Changes In Production Research Articles

Durability analysis of sustainable mortars with biomass fly ash as high-volume replacement of Portland cement

Utilization of various supplementary cementitious materials was in the last decades considered beneficial for the replacement of the energy-intensive Portland cement to meet sustainable targets. However, structural changes in energy production and heavy industry in Europe significantly limit the availability of coal fly ash and blast furnace slag for blended cement production. On the other hand, the increasing production of biomass ash (BA) presents not only challenges for its disposal but also new opportunities for the concrete industry. In this paper, the durability of cement composites containing up to 70 wt% of BA as Portland cement (PC) replacement was analyzed, taking into consideration also microstructure and mechanical properties. The experimental results showed a preservation of good mechanical performance up to the 30 wt% limit. The freeze-thaw resistance was not affected significantly up to the 40 wt% BA dosage during the first 300 cycles. The analyzed composites also exhibited a good overall resistance to alkali silica reaction- and sulfate-induced expansion up to the 50 wt% PC replacement. BA can thus be considered as a prospective future alternative to coal fly ash and blast furnace slag to meet the sustainable development goals in the building industry.

Power-law productivity of highly biodiverse agroecosystems supports land recovery and climate resilience

Transformative change in primary food production is urgently needed in the face of climate change and biodiversity loss. Although there are a growing number of studies aimed at global policymaking, actual implementations require on-site analyses of social feasibility anchored by ecological rationale. This article reports the in-depth characterizations of low-input mixed polyculture of highly diverse crops managed on the self-organization of ecosystems, which performed better compared to conventional monoculture methods in Japan and Burkina Faso. Analyses on crop productivity and diversity showed that the primary production of ecosystems followed a power law, and through the underlying mechanisms excelled in (1) promoting diversity and total quantity of products along with the rapid increase of in-field biodiversity, especially useful for the recovery of local regime shift in a semi-arid environment; (2) a fundamental reduction of inputs and environmental load; and (3) ecosystem-based autonomous adaptation of the crop portfolio to climatic variability. The overall benefits imply substantial possibilities of a new typology of sustainable farming for smallholders sensitive to climate change, which could overcome the historical trade-off between productivity and biodiversity based on the human-guided augmentation of ecosystems.

CDC48 regulates immunity pathway in tobacco plants

The CDC48 protein, highly conserved in the living kingdom, is a player of the ubiquitin proteasome system and contributes to various cellular processes. In plants, CDC48 is involved in cell division, plant growth and, as recently highlighted in several reports, in plant immunity. In the present study, to further extend our knowledge about CDC48 functions in plants, we analysed the incidence of its overexpression on tobacco development and immune responses. CDC48 overexpression disrupted plant development and morphology, induced changes in plastoglobule appearance and exacerbated ROS production. In addition, levels of salicylic acid (SA) and glycosylated SA were higher in transgenic plants, both in the basal state and in response to cryptogein, a protein produced by the oomycete Phytophthora cryptogea triggering defence responses. The expression of defence genes, notably those coding for some pathogenesis-related (PR) proteins, was also exacerbated in the basal state in transgenic plant lines. Finally, tobacco plants overexpressing CDC48 did not develop necrosis in response to tobacco mosaic virus (TMV) infection, suggesting a role for CDC48 in virus resistance.

Analyzing Hydrogen Flow Behavior Based on Deep Learning Sensor Selection Optimization Framework

Abstract With tremendous potential to lower the carbon footprint of power generation and as an alternative energy carrier for many applications, hydrogen has emerged as a key potential energy carrier. Understanding of geological conditions and the injection and production changes over time for hydrogen storage are paramount, requiring in situ reservoir sensing options. Determining the flow behavior is of critical importance in order to estimate hydrogen volumes within the reservoir. A novel AI-driven methodology for hydrogen flow behavior and volume estimation was demonstrated. For determining the S1 through S3 predicted hydrogen storage quantities, the framework is linked to an uncertainty estimate framework. The Pohokura field in New Zealand served as the basis for the framework's evaluation, and it performed acceptably in terms of identifying the hydrogen flow behaviors and quantities inside the subsurface reservoir. The framework is a significant first step in assessing the amount of hydrogen that can be stored in subterranean reservoirs for long-term hydrogen storage.

Electricity Consumption and Food Production in Malaysia: Implication for the Sustainable Development Goal 2

The need to seek sustainable solutions to end hunger in all its forms by 2030 motivated the implementation of the Sustainable Development Goals. Against this backdrop, this study seeks to fill the existing gap by unraveling the underexplored dimension of escalating electricity consumption and its potential effects on the broader spectrum of Malaysia's food productivity, with a view to assessing the capacity or otherwise of Malaysia in achieving the SDG 2 (food and nutrition security) by 2030. To achieve the stated objectives, data from World Development Indicators (WDI) of the World Bank for the period 1990 to 2022 were collected for Malaysia. The collated data were analyzed within the framework of Fully Modified Ordinary Least Squares (FMOLS) method. The negative coefficient suggests that an increase in arable land is associated with a decrease in food production. Electricity consumption did not support expansion of food production in the country. Employment in agriculture, based on results, the study concludes that; electricity consumption did not support expansion of food production in Malaysia. In the same vein, arable land in Malaysia did not support sustainable food production in the country. Employment in agriculture did not drive food production changes in the country. Therefore, it could be submitted that electricity consumption only may not ensure a sustainable food production in Malaysia. Therefore, the study recommends that the policymakers and other concerned stakeholders in Malaysia should emphasize the importance of managing and utilizing arable land effectively in order for the country to experience a sustainable food production. Similarly, the policymakers in Malaysia should be given priority to food production when distributing electricity for both domestic and industrial consumptions in the country. If these policies are well implemented in Malaysia, the achievement of the Sustainable Development Goal 2- food security and sustainable agriculture will be tremendously facilitated before 2030.

Dynamics of lentil (Lens culinaris) production and trade: Global scenario and Indian interdependence

Increasing pulse production is one of the national priorities for food and nutritional security of India. In this context, incremental changes in pulse production can play a pivotal role. During 2003–2022, for example, the area under lentil (Lens culinaris L.) registered a decline (2.08%), however; productivity improvement (41.26%) led to the enhancement in its production (by 37%) in the country. This study portrays the temporal trend and patterns of lentil production growth during the period 2003–2022. A substantial growth in imports of lentil from 63.97 thousand tonnes in Triennium estimate (TE) 2003 to 814.20 thousand tonnes in TE 2022 was registered in India. Moreover, the share of lentil imports to total lentil production increased from 6.94% in TE 2002 to 63.24% in TE 2022. Lentil imports exhibited a high annual growth rate (15.83%) and high instability during the overall study period (2003–2022), which was higher than the annual growth rate of imports of overall pulses during the same period. Approximately 0.65 million tonnes of lentils were imported in the year 2022, to meet domestic consumption demands. Canada and Australia accounted for 61% and 36% of the total lentil imports to India in year 2022, while Bangladesh (49.61%) followed by UAE (21.74%) and Nepal (18.33%) were the major export destinations of the total lentil export (2022). The gap between production and consumption, coupled with the changing trade regulations and consumer preferences, contributed to the observed instability in lentil trade in India over the past two decades. Concerted efforts in intensifying the technology transfer, capacity building and convergence of resources among the stakeholders can impact the productivity of lentils, thereby developing strategies for optimizing its import and export dynamics.

Association of the C3953T (rs1143634) variant of the interleukin 1 beta gene with the features of a complicated course of COVID-19-associated pneumonia.

The pro-inflammatory cytokine IL-1 plays an important role in severe COVID-19. A change in IL-1 production may be associated with a mutation in the IL1Β gene. Our study analyzed the impact of the IL1Β gene variants (rs1143634) on disease progression in patients with severe COVID-19 pneumonia, taking into account treatment strategies. The study enrolled 117 patients with severe COVID-19 pneumonia. The IL1Β gene variants were identified using the polymerase chain reaction-restriction fragment length polymorphism method. In the group of patients, the following genotype frequencies were found based on the investigated rs1143634 variant of the IL1Β gene: CC-65.8%, CT-28.2%, and TT-6.0%. Our results showed that the group of patients with the T allele of the IL1Β gene had higher leukocyte counts (p = 0.040) and more pronounced lymphopenia (p = 0.007). It was determined that patients carrying the T allele stayed on ventilators significantly longer (p = 0.049) and required longer treatment with corticosteroids (p = 0.045). Identifying variants of the IL1Β gene can be used as a predictive tool for assessing the severity of COVID-19 pneumonia and tailoring personalized treatment strategies. Further research with a larger patient cohort is required to validate these findings.

285 Impact of feeding strategies on semen concentration, motility, and morphology of the mature AI boar

Abstract The objective of this experiment was to determine if varying feeding strategies of maintenance requirements of boars impacts semen concentration, motility, morphology, and cortisol of the working boar. This experiment was conducted at Purdue University over two 9-wk periods with 1-wk before each 9-wk period serving as baseline for analysis. Boars (n = 28; Acuity and Topig Norvsin) from two age groups (9 and 15 mo) and two genetics (maternal and terminal) were used. Boars were blocked by breed and age and randomly allocated to receive one of three feed intake levels of a corn-soybean meal-based diet formulated to meet NRC (2012) maintenance requirements: HIGH (150% maintenance, n = 9); MAIN (100% maintenance, n = 10); and LOW (80% maintenance, n = 9) during the first 9-wk period. During the second 9-wk period remaining HIGH and LOW boars were crossed-over to opposite treatments (HIGH-LOW, n = 9; LOW-HIGH, n = 7), and maintenance boars were unchanged (MAIN-MAIN, n = 8). Semen was collected once/wk using the gloved hand method and 3 mL of ejaculate was diluted in 27 mL of extender (Androhep Plus, Minitube). Semen concentration (Nucleocounter SP-100), motility (Computer Assisted Sperm Analysis, CASA, CEROS II), and sperm cell morphology (phase-contrast, bright-field microscopy) were analyzed. Data were analyzed using PROC MIXED in SAS 9.4 with boar as experimental unit with main effects of feed intake and age with phase (3-wk period) as repeated measure. Significance was determined at P < 0.05 and a trend 0.05 < P ≤ 0.10. Three-way interactions for the first 9-wk period of feed intake*age*phase was observed for total sperm (P < 0.10) and total normal sperm (P < 0.05) with old boars fed HIGH treatment increasing sperm production, but old boars fed MAIN and LOW decreasing sperm production while young boars had minimal changes in sperm production regardless of feeding levels in the first 9-wk period. No other interactions or main effects were observed for the first period. During the second 9-wk period two-way interactions were observed for total sperm (FI*Age; P < 0.05) and total normal sperm (FI*Age; P < 0.01) with old LOW-HIGH boars having the highest total sperm and total normal sperm concentrations and young LOW-HIGH boars having the least total sperm and total normal sperm concentrations. HIGH-LOW fed boars had the greatest decrease in semen volume compared with the other treatments (FI*Phase; P < 0.01). Boars fed MAIN had minimal impacts on semen parameters compared with HIGH and LOW feed intake treatments. HIGH and LOW feed intake was observed to impact semen parameters in old boars faster than young boars with neither age being able to return to their baseline semen parameters observed at the start of the trial. Future research is needed with varying ages and feed intakes to better understand how nutritional strategies impact semen quantity and quality in the boar stud.

Asynchronous behavioral and neurophysiological changes in word production in the adult lifespan.

Behavioral and brain-related changes in word production have been claimed to predominantly occur after 70years of age. Most studies investigating age-related changes in adulthood only compared young to older adults, failing to determine whether neural processes underlying word production change at an earlier age than observed in behavior. This study aims to fill this gap by investigating whether changes in neurophysiological processes underlying word production are aligned with behavioral changes. Behavior and the electrophysiological event-related potential patterns of word production were assessed during a picture naming task in 95 participants across five adult lifespan age groups (ranging from 16 to 80years old). While behavioral performance decreased starting from 70years of age, significant neurophysiological changes were present at the age of 40years old, in a time window (between 150 and 220ms) likely associated with lexical-semantic processes underlying referential word production. These results show that neurophysiological modifications precede the behavioral changes in language production; they can be interpreted in line with the suggestion that the lexical-semantic reorganization in mid-adulthood influences the maintenance of language skills longer than for other cognitive functions.

Changes in depressive symptoms and antibody production following influenza vaccination in adolescents and adults

ObjectivePsychological distress has been associated with dampened antibody production following vaccination. Questions remain, however, about whether psychological distress influences vaccine response uniformly across the lifespan, and whether changes in distress result in changes in antibody production across the same period. MethodsParticipants (N = 148; Mage = 32.2 years, SD = 19.7, range = 12–80 years) took part in consecutive vaccine studies during the 2017–2018 and 2018–2019 influenza seasons. Each influenza season, they reported on their depressive symptoms, provided blood samples, and received the standard influenza vaccine. Participants then provided a second blood sample one month later. Antibody titers were examined pre- and post-vaccination. ResultsAnalyses examined both within-season and across-season effects of depressive symptoms, age, and their interaction on vaccine response. Within-season analyses revealed that age predicted antibody response during both seasons (2017–2018 and 2018–2019). Neither depressive symptoms nor the interaction with age were associated with antibody response to vaccination within either season. Across the two seasons, age significantly moderated the association between change in depressive symptoms and change in antibody production. For people who were 48 or older, increases in depressive symptoms across the two seasons were associated with a less robust response to the vaccine in the second season relative to the first season. For people younger than 48, changes in depressive symptoms were not significantly related to changes in antibody production. ConclusionsThese findings highlight the important role of mental health for older adults’ vaccine response, which could have clinical relevance for protection against disease.

Knock out of ELAVL1 affects steroid synthesis in adrenocortical carcinoma cell line NCI-H295R and leads to a less malignant phenotype

Introduction: Adrenocortical carcinoma (ACC) is a rare malignancy of the adrenal gland. With a 5-year-survival rate below 50% and no curative treatment options in advanced stages new therapeutic options in ACC are needed. Analyzing the ACC cohort of the cancer genome atlas we found a significant negative correlation of the expression level of a gene called Embryonic Lethal Abnormal Vision Like 1 (ELAVL1) and ACC patient survival. ELAVL1 has been described to be unfavorable in a lot of different tumor entities, but its function in ACC progression is still unknown. Methods: To evaluate the function of ELAVL1 in ACC progression we performed a CRISPR/Cas9 mediated knock out (KO) of the ELAVL1 gene in the ACC cell line NCI-H295R. The KO was confirmed on DNA level via Sanger sequencing and on protein level via immunofluorescence and western blot. Transcriptome changes were analyzed by next generation RNA sequencing (NGS). To characterize changes in cell function we performed soft agar colony forming assays and evaluated changes in steroid production via mass spectrometry. Results: Via CRISPR/Cas9 we knocked out ELAVL1 in NCI-H295R cells. NGS data showed 6926 significantly deregulated genes in ELAVL1-KO cells compared to control cells. There was an upregulation of 3468 genes, while 3458 genes showed a lower expression in ELAVL1 KO cells. Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analyses showed a significant upregulation of 29 genes associated with aldosterone synthesis and a significant downregulation of 87 genes associated with pathways in cancer. Analyzing cell function via soft agar colony forming assays an impaired colony forming ability in ELAVL1 KO cells was seen. Furthermore, we could prove significant changes in steroid production. ELAVL1 KO led to an inhibition of androgen and glucocorticoid synthesis and an enhancement in mineralocorticoid synthesis. These changes could not only be proven by measuring steroid concentrations in cell culture supernatants, but also by NGS showing a downregulation of the genes CYP17A1 and CYP11B1 and an upregulation of CYP21A2 and CYP11B2. Conclusion: Our study showed that ELAVL1 affects the regulation of around 7000 genes in the ACC cell line NCI-H295R. Especially the inhibition of glucocorticoid synthesis shows that ELAVL1 may be a new target for therapeutic approaches in ACC treatment since hypercortisolism is one of the main symptoms in ACC and a negative prognostic factor for patient survival. The authors have nothing to disclose. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

Intermittent ethanol vapor exposure enhances ferroptosis following repeated mild traumatic brain injury in the frontal lobe of adolescent rats; potential role of mitochondrial dysregulation

Adolescents involved in sports have increased risk of traumatic brain injuries (TBI), and frequently participate in binge alcohol consumption in comparison to non-athletic peers. Recovery from a TBI requires substantial energy, and effcient metabolic activity, which depend on intact mitochondria structure and function. Alcohol impairs mitochondrial function, including mitochondrial dynamics and metabolism); that may ultimately lead to cell death. Among cell death pathways, the iron-dependent programmed cell death known as ferroptosis; which has been shown to be predominant in TBI is especially sensitive to changes in mitochondrial energy production. Whether alcohol affects TBI-associated alterations in mitochondrial function and promotes ferroptosis is not known. The aim of this study was to determine how alcohol contributes to repeated-mild TBI (rmTBI)-induced alterations in mitochondrial function (dynamics & metabolism) and ferroptosis signaling in the prefrontal cortex of adolescent male rats. Adolescent male Wistar rats were randomly assigned to i) Sham + Air (control), ii) Sham + ethanol (EtOH), iii) rmTBI + Air, or iv) rmTBI + EtOH. Starting on postnatal day 45, the animals received 3 days of intermittent EtOH vapor exposure (14 hrs on/10 hrs off). Twenty-four hours after the final EtOH exposure, animals were given an mTBI or sham procedure. This sequence was repeated for four cycles. Seven days after the final rmTBI, animals were euthanized, and brains excised for analysis, specifically the frontal lobe. Our preliminary results demonstrate that mitochondrial fusion protein, OPA1, expression was not altered in the PFC by either rmTBI or by EtOH exposure alone. However, rmTBI+EtOH resulted in a significant increase in OPA1 expression. EtOH exposure produced a significant increase in COX-IV (a subunit of ETC complex IV) expression. However, COX-IV expression was not significantly different between rmTBI or rmTBI + EtOH and controls. Mitochondrial complex I activity was not altered by rmTBI, EtOH, or rmTBI + EtOH. Expression of transferrin receptor (TfR1), a specific marker of ferroptosis was significantly increased by rmTBI and EtOH this effect was further exacerbated in the rmTBI + EtOH group. Overall, our study shows that the combination of rmTBI with EtOH exposure affects OPA1-mediated mitochondrial fusion. Additionally, exposure to EtOH increases complex IV expression. Moreover, both rmTBI and EtOH exposure independently triggered signaling pathways associated with ferroptosis, and this effect was synergistically increased when with rmTBI+ EtOH. These findings underscore the intricate interplay between EtOH exposure and rmTBI, influencing crucial mitochondrial proteins and markers of ferroptosis in the frontal lobe of the adolescent rat brain. Further research is needed to fully comprehend the underlying mechanisms and implications of these observations. This research was supported by NIH/NIAAA R01 AA025792 (PEM, NWG) & T32 AA007577 (PEM). This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

Study on Predicting Liquid Production Profile in Horizontal Wells Considering the Mechanism of Annular Flow Resistance and Water Control

The coated particle ICD water control technology has been widely used in horizontal well completion in offshore oil fields in recent years, but there is a lack of research on the simulation and prediction methods for liquid production profiles. By analyzing the dynamic inflow process of fluid, starting from the laws of momentum conservation and mass conservation, a coupled mathematical model of horizontal well reservoir wellbore pressure drop considering the mechanism of annular flow resistance was established, and solved through programming. Based on the actual well data of a certain block in an offshore oilfield, a horizontal well reservoir production model was established. The calculation results of the example show that the annular flow resistance and water control technology can effectively control the balanced liquid production of horizontal wells, thereby increasing the anhydrous oil recovery period and improving the oil recovery rate of the oilfield; The coupling model simulation and prediction method can fully reflect the mutual influence between the oil reservoir, wellbore annulus, ICD, and horizontal wellbore; The effective diameter of the ICD valve affects the changes in oil production and water content. The placement of the ICD well section has a significant effect on water control, and the compactness of the filled particles has a certain impact on pressure and water content changes.

Convective boiling heat transfer enhancement via femtosecond laser textured inclined microfeatures

Designing efficient cooling devices is crucial in a multitude of applications. Although cooling technologies have existed for decades, there is a lack of efficient heat dissipation methods, especially for space applications where thermal management devices must dissipate heat in reduced gravity and where convective boiling heat transfer is frequently employed. In this framework, we evaluate the change in bubble production for different types of surface textures produced on 200 µm thick 316L SS foils using a femtosecond laser. The investigated textures include microscale grooves and conical holes with tilted (= 45°) geometry. In addition, we also evaluate the effect of laser-induced periodic surface structures (LIPSS), which are sub-micron scale features fabricated by fs laser processing. The fluid used is PP1, a replacement of 3M™ FC-72 in heat transfer applications.

Mechanistic insight into the anti-alternaria activity of bimetallic zinc oxide and silver/zinc oxide nanoparticles

Alternaria alternata is an opportunistic phytopathogen that negatively impact the growth and production of a wide variety of host plants. In this study, we evaluated the antifungal potential of biogenic ZnO, and bimetallic silver and zinc oxide (Ag/ZnO) nanoparticles synthesized using seed extract of Abrus precatorious and characterized using different analytical tools. In vitro antifungal potentials of ZnO and Ag/ZnO nanoparticles were carried out using the food poison technique. Morphological and ultrastructure of the A. alternata treated with the nanoparticles were carried out using high resolution scanning and transmission electron microscopy (HRSEM and HRTEM). In addition, changes in polysaccharide production, chitin content and enzymatic (cellulase and lipase) activities of A. alternata were assayed. Double peak signifying a UVmax of 353.88 and 417.25 nm representing Ag and ZnO respectively was formed in the bimetallic nanoparticles. HRSEM and HRTEM results shows agglomerated nanoparticles with particle and crystallite size of 23.94 and 16.84 nm for ZnO nanoparticles, 35.12 and 28.99 nm for Ag/ZnO nanoparticles respectively. In vitro antifungal assay shows a significant concentration-dependent inhibition (p < 0.05) of A. alternata mycelia with highest percentage inhibition of 73.93 % (ZnO nanoparticles) and 68.26 % (Ag/ZnO nanoparticles) at 200 ppm. HRSEM and HRTEM micrographs of the treated A. alternata mycelia shows alteration of the cellular structure, clearance of the cytoplasmic organelles and localization of the nanoparticles within the cell. A. alternata treated with 200 ppm nanoparticles show a significant decrease (p < 0.05) in the polysaccharides and chitin contents, cellulase and lipase activities. The results suggests that ZnO and Ag/ZnO nanoparticles mode of action may be via alteration of the fungal cell wall through the inhibition of polysaccharides, chitin, cellulases and lipases synthesis. ZnO and Ag/ZnO nanoparticles may be a promising tool for the management and control of disease causing fungal phytopathogens.

Exploring the instability in the food security due to nitrogen fertilizer regulatory policy

AbstractThe nitrogen regulatory policy (NRP) solution is introduced as a mitigation measure against environmental nitrogen losses and keeps food production in the Safe Operating Space of the Nitrogen Planetary Boundary. Meanwhile, scientific research shows that steps taken to reduce environmental harm can increase the unpredictability of calorie production from crops. This study sought to investigate the impact of NRP solutions on the level of risk of accessibility to calorie sources from domestic production, the variations in calorie sources by livestock and non‐livestock diet components, and the responses of different dietary preferences, namely, poor, medium, and rich livestock protein diets, against NRP solutions in the Zayandeh‐Rud River basin, Iran. We developed the aggregate household food security index (AHFSI) and combined it with outputs of crop simulation model to examine how changes in dietary energy supplies under three NRP scenarios—low, moderate, and high nitrogen fertilizer application—affect the stability of three regional dietary preferences. The comparison of NRP scenarios movements realized that increases (or decreases) in nitrogen fertilizer rates contradicted the stability in AHFSI. Additionally, a one‐unit change in the average calories from non‐livestock sources, such as wheat and potatoes, results in greater fluctuations in the standard deviations of produced calories compared to changes in meat and dairy production. We proposed that in order to prevent adverse effects of NRP solutions on food security, mitigation strategies addressing the NRP solution should be structured based on (i) regional heterogeneities, (ii) type of crops, that is, food and feed crops, (iii) the range of nitrogen rates movement; (iv) and the socioeconomic background related to dietary preferences or economic deciles of food expenditure.

Myrosinase isogenes in wasabi (Wasabia japonica Matsum) and their putative roles in glucosinolate metabolism

BackgroundWasabi, a Brassicaceae member, is well-known for its unique pungent and hot flavor which is produced from glucosinolate (GSL) degradation. Myrosinase (MYR) is a principle enzyme catalyzing the primary conversion of GSLs to GSL hydrolysis products (GHPs) which is responsible for plant defense system and food quality. Due to the limited information in relation to MYRs present in wasabi (Wasabia japonica M.), this study aimed to identify the MYR isogenes in W. japonica and analyze their roles in relation to GSL metabolism.ResultsIn results, WjMYRI-1 was abundantly expressed in all organs, whereas WjMYRI-2 showed only trace expression levels. WjMYRII was highly expressed in the aboveground tissues. Interestingly, WjMYRII expression was significantly upregulated by certain abiotic factors, such as methyl jasmonate (more than 40-fold in petioles and 15-fold in leaves) and salt (tenfold in leaves). Young leaves and roots contained 97.89 and 91.17 µmol‧g−1 of GSL, whereas less GSL was produced in mature leaves and petioles (38.36 and 44.79 µmol‧g−1, respectively). Similar pattern was observed in the accumulation of GHPs in various plant organs. Notably, despite the non-significant changes in GSL production, abiotic factors treated samples enhanced significantly GHP content. Pearson’s correlation analysis revealed that WjMYRI-1 expression significantly correlated with GSL accumulation and GHP formation, suggesting the primary role of WjMYRI-1-encoding putative protein in GSL degradation. In contrast, WjMYRII expression level showed no correlation with GSL or GHP content, suggesting another physiological role of WjMYRII in stress-induced response.ConclusionsIn conclusions, three potential isogenes (WjMYRI-1, WjMYRI-2, and WjMYRII) encoding for different MYR isoforms in W. japonica were identified. Our results provided new insights related to MYR and GSL metabolism which are important for the implications of wasabi in agriculture, food and pharmaceutical industry. Particularly, WjMYRI-1 may be primarily responsible for GSL degradation, whereas WjMYRII (clade II) may be involved in other regulatory pathways induced by abiotic factors.

Investigation of Olive Production in Ten-Year Period in 1961-2021 Years

Despite its many nutritional characteristics, the number of countries producing olives is limited owing to the growing conditions. Because the olive is a drought-resistant plant, it is one of the fruits that are least affected by climate change. For this reason, in this study, the production areas and the changes in production among global leading olive producing countries were determined for 1961-2021 years. In addition, the Concentration Ratio (CR) and Herfindahl-Hirschman (HH) indices were used to determine the competitive situation in olive production in this study, while the Revealed Comparative Advantage (RXA) index was used in the competition in fruit production areas. According to research, while 32-33 countries produced olives in 1961-1980, the five leading countries were Italy, Spain, Greece, Turkey, and Portugal/Tunisia. In this period, the HH index was over 1.800, and the share of the five countries was approximately 83.55%. During the 1981-2010 periods 32-38 countries produced olives: Spain, Italy, Greece, Turkey, and Tunisia were the leading countries, while Spain was the premier country. According to the HHI, the market is a monopolistic competition, but according to the concentration ratios, it shows the characteristics of an oligopolistic market. Countries with competitive positions in olive production are listed from strong to weak, such as Tunisia, Greece, Morocco, Spain, Portugal, Italy, and Turkey. While the number of countries producing olives has increased slightly in recent years, conspicuous matters worldwide have been climate change and technological developments in the last years. Considering these situations, countries that reduce costs in olive production and develop technologies that increase yield and quality from unit areas will be one step ahead of the competition. In addition, since this market is generally an oligopoly market, each prolific country will not be disadvantaged by closely following the activities of other countries.

Age-Related Variations in the Population of Active Secondary Hair Follicles, Oxidative Stress and Antioxidant Parameters in Cashmere Goats.

The objective of this study was to investigate age-related changes in cashmere production and the population of active secondary hair follicles in cashmere goats across different age groups as well as to explore the association between secondary hair follicle activity and oxidative stress. A total of 104 adult Inner Mongolian ewe goats, aged between 2 and 7 years old, were randomly selected as experimental subjects. Skin samples were collected in August 2020 and cashmere samples were collected in April 2021. The cashmere fiber yield, staple length, and diameter showed age-related variations in cashmere goats aged 2 to 7 years (p < 0.05). Cashmere production was higher in goats aged 2-4 years compared to those aged 5-7 years (p < 0.05). There were no significant differences in the population of primary and secondary hair follicles among goats aged 2 to 7 years. However, the population of active secondary hair follicles varied significantly with age, with the younger group (aged 2-4 years) having a higher population than those aged 5-7 years (p < 0.05). A moderate negative correlation was observed between cashmere fiber diameter and the population of active secondary hair follicles (p < 0.05). Age-related variations in skin antioxidant capacity and oxidative damage were observed among cashmere goats aged 2 to 7 years old (p < 0.05). Goats aged 2 to 4 years exhibited higher antioxidant capacity and lower oxidative damage (p < 0.05). Interestingly, the skin's antioxidant capacity and oxidative damage exhibited significant positive and negative correlations with the population of active secondary hair follicles (p < 0.05). This study presents a novel approach to enhance the activity of secondary hair follicles and improve cashmere production performance through the regulation of oxidative stress.

Parkinson's disease - The dentist's role as part of the healthcare team.

Parkinson's disease is a neurodegenerative disease that results in patients exhibiting uncontrolled movements, changes in saliva production, and difficulty in swallowing and speech. Understanding the staging of the disease and the available therapies allows dentists to treat these patients safely and with compassion to meet their oral health care needs for an optimal quality of life. This appraisal discusses Parkinson's disease as it relates to clinically relevant facts to manage and treat the oral health care needs of these patients in the short and long term including general dental care recommendations. Important observations related to Parkinson's disease include disease causation,; stages,pharmacologic treatment, the effects on saliva,mastication, dysphagia, and aspiration pneumonia. Dental recommendations are made for the dentate, the partially edentulous, and the completely edentulous Parkinson's patients with a focus on late-stage concerns. Optimizing dental health will help maintain the quality of life as the disease progresses. In late stages of Parkinson's disease, dental treatment should focus on keeping the patient comfortable and out of pain. While benign neglect is an often-used term, compassionate therapy in the late stages of Parkinson's disease is a more compelling term for defining the patient's needs. Since dysphagia in Parkinson's patients has been underdiagnosed, neurologists must be aware of the important part that dentists play in the early diagnosis for these patients. Early referral to a dentist is vital to mitigate the unfortunate consequence of the need for extensive dental care in late-stage patients.