintering. A clear dormancy has been observed for them as their responses decreased seriously with time when they were stored in ambient air at room temperature. Commercial ceramic heating plates (Metal Ceramics Heater, MCH) of 10 mm × 10 mm were attached to bars of 1 wt% Pt–SnO 2 composite nanoceramics. Dormant bars after 12 months of storage were completely regenerated through a heat–treatment of 200 °C for 10 min by attached MCH ceramic heating plates. According to X-ray photoelectron spectroscopy analyses, the formation of hydroxyl groups on SnO 2 in Pt–SnO 2 composite nanoceramics and deposition of impurity gases like H 2 S were proposed responsible for the dormancy, and their removal through mild heat–treatments result in the regeneration. It is suggested that heaters like commercial MCH ceramic heating plates should be included in future room–temperature gas sensors to provide a practicable regeneration from dormancy when needed. [ABSTRACT FROM AUTHOR]

Published

2024

33. Hibernating ribosomes as drug targets?

Author

Ekemezie, Chinenye L. and Melnikov, Sergey V.

Subjects

CELL growth, HIBERNATION, BACTERIAL cells, DRUG target, DRUG resistance in microorganisms

Abstract

When ribosome-targeting antibiotics attack actively growing bacteria, they occupy ribosomal active centers, causing the ribosomes to stall or make errors that either halt cellular growth or cause bacterial death. However, emerging research indicates that bacterial ribosomes spend a considerable amount of time in an inactive state known as ribosome hibernation, in which they dissociate from their substrates and bind to specialized proteins called ribosome hibernation factors. Since 60% of microbial biomass exists in a dormant state at any given time, these hibernation factors are likely the most common partners of ribosomes in bacterial cells. Furthermore, some hibernation factors occupy ribosomal drug-binding sites-leading to the question of how ribosome hibernation influences antibiotic efficacy, and vice versa. In this review, we summarize the current state of knowledge on physical and functional interactions between hibernation factors and ribosome-targeting antibiotics and explore the possibility of using antibiotics to target not only active but also hibernating ribosomes. Because ribosome hibernation empowers bacteria to withstand harsh conditions such as starvation, stress, and host immunity, this line of research holds promise for medicine, agriculture, and biotechnology: by learning to regulate ribosome hibernation, we could enhance our capacity to manage the survival of microorganisms in dormancy. [ABSTRACT FROM AUTHOR]

Published

2024

34. Spring resting egg production of the calanoid copepod, Eurytemora affinis, in a freshet-dominated estuary.

Author

Breckenridge, Joanne and Pakhomov, Evgeny

Subjects

*ESTUARIES, *EGGS, *COPEPODA, *SALINITY, *ADULTS

Abstract

Seasonal peaks in river discharge, such as snowmelt-dominated freshets, are predictable events that can have a large effect on flushing rates and salinity in estuaries. Resting eggs, which many coastal and estuarine copepods produce for overwintering or aestivation, could also serve to bridge predictable peaks in river discharge. We assessed the timing of resting egg production of the egg-carrying estuarine copepod, Eurytemora affinis (Poppe), in relation to river discharge in the Fraser River Estuary, Canada. Approximately 30 field-collected females were individually incubated on 12 occasions over the period February 2015–May 2016. Eurytemora affinis abundance and population structure were investigated from vertical net tow samples collected twice monthly to monthly. Resting eggs occurred primarily in May 2015 and May 2016 (6.5 and 9.2 eggs day−1, respectively), a month prior to peak flows, and the proportion of offspring that were resting eggs increased with river discharge. Eurytemora affinis reached a minimum abundance in July 2015, when the population was dominated by adults (86%). Resting egg production in E. affinis is typically considered an overwintering mechanism but we suggest that the ultimate driver of resting egg production in this population is avoidance of flushing and/or low salinities. [ABSTRACT FROM AUTHOR]

Published

2024

35. Studies on in vitro germination on endemic Salvia L. species.

Author

Orcan, Pınar and Kuru, İbrahim Selçuk

Subjects

*SALVIA, *GERMINATION, *PLANT development, *SODIUM hypochlorite, *SULFURIC acid

Abstract

This study used seeds of two endemic sage plants (Salvia siirtica and Salvia kronenburgii) as a starting material. Mucilage causes dormancy in the seeds of these plants. Therefore, it is important to improve the germination performance of these plants' seeds, and in this study, some treatments were applied to the seeds before or during sowing. To this end, sodium hypochlorite, ethyl alcohol, gibberellic acid, seed cracking, removal of the seed coat, pre-cold treatment, and sulfuric acid treatments were applied to the seeds of the two species separately or in combination, and their germination performances were investigated in comparison with a control group. Considering the results higher germination rates were obtained for both plants compared to the control group in all treatments except sulfuric acid treatments. The best germination rate for both plants was obtained from the treatments where the seed coat was mechanically removed. In this treatment, the germination rate in S. siirtica increased 3.3 times, while it increased 2.4 times in S. kronenburgii compared to the control group. Additionally, GA treatments for S. siirtica and cold pre-treatments for S. kronenburgii significantly increased germination rates. In light of these results, the removal of the seed coat, gibberellic acid, and cold pre-treatment effectively broke dormancy in sage seeds and increased germination rates. [ABSTRACT FROM AUTHOR]

Published

2024

36. Persistence and Culturability of Escherichia coli under Induced Toxin Expression.

Author

Dhaouadi, Yousr, Hashemi, Mohamad Javad, and Ren, Dacheng

Subjects

ESCHERICHIA coli, GENE expression, BACTERIAL cells, ARABINOSE, FLOW cytometry

Abstract

Background/Objectives: Bacteria are well known to enter dormancy under stress conditions. However, the mechanisms of different dormancy-related phenotypes are still under debate and many questions remain unanswered. This study aims to better understand the effects of toxin gene expression on the dormancy of Escherichia coli. Methods: The effects of toxin gene expression on growth, persistence, and culturability were characterized. Specifically, we detailed dose- and time-dependent dormancy of E. coli and its susceptibility to ofloxacin via arabinose-induced hipA toxin gene expression under the PBAD promoter. A new plot was developed to better describe the dynamic changes in culturability and persistence. The expression level of hipA was determined using qPCR and cellular activities were monitored using fluorescence imaging and flow cytometry. Results: High-level persister formation and strong tolerance to ofloxacin were observed after high-level hipA induction. The new plot reveals more information than the changes in persistence alone, e.g., reduced culturability of E. coli and thus deeper dormancy under high-level hipA induction. Consistently, controlled hipA induction led to decreased cellular activities at promoter PrrnBP1 and an increase in the non-culturable subpopulation. Conclusions: Overall, this study provides new insights into dormancy induced by toxin gene expression and a more comprehensive view of persistence and culturability. The findings may help develop better control agents against dormant bacterial cells. [ABSTRACT FROM AUTHOR]

Published

2024

37. Characterization of Escherichia coli Persisters from Biofilm Culture: Multiple Dormancy Levels and Multigenerational Memory in Formation.

Author

Ikeda, Hirona and Maeda, Sumio

Subjects

ESCHERICHIA coli, CELL division, BIOFILMS, EPIGENETICS, ANTIBIOTICS

Abstract

Persister cells (PCs), a subpopulation occurring within normal cells, exhibit a transient tolerance to antibiotics because of their dormant state. PCs are categorized into two types: type I PCs, which emerge during the stationary phase, and type II PCs, which emerge during the logarithmic phase. Using the conventional colony-forming method, we previously demonstrated that type I PCs of Escherichia coli form more frequently in air–solid biofilm culture than in liquid culture. In the current study, we modified a cell filamentation method as a more efficient and rapid alternative for quantifying PCs. This modified method yielded results consistent with those of the conventional method with 103–104 times higher sensitivity and less detection time, within several hours, and further revealed the existence of multiple levels of type I PCs, including a substantial number of deeply dormant cells. This study also discovered a potential epigenetic memory mechanism, spanning several generations (four or six cell divisions), which influences type II PC formation based on prior biofilm experience in E. coli. [ABSTRACT FROM AUTHOR]

Published

2024

38. Shade signals activate distinct molecular mechanisms that induce dormancy and inhibit flowering in vegetative axillary buds of sorghum.

Author

Kebrom, Tesfamichael H.

Subjects

DORMANCY in plants, BUDS, SORGHUM, AGRICULTURE, CROP improvement, PLANT hormones, CROP yields, ABSCISIC acid

Abstract

Shoot branches grow from axillary buds and play a crucial role in shaping shoot architecture and determining crop yield. Shade signals inactivate phytochrome B (phyB) and induce bud dormancy, thereby inhibiting shoot branching. Prior transcriptome profiling of axillary bud dormancy in a phyB‐deficient mutant (58M, phyB‐1) and bud outgrowth in wild‐type (100M, PHYB) sorghum genotypes identified differential expression of genes associated with flowering, plant hormones, and sugars, including SbCN2, SbNCED3, SbCKX1, SbACO1, SbGA2ox1, and SbCwINVs. This study examined the expression of these genes during bud dormancy induced by shade and defoliation in 100M sorghum. The aim was to elucidate the molecular mechanisms activated by shade in axillary buds by comparing them with those activated by defoliation. The expression of marker genes for sugar levels suggests shade and defoliation reduce the sugar supply to the buds and induce bud dormancy. Intriguingly, both shade signals and defoliation downregulated SbNCED3, suggesting that ABA might not play a role in promoting axillary bud dormancy in sorghum. Whereas the cytokinin (CK) degrading gene SbCKX1 was upregulated solely by shade signals in the buds, the CK inducible genes SbCGA1 and SbCwINVs were downregulated during both shade‐ and defoliation‐induced bud dormancy. This indicates a decrease in CK levels in the dormant buds. Shade signals dramatically upregulated SbCN2, an ortholog of the Arabidopsis TFL1 known for inhibiting flowering, whereas defoliation did not increase SbCN2 expression in the buds. Removing shade temporarily downregulated SbCN2 in dormant buds, further indicating its expression is not always correlated with bud dormancy. Because shade signals also trigger a systemic early flowering signal, SbCN2 might be activated to protect the buds from transitioning to flowering before growing into branches. In conclusion, this study demonstrates that shade signals activate two distinct molecular mechanisms in sorghum buds: one induces dormancy by reducing CK and sugars, whereas the other inhibits flowering by activating SbCN2. Given the agricultural significance of TFL1‐like genes, the rapid regulation of SbCN2 by light signals in axillary buds revealed in this study warrants further investigation to explore its potential in crop improvement strategies. [ABSTRACT FROM AUTHOR]

Published

2024

39. Large-scale heterogeneity gradient drives the structure and biodiversity of branchiopod (Anostraca, Cladocera) egg-banks in the Nebraska Sandhills wetlands, USA.

Author

Mausbach, William E and Dzialowski, Andrew R

Subjects

VERNAL pools, NUMBERS of species, SPECIES diversity, CLADOCERA, FRESH water

Abstract

Branchiopods use resting eggs to maintain permanent populations in temporally dynamic environments as well as for dispersing to neighboring habitat patches. We used a large-scale longitudinal salinity gradient that overlays the Nebraska Sandhills, USA to determine how changes in metacommunity environmental heterogeneity influences species composition and biodiversity of branchiopod egg banks from freshwater and saline temporary wetlands. We sampled the egg banks of 54 wetlands from three metacommunities across the Nebraska Sandhills (eastern, central, and western) in which the relative abundance and salinity of saline wetlands increased westwards. Salinity had a strong effect on structuring the egg-bank metacommunities with a clear shift in species composition and species richness from the eastern to western metacommunities. Egg-bank alpha richness of the freshwater wetlands and metacommunity gamma richness declined westwards as the abundance of freshwater wetlands decreased relative to the saline wetlands. The low-salinity wetlands represented an intermediate stage between the freshwater and high-salinity wetlands, overlapping in species composition with both habitat types and supporting similar numbers of species as freshwater wetlands. High-salinity wetlands had the lowest alpha richness with only halotolerant and halophilic species. [ABSTRACT FROM AUTHOR]

Published

2024

40. Role of dormancy survival regulator and resuscitation-promoting factors antigens in differentiating between active and latent tuberculosis: a systematic review and meta-analysis

Author

Yu Wu, Yuanyuan Xiong, Ying Zhong, Juanjuan Liao, and Jin Wang

Subjects

Dormancy, Resuscitation, Antigen, Laten, Active, Tuberculosis, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Dormancy survival regulator (DosR) and resuscitation-promoting factor (Rpf) antigens of Mycobacterium tuberculosis are activated during dormant phase of tuberculosis (TB). This study evaluates the differential immunogenicity potentials of DosR and Rpf antigens in individuals with latent tuberculosis infection (LTBI) and active TB patients. Methods After a literature search in electronic databases, studies were selected by following precise eligibility criteria. Outcomes were synthesized systematically, and meta-analyses were performed to estimate standardized mean differences (SMDs) in interferon-gamma (IFNγ) levels, and IFNγ positive immune cells between individuals with LTBI and active TB patients. Results Twenty-six studies (1278 individuals with LTBI and 1189 active TB patients) were included. DosR antigens Rv0569 (Standardized mean difference; SMD 2.44 [95%CI: 1.21, 3.66]; p

Published

2024

41. Understanding the effects of weather parameters on the population dynamics of an endangered geophyte supports monitoring efficiency

Author

Réka Kiss, Katalin Lukács, Laura Godó, Ágnes Tóth, Tamás Miglécz, László Szél, László Demeter, Balázs Deák, and Orsolya Valkó

Subjects

Colchicum bulbocodium, Temperature, Precipitation, Monitoring, Dormancy, Phenology, Medicine, Science

Abstract

Abstract Due to their complex life cycles geophytes are often neglected in conservation programs, despite they are important elements of early spring communities. Their life cycle is strongly affected by weather parameters, i.e. temperature, precipitation, and light, but the effects of these parameters are often contradictory and show high intra-annual variability even within species. Deeper knowledge about the abiotic factors affecting the population dynamics of geophytes is needed to support the designation of effective conservation plans. We aimed to explore the link between weather parameters and population dynamics of Colchicum bulbocodium, an endangered and strictly protected geophyte. We monitored three life cycle stages (flowering, growing, fruiting) of 1069 individuals in permanent plots for six consecutive years. Our results showed that life cycle of C. bulbocodium was strongly related to the actual weather parameters; the lagged effect of the previous year was weaker. Increasing temperature and lack of cold periods had negative effect on all life stages. We highlighted that population estimation based on the number of flowering individuals in a single year can underestimate population size by 40–83%. Monitoring in years following wet and cold springs and cold winters could increase the accuracy of population estimations of the flowering individuals.

Published

2024

42. Autophagy is required for mammary tumor recurrence by promoting dormant tumor cell survival following therapy

Author

Samantha Dwyer, Jason Ruth, Hans E. Seidel, Amelie A. Raz, and Lewis A. Chodosh

Subjects

Autophagy, Breast cancer, Dormancy, Recurrence, HER2/neu, Mouse model, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Mortality from breast cancer is principally due to tumor recurrence. Recurrent breast cancers arise from the pool of residual tumor cells, termed minimal residual disease, that survive treatment and may exist in a dormant state for 20 years or more following treatment of the primary tumor. As recurrent breast cancer is typically incurable, understanding the mechanisms underlying dormant tumor cell survival is a critical priority in breast cancer research. The importance of this goal is further underscored by emerging evidence suggesting that targeting dormant residual tumor cells in early-stage breast cancer patients may be a means to prevent tumor recurrence and its associated mortality. In this regard, the role of autophagy in dormant tumor cell survival and recurrence remains unresolved, with conflicting reports of both pro-survival/recurrence-promoting and pro-death/recurrence-suppressing effects of autophagy inhibition in dormant tumor cells. Resolving this question has important clinical implications. Methods We used genetically engineered mouse models that faithfully recapitulate key features of human breast cancer progression, including minimal residual disease, tumor dormancy, and recurrence. We used genetic and pharmacological approaches to inhibit autophagy, including treatment with chloroquine, genetic knockdown of ATG5 or ATG7, or deletion of BECN and determined their effects on dormant tumor cell survival and recurrence. Results We demonstrate that the survival and recurrence of dormant mammary tumor cells following therapy is dependent upon autophagy. We find that autophagy is induced in vivo following HER2 downregulation and remains activated in dormant residual tumor cells. Using genetic and pharmacological approaches we show that inhibiting autophagy by chloroquine administration, ATG5 or ATG7 knockdown, or deletion of a single allele of the tumor suppressor Beclin 1 is sufficient to inhibit mammary tumor recurrence, and that autophagy inhibition results in the death of dormant mammary tumor cells in vivo. Conclusions Our findings demonstrate a pro-tumorigenic role for autophagy in tumor dormancy and recurrence following therapy, reveal that dormant tumor cells are uniquely reliant upon autophagy for their survival, and indicate that targeting dormant residual tumor cells by inhibiting autophagy impairs tumor recurrence. These studies identify a pharmacological target for a cellular state that is resistant to commonly used anti-neoplastic agents and suggest autophagy inhibition as an approach to reduce dormant minimal residual disease in order to prevent lethal tumor recurrence.

Published

2024

43. Delayed Distant Recurrence of a Uveal Melanoma 4 Decades after Enucleation

Author

Nils A. Eide, Agate Noer, Henrik Jespersen, Peter Jebsen, and Jürgen Geisler

Subjects

case report, dormancy, gna11, late recurrence, uveal melanoma, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Introduction: This report presents a case of an exceptionally delayed distant recurrence of a choroidal melanoma, occurring 4 decades after the enucleation of the affected eye. Case Presentation: In 1977, a 29-year-old man underwent enucleation for a choroidal melanoma. At the age of 68 years, he was diagnosed with advanced prostate cancer. Although the metastatic prostate cancer responded to treatment, a persistent lung lesion warranted further examination. A lung biopsy, somewhat surprisingly, confirmed the presence of melanoma metastasis, 4 decades after the enucleation. The cells were positive for Melan-A, while no BRAF mutation was identified. Two years later, new lesions appeared in the liver, and CT showed progression with multiple new sites. A liver biopsy revealed again melanoma recurrence, and its choroidal origin was verified by the presence of a GNA11 mutation. The patient underwent radiation therapy for the lung and liver lesions, followed by immunotherapy. However, the patient died 11 months after the recurrence in the liver. In this case report, the micrometastatic melanoma cells appear to have remained dormant for an extended period, before the patient’s treatment in 1977, but the reason for the late reactivation from the dormant state remains unclear. Conclusion: The recurrence of a choroidal melanoma is substantiated by the histopathological and molecular analyses, including the finding of a GNA11 mutation. This case exemplifies a remarkably delayed distant recurrence of a choroidal melanoma, which manifested clinically 40 years following enucleation.

Published

2024

44. Effects of Foliar Silicon and Nitrogen Applications on Winter Color Retention and Spring Green-Up of Zoysia Grass

Author

Mert Çakır, Songül Sever Mutlu, and Şirin Dönmez

Subjects

turfgrass management, dormancy, stress tolerance, silicon fertilization, Biotechnology, TP248.13-248.65

Abstract

Zoysia japonica Steud. (zoysia grass), with its high drought, shade, and salt tolerance, it is an excellent choice for green areas. However, in regions with subtropical climates, it goes into winter dormancy with a loss of green color and functionality, which is a main barrier to its widespread use. The application of silicon and nitrogen in fall was hypothesized to enhance winter color retention of Z. japonica. This study assessed the impact of fall (late-season) nitrogen (0, 2.5, or 5.0 g/m2 ammonium sulfate) and foliar silicon (0, 3, or 6 mL/L potassium silicate) applications on the winter color retention of Z. japonica grown in the field. The experiment was conducted over two consecutive growing seasons in Antalya, Türkiye. Turfgrass quality, color, chlorophyll content, shoot density, and winter dormancy were all improved by late-season nitrogen application. Overall, two sequential nitrogen applications at 5 g/m2 in fall provided 65% to 100% green coverage with acceptable turfgrass quality during fall and winter, indicating the possibility of maintaining the year-round green color of Z. japonica in subtropical climates. However, the silicon treatment did not affect the winter color retention of Z. japonica. The apparent lack of a beneficial response of Z. japonica to the silicon application might be due to the dose, application methods, and silicon source.

Published

2024

45. Improvement of Endosperm Hydration Counter the Negative Relationship Between Dormancy and Malt Quality in Barley (Hordeum vulgare).

Author

Jensen, Joseph, Uhlmann, Hannah, Lachowiec, Jennifer, Lutgen, Greg, Cook, Jason P., Yin, Xiang S., Kephart, Ken, and Sherman, Jamie

Subjects

*SEED size, *MALTING, *MALT, *HYDRATION, *SPROUTS, *ENDOSPERM

Abstract

Dormancy in barley has been thoroughly studied and shown to negatively impact malt quality, resulting in selection against dormancy. However, reduced dormancy coincides with increased preharvest sprout (PHS) risk, thus sparking a new interest in integrating dormancy back into American barley lines if the negative effects of dormancy on malt quality can be overcome. We evaluated the dormancy and hydration index (HYI) in a biparental mapping population to determine the genotypes that would protect against PHS but have good malt quality. We found 4 HYI QTLs and 4 dormancy QTLs, one of which was near the well‐described SD2 QTL. The HYI QTLs were pleiotropically related to seed size (1H), dormancy (5H) and malt quality (2H). Lines with dormancy (5H) and increased HYI (2H and 3H) had malt quality similar to nondormant lines while maintaining PHS resistance, suggesting improvements in HYI could be the key to overcoming the negative effects of dormancy in malting. [ABSTRACT FROM AUTHOR]

Published

2024

46. Cancer treatments as paradoxical catalysts of tumor awakening in the lung.

Author

Nicolas, Emmanuelle, Kosmider, Beata, Cukierman, Edna, Borghaei, Hossein, Golemis, Erica A., and Borriello, Lucia

Abstract

Much of the fatality of tumors is linked to the growth of metastases, which can emerge months to years after apparently successful treatment of primary tumors. Metastases arise from disseminated tumor cells (DTCs), which disperse through the body in a dormant state to seed distant sites. While some DTCs lodge in pre-metastatic niches (PMNs) and rapidly develop into metastases, other DTCs settle in distinct microenvironments that maintain them in a dormant state. Subsequent awakening, induced by changes in the microenvironment of the DTC, causes outgrowth of metastases. Hence, there has been extensive investigation of the factors causing survival and subsequent awakening of DTCs, with the goal of disrupting these processes to decrease cancer lethality. We here provide a detailed overview of recent developments in understanding of the factors controlling dormancy and awakening in the lung, a common site of metastasis for many solid tumors. These factors include dynamic interactions between DTCs and diverse epithelial, mesenchymal, and immune cell populations resident in the lung. Paradoxically, among key triggers for metastatic outgrowth, lung tissue remodeling arising from damage induced by the treatment of primary tumors play a significant role. In addition, growing evidence emphasizes roles for inflammation and aging in opposing the factors that maintain dormancy. Finally, we discuss strategies being developed or employed to reduce the risk of metastatic recurrence. [ABSTRACT FROM AUTHOR]

Published

2024

47. Exploring the genetic basis of pre-harvest sprouting in rice through a genome-wide association study-based haplotype analysis

Author

Myeong-Hyeon Min, Aye Aye Khaing, Sang-Ho Chu, Bhagwat Nawade, and Yong-Jin Park

Subjects

rice, PHS, dormancy, germination, GWAS, haplotype, Agriculture (General), S1-972

Abstract

Pre-harvest sprouting (PHS) poses a significant global challenge to cereal production, impacting both yield and quality. In this study, we employed genome-wide association studies (GWAS) on diverse rice accessions to identify novel PHS-associated haplotypes. An assessment of 127 cultivated accessions for panicle germination (PHS) and detached grain germination (germination rate of detached grains at the 14th day (D14)) revealed considerable phenotypic variation among rice ecotypes. GWAS analysis identified 91 significant signals at –log10(P-value)>5, including 15 SNPs for PHS and 76 SNPs for D14. A subsequent linkage disequilibrium (LD) block-based GWAS analysis detected 227 significant SNPs for both traits, consisting of 18 nonsynonymous substitutions located on the coding regions of nine genes. Further haplotype analysis identified 32 haplotypes, with 10 specific to cultivated accessions, 19 specific to the wild type, and three shared between them. A phenotypic assessment of major haplotypes revealed significant differences between resistant (Hap1 and Hap2) and susceptible haplotypes (Hap5, Hap27, and Hap28), distinguished by a G/A SNP within a novel gene, Os04g0545200. The identified haplotypes offer promising prospects for haplotype-based breeding aimed at enhancing PHS resistance in rice.

Published

2024

48. Gene Regulatory Mechanism of Mycobacterium Tuberculosis during Dormancy

Author

Yiduo Liu, Han Li, Dejia Dai, Jiakang He, and Zhengmin Liang

Subjects

latent tuberculosis infection, dormancy, regulatory mechanism, vaccines, Biology (General), QH301-705.5

Abstract

Tuberculosis (TB), caused by Mycobacterium tuberculosis (Mtb) complex, is a zoonotic disease that remains one of the leading causes of death worldwide. Latent tuberculosis infection reactivation is a challenging obstacle to eradicating TB globally. Understanding the gene regulatory network of Mtb during dormancy is important. This review discusses up-to-date information about TB gene regulatory networks during dormancy, focusing on the regulation of lipid and energy metabolism, dormancy survival regulator (DosR), White B-like (Wbl) family, Toxin-Antitoxin (TA) systems, sigma factors, and MprAB. We outline the progress in vaccine and drug development associated with Mtb dormancy.

Published

2024

49. Elevated GRHL2 Imparts Plasticity in ER-Positive Breast Cancer Cells.

Author

Zheng, Christy, Allen, Kaelyn O., Liu, Tianrui, Solodin, Natalia M., Meyer, Mark B., Salem, Kelley, Tsourkas, Phillipos K., McIlwain, Sean J., Vera, Jessica M., Cromwell, Erika R., Ozers, Mary Szatkowski, Fowler, Amy M., and Alarid, Elaine T.

Subjects

*FLOW cytometry, *HORMONE receptor positive breast cancer, *RESEARCH funding, *T-test (Statistics), *NEUROPLASTICITY, *CELL physiology, *CELL proliferation, *TRANSCRIPTION factors, *DESCRIPTIVE statistics, *TUMOR markers, *XENOGRAFTS, *ESTROGEN receptors, *CELL lines, *GENE expression, *IMMUNOHISTOCHEMISTRY, *DATA analysis software, *BIOLOGICAL assay

Abstract

Simple Summary: High levels of the transcription factor Grainyhead-like protein 2 (GRHL2) contribute to worse outcomes for patients with breast cancer tumors that express estrogen receptor (ER). Using multiple methods to increase GRHL2 expression in breast cancer cells, we found that high GRHL2 promotes both epithelial and mesenchymal phenotypes. This is indicative of an intermediate state between epithelial and mesenchymal cells, which is associated with metastasis. We also observed that elevated GRHL2 stimulates properties characteristic of cellular plasticity, including a decrease in cellular proliferation with a reciprocal increase in dormancy and stem cell markers. Elevated levels of GRHL2 broadly changed its control of gene expression at the level of DNA and shifted nearby transcription factor binding sites from those associated with development to those associated with disease progression. These results provide a possible explanation for how elevated GRHL2 levels could contribute to poorer prognosis in ER-positive breast cancer. Estrogen receptor (ER)-positive breast cancer is characterized by late recurrences following initial treatment. The epithelial cell fate transcription factor Grainyhead-like protein 2 (GRHL2) is overexpressed in ER-positive breast cancers and is linked to poorer prognosis as compared to ER-negative breast cancers. To understand how GRHL2 contributes to progression, GRHL2 was overexpressed in ER-positive cells. We demonstrated that elevated GRHL2 imparts plasticity with stem cell- and dormancy-associated traits. RNA sequencing and immunocytochemistry revealed that high GRHL2 not only strengthens the epithelial identity but supports a hybrid epithelial to mesenchymal transition (EMT). Proliferation and tumor studies exhibited a decrease in growth and an upregulation of dormancy markers, such as NR2F1 and CDKN1B. Mammosphere assays and flow cytometry revealed enrichment of stem cell markers CD44 and ALDH1, and increased self-renewal capacity. Cistrome analyses revealed a change in transcription factor motifs near GRHL2 sites from developmental factors to those associated with disease progression. Together, these data support the idea that the plasticity and properties induced by elevated GRHL2 may provide a selective advantage to explain the association between GRHL2 and breast cancer progression. [ABSTRACT FROM AUTHOR]

Published

2024

50. Energy and Pro-/Antioxidant Metabolism of Heracleum sosnowskyi Manden. Buds during the Winter Dormancy.

Author

Maslova, S. P., Shelyakin, M. A., Silina, E. V., Malyshev, R. V., and Dalke, I. V.

Abstract

Data on changes in energy status, activity of pro-/antioxidant metabolism during overwintering of Heracleum sosnowskyi vegetative buds were obtained. The buds of H. sosnowskyi are not endodormant and their growth is limited by the decrease of the soil temperature to negative values at the end of November. The optimum temperature for energy storage in autumn was found to be in the range of low positive temperatures (2–5°C). The autumn buds were characterized a high capacity for the cytochrome respiratory pathway (CP, Vcyt), which accounted for 78% of the total respiration. During autumn morphogenesis and winter dormancy of buds, the levels of pro-oxidants, which are the content of thiobarbituric acid reactive substances (TBARS) and H2O2 content, remained stable. In December, when a stable snow cover and negative soil temperatures were established, the dormant buds showed 2.5 times lower rate of energy storage and activated alternative respiration capacity (AP, Valt), as indicated by a 2 times lower Vcyt/Valt ratio. In early spring, compared to winter dormancy, H2O2 levels increased 2-fold and antioxidant enzymes activity increased by 27–78% as insolation increased. Spring buds showed an increase in rate of heat production and a decrease in rate of energy storage, which may be due to spring stress caused by increased insolation. It was concluded that in the tissues of H. sosnowskyi buds subjected to exogenous dormancy, an energy balance between dormancy and growth processes is achieved at the level of respiratory capacity and pro-/antioxidant metabolism. [ABSTRACT FROM AUTHOR]

Published

2024