Medicinal Value Research Articles

Quantitative Changes and Transformation Mechanisms of Saponin Components in Chinese Herbal Medicines during Storage and Processing: A Review.

Saponins are an important class of active components in Chinese herbal medicines (CHMs), which are present in large quantities in Ginseng Radix et Rhizoma, Notoginseng Radix et Rhizoma, Polygonati Rhizoma, etc., and have immune regulation, anti-tumor, anti-inflammatory, anti-cardiovascular disease, and hypoglycemic activities. Storage and processing are essential processes in the production process of CHMs which affect the stability of saponin components and then reduce the medicinal and economic value. Therefore, it is of great importance to investigate the effects of storage and processing conditions on the content of saponin components in CHMs. In this paper, the effects of various storage and processing factors, including temperature, pH, enzymes, meta lions, extraction methods, etc., on the saponin content of CHMs are investigated and the underlying mechanisms for the quantitative changes of saponin are summarized. These findings may provide technical guidance for the production and processing of saponin-rich CHMs.

Cytotoxic effect of Trigonella coerulescens subsp. ayvalikensis Erdoğan, Selvi & Tümen in prostate and colon cancer cell lines

Trigonella coerulescens subsp. ayvalikensis is an annual local endemic taxon distributed only in Ayvalık/Balıkesir district and evaluated in the Vulnerable Category (VU). Trigonella L. is an important genus with medicinal and economic value in the Fabaceae family. Seeds of the genus Trigonella are known to contain several groups of secondary metabolites, the most abundant compounds being steroidal saponins, as well as flavones, isoflavones, and polysaccharides. In our study, the cytotoxic effect on two different cancer cell lines namely, PC-3 (prostate) and SW480 (colon), was investigated by extracting Trigonella coerulescens subsp. ayvalikensis with different solvents. The cytotoxic effects of extracts obtained from plant seeds with different solvents (hexane, methanol, ethanol, acetone) were investigated. The MTT test was used to examine the cytotoxic effect, which was studied with PC-3 and SW480 cancer cell lines. The different concentrations (23.45 µg/µL, 46.875 µg/µL, 93.75 µg/µL, 187.5 µg/µL, 375 µg/µL) of seed extracts were applied to the cells at different times points (24h, 48h and 72h) and absorbance was taken at 550 nm in the spectrophotometer. As a result of cytotoxic studies, it was observed that hexane extract had the most reducing effect on PC-3 compared to the control groups. In the SW480 cell line, a proliferative effect was observed in extracts prepared with methanol, hexane, and acetone in the early period of 24 hours. In the later period (72 hours), the extract prepared with hexane and acetone showed the most cytotoxic effect on SW480 cells.

Phyto-safe in vitro regeneration and harnessing antimicrobial-resistant endophytes as bioinoculants for enhanced growth and secondary metabolites yield in Nilgirianthus ciliatus

Nilgirianthus ciliatus, extensively exploited for its pharmacological properties, is now classified as vulnerable. In vitro micropropagation offers a sustainable approach for ecological conservation and rational utilization of this biodiversity resource. This study aimed to reduce endophytes during in vitro propagation and isolating antimicrobial-resistant endophytes from N. ciliatus by employing various concentrations and exposure times of Plant Preservative Mixture (PPM). Optimal results were observed when nodal explants treated with 0.3% PPM for 8 h, followed by inoculation in Murashige and Skoog (MS) medium supplemented with 3 mg/L 6-benzylaminopurine (BAP) and 0.3% PPM. This protocol achieved 82% shoot regeneration with minimal endophytic contamination, suggesting that the duration of explant exposure to PPM significantly influences endophyte reduction. Two antimicrobial-resistant endophytes were isolated and identified as Bacillus cereus and Acinetobacter pittii through 16S rDNA sequencing. These endophytes exhibited plant growth-promoting characteristics, including amylolytic, proteolytic, lipolytic activities, indole-3-acetic acid production, phosphate solubilization, and stress tolerance. In vivo application of these endophytes as bioinoculants to N. ciliatus not only improved growth parameters but also significantly increased the levels of pharmacologically important compounds, squalene, and stigmasterol, as confirmed by High-performance thin-layer chromatography (HPTLC). This study demonstrates that PPM is a promising alternative for sustainable micropropagation of N. ciliatus. Furthermore, it highlights the potential of antimicrobial-resistant endophytes as bioinoculants to improve growth and medicinal value, offering a sustainable solution for conservation and large-scale cultivation of this species.

The qualitative and molecular categorization for genetic diversity in Withaniasomnifera (L.) Dunal

Ashwagandha, often known as Indian ginseng, is a popular therapeutic plant in ancient Ayurvedic medicine. Its roots and leaves have adaptogenic, anti-inflammatory, and immunomodulatory properties. Traditional medicine mainly relies on ashwagandha, a powerful medicinal plant with alkaloids and withanolides. This study investigates the genetic diversity and qualitative characteristics of 29 Withania somnifera L. genotypes, using RAPD markers to guide breeding strategies. Plant components from several Indian locations were grown in a randomized block design. Genomic DNA was isolated using a modified C-TAB technique and analyzed with 33 RAPD markers, revealing high variability (PIC values ranging from 0.154 to 0.985). Growth habit, leaf shape and color, flower color, berry color, and root color were among the qualitative qualities found, with intermediate and erect growth styles, mostly ovate leaf forms, and a wide range of leaf and flower colors. Genetic analysis revealed substantial polymorphism, with a UPGMA dendrogram clustering the genotypes into eight distinct groups, indicating diverse genetic backgrounds. The qualitative and molecular characterization of genetic variation in ashwagandha sheds light on the variability and adaptability of this essential therapeutic plant. Understanding and utilizing this variability allows researchers and breeders to improve the conservation, breeding, and long-term usage of ashwagandha, assuring its continued value in traditional medicine and modern pharmacology. This genetic diversity plays an essential role in breeding initiatives aiming to improve production, quality, and stress resilience. The study emphasizes the necessity of leveraging this variety through advanced breeding and biotechnology technologies to create superior Ashwagandha cultivars, maximize their therapeutic value, and assure long-term cultivation.

Seven New Noroleanane Triterpenoids from Mastic and their NO Inhibitory and Cytotoxic Activities.

Mastic is a natural resin produced by Pistacia lentiscus L. (Anacardiaceae) with high medicinal value and have been traditionally used as Uighur imported medicine for centuries. In this study, 16 triterpenoids including seven new norleananetriterpenoids (1-7), along with nine known oleanane triterpenoids (8-16), were isolated from the mastic. Their chemical structures were determined on the basis of extensive spectroscopic analyses (including IR, UV, ESI-HR-MS and NMR spectroscopy) and single-crystal X-ray diffraction. Compounds 4-7, 11, 14 and 16 showed strong inhibitory NO productionin LPS-induced RAW264.7 cells with IC50 values 7.44-9.76 μM, respectively (positive control dexamethasone, 9.93 ± 1.17 μM). Furthermore,compounds 3 and 12 significantly inhibited the growth of SW480 cells, compound 3 showed the most pronounced inhibitory effect with an IC50 of 2.30 ± 0.38 μM.

Comparative Studies of Some Biochemical and Toxicological Investigations of Chromolaena odorata and Ipomoea involucrata from Lagos Suburb in Nigeria

The search for plants and plants products of medicinal potentials cannot be underestimated. Hence this study sought to investigate some parameters of medicinal importance.The phytochemical constituents, proximate and mineral composition, anti-nutrient contents, and acute toxicity of Chromolaena odorata and Ipomoea involucrata were analyzed using standard analytical methods. Phytochemical screening revealed the presence of reducing sugars, flavonoids, saponins, and alkaloids in both plants. Notably, Ipomoea involucrate exhibited higher saponin levels, suggesting potential unique medicinal properties. Proximate and mineral composition analysis indicated that both plants have low moisture content, which helps in preserving the active compounds by minimizing chemical degradation. Additionally, the plants were found to be rich in crude fiber, protein, and nutritionally valuable elements. Anti-nutrient assessments showed that Chromolaena odorata had the lowest cyanide (5.45mg/100 g) and phytate (0.23mg/100 g) levels, while Ipomoea involucrate had the lowest oxalate content (0.40 mg/100 g). Furthermore, no mortality was observed in tested animals following oral treatment with 2000 mg/kg body weight, indicating a high margin of safety. This study highlights that both Chromolaena odorata and Ipomoea involucrate possess beneficial phytochemical and nutritional profiles. The low moisture content in these plants contributes to the stability of their active compounds, enhancing their potential medicinal value. Ipomoea involucrata stands out for its higher saponin content, which may offer distinctive therapeutic benefits. The minimal presence of anti-nutrients andless lethal effectsfurther support their safety and efficacy as medicinal plants. The findings in this study however underscore the therapeutic potential of these plants and their suitability for use in drug development and their application in therapeutic products.

Integrated volatile metabolome and transcriptome analyses provide insights into the warm aroma formation elicited by methyl jasmonate in carrot root.

Carrot is a highly significant vegetable cultivated worldwide and possesses a unique aroma with abundant edible and medicinal values. However, it remains largely unknown whether jasmonic acid could regulate aroma formation in carrot. Here, an integrated analysis of the volatile metabolome and transcriptome of carrot roots exposed to different concentrations of methyl jasmonate (MeJA) was performed. The results revealed 1,227 volatile organic compounds and 972 differential accumulated metabolites, with terpenes representing the largest portion. MeJA treatment evidently increased the relative odor activity values as well as the accumulation of most volatile compounds. In addition, 4,787 differentially expressed genes were identified and subjected to function enrichment analysis, indicating a role of terpene biosynthesis and metabolism in response to MeJA application. A network consisting of 4,680 transcription factor-structural pairs that showed highly significant positive correlations was constructed, which may be utilized as genetic targets for examining terpene accumulation and aroma formation elicited by methyl jasmonate. The results from the present work substantially improved our understanding of MeJA-mediated aroma formation in carrot.

Introduction of advanced maternal age based on mortality-specific severe morbidity.

SynopsisRe‐defining advanced maternal age based on the risk of severe maternal morbidity at delivery may be of value in obstetric medicine.

Identification and Analysis of the Superoxide Dismutase (SOD) Gene Family and Potential Roles in High-Temperature Stress Response of Herbaceous Peony (Paeonia lactiflora Pall.).

The herbaceous peony (Paeonia lactiflora Pall.) plant is world-renowned for its ornamental, medicinal, edible, and oil values. As global warming intensifies, its growth and development are often affected by high-temperature stress, especially in low-latitude regions. Superoxide dismutase (SOD) is an important enzyme in the plant antioxidant systems and plays vital roles in stress response by maintaining the dynamic balance of reactive oxygen species (ROS) concentrations. To reveal the members of then SOD gene family and their potential roles under high-temperature stress, we performed a comprehensive identification of the SOD gene family in the low-latitude cultivar 'Hang Baishao' and analyzed the expression patterns of SOD family genes (PlSODs) in response to high-temperature stress and exogenous hormones. The present study identified ten potential PlSOD genes, encoding 145-261 amino acids, and their molecular weights varied from 15.319 to 29.973 kDa. Phylogenetic analysis indicated that PlSOD genes were categorized into three sub-families, and members within each sub-family exhibited similar conserved motifs. Gene expression analysis suggested that SOD genes were highly expressed in leaves, stems, and dormancy buds. Moreover, RNA-seq data revealed that PlCSD1-1, PlCSD3, and PlFSD1 may be related to high-temperature stress response. Finally, based on the Quantitative Real-time PCR (qRT-PCR) results, seven SOD genes were significantly upregulated in response to high-temperature stress, and exogenous EBR and ABA treatments can enhance high-temperature tolerance in P. lactiflora. Overall, these discoveries lay the foundation for elucidating the function of PlSOD genes for the thermotolerance of herbaceous peony and facilitating the genetic breeding of herbaceous peony cultivars with strong high-temperature resistance.

A haplotype-resolved genome assembly of Coptis teeta, an endangered plant of significant medicinal value

Coptis teeta Wall. (Ranunculaceae), an endangered plant species of significant medicinal value, predominantly undergoes clonal propagation, potentially compromising the species’ evolutionary potential and ultimately increase its risk of extinction. In this study, we successfully assembled two sets of haploid genomes (Hap1 and Hap2) for C. teeta, comprising nine homologous chromosome pairs, by employing Illumina and PacBio sequencing technologies. The genome annotation identified a total of 43,979 and 46,311 protein-coding genes in Hap1 and in Hap2, and most of them were functionally annotated. The high-quality reference genome will serve as an indispensable genomic resource for conservation and comprehensive exploitation of this endangered species. Between the two haploid genomes, numerous structural alterations were detected within the nine homologous chromosome pairs, potentially resulting in aberrant synapsis and irregular chromosomal segregation and thus contributing to the sustained preservation of clonal propagation in C. teeta. The findings offer new perspective for elucidating the genetic mechanism underlying the compromised sexual reproductive capacity of C. teeta, thereby facilitating its enhancement though molecular breeding and genetic improvement.

Pressure-controlled steam explosion as pretreatment for efficient extraction of Tremella fuciformis polysaccharide: Structure and bioactivity

Tremella fuciformis (TF) is a mushroom with rich nutritional and medicinal value. This study aimed to develop an efficient extraction technique for TF polysaccharide (TFP) to enhance its health benefits. TF was subjected to steam explosion (SE) pretreatment at 0.5, 1.0, and 1.5 MPa for 60 s, followed by polysaccharide extraction. The extraction yield of TFP increased from 15.42 % to 50.16 % at 1.0 MPa. SE disrupted the dense structure of TFP, significantly improving total sugar and uronic acid contents, monosaccharide molar percentages of mannose and glucose, specific surface area, and ζ potential by 0.16, 0.4, 0.01, 0.83, 0.19, and 0.26 times at 0.5 MPa (P < 0.05). With increasing SE pressure, the thermal stability of TFP was enhanced, while its elasticity, viscosity, molecular weight, and particle size were reduced. TFP at 0.5 MPa significantly extended the lifespan of Drosophila melanogaster, with Tmax reaching 74 d for females and 60 d for males at a dosage of 0.015625 %, indicating a 0.32-fold enhancement. TFP enhanced climbing ability and antioxidant stress resistance, increased antioxidant enzyme activities and total antioxidant capacity, and reduced malondialdehyde levels, indicating its anti-aging effects. These findings provide theoretical and technical support for the high-value development and utilization of TFP.

High-efficiency breeding of Bacillus siamensis with hyper macrolactins production using physical mutagenesis and a high-throughput culture system

Macrolactins have attracted considerable attention due to their value and application in medicine and agriculture. However, poor yields severely hinder their broader application in these fields. This study aimed to improve macrolactins production in Bacillus siamensis using a combined atmospheric and room-temperature plasma mutagenesis and a microbial microdroplet culture system. After 25 days of treatment, a desirable strain with macrolactins production 3.0-fold higher than that of the parental strain was successfully selected. The addition of 30 mg/L ZnSO4 further increased macrolactins production to 503 ± 37.6 μg/mL, representing a 30.9 % improvement in production compared to controls. Based on transcriptome analysis, the synthesis pathways of amino acids, fengycin, and surfactin were found to be downregulated in IMD4036. Further fermentation experiments confirmed that inhibition of the comparative fengycin synthesis pathway was potentially driving the increased production of macrolactins. The strategies and possible mechanisms detailed in this study can provide insight into enhancing the production of other secondary metabolites toxic to the producer strains.

Chemical Characterization and Insecticidal Activities of the Essential Oils from the Different Parts of Ocimum gratissimum var. suave (Willd.) Hook. f.

In this research, the essential oils (EOs) from different parts of Ocimum gratissimum var. suave were chemically characterized and evaluated for insecticidal activity, especially against two common storage pests of Chinese herbal medicines: Tribolium castaneum and Liposcelis bostrychophila. Ocimum gratissimum is a plant with several medicinal values in traditional Chinese medicine. In the study, EOs were successfully extracted from inflorescences (OGI) and stem-leaf (OGLS) parts of O. gratissimum by steam distillation and 16 compounds were identified by gas chromatography-mass spectrometry (GC-MS), of which eugenol was the major constituent in both extracts. In fumigation toxicity tests against both pests, the EOs showed limited toxicity against T. castaneum but showed better toxicity against L. bostrychophila. Contact toxicity tests showed that OGLS had better insecticidal potential than OGI, while the insecticidal effect of eugenol sometimes exceeded that of EOs. In addition, repellency experiments showed that O. gratissimum EOs repelled the pests to varying degrees, with the effect being influenced by concentration and exposure time. The results suggest that O. gratissimum EOs could be a promising alternative to synthetic insecticides for sustainable utilization.

Habitat Suitability Modeling of Endemic Genus Chimonanthus in China under Climate Change

Climate change has significantly altered in the distribution of plant and animal species, potentially resulting in either species expansion or extinction. The genus Chimonanthus, an economically significant and endemic group in China, holds substantial medicinal and ornamental value; however, its wild resources are limited. There is a paucity of knowledge regarding the distribution characteristics of the genus Chimonanthus species and the critical ecological factors influencing habitat suitability. Utilizing species distribution data and environmental variables, we performed simulations and analyses to identify suitable habitats, evaluate the primary environmental factors influencing distribution, determine potential distribution areas and centroids, and predict changes in suitable areas under three future climate scenarios (SSP-126, SSP-245, SSP-585) employing MaxEnt and ArcGIS. These findings indicated that the Area Under Curve (AUC) values exceeded 0.97 for all five Chimonanthus species, suggesting that the model predictions are highly accurate. The primary environmental variables influencing the distribution of C. grammatus are temperature, particularly isothermality (BIO3), and the mean temperature of warmest quarter (BIO10). However, precipitation of warmest quarter (BIO18) was an important environmental factor limiting the distributions of C. praecox, C. nitens, C. salicifolius and C. zhejiangensis. In the current period, the area of habitat suitability for C. praecox is the largest, at 2,498,600 km2, while that for C. zhejiangensis is the smallest, at 700,400 km2. The five Chimonanthus species are distributed mainly in southern China under the current climate scenario and will migrate to higher latitudes under future climate scenarios. C. nitens had high niche overlap and range overlap with C. zhejiangensis and C. salicifolius, respectively. A similar situation occurs between C. zhejiangensis and C. salicifolius. These findings suggest that there may be strong interspecific competition among adjacent species. Our results indicate that the establishment of nature reserves at current distribution sites within optimal areas is crucial for the conservation of germplasm resources, particularly for C. grammatus and C. salicifolius. The data generated from this research can serve as a valuable reference for the selection of in situ conservation sites, the determination of appropriate planting locations, the scientific introduction of species, and the development of long-term conservation and management strategies for Chimonanthus.

Comparing the nutritional, phytochemical, and anti-microbial potential of wild and cultivated Tetragonia decumbens mill.: A promising leafy vegetable for bio-saline agriculture in South Africa

Tetragonia decumbens is a neglected edible halophyte that grows naturally in coastal areas of South Africa. Its underutilisation is due to the limited literature on its nutraceutical potential. So, this research was designed to assess the nutritional value, secondary metabolites, and anti-microbial potential of wild and greenhouse cultivated T. decumbens to further support its consumption and potential medicinal use. Samples of T. decumbens were collected from three coastal areas (Strand beach, Muizenberg beach and Blouberg beach) during the dry and wet seasons in Cape Town, and the greenhouse cultivated were subjected to varying salinity doses (0, 50, 100, 150, 200 and 250 mM). Results revealed a considerable increase in minerals (N, P and Mg) and proximate composition (Ash, moisture, and carbohydrates) in greenhouse cultivated plants subjected to 50 mM of salinity while the highest crude fat and neutral detergent fibre were recorded in wild samples. Moreover, heavy metal accumulation (Zn and Fe), phytochemicals, anti-nutrients and anti-microbial activities were more pronounced in wild plants than in cultivated samples. Wild plants collected at Blouberg beach had more heavy metals, anti-nutrients, phytochemicals, and anti-microbial activity. These findings validate for the first time, the relevance of nutritional quality of T. decumbens in assessing its suitability as a source of nutrients and antioxidants with possible medicinal value as shown by the inhibition of harmful bacteria and fungal strains.

Decoding the Root Lignification Mechanism of Angelica sinensis through Genome-wide Methylation Analysis.

Angelica sinensis is a traditional Chinese herbal medicine with significant economic and medicinal value. However, early bolting and flowering can occur during the second year of the vegetative growth period, rendering the roots unviable for medicinal use and resulting in substantial economic losses. Consequently, the growing interest in studying the molecular mechanisms underlying early bolting or increased root lignification in A. sinensis. Here, we conducted whole-genome bisulfite sequencing and observed an increase in whole-genome DNA methylation levels on chromosomes after bolting in A. sinensis. Comparative analysis revealed methylation patterns in the upstream, gene body, and downstream regions in the context of CG, CHG, and CHH, suggesting a possible association between CHH-type methylation of promoters and phenylpropanoid biosynthesis. Furthermore, joint analysis of transcriptomic and methylomics data revealed a positive correlation between DNA methylation and gene expression. We identified the hyperDMR gene in the CHH background within the promoter region; this gene is also a key gene (AsCOMT1), exhibiting dual catalytic activity and facilitating the synthesis of both ferulic acid and lignin. Enzyme kinetic analysis demonstrated that AsCOMT1 preferentially catalyzes the synthesis of lignin monomer precursors. These findings highlight the important regulatory role of DNA methylation in bolting and the synthesis of secondary metabolites in A. sinensis, providing valuable insights into the underlying molecular mechanisms. Therefore, as DNA methylation plays an important regulatory role in A. sinensis bolting and secondary metabolite synthesis, it has potential significance in the analysis of the underlying molecular mechanism.

Pharmaceutical innovativeness index: methodological approach for assessing the value of medicines – a case study of oncology drugs

ABSTRACT Background We propose a framework to assess the value of pharmaceutical innovations, with explicit clinical and methodological parameters, based on the therapeutic value and health needs. Research design and methods The study was based on the adaptation of health technology assessment methods documented in the literature, which was applied to a sample of oncological drugs. Difficulties and issues during the application of those tools were identified and addressed to develop a new framework with new and revised domains and clear classification criterion for each domain. Scores were assigned to each level and domain according to their relevance to generate the final score of innovativeness. Results The Pharmaceutical Innovation Index (PII) includes four domains, two related to clinical and social dimensions – Therapeutic Need and Added Therapeutic Value – and other two about methodological features – Study Design and Quality (risk of bias). The scores combined after assigned to each domain results Index of the Innovativeness of the medicines represents the degree of pharmaceutical innovation. Conclusion This work proposes a transparent methodology with well-defined criteria and script; the algorithm developed with authors’ weightings and criteria may be switched to best adjust to other applications, perspective or clinical indications, while keeping the transparency and objectiveness.

Determination of ursolic acid in ethanolic extract of Rotheca serrata (L.) Steane & Mabb. by HPLC method

Rotheca serrata (L.) Steane & Mabb. a plant having significant medicinal value is used in treating a fever, rheumatism, inflammation, pain, and malarial fever. Ursolic acid has a five-ringed pentacyclic structure belongs to the family of triterpenoids. It has antioxidant, antitumor, and hepato-protective properties. The method in HPLC was developed on a SHIMADZU, Shimpack ODS (25 cm × 4.6 mm, 5 µm) column. The mobile phase consisted of a 70:25:5 (v/v/v) mixture of methanol, acetonitrile, and 0.02 M ammonium acetate buffer (pH 3.5). A flow rate of 1.2 mL/min and λmax of 215 nm. Ursolic acid from the extract and standard was eluted at the same retention time of 4.1 min. 20–120 µg/mL was the linearity range chosen and was found to be linear (R 2=0.996). The value of LOD was 0.85 µg/mL and LOQ was 1.96 µg/mL. The method for analysis of ursolic was found to be accurate with good repeatability.

Assessment of Population Genetic Diversity of Medicinal Meconopsis integrifolia (Maxim.) Franch. Using Newly Developed SSR Markers.

Meconopsis integrifolia is an endangered Tibetan medicinal plant with significant medicinal and ornamental value. Understanding its genetic diversity and structure is crucial for its sustainable utilization and effective conservation. Here, we develop a set of SSR markers based on transcriptome data to analyze the genetic diversity and structure of 185 individuals from 16 populations of M. integrifolia. The results indicate that M. integrifolia exhibits relatively high genetic diversity at the species level (the percentage of polymorphic bands PPB = 91.67%, Nei's genetic diversity index He = 0.2989, Shannon's information index I = 0.4514) but limited genetic variation within populations (PPB = 12.08%, He = 0.0399, I = 0.0610). The genetic differentiation among populations is relatively high (the coefficient of gene differentiation GST = 0.6902), and AMOVA analysis indicates that 63.39% of the total variation occurs among populations. This suggests that maintaining a limited number of populations is insufficient to preserve the overall diversity of M. integrifolia. Different populations are categorized into four representative subclusters, but they do not cluster strictly according to geographical distribution. Limited gene flow (Nm = 0.2244) is likely the main reason for the high differentiation among these populations. Limited seed and pollen dispersal abilities, along with habitat fragmentation, may explain the restricted gene flow among populations, highlighting the necessity of conserving as many populations in the wild as possible.

Studies on quality of turmeric powder influenced by pre–treatments of fresh sliced rhizomes

The curcumin is an active component of turmeric which is highly valued and ingredient of many traditional herbal medicines. The objective of the present experiment was to retain the curcumin in turmeric powder and to improve the quality of turmeric powder. The experiment was laid out in Completely Randomized Design (CRD) with ten different treatments. An attempt was made to to address the concerns about reduction in curcumin content due to the traditional curing and processing methods and to prepare high quality turmeric powder by assessing the effect of various pre–treatments on the chemical and physical parameters. The results indicated that blanching of turmeric rhizomes at 90ºC ±2ºC for 5 minutes significantly impacts the physical, chemical, and sensory properties of the turmeric powder. The beneficial compounds like curcumin, polyphenols, flavonoids, alkaloids, tannins, oleoresins and essential oil in blanched rhizomes was retained in turmeric powder which helps in optimizing the nutritional and medicinal value of turmeric.