Good Growth Research Articles

A comparison of the early growth and survival of lesser-known tree species for climate change adaptation in Britain

Globally, climate change is altering both seasonal climates and the occurrence of extreme climate events, resulting in a drive to ensure our forests are resilient to these changes and the challenges they will bring. In Great Britain (GB), there has been a reliance on a limited number of species grown in monospecific plantations and concerns over the resilience of these forests is leading to a growing recognition of the need to diversify tree species composition. However, evidence of the relative growth rate and survival of alternative tree species and provenances during the critical establishment phase (typically within five or six years of planting) is often limited, hampering consideration of the wider adoption of many potentially suitable species. To address this knowledge gap, we compared tree height and survival data six years after planting from 34 provenances across 18 tree species at five experimental sites established across GB in 2012 in monospecific plots. For coniferous species, we found that Larix decidua, Larix x marschlinsii and Pinus radiata (on drier sites) were consistently amongst the tallest species, but survival could be variable. Pseudotsuga menziesii and Pinus pinaster also showed good early growth, matching the growth rate of Picea sitchensis (the most widely planted conifer in GB) when co-occurring and often exhibited good survival. In contrast Picea orientalis was slow to establish and amongst the smallest species at all five sites after six years, with Cedrus atlantica also performing poorly where planted. Surprisingly, we found very few differences in both mean tree height and survival between most provenances of the same species across all experimental sites, though more obvious differences may emerge as these trees mature. Only a small number of broadleaf species were available for analysis at age six in this study, but as expected Betula pendula generally performed well, while Acer macrophyllum often had very high mortality. While there are concerns around the susceptibility of pine species to Dothistroma septosporum and the future use of larch species in GB forestry is currently limited by the disease Phytophthora ramorum, our results highlight the potential for these species to establish well and exhibit good initial growth and survival on drier sites, with the same true of P. menziesii on moister sites. Future work should aim to understand whether further differences between species and provenances emerge with age and explore the potential of these emerging species as components of mixed-species stands to increase GB forest resilience to climate change.

Selected Actinomycetes as Potential Biostimulant of Eggplant (Solanum melongena L) in Mali

Aims: This study aims to formulate at least one efficient biostimulant based on actinomycetes that promotes good eggplant growth in Mali. Study Design: The experimental design was a completely randomized block design with three replications and four treatments randomly distributed. The treatments were three Actinomycete strains (Act, S1 and St1) and a non inoculated control and the mode of application (inoculation or spraying) of these treatments were considered as blocking factor. Place and Duration of Study: The trials were conducted in Bamako, in the Greenhouse of the LaboREM-Biotech situated on the colline of Badalabougou. Methodology: Eggplant seeds inoculated or not with Actinomyces sp. Ts1, Actinomyces sp. S1 and Actinomyces sp. Act; were randomly sown in plastic pots filled with approximately 2.50 kg of air-dried soil. The first block sown with coated seeds and the second with non-inoculated seeds and seedlings from them pulverized. Leaf length, leaf area, leaf diameter, leaf area, leaf fresh weight, leaf dry weight, root fresh weight, root dry weight, plant height and root length were determined. Results: Eggplant seed inoculated with all the tested Actinomycetes strains had significantly enhanced leaf length, leaf diameter, leaf area, leaves fresh weight. The highest results were obtained with the strain Act, followed by strain St1. Sprayed treatment improved eggplant leaf length, leaf diameter, leaf area, leaves fresh weight, leaves dry weight, root fresh weight, root dry weight; compared to the coated treatment Conclusion: Field application of actinomyctes may reduce production cost, by increasing eggplant growth and fruit yield while reducing production cost. The present work showed that Act and Ts1 using spray method were best suited for eggplant. Actinomyces sp. Act produced the highest leaf length, leaf diameter, leaf area, leaves fresh weight. Therefore, Actinomyces sp. Act is suggested as bioinoculant for eggplant.

Decent work deficit in India: Deterioration and determinants

Abstract India is being projected internationally as a country of good growth and good governance, which in turn, it is asserted, should lead to prosperity for its people, especially in terms of proper employment, income, and overall standard of living. Drawing on certain dimensions of decent work proposed by International Labour Organization to measure the quality of employment in India, this article explores how far the notions of good/high growth and good governance discourse are corroborated by the evidence of good quality employment in India. The study is based on the nationally representative unit/individual-level data published by the Government of India during the three periods 2009–10, 2018–19, and 2022–23. The main findings of analysis are: (a) the overall quality of employment in India is poor and stagnant or deteriorating, and (b) the macro-level (sub-national state-level) aspects, such as the overall volume of economic activities, the extent of quality governance, the flexibility of business regulatory environment and better labour law-related compliance, have had a significant negative influence on the quality of employment. Thus, this paper suggests that the very policy environment and the pattern of economic growth have put a drag on the quality of employment in India. Given this, we suggest a variety of countervailing policy options and emphasise the role of civil society and politics.

Engineered 1,6-heptadiynes based polymeric prodrug system for anticancer drug delivery

Diacetylene moiety, DIOL was functionalized to chemotherapeutic drug, chlorambucil and water-soluble moiety poly(ethylene glycol) to get our macromonomer MPDC. MPDC was further cyclopolymerized using Hoveyda Grubbs’ second generation catalyst, results to form polymer PMPDC. Amphiphilic nature of PMPDC leads to self-assembly in water which was characterized by dynamic light scattering and transmission electron microscope. Cytotoxicity study was performed with HeLa and MCF 7 cancer cell lines which showed good cell growth inhibition. As PMPDC having non-fluorescent property, another polymer PMPDP was synthesized as control using 1-pyrenebutyric acid which was further used for drug release at different pH and cell internalization study. Increase in internalization of polymer with increase in concentration was observed in both HeLa and MCF 7 cells. Formation of all the compounds were characterized carefully by different analytical techniques.

A Comprehensive Overview of Internet of NanoThings and its Applications

INTRODUCTION: Internet of NanoThings (IoNT) is regarded as the next generation of the Internet of Things due to its bright future and wide range of applications . According to the global "Internet of Nanothings (IoNT) Market" research, there has been good growth in recent years, and this trend is expected to continue until 2030. IoNT is basically the Internet of Things on a nanoscale. IoNT essentially describes how nanoscale devices are connected to one another within current networks. A high-speed network can be used to connect different nanodevices through the IoNT. This study provides a comprehensive overview of the architecture, benefits and applications of IoNT. OBJECTIVES: The objective is to provide insights into IoNT framework and it applications in fields like healthcare, food industry, agriculture , environment monitoring etc, METHODS: This study explored the IoNT architecture and its applications. The exploration involves reviewing the articles, journals and other web resources. RESULTS: Highlights the aspects of IoNT and emphasizing the importance of its applications in various fields. The need to combine this research and emphasize the IoNT related applications stems from the dearth of research in the field. CONCLUSION: The world is becoming increasingly developed as a result of ongoing technological advancements. Future developments, which are expected to peak in the next one to two decades, will be led by IoT and nanotechnology. IoNT offers potential and means to enhance numerous facets of individuals' lives. Its primary characteristics are monitoring and diagnostic services, which support and improve decision-making and outcomes across a range of application domains.

Crystallographic and Optical Spectroscopic Study of Metal–Organic 2D Polymeric Crystals of Silver(I)– and Zinc(II)–Squarates

Metal–organic framework materials, as innovative functional materials for nonlinear optical technologies, feature linear and nonlinear optical responses, such as a laser damage threshold, outstanding mechanical properties, thermal stability, and optical transparency. Their non-centrosymmetric crystal structure induces a higher-order nonlinear optical response, which guarantees technological applications. ZnII– and AgI–squarate complexes are attractive templates for these purposes due to their good crystal growth, optical transparency, high thermal stability, etc. However, the space group type of the catena-((μ2-squarato)-tetra-aqua-zinc(II)) complex ([Zn(C4O4)(H2O)4]) is debatable, (1) showing centro- and non-centrosymmetric monoclinic C2/c and Cc phases. The same is valid for the catena-((μ3-squarato)-(μ2-aqua)-silver(I)) complex (Ag2C4O4), (2) exhibiting, so far, only a C2/c phase. This study is the first to report new crystallographic data on (1) and (2) re-determined at different temperatures (293(2) and 300(2)K) and the non-centrosymmetric Cc phase of (2), having different numbers of molecules per unit cell compared with the C2/c phase. There are high-resolution crystallographic measurements of single crystals, experimental electronic absorption, and vibrational spectroscopic data, together with ultra-high-resolution mass spectrometric ones. The experimental results are supported for theoretical optical and nonlinear optical properties obtained via high-accuracy static computational methods and molecular dynamics, using density functional theory as well as chemometrics.

Fixing collapsed dry anaerobic digestion system of kitchen waste caused by severe VFAs accumulation

Severe inhibition by volatile fatty acids (VFAs) frequently occurs during the dry anaerobic digestion of kitchen waste at high organic load rate (OLR), leading to decreased biogas production and even the collapse of the anaerobic digestion system. In this study, VFAs accumulation was significantly reduced by adding powder-activated carbon (PAC) or alkaline additives (AA), thus restoring the collapsed system to a stable operating state. With the addition of PAC or AA, the maximal OLR reached 11.14 g VS/(L·d), which was 30 % higher than observed without any additives (control group), while the VFAs concentration was maintained below 3000 mg/L. At this OLR, the volumetric biogas production rate stabilized at 5.1 L/(L·d) in the presence of PAC and AA, while that of the control group gradually decreased to zero. The VFAs concentration with PAC addition was 86 % lower than that of the control group, possibly because PAC might stimulate the formation of direct interspecies electron transfer between syntrophic bacteria and methanogens (Methanosarcina), thereby promoting VFAs degradation. The addition of AA, which resulted in a 95 % decrease in ammonia-nitrogen concentration, can provide a good growth environment for the microorganisms involved in acidogenesis and hydrogenotrophic methanogenesis.

Lactic acid-fermented by-product of Shochu distillery reduces anxiety behavior in Neuropeptide Y knockout zebrafish by the regulation of isotoin neuron

The development of techniques to reduce stress in the aquaculture industry is essential for the good growth, low mortality, and high flesh quality of farmed fish. Shochu is a traditional Japanese alcoholic beverage, and the disposal of large amounts of Shochu lees waste has been a problem. As Shochu lees contain low-molecular-weight compounds, which are thought to have health benefits, the lactic acid-fermented by-product of Shochu distillery (FBPSD) was tested to estimate its anti-stress effects in neuropeptide Y-knockout zebrafish (NPY-KO), which exhibit high anxiety and low sociability, as a farmed fish model.In the Black-White preference test, NPY-KO preferred the black area over the white area due to fear, whereas NPY-KO fed the FBPSD showed a higher preference for the white area with more swimming distance than the control group. In the 3-chambers test, NPY-KO showed low sociability with the unfamiliar zebrafish group, whereas FBPSD-fed NPY-KO showed high sociability with the group. The mRNA level of isotocin, the homologue of human oxytocin, was significantly increased in the brains of FBPSD-fed zebrafish. The oxytocin receptor antagonists L-368,899 attenuated the effects of FBPSD in the 3-chambers test. These results suggest that FBPSD attenuates anxiety in NPY-KO zebrafish by activating isotocin neurons.

Screening and Site Adaptability Evaluation of Qi-Nan Clones (Aquilaria sinensis) in Southern China

In recent years, plantations of Aquilaria sinensis in China have been dominated by Qi-nan, yet there remains limited research on the growth evaluation and breeding of these clones. In this study, a multi-point joint variance analysis, an additive main effect and multiplicative interaction (AMMI) model, a weighted average of absolute scores (WAASB) stability index, and a genotype main effect plus a genotype-by-environment interaction (GGE) biplot were used to comprehensively analyze the yield, stability, and suitable environment of 25 3-year-old Qi-Nan clones from five sites in southern China. The results showed that all the growth traits exhibited significant differences in the clones, test sites, and interactions between the clones and test sites. The phenotypic variation coefficient (PCV) and genetic variation coefficient (GCV) of the clones’ growth traits at the different sites ranged from 16.56% to 32.09% and 5.24% to 27.06%, respectively, showing moderate variation. The medium–high repeatability (R) of tree height and ground diameter ranged from 0.50 to 0.96 and 0.69 to 0.98, respectively. Among the clones, Clones G04, G05, G10, G11 and G13 showed good growth performance and could be good candidates for breeding. Environmental effects were found to be the primary source of variation, with temperature and light primarily affecting growth, while rainfall influenced survival and preservation rates. Yangjiang (YJ) was found to be the most suitable experimental site for screening high-yield and stable clones across the different sites, whereas the tree height and ground diameter at the Chengmai (CM) site were significantly higher than at the other sites, and the Pingxiang (PX) and Zhangzhou (ZZ) sites showed poor growth performance. The findings suggest that Qi-nan clones are suitable for planting in southern China. There were also abundant genetic variations in germplasm resources for the Qi-nan clones. The five selected clones could be suitable for extensive planting. Therefore, large-scale testing is necessary for determining genetic improvements in Qi-nan clones, which will be conducive to the precise localization of their promotion areas.

Silver(I) and gold(III) complexes with miconazole: The influence of the metal ion on the antimicrobial activity of the coordinated azole

To develop a new antimicrobial agent, we used the clinically approved antifungal azole, miconazole (mcz), as a ligand for the synthesis of silver(I) and gold(III) complexes. The new complexes [Ag(NO3-O)(mcz-N)2] (1) and [AuCl3(mcz-N)] (2) were synthesized and characterized by 1H NMR, IR and UV–Vis spectroscopy and mass spectrometry, while the crystal structure of 1 was determined by single-crystal X-ray diffraction analysis. From the results obtained, it can be concluded that in both complexes, mcz is monodentately coordinated to the silver(I) and gold(III) ions through the imidazole nitrogen atom N3. In the solid state, complex 1 contains two mcz ligands and monodentately coordinated nitrate in the third position, while in the case of 2 gold(III) ion is coordinated by one mcz and three chlorido ligands, resulting in the expected square-planar arrangement around the metal center. DFT and TDDFT calculations were employed to elucidate the electronic structures and thermodynamic stability of the synthesized complexes in solution to complement the experimental findings. The coordination of mcz to silver(I) and gold(III) ions leads to an enhancement of its activity against Gram-negative Escherichia coli and Pseudomonas aeruginosa strains, while against the panel of Staphylococcus aureus and Candida species, only 2 shows improved activity compared to mcz. Both complexes 1 and 2 were tested in vitro for their antimycobacterial activity against the strain Mycobacterium tuberculosis H37Rv and showed good growth inhibition with minimum inhibitory concentration (MIC) values of 3.12 and 8.69 μM, respectively, with complex 1 being twice effective as mcz (MIC = 7.50 μM). Complex 2 significantly reduced the production of pyocyanin, a virulence factor in P. aeruginosa controlled by quorum sensing, while this effect was not observed for 1.

Domestication of wild-growing Turkey tail mushroom (Trametes versicolor) from Ethiopian forests on augmented agro-industrial byproducts

Despite being extensively studied as a white-rot fungus, there have been no efforts to explore and cultivate the high-yielding wild Trametes versicolor strains in Ethiopia. Thus, this study was initiated to assess the growth performance of T. versicolor on various growth media. Accordingly, ten substrates (S1–S10) were formulated by a combination of agro-industrial by-products that mainly constituted sugarcane wastes and animal manures. The effect of substrates on yields, biological efficiencies, and nutritional compositions was examined. The mushroom developed a white mycelium on the growth media. T. versicolor cultivated on the S5 blend, comprising 80% sugarcane bagasse, 12% horse manure, and 8% poultry manure, exhibited the most substantial fruiting body yield (158.33 g/500 g bag) and the highest biological efficiency (31.5%), with an optimal C:N ratio of 31:1. It has shown good mycelial growth, short colonization, and short pinhead formation time compared to other substrates. S7, lacking nitrogen supplementation, yielded low biological efficiency and fruiting bodies at 11.50% and 57.67%, respectively. The crude protein, fiber, low fat, and carbohydrate content ranged from 7.46 to 14.65%, 12.89 to 18.38%, 0.42 to 0.53%, and 48.75 to 66.75%, respectively. Notably, the highest nutritional values, excluding carbohydrates, were obtained from S5, while the sugarcane bagasse had the highest carbohydrate content among substrates. Consequently, S5 emerged as a suitable medium for cultivating wild T. versicolor mushrooms, particularly in regions abundant in poultry, horse manures, and sugarcane bagasse. Therefore, S5 represents an optimal substrate for T. versicolor cultivation, offering improved productivity and nutritional quality at reduced costs.

Advances in microalgae-based lutein production and extraction: enhancing bioavailability and applications in health and industry

BackgroundNatural lutein, a bioactive xanthophyll, is widely used in pharmaceuticals, nutraceuticals, aquaculture, and cosmetics due to its broad health benefits, especially in protecting ocular health and chronic and acute syndromes. Microalgae have become a preferred sustainable platform for high-value lutein production, surpassing marigold petals in content (∼2 mg g−1) and consistency. MethodsThis review highlights advancements in upstream lutein production and downstream extraction techniques, focusing on scalable and sustainable bioprocesses. Under optimal conditions, microalgae cultivation in open and closed reactors for 2–4 weeks is examined. Comparative yields among studies are analyzed, detailing which technologies and their combinations offer superior yields for commercial production. Significant FindingsMicroalgae demonstrate high lutein content (∼10–17 mg g−1) and productivity (2–7 mg L−1d−1). The review identifies key advancements in smart delivery systems and bioavailability enhancement strategies, which are novel aspects of lutein research. The review aims to expand lutein distribution and its health benefits by addressing production challenges, market potential, and commercial opportunities. Aligning with Sustainable Development Goals (SDGs), the review promotes good health (SDG 3), economic growth (SDG 8), industry innovation (SDG 9), and climate action (SDG 13).

Novel Benzothiazole Derivatives: Synthesis, Anticancer Activity, Density Function Theory (DFT) Study, and ADMET Prediction

Benzothiazole is an amazing small molecule involved in many applications in industrial and pharmaceutical industries to prepare many candidate compounds as effective drugs. In this study, we presented some derivatives of this compound that were prepared easily and quickly with the help of microwaves to minimize time, energy, and finances. The compounds’ cytotoxicity against the two cell lines SK-GT-4 and AMGM5 was examined. The cytotoxic effect of each compound at different concentrations was measured using the MTT assay. Compounds exhibited no potent cytotoxic effects toward the SK-GT-4 cell line. Compounds B1 and B2 had a high IC50 value and good growth inhibition activity against the AMGM5 cell line. According to in silico absorption, distribution, metabolism, and excretion analysis (ADME) prediction studies, the compounds B1, B2, and B3 met Lipinski and were drug-like in most physicochemical parameters. Despite some violations, generally favorable pharmacokinetic properties. It is also assumed that it can potentially become a drug candidate in the future. Various electronic parameters were examined using DFT/WB97XD/6-31++G(d,p), and studies were conducted to support the experimental findings. To estimate the binding modes of compounds B1 and B5, we also performed in silico molecular docking studies.

Probiotic Potential of Bacillus Strains Isolated from Traditional Cassava Ferments (Manihot esculenta Crantz)

ABSTRACT: Probiotic potentials of Bacillus strains isolated from traditional cassava ferments, notably their growth at different pH, bile salts, temperatures, NaCl and antibiotics, their inhibition of pathogenic bacteria, non-production of hemolytic enzymes as well as the formation of biofilm were studied. These different probiotic parameters were determined according to the referenced methods. The results obtained showed that all Bacillus strains resisted acidic pH with the highest growths (7.29± 1.40) × 108 CFU/mL and (5.14±0.15) × 108 CFU /mL obtained with Bacillus toyonensis respectively at pH 2 for 24 hours and at pH 3 for 4 hours. All Bacillus strains grow well at 37°C and 44°C, despite their optimum growth temperature of 30°C. They also showed good growth at different bile salt concentrations and were multi-resistance to antibiotics Ciprofloxacin (100%), as was B. subtilis to Rifampicin (100%) but they were multi-sensitive (100%) to Amoxicillin, Imipenem, Gentamycin, Penicillin, Vancomycin, Chloramphenicol and Rifampicin except B. pumilus and B. methylotrophicus which were sensitive to Rifampicin (77%). Bacillus strains inhibited more than half of the pathogens (80.27% with S. aureus and 65.09% with E. coli). No strain showed hemolytic activity but rather a good capacity to form a biofilm (optical density ranging from 0.663 ± 00 to 3.15 ± 02 nm).

BRICS and G7: Global Competition

The goals and policies of the BRICS contradict the policy of the unipolar world, which perpetuates the dependence of developing countries on highly developed countries. This fact makes the BRICS and G7 international associations direct competitors with mutually opposite goals and interests. In such a formulation of the issue, strengthening and increasing the competitiveness of one integration association should lead to weakening and reducing the competitiveness of another integration association. Recently, the size of countries and the size of their populations have not been considered key factors in their competitiveness. However, if we talk about the BRICS member countries, they use these two advantages as a basis for economic growth. The area of the territory of the BRICS countries was 1.85 times the area of the G7, and the population was more than 4 times as of the end of 2022. The current trend towards the entry of new member countries into the BRICS should lead to an even greater advantage in these indicators. The economic growth of the BRICS countries is based on the use of resources and investments, while the economic growth of the G7 countries is based on accumulated wealth, military and political influence in the world. A comparison of the two integration associations in terms of real GDP growth PPP shows that the annual GDP growth of the BRICS countries exceeds the GDP growth of the G7 countries. In addition, the real GDP growth of the BRICS countries is outpacing the growth of global GDP. Key indicators characterizing the size and pace of economic growth indicate the potential for further development of the BRICS and strengthening its competition with the G7 integration bloc. The BRICS countries have shown good economic growth rates even despite the external and internal challenges associated with the crisis in the global economy and numerous economic sanctions. At the same time, the economic development of the BRICS countries is not only quantitative, but also qualitative. Unlike the G7, it is based on the formation and expansion of a free trade system within the integration bloc and the formation of economic institutions that allow overcoming trade barriers between the countries of the association, as well as increasing investment through the New Development Bank created within the BRICS. The success of development and interaction of countries within BRICS attracts new member countries. In 2024, four more countries joined the BRICS bloc, such as Iran, the United Arab Emirates, Egypt and Ethiopia, and currently many more countries are taking the initiative and wish to become members of the integration association. However, competition in the Challenger-Leader format, in addition to incentives for economic growth on the basis of fair competition, simultaneously creates incentives for mutual economic, political and military blocking of the development of countries of the competing bloc, which creates great risks of slowing down global economic development in the future.

Uncovering the Potential ofO-Prenylated 3-aryl-benzopyran Derivatives as Osteogenic and Cancer Cell Growth Inhibitory Agents.

Naturally, O-prenylation of 3-aryl-benzopyrans enhances the biological activities of these compounds. In this study, substituted O-prenylated 3-aryl-benzopyrans (21a-c, 22a-c, 23a-c, 24a-c 25a-c, 27 and 28) were synthesized and evaluated for osteogenic and cancer cell growth inhibitory potentials using cell-based in-vitro models. Amongst the target compounds, 21a, 22b, 23c, and 24c showed good osteogenic activity at 1 pM concentration, whereas 26 and 27 showed osteogenic activity at 100pM and 10nM, respectively. Compounds 21a, 22b, and 23c showed good cancer cell growth inhibitory activity against breast cancer cells (MCF-7 and MBA-231). Amongst active compounds, 27 presented the best anticancer activity against MDAMB-231 cells with selectivity towards non-cancerous cells [IC50 3.76 µM with SI 13.3]. The in-silico study of compounds showed their structural complementarities with the LBD of estrogen receptors and compliance with dragability parameters.

Engineering Thermoresponsive Poly(N-isopropylacrylamide)-Based Films with Enhanced Stability and Reusability for Efficient Bone Marrow Mesenchymal Stem Cell Culture and Harvesting.

Poly(N-isopropylacrylamide) (PNIPAM) offers a promising platform for non-invasive and gentle cell detachment. However, conventional PNIPAM-based substrates often suffer from limitations including limited stability and reduced reusability, which hinder their widespread adoption in biomedical applications. In this study, PNIPAM copolymer films were formed on the surfaces of glass slides or silicon wafers using a two-step film-forming method involving coating and grafting. Subsequently, a comprehensive analysis of the films' surface wettability, topography, and thickness was conducted using a variety of techniques, including contact angle analysis, atomic force microscopy (AFM), and ellipsometric measurements. Bone marrow mesenchymal stem cells (BMMSCs) were then seeded onto PNIPAM copolymer films prepared from different copolymer solution concentrations, ranging from 0.2 to 10 mg·mL-1, to select the optimal culture substrate that allowed for good cell growth at 37 °C and effective cell detachment through temperature reduction. Furthermore, the stability and reusability of the optimal copolymer films were assessed. Finally, AFM and X-ray photoelectron spectroscopy (XPS) were employed to examine the surface morphology and elemental composition of the copolymer films after two rounds of BMMSC adhesion and detachment. The findings revealed that the surface properties and overall characteristics of PNIPAM copolymer films varied significantly with the solution concentration. Based on the selection criteria, the copolymer films derived from 1 mg·mL-1 solution were identified as the optimal culture substrates for BMMSCs. After two rounds of cellular adhesion and detachment, some proteins remained on the film surfaces, acting as a foundation for subsequent cellular re-adhesion and growth, thereby implicitly corroborating the practicability and reusability of the copolymer films. This study not only introduces a stable and efficient platform for stem cell culture and harvesting but also represents a significant advance in the fabrication of smart materials tailored for biomedical applications.

Performance and Evaluation of Hanski 227 Oriental Tobacco in Dak Lak Region, Vietnam from 2022 - 2024

With the results of selecting Oriental tobacco varieties suitable for natural conditions in Vietnam, with potential for raw material quality and raw material production capacity in Vietnam, from 6 oriental tobacco varieties originating from Bulgaria, the Tobacco Institute has been testing in Ninh Thuan province from 2019 to 2021, and Dak Lak from 2021 to 2022. The results of the trial planting show that oriental tobacco varieties are good growth, and are quite suitable for the soil and climate conditions in Ninh Thuan and Dak Lak provinces, and have selected 2 the best oriental tobacco varieties as Basma 16 and Hanski 227. In which, Hanski 227 variety is evaluated to have outstanding prospects due to its good growth ability, high yield, characteristic aroma and good smoking properties. The Hanski 227 variety has less harvested leaves, larger leaf size and mass than Basma 16 variety, so the labor costs for cultivation, harvesting and preliminary processing are lower. To evaluate the ability to expand the oriental area in Vietnam, we continue to trial planting the Hanski 227 oriental variety in Dak Lak in 2023 - 2024, with a fertilizer level and a planting density corresponding to 50N + 30P2O5 + 80K2O (N: NH4NO3, P: (Ca(H2PO4)2 and K: K2SO4) and 110,000 plants/ha. The experimental trial results show the Hanski 227 variety has good growth, high yield, and good quality, with yield fluctuating 1.52 - 1.66 tons/ha, nicotine content: 0.81 - 1.38%, and reducing sugar content: 8.9 - 12.1%, and the oriental material has a characteristic aroma and good smoking properties. Based on the trial results shows that the quality of Hanski 227 grown in Dak Lak are the same the oriental tobacco importing from Bulgaria, Türkiye and Greece. Therefore, the Dak Lak province is the most suitbale region for producing good quality oriental tobacco in Vietnam compared to Ninh Thuan region. Because materials in Ninh Thuan has the high clorua content reducing material quality. In 2025, we continue to grow the Hanski 227 oriental tobacco variety in Dak Lak region on a large area and complete the preliminary processing process, with the goal of producing Oriental tobacco raw materials domestically, with appropriate production costs.

PENGARUH TAX AVOIDANCE, DIVIDEND POLICY, DAN FAKTOR LAINNYA TERHADAP NILAI PERUSAHAAN

The increasing level of business competition in Indonesia causes every company to try to develop its firm value. One of which is through capital which can be obtained by selling shares. Firm value is an important influencing factor for making investment decisions because investors will pay attention to how well the company's performance is. This research was conducted with the aim of obtaining empirical evidence regarding the influence of the independent variables dividend policy, investment decision, leverage, profitability, firm size, liquidity, institutional ownership, and tax avoidance. The object of this research uses a population of all consumers non-cyclicals and consumer cyclicals sector companies listed on the Indonesia Stock Exchange (BEI) from 2020 to 2022. Sample selection was carried out using a purposive sampling method. Data analysis uses multiple linear regression. The data that passed the sample selection criteria was 33 company data out of a total of 99 company data. The testing results indicate that profitability and leverage influence firm value. A high level of leverage makes the company able to maximize its operational activities to obtain high profits so that it becomes a positive signal for investors and increases firm value. A high profitability serves as a signal that the company has good growth prospects in the future so that investors will be more interested in investing and contributing to an increase in the firm value. However, dividend policy, investment decision, firm size, liquidity, institutional ownership, and tax avoidance show no significant influence on firm value

Physiological and transcriptomic analyses to determine the responses of the harmful algae Akashiwo sanguinea to phosphorus utilization

Phosphorus (P) is an essential nutrient driving algal growth in aquatic ecosystems. Dissolved inorganic and organic P (DIP and DOP) are the main components in the marine P pools and are closely related to harmful algal blooms. The dinoflagellate Akashiwo sanguinea is a cosmopolitan species which frequently causes dense blooms in estuaries and coasts worldwide, while the availability of P to A. sanguinea still remain unclear. Herein, the physiological and transcriptomic responses of A. sanguinea grown under P-deficient, DIP-replete and DOP-replete conditions were compared. P-deficient adversely suppressed the growth and photosynthesis of A. sanguinea, while genes associated with P transport, DOP utilization, sulfolipid synthesis, and energy production, were markedly elevated. Three forms of DOP, namely, glucose-6-phosphate (G-6-P), adenosine 5-triphosphate (ATP), and β-Glycerol phosphate (SG-P), supported A. sanguinea growth as efficiently as DIP (NaH2PO4), and no significant difference was observed in biochemical compositions and photosynthesis of A. sanguinea between the DIP and DOP treatments. While the genes related to P transporter were markedly suppressed in DOP groups compared with the DIP group. Our results indicated that A. sanguinea is a good growth strategist under P-deficient/replete conditions, and this species had evolved a comprehensive strategy to cope with P deficiency, which might be a crucial factor driving bloom formation in a low inorganic P environment.