Safety Assessment and Hepatic-Renal Protection of Cajanus cajan (L.) Millsp. Root and Its Soy Isoflavone Contents.

Cajanus cajan (L.) Millsp., also known as pigeon pea, has roots that have exhibited much pharmacological potential. The present study was conducted to assess the safe dose of the ethanolic extract of C. cajan roots (EECR95) and to analyze the main soy isoflavones contents. In vitro, we investigated the mutagenicity and cytotoxic effect of EECR95 on Salmonella typhimurium-TA98 and TA100 (by Ames tests) and RAW 264.7, L-929, and HGF-1 cell lines (by MTT tests) for 24 h of incubation. We found no mutagenic or cytotoxic effects of EECR95. After administration of 0.2 or 1.0 g/kg bw of EECR95 to both male and female Wistar rats for 90 days, there were no significant adverse effects on the behaviors (body weight, water intake, and food intake), organ/tissue weights, or immunohistochemical staining, and the urine and hematological examinations of the rats were within normal ranges. EECR95 potentially decreases renal function markers in serum (serum uric acid, BUN, CRE, and GLU) or liver function markers (cholesterol, triglyceride, and glutamic-pyruvate-transaminase (GPT)). We also found that EECR95 contained five soy isoflavones (genistein, biochanin A, daidzein, genistin, and cajanol), which may be related to its hepatorenal protection. Based on the high dose (1.0 g/kg bw) of EECR95, a safe daily intake of EECR95 for human adults is estimated to be 972 mg/60 kg person/day.

Pigeon Pea Intercropped with Tropical Pasture as a Mitigation Strategy for Enteric Methane Emissions of Nellore Steers.

In this study, we evaluate the effects of intercropping pigeon pea (Cajanus cajan (L.) Millsp.) with tropical pastures for feeding Nellore cattle and compared animal performance and enteric CH4 emissions with other pasture-based systems during the dry and rainy seasons of 2021. Thirty-six Nellore steers (with a body weight of 221 ± 7 kg and an age of 15-16 months) were randomly distributed in three treatments with three replicates (in paddocks of 1.5 hectares each): (1) a degraded pasture of Urochloa spp. (DEG); (2) a recovered and fertilized pasture of Urochloa spp. (REC); and (3) pigeon pea intercropped with Urochloa spp. (MIX). Enteric CH4 emissions were estimated using the sulfur hexafluoride (SF6) tracer gas technique, and dry matter intake (DMI) was determined using internal (iNDF) and external (TiO2) markers. Forages were collected by hand plucking after observations of ingestive behavior, and feces was collected after voluntary defecation. The proportion of grass and legume intake was estimated by C stable isotopes, and the forage nutritional quality was determined, while animal performance was monitored monthly, and the stocking rate was adjusted by the "put and take" technique. The results indicated that intercropping pigeon pea with tropical grasses is an interesting strategy for sustainable livestock production based on pastures. The MIX treatment was able to meet the nutritional requirements of the animals, which presented higher performance. In addition, there was a reduction in CH4 emissions up to 70% when expressed per average daily weight gain in comparison to the DEG treatment.

Efeito da germinação e da desidratação no valor nutritivo, compostos bioativos e atividade antioxidante de farinhas de leguminosas / Germination and dehydration effects on nutritional value, bioactive compounds and antioxidant activity of legume flours / Efectos de la germinación y la deshidratación sobre el valor nutritivo, los compuestos bioactivos y la actividad antioxidante de harinas de leguminosas

Os objetivos deste trabalho foram avaliar o efeito da germinação no teor de macronutrientes e da desidratação em compostos bioativos, nutrientes e atividade antioxidante de farinhas das leguminosas Phaseolus lunatus L. e Cajanus cajan (L. Millsp.) germinadas. As condições de germinação foram controladas em laboratório e as amostras foram submetidas à desidratação térmica (55°C) e liofilização. Foram realizadas as análises de composição centesimal, fenólicos totais flavonoides, atividade antioxidante (DPPH, FRAP), perfil de ácidos graxos (CG-FID) e de vitâmeros de tocoferol (HPLC- DAD). A germinação das leguminosas promoveu aumento de proteínas, lipídios e carboidratos. O processamento térmico para desidratação contribuiu para perdas de proteínas, lipídios, cinzas, e maior atividade antioxidantes em ambas as espécies. O perfil de ácidos graxos e vitâmeros de tocoferol mostraram-se com variações que dependem do tipo de leguminosa e condições de processamento, podendo ser positivas ou negativas. Farinhas de leguminosas germinadas pode ser uma alternativa para a inserção na dieta ou em formulações alimentícias e as condições de processamento devem ser monitoradas com intuito de otimiza propriedades nutritivas e funcionais.

The objectives of this work were to evaluate the effect of germination on macronutrient content and dehydration on bioactive compounds, nutrients and antioxidant activity of flours from germinated Phaseolus lunatus L. and Cajanus cajan (L. Millsp.) legumes. The germination conditions were controlled in the laboratory and the samples were submitted to thermal dehydration (55°C) and lyophilization. Analyses were carried out for centesimal composition, total phenolic flavonoids, antioxidant activity (DPPH, FRAP), fatty acid profile (GC-FID) and tocopherol vitamers (HPLC-DAD). Germination of the legumes promoted an increase in proteins, lipids and carbohydrates. Thermal processing for dehydration contributed to losses of proteins, lipids, ash, and higher antioxidant activity in both species. The profile of fatty acids and tocopherol vitamers showed variations that depend on the type of legume and processing conditions, and can be positive or negative. Sprouted legume flours can be an alternative for insertion in the diet or in food formulations and the processing conditions must be monitored in order to optimize nutritional and functional properties.

Los objetivos de este trabajo fueron evaluar el efecto de la germinación sobre el contenido en macronutrientes y de la deshidratación sobre los compuestos bioactivos, los nutrientes y la actividad antioxidante de harinas de leguminosas germinadas de Phaseolus lunatus L. y Cajanus cajan (L. Millsp.). Las condiciones de germinación se controlaron en el laboratorio y las muestras se sometieron a deshidratación térmica (55°C) y liofilización. Se realizaron análisis de composición centesimal, flavonoides fenólicos totales, actividad antioxidante (DPPH, FRAP), perfil de ácidos grasos (GC-FID) y vitaminas tocoferol (HPLC-DAD). La germinación de las leguminosas promovió un aumento de proteínas, lípidos y carbohidratos. El procesado térmico para la deshidratación contribuyó a pérdidas de proteínas, lípidos, cenizas y a una mayor actividad antioxidante en ambas especies. El perfil de ácidos grasos y vitaminas tocoferol mostró variaciones que dependen del tipo de legumbre y de las condiciones de procesado, pudiendo ser positivas o negativas. Las harinas de leguminosas germinadas pueden ser una alternativa para su inserción en la dieta o en formulaciones alimentarias y las condiciones de procesado deben ser monitorizadas para optimizar las propiedades nutricionales y funcionales.

Insulin sensitizer and antihyperlipidemic effects of Cajanus cajan (L.) millsp. root in methylglyoxal-induced diabetic rats.

Cajanus cajan (L.) Millsp., known as pigeon pea, is one of the major grain legume crops of the tropical world. It recognizes as an ethnomedicine to possess various functions, such as helping in healing wound and cancer therapy. We investigated whether 95% ethanol extracts from C. cajan root (EECR) protect against methylglyoxal (MGO)-induced insulin resistance (IR) and hyperlipidemia in male Wistar rats and explored its possible mechanisms. The hypoglycemic potential of EECR was evaluated using α-amylase, α-glucosidase activities, and advanced glycation end products (AGEs) formation. For in vivo study, the rats were divided into six groups and orally supplemented with MGO except for Group 1 (controls). Group 2 was supplemented with MGO only, Group 3: MGO + metformin, Group 4: MGO + Low dose-EECR (L-EECR; 10 mg/kg bw), Group 5: MGO + Middle dose-EECR (M-EECR; 50 mg/kg bw), and Group 6: MGO + High dose-EECR (H-EECR; 100 mg/kg bw). EECR possessed good inhibition of α-glucosidase, α-amylase activities, and AGEs formation (IC50 = 0.12, 0.32, and 0.50 mg/mL), respectively. MGO significantly increased serum levels of blood glucose (GLU), glycosylated hemoglobin, homeostasis model assessment of IR, AGEs, lipid biochemical values, and atherogenic index, whereas EECR decreased these levels in a dose-dependent manner. EECR can also act as an insulin sensitizer, which significantly decreased (47%, P < 0.05) the blood GLU levels after intraperitoneal injection of insulin in the insulin tolerance tests. The hypoglycemic and antihyperlipidemic mechanisms of EECR are likely through several possible pathways including the inhibition of carbohydrate-hydrolyzing enzymes (α-glucosidase and α-amylase) and the enhancement of MGO-trapping effects on inhibition of AGEs formation.

GC-MS and LC-MS: an integrated approach towards the phytochemical evaluation of methanolic extract of Pigeon Pea [Cajanus cajan (L.) Millsp] leaves.

Pigeon Pea is a well-received traditional nutritious and medicinal plant in India since ancient times. The plant is identified for its impressive pharmacological activities like antimicrobial, anti-inflammatory, antitubercular, antioxidant, neuroprotective, antihypertensive, antihyperglycemic and anticancer properties. The metabolites from Pigeon Pea leaves methanolic extract were identified using hyphenated instruments namely Gas Chromatography-Mass Spectroscopy (GC-MS) and Liquid Chromatography-Mass Spectroscopic (LC-MS) method. GC and LC chromatogram showed proper separation and presence of several bioactive compounds such as flavonoids, terpenoids, essential oils, alkaloids, and coumarins. LC-MS investigation reported the presence of Selidin (coumarin) and Tamarixetin (monomethoxyflavone) in the Pigeon Pea Leaves. The present investigations have demonstrated that methanolic extract of Pigeon Pea leaves exhibited impressive antibacterial activity against E. coli and antifungal activity against C. albicans with MIC values 50 µg/ml 250 µg/ml respectively. The extracts studied here have demonstrated to be a new remedial source used against diseases caused by these microorganisms.

Green Extraction of Antioxidant Flavonoids from Pigeon Pea (Cajanus cajan (L.) Millsp.) Seeds and Its Antioxidant Potentials Using Ultrasound-Assisted Methodology.

Pigeon pea is an important pea species in the Fabaceae family that has long been used for food, cosmetic, and other phytopharmaceutical applications. Its seed is reported as a rich source of antioxidants and anti-inflammatory flavonoids, especially isoflavones, i.e., cajanin, cajanol, daidzein, and genistein. In today's era of green chemistry and green cosmetic development, the development and optimization of extraction techniques is increasing employed by the industrial sectors to provide environmentally friendly products for their customers. Surprisingly, there is no research report on improving the extraction of these isoflavonoids from pigeon pea seeds. In this present study, ultrasound-assisted extraction (USAE) methodology, which is a green extraction that provides a shorter extraction time and consumes less solvent, was optimized and compared with the conventional methods. The multivariate strategy, the Behnken-Box design (BBD) combined with response surface methodology, was employed to determine the best extraction conditions for this USAE utilizing ethanol as green solvent. Not only in vitro but also cellular antioxidant activities were evaluated using different assays and approaches. The results indicated that USAE provided a substantial gain of ca 70% in the (iso)flavonoids extracted and the biological antioxidant activities were preserved, compared to the conventional method. The best extraction conditions were 39.19 min with a frequency of 29.96 kHz and 63.81% (v/v) aqueous ethanol. Both the antioxidant and anti-aging potentials of the extract were obtained under optimal USAE at a cellular level using yeast as a model, resulting in lower levels of malondialdehyde. These results demonstrated that the extract can act as an effective activator of the cell longevity protein (SIR2/SIRT1) and cell membrane protector against oxidative stress. This finding supports the potential of pigeon pea seeds and USAE methodology to gain potential antioxidant and anti-aging (iso)flavonoids-rich sources for the cosmetic and phytopharmaceutical sectors.

Effects of Cajanus cajan (L.) millsp. roots extracts on the antioxidant and anti-inflammatory activities.

Cajanus cajan (L.) Millsp., also named pigeon pea, is widely grown in the tropics and the subtropics. C. cajan roots (CR) and ribs stewed in hot water have been used as a traditional medicine in various cultures to treat diabetes. The purpose of this study was to determine the functional components of hot water (WCR) and 50%, 95% ethanol extracts (EECR50 and EECR95) from CR, then evaluating their antioxidant and anti-inflammatory effects. The results indicated that EECR95 had higher polyphenol, especially the isoflavones (e.x. daidzein, genistein, and cajanol) than those of the other extracts, and it also exhibited the most potent anti-oxidative activities by in vitro antioxidant assay. In the lipopolysaccharide-stimulated RAW 264.7 cells, we found that EECR95 significantly decreased intracellular reactive oxygen species and significantly enhanced the activities of superoxide dismutase and catalase. Mechanism studies showed that EECR95 mainly activated nuclear factor (NF) erythroid 2-related factor 2/antioxidant protein heme oxygenase-1 and inhibited nuclear factor kappa B (NF-κB) signaling pathway, and thus exhibited antioxidant and anti-inflammatory effects. Overall, this study suggests that CR may have the potential to be developed as a biomedical material and that genistein, which has relatively high uptakes (3.44% for the pure compound and 1.73% for endogenous genistein of EECR95) at 24 h of incubation with RAW 264.7 cells, could be the main active component of CR.

The Cholesterol-Modulating Effect of Methanol Extract of Pigeon Pea (Cajanus cajan (L.) Millsp.) Leaves on Regulating LDLR and PCSK9 Expression in HepG2 Cells.

Pigeon pea (Cajanus cajan (L.) Millsp.) is a legume crop consumed as an indigenous vegetable in the human diet and a traditional medicinal plant with therapeutic properties. The current study highlights the cholesterol-modulating effect and underlying mechanisms of the methanol extract of Cajanus cajan L. leaves (MECC) in HepG2 cells. We found that MECC increased the LDLR expression, the cell-surface LDLR levels and the LDL uptake activity in HepG2 cells. We further demonstrated that MECC suppressed the proprotein convertase subtilisin/kexin type 9 (PCSK9) mRNA and protein expression, but not affected the expression of other cholesterol or lipid metabolism-related genes including inducible degrader of LDLR (IDOL), HMG-CoA reductase (HMGCR), fatty acid synthase (FASN), acetyl-CoA carboxylase (ACC1), and liver X receptor-α (LXR-α) in HepG2 cells. Furthermore, we demonstrated that MECC down-regulated the PCSK9 gene expression through reducing the amount of nuclear hepatocyte nuclear factor-1α (HNF-1α), a major transcriptional regulator for activation of PCSK9 promoter, but not that of nuclear sterol-responsive element binding protein-2 (SREBP-2) in HepG2 cells. Finally, we identified the cajaninstilbene acid, a main bioactive stilbene component in MECC, which significantly modulated the LDLR and PCSK9 expression in HepG2 cells. Our current data suggest that the cajaninstilbene acid may contribute to the hypocholesterolemic activity of Cajanus cajan L. leaves. Our findings support that the extract of Cajanus cajan L. leaves may serve as a cholesterol-lowering agent.

Cajanolactone A from Cajanus cajan Promoted Osteoblast Differentiation in Human Bone Marrow Mesenchymal Stem Cells via Stimulating Wnt/LRP5/ß-Catenin Signaling.

Cajanolactone A (CLA) is a stilbenoid discovered by us from Cajanus cajan (L.) Millsp. In our study, CLA was found to promote osteoblast differentiation in human bone marrow mesenchymal stem cells (hBMSCs), as judged by increased cellular alkaline phosphatase activity and extracellular calcium deposits, and elevated protein expression of Runx2, collagen-1, bone morphogenetic protein-2, and osteopontin. Mechanistic studies revealed that hBMSCs undergoing osteoblast differentiation expressed upregulated mRNA levels of Wnt3a, Wnt10b, LRP5/6, Frizzled 4, ß-catenin, Runx2, and Osterix from the early stage of differentiation, indicating the role of activated Wnt/ß-catenin signaling pathway in osteoblast differentiation. Addition of CLA to the differentiation medium further increased the mRNA level of Wnt3a, Wnt10b, Frizzled 4, LRP5, and ß-catenin, inferring that CLA worked by stimulating Wnt/LRP5/ß-catenin signaling. Wnt inhibitor dickkopf-1 antagonized CLA-promoted osteoblastogenesis, indicating that CLA did not target the downstream of canonical Wnt signaling pathway. Treatment with CLA caused no changes in mRNA expression level, as well as protein secretion of osteoprotegerin (OPG) and receptor activator of nuclear factor kappa-B ligand (RANKL), indicating that CLA did not affect the OPG/RANKL axis. Our results showed that CLA, which promoted osteoblast differentiation in hBMSCs, through activating Wnt/LRP5/ß-catenin signaling transduction, is a promising anti-osteoporotic drug candidate.

Establishment of HPLC fingerprints of Cajanus cajan leaves and determination of two constituents / 中成药

AIM To establish the HPLC fingerprints of Cajanus cajan (L.) Millsp.leaves and to determine the contents of orientoside and luteolin.METHODS The analysis of 65％ methanol extract from C.cajan leaves was performed on a 25 ℃ thermostatic Agilent Zorbax SB-C18 column (4.6 mm ×250 mm,5 μm),with the mobile phase comprising of methanol-1％ acetic acid flowing at 1.0 mL/min in a gradient elution manner,and the detection wavelength was set at 260 nm.RESULTS There were twenty-one common peaks in ten batches of samples (S1-S10),whose similarities were more than 0.950,except for that of S3 (0.516).Orientoside and luteolin showed good linear relationships within the ranges of 0.089 5-3.960 μg and 0.015 5-0.408 μg,whose average recoveries were 99.43％ (RSD =1.32％) and 98.50％ (RSD =0.82％),respectively.The contents of two constituents in the samples from three growing areas (Guangdong,Yunnan and Hainan) showed obvious differences.CONCLUSION This simple,accurate and reproducible method can be used for the quality control of C.cajan leaves.

Tamanho de parcela e número de repetições em feijão guandu / Plot size and number of repetitions in pigeonpea

RESUMO:Os objetivos deste trabalho foram determinar o tamanho ótimo de parcela e o número de repetições para avaliar a massa verde de feijão guandu (Cajanus cajan (L.) Millsp.), em épocas e anos de avaliação. Foram realizados 80 ensaios de uniformidade de 6m×6m (36m2). Cada ensaio foi dividido em 36 unidades experimentais básicas (UEB) de 1m×1m, totalizando 2.880UEB. Foi pesada a massa verde das plantas de cada UEB. No ano agrícola 2011/2012, foram avaliados 16 ensaios aos 127 dias após a semeadura (DAS) e 24 aos 139DAS. Em 2012/2013, foram avaliados quatro ensaios em cada uma das épocas (163, 167, 170, 174, 177, 181, 184, 188, 191 e 195DAS). O tamanho ótimo de parcela foi determinado por meio do método da curvatura máxima do modelo do coeficiente de variação e as comparações de médias, entre épocas e os anos de avaliação, foram feitas pelo teste de Scott-Knott. O número de repetições, em cenários formados pelas combinações de i tratamentos (i=3, 4, ..., 50) e d diferenças mínimas entre médias de tratamentos a serem detectadas como significativas a 5% de probabilidade, pelo teste de Tukey, expressas em percentagem da média do experimento (d=10%, 15%, ..., 50%), foi determinado por processo iterativo até a convergência. O tamanho ótimo de parcela para avaliar a massa verde de feijão guandu é 8,39m2. Quatro repetições, para avaliar até 50 tratamentos, são suficientes para identificar, como significativas a 5% de probabilidade, pelo teste de Tukey, diferenças entre médias de tratamentos de 54,1% da média do experimento.

ABSTRACT:The objectives of this research were to determine the optimum plot size and number of repetitions, to evaluate the fresh weight of pigeonpea (Cajanus cajan (L.) Millsp.), in times and years. Eighty uniformity trials of 6m×6m (36m2) were conducted. Each trial was divided in 36 basic experimental units (BEU) of 1m×1m, totaling 2,880BEU. The fresh weight of plants, in each BEU was weighed. The agricultural year 2011/2012, were evaluated 16 trials at 127 days after sowing (DAS) and 24 to 139DAS. In 2012/2013, four trials at each of times (163, 167, 170, 174, 177, 181, 184, 188, 191 and 195DAS) were evaluated. The optimum plot size was determined by the method of maximum curvature of the coefficient of variation model and the means compared, among evaluation times and years, by Scott-Knott test. The number of repetitions, in scenarios of combinations of i treatments (i=3, 4, ..., 50) and d minimal differences between treatments means, to be detected as significant, 5% probability by Tukey's test, expressed in percentage of experiment avarage (d=10%, 15%, ..., 50%), was determined by iterative process until convergence. The optimum plot size to evaluate the fresh weight of pigeonpea is was 8.39m2. Four replications, to evaluate up to 50 treatments, are sufficient to identify, as significant at 5% probability by Tukey's test, differences between treatment means of 54.1% of the average experiment.

A Halogen-Containing Stilbene Derivative from the Leaves of Cajanus cajan that Induces Osteogenic Differentiation of Human Mesenchymal Stem Cells.

A new natural halogen-containing stilbene derivative was isolated from the leaves of Cajanus cajan (L.) Millsp. and identified as 3-O-(3-chloro-2-hydroxyl-propanyl)-longistylin A by comprehensive spectroscopic and chemical analysis, and named cajanstilbene H (1). It is the first halogen-containing stilbene derivative found from plants. In human mesenchymal stem cells (hMSC) from bone marrow, 1 did not promote cell proliferation, but distinctly enhanced osteogenic differentiation of hMSC in time- and dose-dependent manners. In six human cancer cell lines, 1 showed a moderate inhibitory effect on cell proliferation, with IC50 values of 21.42-25.85 µmol·L(-1).

Estimação da área foliar de feijão guandu por dimensões foliares / Leaf area estimation of pigeonpea by leaf dimensions

O objetivo deste trabalho foi modelar e identificar os melhores modelos para a estimação da área foliar de feijão guandu, determinada por fotos digitais em função do comprimento, ou da largura e/ou do produto comprimento vezes largura do limbo do folíolo central da folha. Foram conduzidos dois experimentos com a cultura de feijão guandu. No primeiro experimento, foram realizadas coletas de 200 folhas aos 45, 52, 59, 65, 72, 79, 86, 94, 100, 106 e 114 dias após a emergência (DAE), totalizando 2.200 folhas. No segundo experimento, foi realizada uma coleta de 220 folhas aos 69 DAE. Nessas 2.420 folhas, foram mensurados o comprimento (CFC) e a largura (LFC) e calculado o produto do comprimento vezes a largura (CFC×LFC) do limbo do folíolo central. A seguir, determinou-se a área foliar de cada folha (soma da área foliar dos folíolos esquerdo, central e direito), por meio do método de fotos digitais (Y). Posteriormente, foram separadas, aleatoriamente, 90% das folhas do primeiro experimento (1.980 folhas), para a geração de modelos do tipo quadrático, potência e linear, de Y em função do CFC, da LFC, e/ou do CFC×LFC. Os 10% das folhas restantes do primeiro experimento (220 folhas) e as 220 folhas coletadas no segundo experimento foram usadas, separadamente, para a validação dos modelos. Em feijão guandu, os modelos do tipo quadrático (Ŷ=0,4295+1,5895x+0,0011x2, R2=0,9710), potência (Ŷ=1,6591x0,9983, R2=0,9769) e linear (Ŷ=-1,3555+1,6858x, R2=0,9708), de Y em função do CFC×LFC, são adequados para a estimação da área foliar e o linear, pode, preferencialmente, ser utilizado.

The objective of this research was to model and identify the best models to estimate the leaf area of pigeonpea determined by digital photos with the length or width and/or the product length width of the central leaflet limb of the leaf. Two trials were carried with the culture of pigeonpea. In the first experiment, samples from 200 leaves were taken at 45, 52, 59, 65, 72, 79, 86, 94, 100, 106 and 114 days after emergence (DAE), totaling 2,200 leaves. In the second experiment, a sample from 220 leaves was collected at 69 DAE. In these 2,420 leaves, were measured the length (CFC) and width (LFC) and calculated the product length width (CFC×LFC) of the central leaflet. Then, was determined the leaf area of each leaf (sum the leaf area of the leaflets left, center and right) by the method of digital photos (Y). After, were separated, randomly, 90% of the leaves from the first experiment (1,980 leaves), to build models of quadratic type, potency and linear for Y function of the CFC, LFC and/or CFC×LFC. The remaining 10% of the leaves from the first experiment (220 leaves) and the 220 leaves collected in the second experiment, separately, were used to validate the models. In pigeonpea, the quadratic model (Ŷ=0.4295+1.5895x+0.0011x2, R2=0.9710), the potency model (Ŷ=1.6591x0.9983, R2=0.9769) and the linear model (Ŷ=-1.3555+1.6858x, R2=0.9708), of Y as a function of CFC×LFC are adequate for estimation of the leaf area and linear, may preferably be used.

Chemical constituents from leaves of Cajanus cajan / 中草药

Objective: To study the chemical compounds from the leaves of Cajanus cajan. Methods: Normal phase silica gel, medium-pressure ODS, MCI, and Sephadex LH-20 gel column chromatographies were used to isolate and purify the constituents. And their structures were identified by their physical properties, nuclear magnetic resonance spectrum, mass spectrometry, etc. Results: Twenty-three compounds were separated from the alcohol extract in the leaves of C. cajan. They were cajanine (1), longistyline A (2), longistyline C (3), cajanolactone A (4), pinostrobin (5), orientin (6), isovitexin (7), vitexin (8), cajanol (9), cajanin (10), prunetin (11), pratensein (12), (2R, 3R)-2, 3-dihydro-5-7, 4'-dimethoxyflavone (13), ethyl 10', 16'-dihydroxy hexadecanoate (14), vanillic acid (15), ethyl heptadecanoate (16), 2-O-quebrachitol (17), 2, 3, 4-trihydroxy-isovaleric acid (18), stigmasterol (19), betulinic acid (20), heptadecanoic acid (21), β-sitosterol (22), and β-daucosterol (23). Conclusion: Compounds 10-19 are obtained from this plant for the first time.

Microwave-assisted extraction of flavonoids from Cajanus cajan leaves / 中草药

Objective: To select the proper method for extracting flavonoids from Cajanus cajan leaves and optimize the extraction parameters. Methods: Taking the extracting rate of orientoside, luteolin, and total flavonoids from C. cajan leaves and anti-oxidative activity as indexes, microwave-assisted method was compared with heat reflux extraction, ultrasound-assisted extraction, and maceration extraction. Central composite design was used for optimization of parameters affecting the extraction of orientoside and luteolin using microwave-assisted method. Results: The results showed that microwave-assisted extraction was the best method and the optimal conditions were: 50 mesh particle size, 80% ethanol aqueous, 1 : 20 material/ethanol aqueous, temperature 60°C, 4 times cycle, 10 min extraction time, 500 W extraction power. The extraction yields of orientoside and luteolin were (4.42 ± 0.01) and (0.10 ± 0.01) mg/g from dry C. cajan leaves, respectively. Conclusion: The microwave-assisted method is feasible with less time, higher extraction yield, and better anti-oxidative activity.

Determination of Vitexin in Cajanus cajan(L.) Millsp. by HPLC / 中药新药与临床药理

Objective To develop a quantitative method to determine vitexin in Cajanus cajan (L.) Millsp. Methods The chromatographic conditions were as follows: column C18(250 mm? 4.6 mm, 5 ? m) , mobile phase being MeOH ∶ 1 % HAC (25 ∶ 75) for 20 mins and then being MeOH ∶ 1 % HAC (30 ∶ 70) after 20 mins, flow rate at 1.0 mL/min, and wavelength at 339 nm. Results The good linearity of this method was in the range of 0.104 4～ 0.522 ? g (r=0.999 4), and the average recovery of vitexin was 100.11 % ( RSD =0.63 % ).Conclusion The method is simple and sensitive with good stability, it can be suitable for the quality control of vitexin in Cajanus cajan (L.) Millsp..