Your search keyword '"CHICKPEA"' showing total 586 results

1. Assessment of the Nutritional Value and Antioxidant Properties of Plant-Based Yogurt from Chickpeas.

Author

Budryn, Grażyna and Grzelczyk, Joanna

Abstract

Plant-based yogurts are becoming more and more popular. These are vegan products for people with food allergies or intolerances, athletes, and ordinary consumers. The use of chickpea "milk" allows one to obtain a plant-based yogurt with a high protein content, dietary fiber and antioxidant potential. This study assessed the content of polyphenols, selected nutrients, and antioxidant properties in chickpea yogurt. The vegetable chickpea yogurt was rich in protein (4.34–7.90 g/100 g) and dietary fiber (2–4%). It was also characterized by a high antioxidant activity (DPPH = 2.61 to 4.32 μmol TE/g, FRAP = 3.11 to 48.33 μmol TE/g). The use of 3-day soaking and inoculation with Vegurt or a kefir bacterial inoculum allowed us to obtain a high protein content. The addition of honey increased the polyphenol content and antioxidant potential of the plant-based yogurt (139–148 GAE mg/100 g). This research will be used in future research into optimizing the conditions for obtaining plant-based yogurts with chickpeas. Further research should include models for testing health-promoting properties. [ABSTRACT FROM AUTHOR]

Published

2024

2. Evaluation of Kabuli Chickpea Genotypes for Tropical Adaptation in Northern Australia.

Author

Subedi, Megha, Naiker, Mani, du Preez, Ryan, Adorada, Dante L., and Bhattarai, Surya

Abstract

Chickpea is one of the economically important legume crops adapted for winter season production in tropical climates. This study evaluated the physiological, morphological, and biochemical traits of eight Kabuli chickpea genotypes in an Australian tropical environment. The result revealed significant differences between genotypes for seed emergence, plant height, primary shoots, leaf number, leaf area index, gas-exchange parameters, seed yield, carbon discrimination (Δ13C), and natural abundance for nitrogen fixation. Among the tested genotypes, AVTCPK#6 and AVTCPK#19 exhibited late flowering (60–66 days) and late maturity (105–107 days), and had higher leaf photosynthetic rate (Asat) (28.4–31.2 µmol m−2 s−1), lower stomatal conductance (gsw) (516–756 mmol m−2 s−1), were associated with reduced transpiration rate (T) (12.3–14.5 mmol m−2 s−1), offered greater intrinsic water-use efficiency (iWUE) (2.1–2.3 µmol m−2 s−1/mmol m−2 s−1), and contributed a higher seed yield (626–746 g/m2) compared to other genotypes. However, a larger seed test weight (>60 g/100 seed) was observed for AVTCPK#24, AVTCPK#8, and AVTCPK#3. Similarly, a high proportion (45%) of larger seeds (>10–11 mm) was recorded for AVTCPK#24. Furthermore, a higher %Ndfa in AVTCPK#6 (71%) followed by AVTCPK#19 (63%) indicated greater symbiotic nitrogen fixation in high-yielding genotypes. Positive correlation was observed between %Ndfa and seed protein, as well as between seed yield and plant height, primary shoots, leaf count, leaf area index, leaf photosynthesis, stomatal conductance, transpiration rate at pod filling stage, biomass, and harvest index. An inverse correlation between (Δ13C) and iWUE, particularly in AVTCPK#6 and AVTCPK#19, indicates greater heat and drought tolerance, required for high-yielding Kabuli chickpea production in northern Australia. [ABSTRACT FROM AUTHOR]

Published

2024

3. Investigation of Drought Stress on Chickpea (Cicer arietinum L.) Genotypes Employing Various Physiological Enzymatic and Non-Enzymatic Biochemical Parameters.

Author

Asati, Ruchi, Tripathi, Manoj Kumar, Yadav, Rakesh Kumar, Tripathi, Niraj, Sikarwar, Ravendra Singh, and Tiwari, Prakash Narayan

Subjects

BIOMARKERS, PHYSIOLOGY, SUPEROXIDE dismutase, PLANT biomass, GENOTYPES, CHICKPEA

Abstract

Drought stress is a universal crisis in sustaining the growth and production of major legumes, including the chickpea. Drought severely reduces the biomass of chickpea plants, with the effect on leaves appearing the most apparent. The aim of this study was to investigate, using various physiological and biochemical markers throughout the pod filling stage, how 78 desi chickpea genotypes tolerated drought stress. Most of the evaluated characteristics showed significant variations between control and drought treatments. The mean performance of most of the investigated parameters significantly decreased under moisture-stressed conditions. RWC, SWD, MSI, and CTD were investigated under terminal drought-stressed conditions. Except for saturated water deficit (SWD), all remaining characteristics declined with increasing stress. Genotypes SAGL152210, SAGL152252, SAGL152347, SAGL22-115, and JG11 were recognized as drought-tolerant based on physiological characteristics. Biochemical markers viz., protein content, total soluble sugar, lipid peroxidation, and proline content, had an impact on osmotic adjustment. Based on non-enzymatic biochemical traits, genotypes SAGL22-115, ICC4958, ICCV201108, ICCV201107, SAGL152252, and JG11 were identified for their capability to survive under drought-stressed conditions. H2O2 content, CAT, SOD, POD, APX, and DPPH were considered antioxidant agents. Genotypes SAGL152208, SAGL22-105, SAGL22-112, ICC201108, SAGL152278, SAGL152252, SAGL162371, SAGL162390, ICC 4958, and JG315 may be considered drought-tolerant based on antioxidant activities. These genotypes are believed to be better equipped with physio-biochemical mechanisms and antioxidant defense systems at the cellular level and can be used in breeding programs to breed drought-tolerant cultivar(s). They can also be screened in the future, allowing the line(s) that have remained consistent over time to be recognized and registered as drought-tolerant donors. [ABSTRACT FROM AUTHOR]

Published

2024

4. Phenotypic and Genotypic Characterization of New Kabuli-Type Chickpea Lines in Australia for Resistance to Ascochyta Blight.

Author

Subedi, Megha, Bhattarai, Surya, and Adorada, Dante L.

Subjects

*LOCUS (Genetics), *ASCOCHYTA rabiei, *CULTIVARS, *GENOTYPES, *MICROSATELLITE repeats, *CHICKPEA

Abstract

Ascochyta blight (AB) is a major threat to Kabuli-type chickpea production worldwide. This study aimed to identify AB-resistant Kabuli-type chickpea lines through combined phenotypic and genotypic screening. Twenty-six Kabuli-type chickpea lines were phenotyped at the seedling stage using spray inoculation with conidial suspension. Genotyping employed marker-aided selection (MAS) with markers linked to quantitative trait loci (QTL) for AB resistance. The allele-specific marker, CaETR, closely linked to QTLAR1, and the sequence-tagged microsatellite (STMS) markers GAA47, TAA146, and TA194 linked to QTLAR1, QTLAR2, and QTLAR3 were used to assess their utility in distinguishing between resistant and susceptible chickpea lines. The study revealed that none of the lines tested were completely resistant (R) phenotypically. However, some lines, such as AVTCPK#6 and AVTCPK#14, were found to be moderately resistant (MR). Of the two MR lines identified phenotypically, only AVTCPK#6 was found to have bands linked to QTLs for adult plant resistance. The other MR line for AB showed the presence of bands in only one or two of the four markers used. These MR lines can be further utilized in chickpea breeding programs for the development of AB-resistant chickpea cultivars. It is recommended that these results be verified through repeat experiments, using more diverse isolates, and including additional chickpea lines as reference checks for resistance and susceptibility. The allele-specific marker, CaETR, closely linked to QTLAR1 and sequence-tagged microsatellite (STMS) markers GAA47, TAA146 and TA194 linked to QTLAR1, QTLAR2, and QTLAR3 were used to explore these markers' utility in discriminating between resistant and susceptible chickpea lines. The study showed that phenotypically, none of the lines tested are completely resistant (R). However, some lines, namely AVTCPK#6 and AVTCPK#14, were found to be moderately resistant (MR). Of the two MR lines identified phenotypically, only AVTCPK#6 was identified to have bands linked to QTLs for adult plant resistance. The other MR line for AB showed the presence of bands in only one or two markers among the four markers used. These MR lines can be exploited further in chickpea breeding programs for the development of AB-resistant chickpea cultivars. It is recommended that these results are verified by repeat experiments, using more as well as diverse isolates alongside additional chickpea lines for resistant and susceptible reference checks. [ABSTRACT FROM AUTHOR]

Published

2024

5. The Effect of Soil Heterogeneity on the Content of Macronutrients and Micronutrients in the Chickpea (Cicer arietinum L.).

Author

Kintl, Antonín, Šmeringai, Ján, Lošák, Tomáš, Huňady, Igor, Sobotková, Julie, Hrušovský, Tadeáš, Varga, Ladislav, Vejražka, Karel, and Elbl, Jakub

Subjects

*LEGUME farming, *PLANT translocation, *PLANT biomass, *CROP management, *NUTRIENT uptake, *CHICKPEA, *PLANT nutrients

Abstract

Chickpea (Cicer arietinum L.) is one of the most important legumes currently grown. It is an important source of proteins and nutrients, such as calcium, potassium and iron. As a result, precise crop management is necessary for maximizing its production. The presented study deals with the effect of soil heterogeneity caused by variable contents of macro- and micronutrients on the uptake of nutrients by chickpea. The values measured (contents of macro- and micronutrients in plant samples) indicate that soil heterogeneity is an important factor for the contents of nutrients and soil reactions, which strongly affect the growth of chickpea. We investigated the soil heterogeneity in a chickpea field. Two zones (A and B) with different stand development were found in the model plot. Zone A showed a healthy (green) growth, while Zone B exhibited a yellow-coloured growth, indicating deficits in nutrient uptake. The contents of selected nutrients (P, K, Ca, Mg, Fe, Cu, Zn and Mn) in the soil and in the plant biomass (i.e., stems, leaves, pods and seeds) were analyzed. In the zone with the yellow-coloured biomass, the results showed significantly (p < 0.05) reduced contents of N, P, K, Mg, Fe, Mn, Cu and Zn in the leaves; higher values of soil reaction (pH); and higher contents of calcium and calcium carbonate in the soil. The uptake of nutrients by the plants and their translocation were affected by the above-mentioned soil parameters and by their mutual interactions. Therefore, it is possible to state that soil heterogeneity (caused by variable contents of nutrients in soil) should be taken into account in the precise crop management of chickpeas. [ABSTRACT FROM AUTHOR]

Published

2024

6. IgE-Mediated Legume Allergy: A Pediatric Perspective.

Author

Mastrorilli, Carla, Chiera, Fernanda, Arasi, Stefania, Giannetti, Arianna, Caimmi, Davide, Dinardo, Giulio, Gracci, Serena, Pecoraro, Luca, Miraglia Del Giudice, Michele, and Bernardini, Roberto

Subjects

*FOOD allergy, *SCIENTIFIC literature, *COMMON bean, *CHICKPEA, *LEGUMES

Abstract

Legumes are an inexpensive and essential protein source worldwide. The most consumed legumes include peanuts, soybeans, lentils, lupines, peas, common bean and chickpeas. In addition, the food industry is growing interested in expanding the use of legumes to partially replace or substitute cereals. Legumes were described to cause IgE-mediated allergies, and their growing use may also increase the incidence of allergy. The epidemiology of legume allergy varies by region; peanuts and soybeans are the legumes most involved in food allergies in Western countries, whereas lentils, peas, and chickpeas are reported as culprit allergens mainly in the Mediterranean area and India. This review, edited by the Italian Society of Pediatric Allergology and Immunology, summarizes the scientific literature on legume allergy in children and proposes a diagnostic workup and therapeutic approach. [ABSTRACT FROM AUTHOR]

Published

2024

7. Cicer arietinum Extract Suppresses Lung Sepsis Induced by Cecal Ligation and Puncture in Rats.

Author

Al Ali, Amer, Abu-Alghayth, Mohammed H., Ghaleb, Khaled I., and Ibrahim, Sara

Subjects

*CHICKPEA, *STAPHYLOCOCCUS aureus, *BIOACTIVE compounds, *ANTIBACTERIAL agents, *CAUSES of death

Abstract

Sepsis is characterized by multiple organ dysfunction, which is now accepted to be due to oxidative damage. The lung is the first organ exposed to this damage, and its injury is one of the leading causes of death. Therefore, many pharmacological strategies are employed to attenuate sepsis. This study aimed to evaluate the in silico and in vitro antibacterial activity of Cicer arietinum extract (CAE) against Staphylococcus aureus, Escherichia coli, and Pseudomonas aeruginosa and the in vivo modulatory effect of CAE against sepsis induced by cecal ligation and puncture (CLP) in rats. This study identified seven bioactive components in Cicer arietinum extract, revealing promising interactions between these components and Staphylococcus aureus-PBP2a and Pseudomonas aeruginosa-PBP3 proteins, highlighting their potential as novel antibacterial agents. After ensuring the bactericidal ability of CAE against Staphylococcus aureus and Pseudomonas aeruginosa, an in vivo study was performed. Twenty-four rats were divided into sham-operated rats, CLP-septic rats, CLP rats treated with CAE (500 mg/kg b.wt), and CLP rats treated with hydrocortisone (25 mg/ kg b.wt). CAE was administered orally for 3 days post-operation, and animals were euthanized on the fourth day. Another twenty-four rats were used to study survival for 5 days. This study revealed that CAE, like hydrocortisone, can rescue CLP rats from death by suppressing lung procalcitonin (PCT) and MDA and enhancing SOD, CAT, and GSH levels significantly, as compared with the CLP group. The histopathological results were parallel with the biochemical results since the CLP rats treated with CAE had lower histological/inflammatory scores in the lung like hydrocortisone. The beneficial role of CAE may result from its antibacterial and antioxidant activities, and CAE can be considered as a lung antiseptic extract. This study provides a novel treatment for sepsis-induced ALI. However, the beneficial impact of CAE needs extensive study to obtain evidence. [ABSTRACT FROM AUTHOR]

Published

2024

8. Identification of Insertion and Deletion (InDel) Markers for Chickpea (Cicer arietinum L.) Based on Double-Digest Restriction Site-Associated DNA Sequencing.

Author

Sari, Duygu

Subjects

DNA sequencing, GENETIC variation, INTRONS, LEAD time (Supply chain management), AGAROSE

Abstract

Enhancing the marker repository and the development of breeder-friendly markers in chickpeas is important in relation to chickpea genomics-assisted breeding applications. Insertion–deletion (InDel) markers are widely distributed across genomes and easily observed with specifically designed primers, leading to less time, cost, and labor requirements. In light of this, the present study focused on the identification and development of InDel markers through the use of double-digest restriction site-associated DNA sequencing (ddRADSeq) data from 20 chickpea accessions. Bioinformatic analysis identified 20,700 InDel sites, including 15,031 (72.61%) deletions and 5669 (27.39%) insertions, among the chickpea accessions. The InDel markers ranged from 1 to 25 bp in length, while single-nucleotide-length InDel markers were found to represent the majority of the InDel sites and account for 79% of the total InDel markers. However, we focused on InDel markers wherein the length was greater than a single nucleotide to avoid any read or alignment errors. Among all of the InDel markers, 96.1% were less than 10 bp, 3.6% were between 10 and 20 bp, and 0.3% were more than 20 bp in length. We examined the InDel markers that were 10 bp and longer for the development of InDel markers based on a consideration of the genomic distribution and low-cost genotyping with agarose gels. A total of 29 InDel regions were selected, and primers were successfully designed to evaluate their efficiency. Annotation analysis of the InDel markers revealed them to be found with the highest frequency in the intergenic regions (82.76%), followed by the introns (6.90%), coding sequences (6.90%), and exons (3.45%). Genetic diversity analysis demonstrated that the polymorphic information content of the markers varied from 0.09 to 0.37, with an average of 0.20. Taken together, these results showed the efficiency of InDel marker development for chickpea genetic and genomic studies using the ddRADSeq method. The identified markers might prove valuable for chickpea breeders. [ABSTRACT FROM AUTHOR]

Published

2024

9. Modeling Chickpea Productivity with Artificial Image Objects and Convolutional Neural Network.

Author

Bankin, Mikhail, Tyrykin, Yaroslav, Duk, Maria, Samsonova, Maria, and Kozlov, Konstantin

Subjects

CONVOLUTIONAL neural networks, FEATURE extraction, GENOTYPES, PREDICTION models, PHENOTYPES

Abstract

The chickpea plays a significant role in global agriculture and occupies an increasing share in the human diet. The main aim of the research was to develop a model for the prediction of two chickpea productivity traits in the available dataset. Genomic data for accessions were encoded in Artificial Image Objects, and a model for the thousand-seed weight (TSW) and number of seeds per plant (SNpP) prediction was constructed using a Convolutional Neural Network, dictionary learning and sparse coding for feature extraction, and extreme gradient boosting for regression. The model was capable of predicting both traits with an acceptable accuracy of 84–85%. The most important factors for model solution were identified using the dense regression attention maps method. The SNPs important for the SNpP and TSW traits were found in 34 and 49 genes, respectively. Genomic prediction with a constructed model can help breeding programs harness genotypic and phenotypic diversity to more effectively produce varieties with a desired phenotype. [ABSTRACT FROM AUTHOR]

Published

2024

10. Assessment of the Addition of Cricket (Acheta domesticus) Powder to Chickpea (Cicer arietinum) and Flaxseed (Linum usitatissimum) Flours: A Chemometric Evaluation of Their Pasting Properties.

Author

Nastasi, Joseph Robert, Ma, Siyu, Alagappan, Shanmugam, Hoffman, Louwrens C., and Cozzolino, Daniel

Subjects

PARTIAL least squares regression, EDIBLE insects, CHICKPEA, FLAX, FLAXSEED, PRINCIPAL components analysis

Abstract

Edible insects have been evaluated as an alternative and sustainable source of protein because of their nutritive and functional properties for humans and domestic animals. The objective of this study was to assess the use of chemometric [principal component analysis (PCA) and partial least squares (PLS)] combined with Rapid Visco Analyser (RVA) profiles to evaluate the addition of cricket powder (CKP) to chickpea (CPF) and flaxseed (FxF) flours. The results of this study showed that the addition of CKP powder to both CPF and FxF flours affects the pasting properties of the samples; in particular, a reduction in the peak (PV) and final viscosity (FV) was observed. The use of chemometric data techniques such as PCA and PLS regression allowed for a better interpretation of the RVA profiles. Both PCA and PLS regression allowed to qualitative and quantitatively identify the addition level of CKP powder to CPF and FxF flour samples. Differences in the PLS loadings associated with the RVA profile due to the addition of cricket powder were observed. The development of these methodologies will provide researchers and the food industry with better tools to both improve and monitor the quality of ingredients with functional properties as well as to further understand the use of insects as alternative sources of protein. [ABSTRACT FROM AUTHOR]

Published

2024

11. Application of High Hydrostatic Pressures and Refrigerated Storage on the Content of Resistant Starch in Selected Legume Seeds.

Author

Bojarczuk, Adrianna, Le-Thanh-Blicharz, Joanna, Michałowska, Dorota, Kotyrba, Danuta, and Marszałek, Krystian

Subjects

LEGUME seeds, REFRIGERATED storage, HYDROSTATIC pressure, CHICKPEA, GUT microbiome, LENTILS

Abstract

Resistant starch (RS) is a fraction of starch not digested and absorbed in the small intestine, and it is fermented by the intestinal microbiota in the colon, thereby influencing many health benefits. Legumes such as beans, lentils, and chickpeas are rich in fermentable dietary fiber, and RS can be included in this fiber group. These legumes are not considered a "typical" source of starch and have not been extensively studied as a source of RS. There are still insufficient data on modern non-thermal methods like high-pressure processing (HPP) and combining this method with refrigerated storage. The study aimed to investigate and compare the effects of HPP and HPP combined with refrigerated storage on the RS content of legumes, particularly white beans, green lentils, and chickpeas. Different pressure levels and processing times were used to evaluate changes in RS content and to assess the total fiber content and fiber fraction of the tested legumes. Our study showed that the increase in pressure and pressurization time affected changes in the RS content of the examined legumes. Furthermore, the cooling process of previously pressurized samples resulted in a significant increase in RS content. [ABSTRACT FROM AUTHOR]

Published

2024

12. IIIVmrMLM Provides New Insights into the Genetic Basis of the Agronomic Trait Variation in Chickpea.

Author

Duk, Maria, Kanapin, Alexander, Orlova, Ekaterina, and Samsonova, Maria

Subjects

*GENOTYPE-environment interaction, *PLANT germplasm, *LOCUS (Genetics), *ALLELES, *GENOTYPES

Abstract

Chickpea is a staple crop for many nations worldwide. Modeling genotype-by-environment interactions and assessing the genotype's ability to contribute adaptive alleles are crucial for chickpea breeding. In this study, we evaluated 12 agronomically important traits of 159 accessions from the N.I. Vavilov All Russian Institute for Plant Genetic Resources collection. These included 145 landraces and 13 cultivars grown in different climatic conditions in Kuban (45°18′ N and 40°52′ E) in both 2016 and 2022, as well as in Astrakhan (46°06′ N and 48°04′ E) in 2022. Using the IIIVmrMLM model in multi-environmental mode, we identified 161 quantitative trait nucleotides (QTNs) with stable genetic effects across different environments. Furthermore, we have observed 254 QTN-by-environment interactions with distinct environment-specific effects. Notably, five of these interactions manifested large effects, with R2 values exceeding 10%, while the highest R2 value for stable QTNs was 4.7%. Within the protein-coding genes and their 1 Kb flanking regions, we have discerned 22 QTNs and 45 QTN-by-environment interactions, most likely tagging the candidate causal genes. The landraces obtained from the N.I Vavilov All Russian Institute for Plant Genetic Resources collection exhibit numerous favorable alleles at quantitative trait nucleotide loci, showing stable effects in the Kuban and Astrakhan regions. Additionally, they possessed a significantly higher number of Kuban-specific favorable alleles of the QTN-by-environment interaction loci compared to the Astrakhan-specific ones. The environment-specific alleles found at the QTN-by-environment interaction loci have the potential to enhance chickpea adaptation to specific climatic conditions. [ABSTRACT FROM AUTHOR]

Published

2024

13. Genome-Wide Identification and Expression Analysis of Heat Shock Protein 20 (HSP20) Gene Family in Response to High-Temperature Stress in Chickpeas (Cicer arietinum L.).

Author

Liu, Sushuang, Wu, Yizhou, Li, Yang, Zhang, Zaibao, He, Dandan, Yan, Jianguo, Zou, Huasong, and Liu, Yanmin

Subjects

*HEAT shock proteins, *GENE expression, *GERMPLASM, *GENE families, *HORMONE regulation, *CHICKPEA

Abstract

Chickpeas (Cicer arietinum L.) are an important legume crop known for their rich nutrient content, including proteins, carbohydrates, and minerals. Thus, they are enjoyed by people worldwide. In recent years, the production scale of chickpeas has been growing gradually. The planting area of chickpeas represents roughly 35–36% of the total planting area, and the output of the beans is roughly 47–48%. However, the growth and development process of chickpeas is limited by a number of factors, including high temperature, drought, salt stress, and so forth. In particular, high temperatures can reduce the germination rate, photosynthesis, seed setting rate, and filling rate of chickpeas, restricting seed germination, plant growth, and reproductive growth. These changes lead to a decrease in the yield and quality of the crop. Heat shock proteins (HSPs) are small proteins that play an important role in plant defense against abiotic stress. Therefore, in the present study, HSP20 gene family members were identified based on the whole-genome data of chickpeas, and their chromosomal positions, evolutionary relationships, promoter cis-acting elements, and tissue-specific expression patterns were predicted. Subsequently, qRT-PCR was used to detect and analyze the expression characteristics of HSP20 genes under different temperature stress conditions. Ultimately, we identified twenty-one HSP20 genes distributed on seven chromosomes, and their gene family members were found to be relatively conserved, belonging to ten subfamilies. We also found that CaHSP20 promoter regions have many cis-acting elements related to growth and development, hormones, and stress responses. In addition, under high-temperature stress, the relative expression of CaHSP20-17, CaHSP20-20, CaHSP20-7, CaHSP20-3, and CaHSP20-12 increased hundreds or even thousands of times as the temperature increased from 25 °C to 42 °C. Among them, excluding CaHSP20-5, the other five genes all contain 1-2 ABA cis-regulatory elements. This finding indicates that CaHSP20s are involved in the growth and development of chickpeas under heat stress, and the mechanisms of their responses to high-temperature stress may be related to hormone regulation. The results of the present study lay the foundation for exploring HSP20 gene family resources and the molecular mechanisms of heat resistance in chickpeas. Our results can also provide a theoretical basis for breeding high-temperature-resistant chickpea varieties and provide valuable information for the sustainable development of the global chickpea industry. [ABSTRACT FROM AUTHOR]

Published

2024

14. Chemical and Protein Characterization of Two Varieties of Chickpea (Cicer Arietinum): Costa 2004 and El Patrón.

Author

Pascual-Bustamante, Selene, Raya-Pérez, Juan Carlos, Aguirre-Mancilla, César Leobardo, Ramírez Pimentel, Juan Gabriel, Vargas-Martínez, María Gabriela, and Trejo-Márquez, María Andrea

Subjects

DIETARY fiber, OXIDANT status, NUTRITIONAL value, AMINO acids, FOOD industry, CHICKPEA

Abstract

The objective of this study was to evaluate the chemical composition of two chickpea varieties, 'Costa 2004' and 'El Patrón', and to characterize their proteins to determine their technological potential for the food industry. For this purpose, chickpea samples of both varieties from the 2019 harvest region of Guanajuato, Mexico, were obtained and chemically characterized to determine the protein fractions using electrophoretic and amino acid profiling. The chickpea variety 'Costa 2004' contained 3% less protein and 7% less dietary fiber content than the variety 'El Patrón'; whereas, the carbohydrate content of 'Costa 2004' was 4% greater. Additionally, the chickpeas demonstrated an antioxidant capacity ranging from 319 to 387 µMET/g and total phenol levels exceeding 500 mg/g. Among the protein fractions, globulins represented the highest proportion in both varieties of chickpea, at approximately 8.73 g/100 g ('Costa 2004') and 10.42 g/100 g ('El Patrón'), followed by albumin, at approximately 1.24 g/100 g and 1.47 g/100 g, respectively. The chickpea proteins ranged in molecular weight between 100 and 25 kDa, with particularly strong signals in the albumin and globulin bands. Regarding the amino acid profile, histidine was predominant in both varieties. In conclusion, both varieties of chickpea have high nutritional value and broad potential for technological use in the food industry. [ABSTRACT FROM AUTHOR]

Published

2024

15. Role of Quinoa (Chenopodium quinoa Willd) and Chickpea (Cicer arietinum L.) Ratio in Physicochemical Stability and Microbiological Quality of Fermented Plant-Based Beverages during Storage.

Author

Hurtado-Murillo, John, Franco, Wendy, and Contardo, Ingrid

Subjects

CHICKPEA, PROTEIN stability, LACTIC acid bacteria, AMYLOPECTIN, AMYLOSE, QUINOA, FERMENTED beverages

Abstract

Three different fermented plant-based beverages were prepared and stored for a long period (50 days) to assess the effect of the quinoa-to-chickpea ratio on physicochemical stability and microbiological quality. Physicochemical stability was evaluated based on pH, acidity, Brix degrees, water-holding capacity (WHC), viscosity, and viscoelasticity. At the end of the long-term storage period, the pH, acidity, and WHC remained stable. During the entire storage period, the beverages maintained good bacterial, fungal, and lactic acid bacteria (LAB) counts. Quinoa and chickpea flour ratios of 50% showed a higher viscosity (18 Pa.s) and WHC (65%) during short-term storage (0–30 d), indicating that the presence of chickpea flour had a positive effect on these parameters, possibly because chickpea starch contains higher amounts of amylose and long-branch chain amylopectin, which impacts the retrogradation pattern under acidic and refrigerated conditions. However, at the end of storage (50 days), the same blend had a higher acidity, lower viscosity (0.78 Pa.s), and lower LAB counts (~1 × 108 CFU/mL), indicating that the increase in chickpea flour had an adverse long-term effect on these parameters. These results suggest that although different ratios of plant sources can improve the physical aspects, they need to be incorporated in a balanced manner to avoid negative effects on both short- and long-term storage, owing to the incorporation of different types of starches and proteins affecting the stability of the system. [ABSTRACT FROM AUTHOR]

Published

2024

16. Effect of Chickpea (Cicer arietinum L.) Flour Incorporation on Quality, Antioxidant Properties, and Bioactive Compounds of Shortbread Cookies.

Author

Felisiak, Katarzyna, Przybylska, Sylwia, Tokarczyk, Grzegorz, Tabaszewska, Małgorzata, Słupski, Jacek, and Wydurska, Joanna

Subjects

FLOUR, FLOUR quality, NUTRITIONAL value, FLAVONOIDS, COOKIES (Computer science), COOKIES

Abstract

High nutritional value and antioxidant properties make chickpea flour a valuable substitute for wheat flour, although its texture-forming abilities are different. The aim of this study was to investigate the possibility of increasing the content of bioactive compounds and antioxidant properties of shortbread cookies by simple partial or complete replacement of wheat flour with chickpea flour without considerable changes in texture, color, sensory properties, or acceptability. Shortbread cookies were made from wheat flour (0% of chickpea flour), wheat flour and chickpea flour (replacement of 25%, 50%, and 75%), and chickpea flour (100%). Generally, the increase in chickpea flour share resulted in an increase in protein, fat, and ash content, as well as antioxidant properties. Polyphenol content, flavonoid content, and antioxidant activities increased three- to sixfold in shortbread cookies containing chickpea flour in comparison to wheat cookies. The level of proteins increased about 50% and the antioxidant properties were three to six times higher than in wheat cookies. Cookies containing up to 75% chickpea flour were assessed as very good or good quality, while only cookies without wheat flour were assessed as sufficient quality. It could be concluded that part of the wheat flour content in shortbread cookies can be replaced by chickpea flour. Application of a 25% proportion of chickpea flour increases physicochemical properties without changes in sensory properties. Sensory quality was up to 75% lower, but antioxidant properties were increased. However, complete replacement of wheat flour in shortbread cookies without changing the recipe resulted in a product of slightly lower sensory quality. [ABSTRACT FROM AUTHOR]

Published

2024

17. An Emerging Disease of Chickpea, Basal Stem Rot Caused by Diaporthe aspalathi in China.

Author

Wang, Danhua, Deng, Dong, Zhan, Junliang, Wu, Wenqi, Duan, Canxing, Sun, Suli, and Zhu, Zhendong

Subjects

MUNG bean, PLANT diseases, LATHYRUS, COWPEA, LEGUMES

Abstract

Chickpea (Cicer arietinum L.) is an important legume crop worldwide. An emerging disease, basal stem rot with obvious wilt symptoms, was observed in the upper part of chickpea plants during the disease survey in Qiubei County of Yunnan Province. Three fungal isolates (ZD36-1, ZD36-2, and ZD36-3) were obtained from the diseased tissue of chickpea plants collected from the field. Those isolates were morphologically found to be similar to Diaporthe aspalathi. Molecular sequence analyses of multiple gene regions (ITS, tef1, tub2, cal, and his3) indicated that the three isolates showed a high identity with D. aspalathi. Pathogenicity and host range tests of the isolates were performed on the original host chickpea and eight other legume crops. The isolates were strongly pathogenic to chickpea and appeared highly pathogenic to soybean, cowpea, and mung bean; moderated or mild pathogenic to adzuki bean and common bean; however, the isolates did not cause symptoms on grass pea (Lathyrus sativus). Diaporthe aspalathi was previously reported as a main pathogen causing the southern stem canker in soybean. To our knowledge, this is the first report of D. aspalathi inducing basal stem rot on chickpea worldwide. [ABSTRACT FROM AUTHOR]

Published

2024

18. Algae-Boosted Chickpea Hummus: Improving Nutrition and Texture with Seaweeds and Microalgae.

Author

Matheus, José, Alegria, Maria João, Nunes, Maria Cristiana, and Raymundo, Anabela

Subjects

SUSTAINABILITY, FUCUS vesiculosus, FOOD supply, MARINE algae, MICROALGAE, CHLORELLA vulgaris, CHICKPEA

Abstract

The global food industry faces a critical challenge in ensuring sustainable practices to meet the demands of a growing population while minimizing environmental impact. At the same time, consumer awareness and the demand for quality products drive innovation and inspire positive changes in the food supply chain. Aiming to create a more sustainable and nutrient-rich alternative, this study is summarized by characterizing the physical and chemical characteristics of algae-enriched chickpea hummus: an innovative approach to popular food products. The algae-enriched hummuses were developed with an incorporation (6% w/w) of Gelidium corneum and Fucus vesiculosus seaweeds and Chlorella vulgaris (hetero and autotrophic) microalgae to reveal their technological potential and evaluate the nutritional and rheological characteristics relative to a control hummus (without algae). From a nutritional perspective, the main results indicated that hummus enriched with microalgae showed an increase in protein content and an improved mineral profile. This was particularly notable for the seaweed F. vesiculosus and the autotrophic microalga C. vulgaris, leading to claims of being a "source of" and "rich in" various minerals. Additionally, the antioxidant activity of hummus containing F. vesiculosus and C. vulgaris increased significantly compared to the control. From a rheological perspective, incorporating algae into the humus strengthened its structure. The microalgae further enhanced the dish's elasticity and firmness, thus improving this chickpea-based dish´s overall texture and quality. [ABSTRACT FROM AUTHOR]

Published

2024

19. Haplotypes of ATP-Binding Cassette CaABCC6 in Chickpea from Kazakhstan Are Associated with Salinity Tolerance and Leaf Necrosis via Oxidative Stress.

Author

Khassanova, Gulmira, Jatayev, Satyvaldy, Gabdola, Ademi, Kuzbakova, Marzhan, Zailasheva, Aray, Kylyshbayeva, Gulnar, Schramm, Carly, Schleyer, Kathryn, Philp-Dutton, Lauren, Sweetman, Crystal, Anderson, Peter, Jenkins, Colin L. D., Soole, Kathleen L., and Shavrukov, Yuri

Subjects

*SEED proteins, *HAPLOTYPES, *GENE expression, *GLUTATHIONE reductase, *GLUTATHIONE

Abstract

Salinity tolerance was studied in chickpea accessions from a germplasm collection and in cultivars from Kazakhstan. After NaCl treatment, significant differences were found between genotypes, which could be arranged into three groups. Those that performed poorest were found in group 1, comprising five ICC accessions with the lowest chlorophyll content, the highest leaf necrosis (LN), Na+ accumulation, malondialdehyde (MDA) content, and a low glutathione ratio GSH/GSSG. Two cultivars, Privo-1 and Tassay, representing group 2, were moderate in these traits, while the best performance was for group 3, containing two other cultivars, Krasnokutsky-123 and Looch, which were found to have mostly green plants and an exact opposite pattern of traits. Marker–trait association (MTA) between 6K DArT markers and four traits (LN, Na+, MDA, and GSH/GSSG) revealed the presence of four possible candidate genes in the chickpea genome that may be associated with the three groups. One gene, ATP-binding cassette, CaABCC6, was selected, and three haplotypes, A, D1, and D2, were identified in plants from the three groups. Two of the most salt-tolerant cultivars from group 3 were found to have haplotype D2 with a novel identified SNP. RT-qPCR analysis confirmed that this gene was strongly expressed after NaCl treatment in the parental- and breeding-line plants of haplotype D2. Mass spectrometry of seed proteins showed a higher accumulation of glutathione reductase and S-transferase, but not peroxidase, in the D2 haplotype. In conclusion, the CaABCC6 gene was hypothesized to be associated with a better response to oxidative stress via glutathione metabolism, while other candidate genes are likely involved in the control of chlorophyll content and Na+ accumulation. [ABSTRACT FROM AUTHOR]

Published

2024

20. Initial Evaluation of the Entomopathogenic Fungi Beauveria bassiana and Metarhizium robertsii , and the Entomopathogenic Nematode Heterorhabditis bacteriophora , Individually and in Combination against the Noxious Helicoverpa armigera (Lepidoptera: Noctuidae)

Author

Alwaneen, Waleed S., Tahir, Muhammad, Avery, Pasco B., Wakil, Waqas, Kavallieratos, Nickolas G., Eleftheriadou, Nikoleta, Boukouvala, Maria C., Rasool, Khawaja G., Husain, Mureed, and Aldawood, Abdulrahman S.

Subjects

*HELICOVERPA armigera, *BEAUVERIA bassiana, *ENTOMOPATHOGENIC fungi, *BIOLOGICAL pest control agents, *HYPOCREALES, *INSECTICIDES

Abstract

The Old-World bollworm, Helicoverpa armigera (Lepidoptera: Noctuidae), is a significant threat to crops worldwide and has become resistant to traditional synthetic insecticides. The present study investigated the pathogenicity of the entomopathogenic fungi (EPF) Metarhizium robertsii (Hypocreales: Clavicipitaceae) strain WG-04 or Beauveria bassiana (Hypocreales: Cordycipitaceae) strain WG-10, and an entomopathogenic nematode (EPN) species Heterorhabditis bacteriophora against the second and fourth instar larvae of H. armigera. Both fungal species and H. bacteriophora were evaluated, singly or in combination. After 24 and 48 h post-application of the fungal spores (106 spores/mL), H. bacteriophora was introduced at a rate of 50 infective juveniles/mL, and mortality was observed at 3-, 5-, and 7-days post-treatment. Adult emergence, egg hatching, and percentage pupation were recorded. The integration of both types of biocontrol agents exhibited additive and synergistic interactions in larval stages, and enhanced mortality was recorded when EPF was used in combination with the nematodes. In the individual application of all three biocontrol agents alone, the order of efficacy was H. bacteriophora > B. bassiana > M. robertsii; however, in joint treatments, the increase in mortality and decrease in percentage egg hatching, pupation, and adult emergence was determined to be directly linked to the exposure period of the H. bacteriophora. The results of this study suggest that combining H. bacteriophora with EPF could provide a solid foundation for an economically viable method for managing H. armigera larvae in chickpea fields. [ABSTRACT FROM AUTHOR]

Published

2024

21. Current Status of Haploidization in Cool-Season Grain Legume Crop Species.

Author

Skrzypkowski, Wiktor and Kiełkowska, Agnieszka

Subjects

FAVA bean, REGENERATION (Botany), FOOD production, LUPINES, GAMETOPHYTES, CHICKPEA, LENTILS

Abstract

Doubled haploid technology is, so far, the fastest route to induce a true homozygous state in plants. True homozygous plants are particularly important for breeders, as they can facilitate hybrid breeding and are useful in fixing traits in a breeding line. Fabaceae species are of great importance in food and feed production; however, they are far behind other families with respect to the development of effective haploidization protocols. Here, we present the most recent status of research on haploidization protocols in cool-season grain legume crops, including dry peas, chickpeas, faba beans, lentils, lupines, and grass peas. The first four species are primarily for human consumption; the latter are utilized as forage. All the mentioned species have been subject to haploidization trials; however, repeatable protocols, including the regeneration of confirmed haploid or doubled haploid plants, have not been elaborated. Research in field pea, chickpea, grass pea, and lupine is promising, with the reported regeneration of microspore-derived embryos in all four species. Repeatable plant regeneration has been reported only in field peas and chickpeas. The most recent achievements on haploidization through male and female gametophytes in faba bean are also presented. The key factors for the effective stimulation of haploid cell development in cool-season legumes are reviewed, providing a useful basis for future efforts toward haploidization in this group. [ABSTRACT FROM AUTHOR]

Published

2024

22. Identification of Fusarium spp. Associated with Chickpea Root Rot in Montana.

Author

Moparthi, Swarnalatha, Perez-Hernandez, Oscar, Burrows, Mary Eileen, Bradshaw, Michael J., Bugingo, Collins, Brelsford, Monica, and McPhee, Kevin

Subjects

ELONGATION factors (Biochemistry), FUSARIUM oxysporum, CROP rotation, DISEASE prevalence, ANALYSIS of variance, ROOT rots, CHICKPEA

Abstract

Root rot caused by Fusarium spp. is a significant issue in the chickpea-growing regions of Montana. The specific Fusarium species responsible for the disease and their prevalence remain uncertain. A survey was conducted in 2020 and 2021 to identify Montana's Fusarium species associated with chickpea. Four hundred and twenty-six Fusarium isolates were recovered from symptomatic chickpea roots across ten counties in the state. Isolates were identified by comparing translation elongation factor 1-α (TEF1-α) sequences in the FUSARIUM-ID database. Among the recovered isolates, Fusarium oxysporum was the most prevalent species (33%), followed by F. acuminatum (21%), F. avenaceum (15%), F. redolens (14%), F. culmorum (6%), F. sporotrichioides (6%), Neocosmospora solani (6%), F. equiseti (2%), F. torulosum (0.9%), F. gamsii (0.8%), F. proliferatum (0.2%), F. pseudograminearum (0.2%), and F. brachygibbosum (0.1%). The aggressiveness of a subset of 51 isolates representing various Fusarium spp. was tested on chickpea cv. 'CDC Frontier'. A non-parametric variance analysis conducted on disease severity ranks indicated that F. avenaceum isolates were highly aggressive. This study reports for the first time that F. gamsii, F. proliferatum and F. brachygibbosum are causal agents of root rot in chickpea in the United States. This knowledge is invaluable for making informed decisions regarding crop rotation, disease management, and developing resistant chickpea varieties against economically significant Fusarium pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

23. The Possibility of Using Lactobacillus plantarum 299v to Reinforce the Bioactive Properties of Legume-Derived Beverages.

Author

Skrzypczak, Katarzyna, Teterycz, Dorota, Gustaw, Waldemar, Domagała, Dorota, Mielczarek, Przemysław, and Kasprzyk-Pochopień, Joanna

Subjects

LACTOBACILLUS plantarum, DIETARY fiber, FERMENTED beverages, FOOD consumption, FUNCTIONAL foods, LENTILS, BACTERIAL cells, CHICKPEA

Abstract

Featured Application: This study investigates the possibility of using the probiotic strain Lactobacillus plantarum 299v to ferment legume-derived beverages to enhance their bioactive properties. It has practical relevance in the development of innovative functional foods, nutraceuticals, supplements, or pharmaceuticals. Moreover, this study may be significant for exploring novel plant-based foods and searching for alternative protein sources. The investigations suggest effective approaches to increase the use of pulses, promoting their consumption and significance in the food industry. There is a global need to explore alternative protein sources and develop new health-promoting plant-based products. This study aimed to produce beverages from organic seeds of chickpeas and green or red lentils and assess the potential of using L. plantarum 299v to ferment these beverages. Spectrophotometric methods were used to evaluate the ability of the beverages to neutralize 1,1-diphenyl-2-picrylhydrazyl radicals (DPPH•) and chelate Fe2+. Total dietary fiber (including soluble and insoluble fractions) and the protein profiles were compared among the tested legume-derived beverages. The observations were focused on reductions in pH levels, total extract content, dietary fiber, ash, and moisture levels in all the fermented legume products. Fermentation contributed to increased antioxidative activity in all the tested products. The strongest ability to chelate Fe2+ (58.33 ± 2.35%) was noted in non-fermented green lentil products, while green lentil beverages fermented for 72 h exhibited the highest value of free radical scavenging activity (88.44 ± 4.24 DPPH• inhibition %). Chickpea products fermented for 72 h displayed the highest count of viable bacterial cells at 7.0 ± 0.7 × 108 CFU/g, while those fermented for 48 h exhibited the greatest number (2764) of potential biopeptide sequences. These findings highlight the feasibility of using this probiotic strain to enhance the functional properties of legume-based beverages. [ABSTRACT FROM AUTHOR]

Published

2024

24. Diffusion and Chemical Degradation of Vitamin B6 in Chickpeas (Cicer arietinum L.) during Hydrothermal Treatments: A Kinetic Approach.

Author

Shaban, Heba, Kadelka, Claus, Clark, Stephanie, and Delchier, Nicolas

Subjects

VITAMIN B6, CHEMICAL decomposition, CHICKPEA, NUTRITIONAL value, DIFFUSION kinetics, HEAT losses

Abstract

Chickpeas are more sustainable than other food systems and have high a nutritional value, especially regarding their vitamin composition. One of the main vitamins in chickpeas is vitamin B6, which is very important for several human metabolic functions. Since chickpeas are consumed after cooking, our goal was to better understand the role of leaching (diffusion) and thermal degradation of vitamin B6 in chickpeas during hydrothermal processing. Kinetics were conducted at four temperatures, ranging from 25 to 85 °C, carried out for 4 h in an excess of water for the diffusion kinetics, or in hermetic bags for the thermal degradation kinetics. Thermal degradation was modeled according to a first-order reaction, and diffusion was modeled according to a modified version of Fick's second law. Diffusivity constants varied from 4.76 × 10−14 m2/s at 25 °C to 2.07 × 10−10 m2/s at 85 °C; the temperature had an impact on both the diffusivity constant and the residual vitamin B6. The kinetic constant ranged from 9.35 × 10−6 at 25 °C to 54.9 × 10−6 s−1 at 85 °C, with a lower impact of the temperature. In conclusion, vitamin B6 is relatively stable to heat degradation; loss is mainly due to diffusion, especially during shorter treatment times. [ABSTRACT FROM AUTHOR]

Published

2024

25. Evaluating the Yield of Three Legume Crop Varieties under Hawaii's Micro-Climates.

Author

Ahmad, Amjad A., Radovich, Theodore J. K., Sugano, Jari, Wang, Koon-Hui, Nguyen, Hue V., Uyeda, Jensen, Wages, Sharon, Tavares, Kylie, Kirk, Emilie, and Kantar, Michael

Subjects

*LEGUME varieties, *LEGUME yields, *MICROCLIMATOLOGY, *GENOTYPES

Abstract

Hawaii is known for its diverse micro-climates, making the evaluation of varieties at different locations an important strategy to determine the best varieties for each climate zone. Demand for dry beans in Hawaii has been rising due to the increase in production of value-added goods made from legumes. Initial field trials in 2017 were conducted to determine the best sowing date for dry beans in Hawaii since there were no previous such determinations. Field trials were conducted between 2018 and 2021 to evaluate 24 varieties of chickpea (Cicer arietinum), 21 varieties of common bean (Phaseolus vulgaris), and 10 varieties of cowpea (Vigna unguiculata) for their suitability and yield variability under Hawaii's micro-climates. Preliminary sowing date trials were conducted in 2017, and a variety of trials were conducted between 2018 and 2021; seven field trials were conducted, including two in each of Oahu, Maui, and Hawaii County, and one in Kauai County. The trials were conducted in a randomized complete block design (RCBD) with three replicates. For all the study sites, 20-20-20 NPK fertilizer was applied at 30, 13, and 25 kg/ha N-P-K, respectively. A drip irrigation system was used in all locations as supplemental irrigation. Irrigation was used when needed and turned off 2 weeks prior to harvest. The results showed highly significant (p < 0.01) differences in yield between the varieties of each legume crop. Highly significant (p < 0.01) differences in yield were also found between the study locations. There was a significant (p < 0.05) decline in yield by 28% and 45% in chickpea and by 32% and 43% in common bean when planted 1 and 2 months, respectively, after the optimal mid-February planting on Oahu and Maui County. A decline of 21% and 50% in chickpea and 30 and 48% in common bean was recorded when planted 1 and 2 months, respectively, after the optimal mid-March planting in Hawaii County. The study results lead to developing site-specific recommendations for varieties and planting dates from each of the legume crops for each county. However, more studies are needed to develop site-specific recommendations for the micro-climates within each county. [ABSTRACT FROM AUTHOR]

Published

2024

26. Inheritance of Resistance to Chickpea Fusarium Wilt Disease (Fusarium oxysporum f. sp. ciceris Race 2) in a Wide-Cross Cicer arietinum × Cicer reticulatum Mapping Family.

Author

Lakmes, Abdulkarim, Jhar, Abdullah, Sadanandom, Ari, Brennan, Adrian Christopher, and Kahriman, Abdullah

Subjects

*FUSARIOSIS, *WILT diseases, *FUSARIUM oxysporum, *LOCUS (Genetics), *FUSARIUM diseases of plants, *HEREDITY, *CHICKPEA

Abstract

Chickpea (Cicer arietinum) is a major food legume providing high quality nutrition, especially in developing regions. Chickpea wilt (Fusarium oxysporum f. sp. ciceris) causes significant annual losses. Integrated disease management of Fusarium wilt is supported by resistant varieties. Relatively few resistance genes are known so there is value in exploring genetic resources in chickpea wild relatives. This study investigates the inheritance of Fusarium wilt resistance (race 2) in recombinant inbred lines (RILs) from a cross between a cultivated susceptible chickpea variety (Gokce) and a wild resistant Cicer reticulatum line (Kayat-077). RILs, parents, resistant and susceptible tester lines were twice grown in the greenhouse with inoculation and disease symptoms scored. DNA was extracted from dried leaves and individuals were single nucleotide polymorphism (SNP) genotyped. SNPs were placed on the reference chickpea genome and quantitative trait locus (QTL) mapping was performed. Significant QTL regions were examined using PulseDB to identify candidate genes. The results showed the segregation of Fusarium wilt resistance conforming to a single gene inheritance. One significant QTL was found at the start of chromosome 8, containing 138 genes, three of which were disease-resistance candidates for chickpea breeding. [ABSTRACT FROM AUTHOR]

Published

2024

27. Selection for Phytophthora Root Rot Resistance in Chickpea Crosses Affects Yield Potential of Chickpea × Cicer echinospermum Backcross Derivatives.

Author

Bithell, Sean L., Asif, Muhammd A., Backhouse, David, Drenth, Andre, Harden, Steve, and Hobson, Kristy

Subjects

CHICKPEA, ROOT rots, CICER, LOCUS (Genetics), PHYTOPHTHORA, GRAIN yields

Abstract

Phytophthora root rot (PRR) of chickpea (Cicer arietinum) caused by Phytophthora medicaginis is an important disease. Partial resistance to PRR is sourced from Cicer echinospermum. In this study, we evaluated if lines with low levels of PRR foliage symptoms in two contrasting recombinant inbred line (RIL) populations parented by chickpea cultivars (Yorker and Rupali) and 04067-81-2-1-1 (C. echinospermum, interspecific breeding line) had a significant drag on yield parameters. For the Yorker × 04067-81-2-1-1 population with the highest level of PRR resistance, in the absence of PRR, low foliage symptom RIL had significantly later flowering and podding, lower grain yields, and lighter seed and shorter plant phenotypes than high foliage symptom RIL. A quantitative trait locus analysis identified significant QTL for flowering, height, 100-seed weight, and yield, and there was a significantly higher frequency of alleles for the negative agronomic traits (i.e., drag) from the 04067-81-2-1-1 parent in low foliage symptom RIL than in high foliage symptom RIL. For the Rupali × 04067-81-2-1-1 population with lower levels of PRR resistance, in the absence of PRR, low foliage symptom RIL had significantly lighter seed and shorter plants than high foliage symptom RIL. Significant QTL were detected, the majority were for the timing of flowering and podding (n = 18), others were for plant height, yield, and 100-seed weight. For this second population, the frequency of alleles for the negative agronomic traits from the 04067-81-2-1-1 parent did not differ between low and high foliage symptom RIL. The 100 seed weight of RIL under moderate PRR disease pressure showed some promise as a yield component trait to identify phenotypes with both high levels of PRR resistance and grain yield potential for further seed number evaluations. We identified that large population sizes are required to enable selection among chickpea × C. echinospermum crosses for high levels of PRR resistance without a significant drag on yield. [ABSTRACT FROM AUTHOR]

Published

2024

28. Effect of Shearing and Annealing on the Pasting Properties of Different Starches.

Author

Mohamed, Abdellatif A., Alamri, Mohamed Saleh, Al-Quh, Hesham, Hussain, Shahzad, Ibraheem, Mohamed A., Rehman, Abdur, and Qasem, Akram A.

Subjects

SWEET potatoes, HARDNESS, VISCOSITY, CHICKPEA, FOOD industry

Abstract

The functional characteristics of starch can be altered by shear force, which makes the impact on its microstructure of great importance to the food industry. This study investigated the effects of freeze-drying on the gel texture, pasting capabilities, and swelling power of starches made from sweet potatoes (SP), chickpeas (CP), and wheat (WS) combined with Cordia (CG) and Ziziphus gum (ZG). The samples were annealed in water without shearing and in a rapid visco-analyzer (RVA) for 30 min at 60 °C while being spun at 690 rpm. Both native and freeze-dried samples were mixed with 1% or 3% ZG and CG. After annealing, the starches were examined using a texture analyzer and RVA. The results showed that freeze-drying had a substantial (p > 0.05) impact on the starch granule, in addition to the effect of annealing. The peak viscosity of freeze-dried native CP and SP starches increased, but the peak viscosity of freeze-dried wheat starch decreased. The setbacks for CP and WS increased, whereas the setbacks for SP varied slightly. Furthermore, it was demonstrated that annealing in an RVA exhibited a substantially lower peak viscosity than annealing in a water bath; the RVA's shearing effect may have been the cause of this difference. Cordia gum fared better than ZG in terms of peak viscosity, although ZG significantly reduced setback in comparison to CG. Among the various blends, the native WB sample had the lowest hardness (100 ± 4.9 g), while the freeze-dried WB SP sample had the greatest (175.5 ± 4.8 g). Shearing of starches broke up the granules into smaller pieces, which made them gel at lower temperatures. This could be a good thing when they are needed for food uses that require little cooking. [ABSTRACT FROM AUTHOR]

Published

2024

29. Unlocking the Nutraceutical Potential of Legumes and Their By-Products: Paving the Way for the Circular Economy in the Agri-Food Industry.

Author

Guo, Fanghua, Danielski, Renan, Santhiravel, Sarusha, and Shahidi, Fereidoon

Subjects

LEGUMES, CIRCULAR economy, ESSENTIAL fatty acids, TYPE 2 diabetes, CHICKPEA, LENTILS

Abstract

Legumes, including beans, peas, chickpeas, and lentils, are cultivated worldwide and serve as important components of a balanced and nutritious diet. Each legume variety contains unique levels of protein, starch, fiber, lipids, minerals, and vitamins, with potential applications in various industries. By-products such as hulls, rich in bioactive compounds, offer promise for value-added utilization and health-focused product development. Various extraction methods are employed to enhance protein extraction rates from legume by-products, finding applications in various foods such as meat analogs, breads, and desserts. Moreover, essential fatty acids, carotenoids, tocols, and polyphenols are abundant in several residual fractions from legumes. These bioactive classes are linked to reduced incidence of cardiovascular diseases, chronic inflammation, some cancers, obesity, and type 2 diabetes, among other relevant health conditions. The present contribution provides a comprehensive review of the nutritional and bioactive composition of major legumes and their by-products. Additionally, the bioaccessibility and bioavailability aspects of legume consumption, as well as in vitro and in vivo evidence of their health effects are addressed. [ABSTRACT FROM AUTHOR]

Published

2024

30. Exploring Resistant Sources of Chickpea against Fusarium oxysporum f. sp. ciceris in Dryland Areas.

Author

Maleki, Hamid Hatami, Pouralibaba, Hamid Reza, Ghiasi, Roghayeh, Mahmodi, Farshid, Sabaghnia, Naser, Samadi, Soheila, Zeinalzadeh-Tabrizi, Hossein, Rezaee Danesh, Younes, Farda, Beatrice, and Pellegrini, Marika

Subjects

FUSARIUM oxysporum, CHICKPEA, NONPARAMETRIC statistics, MYCOSES, GENOTYPES, AGRICULTURAL research

Abstract

Fusarium wilt is a fungal disease that has a significant impact on chickpeas worldwide. This study examined the response of 58 chickpea genotypes to Fusarium wilt. The experiment was conducted over two growing seasons at the Sararoud and Maragheh research stations at the Drylands Agricultural Research Institute of Iran. Genotype resistance was screened through wilt incidence records and nonparametric stability statistic evaluation. The identified resistant genotypes were then evaluated in the greenhouse for their response to four isolates of Fusarium oxysporum f. sp. ciceris (races 1/BC, 2, 4, and 6). Out of 58 genotypes, 32 exhibited moderate resistance, while 24 showed strong resistance abilities. Under warmer conditions, disease severity was higher, with scores at the Sararoud location being higher than those at the Maragheh location. Of the total genotypes across all locations and years, 41.4% were resistant, 55.17% were moderately resistant, 1.72% were susceptible, and 1.72% were highly susceptible. The nonparametric stability measures S(1), S(2), and S(3) identified FLIP 05-42C and FLIP 05-43C as stable and resistant genotypes. The study found that Azad/Hashem K3 was stable based on the non-parametric stability measure S(6). Other resistant genotypes were identified using stability parameters NP(1), NP(3), and NP(4), while FLIP 05-104C was identified by NP(2). The genotypes selected by nonparametric stability parameters showed resistance against at least two Fusarium oxysporum f. sp. ciceris races. The screening method and nonparametric stability statistics used in this study were effective in identifying sources of resistance to Fusarium oxysporum f. sp. ciceris. [ABSTRACT FROM AUTHOR]

Published

2024

31. Extraction, Modification, Biofunctionality, and Food Applications of Chickpea (Cicer arietinum) Protein: An Up-to-Date Review.

Author

Patil, Nikhil Dnyaneshwar, Bains, Aarti, Sridhar, Kandi, Bhaswant, Maharshi, Kaur, Sawinder, Tripathi, Manikant, Lanterbecq, Déborah, Chawla, Prince, and Sharma, Minaxi

Subjects

CHICKPEA, ESSENTIAL amino acids, EXTRACTION techniques, PROTEINS, REGULATORY compliance

Abstract

Plant-based proteins have gained popularity in the food industry as a good protein source. Among these, chickpea protein has gained significant attention in recent times due to its high yields, high nutritional content, and health benefits. With an abundance of essential amino acids, particularly lysine, and a highly digestible indispensable amino acid score of 76 (DIAAS), chickpea protein is considered a substitute for animal proteins. However, the application of chickpea protein in food products is limited due to its poor functional properties, such as solubility, water-holding capacity, and emulsifying and gelling properties. To overcome these limitations, various modification methods, including physical, biological, chemical, and a combination of these, have been applied to enhance the functional properties of chickpea protein and expand its applications in healthy food products. Therefore, this review aims to comprehensively examine recent advances in Cicer arietinum (chickpea) protein extraction techniques, characterizing its properties, exploring post-modification strategies, and assessing its diverse applications in the food industry. Moreover, we reviewed the nutritional benefits and sustainability implications, along with addressing regulatory considerations. This review intends to provide insights into maximizing the potential of Cicer arietinum protein in diverse applications while ensuring sustainability and compliance with regulations. [ABSTRACT FROM AUTHOR]

Published

2024

32. Heat-Induced Gelation of Chickpea and Faba Bean Flour Ingredients.

Author

Mengozzi, Anna, Chiavaro, Emma, Barbanti, Davide, and Bot, Francesca

Subjects

CHICKPEA, FAVA bean, ELASTIC modulus, PROTEIN-protein interactions, GLOBULINS

Abstract

This study aimed to investigate the gelling behavior of faba bean (FB) and chickpea (CP) flour between 10 and 20% (w/w) concentration at pH 3.0, 5.0, and 7.0. Both sources formed at pH 3.0 and 5.0 self-standing gels with 12% (w/w) of flour, while 16% (w/w) of flour was required to obtain a gel at pH 7.0. During gelling between 40 and 70 °C, a sharp increase of the elastic modulus G′ was observed in both flours, mainly due to water absorption and swelling of the starch, one of the major constituents in the ingredients. Increasing the temperature at 95 °C, G′ increased due to the denaturation of globulins and therefore the exposure of their internal part, which allowed more hydrophobic interactions and the formation of the gel. After cooling, both FB and CP gels displayed a solid-like behavior (tan δ ranging between 0.11 and 0.18) with G′ values at pH 3.0 and 5.0 significantly (p < 0.05) higher than those at pH 7.0, due to the lower electrostatic repulsions at pHs far from the isoelectric point. The rheological properties were supported by the water binding capacity values, confirming the better gels' strength described by rheological analysis. These results will enhance our understanding of the role of legume flours in formulating innovative and sustainable food products as alternatives to animal ones. [ABSTRACT FROM AUTHOR]

Published

2024

33. Optimization and Prediction of Operational Parameters for Enhanced Efficiency of a Chickpea Peeling Machine.

Author

Ali, Khaled Abdeen Mousa, Li, Sheng Tao, Li, Changyou, Darwish, Elwan Ali, Wang, Han, Abdelwahab, Taha Abdelfattah Mohammed, Fodah, Ahmed Elsayed Mahmoud, and Elsaadawi, Youssef Fayez

Subjects

CHICKPEA, MACHINING, MACHINERY, ENERGY consumption, SEEDS

Abstract

Chickpeas hold significant nutritional and cultural importance, being a rich source of protein, fiber, and essential vitamins and minerals. They are a staple ingredient in various cuisines worldwide. Peeling chickpeas is considered a crucial pre-consumption operation due to the undesirability of peels for some uses. This study aimed to design, test, and evaluate a small chickpea seed peeling machine. The peeling prototype was designed in accordance with the chickpeas' measured properties; the seeds' moisture content was determined to be 6.96% (d.b.). The prototype was examined under four different levels of drum revolving speeds (100, 200, 300, and 400 rpm), and three different numbers of brush peeling rows. The prototype was tested with rotors of four, eight, and twelve rows of brushes. The evaluation of the chickpea peeling machine encompassed several parameters, including the machine's throughput (kg/h), energy consumption (kW), broken seeds percentage (%), unpeeled seeds percentage (%), and peeling efficiency (%). The obtained results revealed that the peeling machine throughput (kg/h) exhibited an upward trend with increases in the rotation speed of the peeling drum. Meanwhile, the throughput decreased as the number of peeling brushes installed on the roller increased. The highest recorded productivity of 71.29 kg/h was achieved under the operational condition of 400 rpm and four peeling brush rows. At the same time, the peeling efficiency increased with the increase in both of peeling drum rotational speed and number of peeling brush rows. The highest peeling efficiency (97.2%) was recorded at the rotational speed of 400 rpm and twelve peeling brush rows. On the other hand, the lowest peeling efficiency (92.85%) was recorded at the lowest drum rotational speed (100 rpm) and number of peeling brush rows (4 rows). In the optimal operational condition, the machines achieved a throughput of 71.29 kg/h, resulting in a peeling cost of 0.001 USD per kilogram. This small-scale chickpea peeling machine is a suitable selection for small and medium producers. [ABSTRACT FROM AUTHOR]

Published

2024

34. Alcalase-Based Chickpea (Cicer arietinum L.) Protein Hydrolysates Efficiently Reduce Systolic Blood Pressure in Spontaneously Hypertensive Rats.

Author

Figueroa-Salcido, Oscar Gerardo, Arámburo-Gálvez, Jesús Gilberto, Mora-Melgem, José Antonio, Camacho-Cervantes, Diana Laura, Gracia-Valenzuela, Martina Hilda, Cuevas-Rodríguez, Edith Oliva, and Ontiveros, Noé

Subjects

PROTEIN hydrolysates, SYSTOLIC blood pressure, CHICKPEA, HYPERTENSION, RATS, FUNCTIONAL foods

Abstract

Studies on antihypertensive chickpea protein hydrolysates have rarely performed in vivo evaluations, limiting the entry of such hydrolysates into functional food development and clinical trials. Thus, our aim was to optimize the hydrolysis conditions to produce an alcalase-based chickpea hydrolysate with a hypotensive effect in vivo at convenient oral doses. The hydrolysis reaction time, temperature, and alcalase/substrate concentration were optimized using a response surface analysis (RSA). ACE-I inhibition was the response variable. The optimized hydrolysis conditions were time = 0.5 h, temperature = 40 °C, and E/S concentration = 0.254 (U/g). The IC50 of the optimized hydrolysate (OCPH) was 0.358 mg/mL. Five hydrolysates from the RSA worksheet (one of them obtained after 5 min of hydrolysis (CPH15)) had an ACE-I inhibitory potential similar to that of OCPH (p > 0.05). At 50 mg/kg doses, OCPH and CPH15 promoted a clinically relevant hypotensive effect in spontaneously hypertensive rats, up to −47.35 mmHg and −28.95 mmHg, respectively (p < 0.05 vs. negative control). Furthermore, the hypotensive effect was sustained for at least 7 h post-supplementation. Overall, OCPH and CPH15 are promising ingredients for functional food development and as test materials for clinical trials. [ABSTRACT FROM AUTHOR]

Published

2024

35. An Automated Approach to the Heterogeneity Test for Sampling Protocol Optimization.

Author

Prado, Gabriela Cardoso, Chieregati, Ana Carolina, and Dominy, Simon C.

Subjects

*HETEROGENEITY, *SAMPLING errors, *SAMPLING (Process), *MINERAL analysis, *CHICKPEA, *CONTENT analysis

Abstract

The fundamental sampling error is one of the sampling errors defined by Pierre Gy's Theory of Sampling and is related to the constitution heterogeneity of the mineralisation. Even if a sampling procedure is considered ideal or perfect, this error will still exist and, therefore, cannot be eliminated. A key input into Gy's fundamental sampling error equation is intrinsic heterogeneity. The intrinsic heterogeneity of a fragmented lot can be estimated by the "calibrated" formula of Gy, which can be written as a function of the sampling constants K and α. These constants can be calibrated by the standard heterogeneity test, originally developed by Pierre Gy and Francis Pitard. This method is based on the selection of rock fragments, individually and randomly, in an equiprobabilistic way from a lot of particulate material, aiming to estimate the intrinsic heterogeneity of the lot. This test, in addition to demanding time and space, can be influenced by human biases, and is difficult to quantify or measure. Aiming to simplify the test execution and eliminate the variance generated by human biases, a prototype called the intrinsic heterogeneity tester was developed as an automated alternative for heterogeneity testing. This prototype selects fragments from a falling stream, one by one, by means of a predefined laser count. To evaluate the prototype, a study was carried out, using painted chickpeas to simulate mineralisation grades and, sequentially, processing the same lot in the intrinsic heterogeneity tester prototype several times. The statistical and mineral content analysis, and comparisons between the intrinsic heterogeneity tester and the standard heterogeneity test sampling constants and constitution heterogeneities were undertaken. As a result, the authors conclude that the intrinsic heterogeneity tester prototype can be used as an alternative to the manual selection of individual fragments and for estimating the intrinsic heterogeneity of particulate material lots to support sampling protocol optimization. [ABSTRACT FROM AUTHOR]

Published

2024

36. Impact of Cereal–Legume Intercropping on Changes in Soil Nutrients Contents under Semi–Arid Conditions.

Author

Attallah, Amal, Hamdi, Wissem, Souid, Amira, Farissi, Mohamed, L'taief, Boulbaba, Messiga, Aimé J., Rebouh, Nazih Y., Jellali, Salah, and Zagrarni, Mohamed Faouzi

Abstract

Cereal–legume intercropping systems are not well studied under the semi–arid conditions of Southern Tunisia. Therefore, the present study aimed to investigate the effect of intercropping durum wheat (Triticum turgidum ssp. durum L.) with chickpea (Cicer arietinum L.) on crop grain yield and soil physicochemical proprieties such as carbon (C) and nitrogen (N) availability, microbial biomass nutrients (C and N) and plant nutrient content (N) in comparison to their monocultures. Field experiments were conducted during the 2020–2021 (EXP–A) and 2021–2022 (EXP–B) seasons in Medenine, Tunisia. The results revealed a significant augmentation (p < 0.05) in the total nitrogen proportions (Ntot) within the soil of intercropped durum wheat (DuWh–IR) compared to its monoculture (DuWh–MC). The observed variations amounted to 32% and 29% during the two growing seasons, identified as EXP–A and EXP–B. Additionally, the soil of intercropped durum wheat (DuWh–IR) significantly (p < 0.05) accumulated more total carbon (Ctot) than the monocrop (DuWh–MC) for both experiments, showing an increase of 27% in EXP–A and 24% in EXP–B. Simultaneously, the N− uptake of durum wheat significantly increased under the effect of intercropping, showing a rise of 26% in the EXP–A season and 21% in the EXP–B season. Similarly, the yield of durum wheat crops was comparatively greater in the intercropped plots as opposed to the monoculture crops, with variances of 23% in EXP–A and 20% in EXP–B. Intercropping cereals and legumes has the potential to enhance the soil fertility and crop production in the semi–arid regions of Southern Tunisia and contribute to environmental sustainability by reducing reliance on nitrogen fertilizers. [ABSTRACT FROM AUTHOR]

Published

2024

37. Εleven Greek Legume Beans: Assessment of Genotypic Effect on Their Phytochemical Content and Antioxidant Properties.

Author

Myrtsi, Eleni D., Vlachostergios, Dimitrios N., Petsoulas, Christos, Koulocheri, Sofia D., Evergetis, Epameinondas, and Haroutounian, Serkos A.

Subjects

FAVA bean, LENTILS, CHICKPEA, LEGUMES, BEANS, NUTRITIONAL value of feeds

Abstract

Legumes, one of the first crops of humanity, inherently constitute a staple nutritional source for mankind, attracting significant research attention that has been afforded to the development of numerous cultivars. The study herein concerns the exploitation of the nutritional and bio-functional content of beans harvested from eleven Greek cultivars belonging to five different species, namely Cicer arietinum L., Pisum sativum L., Vicia faba L., Lens culinaris L., and Phaseolus vulgaris L. The final goal is to define their varietal identity and correlate their phytochemical content with their potential utilization as functional foods and/or feed of high nutritional value. In this respect, their extracts were screened against the presence of 27 fatty acids and 19 phenolic compounds, revealing the presence of 22 and 15 molecules, respectively. Specifically, numerous fatty acids were detected in significant amounts in all but C. arietinum extract, while significant polyphenolic content was confirmed only in P. vulgaris. Among individual compounds, linoleic acid was the major fatty acid detected in amounts averaging more than 150 mg/g, followed by oleic acid, which was present as a major compound in all extracts. Among the nine polyphenols detected in P. vulgaris, the molecules of genistein (3.88 mg/g) and coumestrol (0.82 mg/g) were the most abundant. Their antioxidant properties were evaluated through DPPH and FRAP assays, which were highlighted as most potent in both tests of the V. faba extract, while C. arietinum was determined as totally inactive, indicating a potential correlation between the phenolic content of the plant species and antioxidant activity. These results are indicative of the significant advances achieved for the cultivars investigated and reveal their important role as nutritional crops for human and animal consumption. [ABSTRACT FROM AUTHOR]

Published

2024

38. Development and Characterization of a Natural Antioxidant Additive in Powder Based on Polyphenols Extracted from Agro-Industrial Wastes (Walnut Green Husk): Effect of Chickpea Protein Concentration as an Encapsulating Agent during Storage.

Author

Soto-Madrid, Daniela, Arrau, Florencia, Zúñiga, Rommy N., Gutiérrez-Cutiño, Marlén, and Matiacevich, Silvia

Subjects

*WALNUT, *POLYPHENOLS, *CHICKPEA, *AGRICULTURAL industries, *POWDERS, *PHENOLS, *PROTEINS

Abstract

Developing a powder-form natural antioxidant additive involves utilizing polyphenols extracted from agro-industrial wastes (walnut green husk). This research explores chickpea proteins (CPP) as an emergent encapsulating agent to enhance the stability and shelf life of the antioxidant additive. This study aims to develop a natural antioxidant powder additive based on polyphenols obtained from walnut green husks encapsulated by chickpea protein (5%, 7.5%, and 10% w/v) to evaluate their effect under storage at relative humidities (33 and 75% RH). The physicochemical and structural properties analysis indicated that better results were obtained by increasing the protein concentration. This demonstrates the protective effect of CPP on the phenolic compounds and that it is potentially non-toxic. The results suggest that the optimal conditions for storing the antioxidant powder, focusing on antioxidant activity and powder color, involve low relative humidities (33%) and high protein concentration (10%). This research will contribute to demonstrating chickpea protein as an emerging encapsulating agent and the importance of the cytotoxic analysis of extracts obtained from agroindustrial wastes. [ABSTRACT FROM AUTHOR]

Published

2024

39. Plant Biotic and Abiotic Stresses.

Author

Manghwar, Hakim and Zaman, Wajid

Subjects

*ABIOTIC stress, *SUSTAINABLE agriculture, *SCIENTIFIC method, *BOTANY, *AGRICULTURE, *HALOPHYTES, *CHICKPEA, *BIOPESTICIDES, *CIRCADIAN rhythms

Abstract

This document is a list of research articles published in the journal Life, covering a range of topics related to plant biology and stress tolerance. The articles discuss the effects of drought on okra, the role of melatonin in improving drought tolerance in tomatoes, the regulation of reactive oxygen species production in peanuts, and the evaluation of the ecological environment affected by genetic modifications in poplar trees. These articles provide valuable insights into plant biology and can be a useful resource for library patrons conducting research in these areas. [Extracted from the article]

Published

2024

40. Chickpea Sprouts as a Potential Dietary Support in Different Prostate Disorders—A Preliminary In Vitro Study.

Author

Galanty, Agnieszka, Prochownik, Ewelina, Grudzińska, Marta, and Paśko, Paweł

Subjects

*SPROUTS, *CHICKPEA, *BENIGN prostatic hyperplasia, *PROSTATE, *GERMINATION, *SEED technology, *LEGUMES

Abstract

Background: Prostate cancer (PC) and benign prostatic hyperplasia (BPH) are common health problems in the aging male population. Due to the unexplored and unconfirmed impact of food containing isoflavones, like sprouts, on the development of the management of BPH and prostate cancer, we decided to extend the knowledge in this area. Results: We have demonstrated for the first time that chickpea sprouts may play an important role in the chemoprevention of prostate disorders. However, attention should be paid to the isoflavone content in the sprouts, as in our study, chickpea sprouts with a moderate concentration of the compounds, harvested in natural light conditions (CA10L) and blue LED light (CA7B), showed the best scores in terms of their potential towards prostate disorders. Methods: Chickpea seeds were grown in LED chambers. The methanol extracts from sprouts were quantitatively defined using the HPLC system. Experiments such as the determination of PSA, 5-α-reductase, and dihydrotestosterone were performed on PNT2 and LNCaP cells. For anti-inflammatory assays (determination of NO, IL-6, and TNF-alpha release), murine RAW264.7 macrophages were used. Conclusions: The role of legume products as a diet element should be deeply evaluated for the development of future dietary recommendations for prostate cancer and BPH prevention. [ABSTRACT FROM AUTHOR]

Published

2024

41. Physical Conditions That Limit Chickpea Root Growth and Emergence in Heavy-Textured Soil.

Author

Vance, Wendy H., Bell, Richard W., and Johansen, Chris

Subjects

*SOIL texture, *CHICKPEA, *ROOT growth, *CROP residues, *SOIL physics, *GERMINATION

Abstract

The tillage method determines several soil physical parameters that affect the emergence of post-rice chickpea (Cicer arietinum L.) in the Indo-Gangetic Plain of South Asia. Mechanised row-sowing with minimum soil disturbance and crop residue retention in medium-to-heavy-textured soils will alter the seedbed when compared to that prepared after traditional full tillage and broadcast sowing. Whilst minimum soil disturbance and timely sowing may alleviate the soil water constraint to crop establishment, other soil physical properties such as soil strength, bulk density, and aggregate size may still inhibit seedling emergence and root elongation. This study's objective was to determine the limitations to chickpea crop establishment with increasing bulk density and soil strength, and different aggregate sizes below and above the seed. In two growth cabinet studies, chickpea seed was sown in clay soil with (i) a bulk density range of 1.3–1.9 Mg m−3 (Experiment 1) and (ii) the combination of bulk densities (1.3 and 1.8 Mg m−3) and aggregate sizes (<2 mm and >4 mm) above and below the seed (Experiment 2). Root length was significantly reduced with increasing bulk density (>1.4 Mg m−3), and soil strength impeded early root growth at >1 MPa. Where main root growth was impeded due to high bulk density and soil strength, a greater proportion of total root growth was associated with the elongation of lateral roots. The present study suggests that the soil above the seed needs to be loosely compacted (<1.3 Mg m−3) for seedling emergence to occur. Further research is needed to determine the size of the soil aggregates, which optimise germination and emergence. We conclude that soil strength values typical of field conditions in the Indo-Gangetic Plain at sowing will impede the root growth of chickpea seedlings. This effect can be minimised by changing tillage operations to produce seedbed conditions that are within the limiting thresholds of bulk density and soil strength. [ABSTRACT FROM AUTHOR]

Published

2024

42. Quality and Nutraceutical Features of Cicer arietinum L. Stored under Nitrogen Atmosphere.

Author

Moncini, Lorenzo, Guerriero, Gea, Simone, Gabriele, Vita, Chiara, and Berni, Roberto

Subjects

*CHICKPEA, *FUNCTIONAL foods, *LINOLEIC acid, *REACTIVE oxygen species, *LEGUME proteins

Abstract

Cicer arietinum L. (chickpea, or garbanzo bean) is one of the most consumed legumes worldwide. It is a rich source of carbohydrates, proteins, fibers, minerals and vitamins with very low cholesterol. From a nutritional point of view, despite the low content of fats, the seeds contain various unsaturated acids, such as linoleic and oleic acids, as well as bioactive compounds, like antioxidants, with reactive oxygen species-scavenging activities. It is known that long periods of storage can drastically affect the preservation of these compounds in seeds. For this reason, in the last few years, different methods have been tested with the aim of increasing the shelf life of economically relevant beans, seeds and cereals. A promising and eco-friendly alternative to traditional storage is the use of a controlled atmosphere, represented by N2-pressurized silos. The present study aims at evaluating the content of different compounds, e.g., fatty acids, proteins, vitamins, and molecules of nutraceutical interest, in chickpeas stored at ambient temperature in N2-pressurized silos (98.5 ± 0.5% (v/v)) and control ones (standard storage) in long-term kinetics (1 year). The results show the stable content of most compounds during the kinetics. However, vitamin E decreased in samples stored under both standard and controlled atmosphere conditions, with a more pronounced and significant decrease under standard conditions as compared to the controlled atmosphere. Additionally, samples stored under a controlled atmosphere show a total higher content of quinic, indole butyric and benzoic acid, as well as their derivates. [ABSTRACT FROM AUTHOR]

Published

2024

43. Olfactory Preferences of Sitophilus zeamais to Cereal- and Legume-Based Pasta.

Author

Trematerra, Pasquale, Germinara, Giacinto Salvatore, and Colacci, Marco

Subjects

*CORN weevil, *LENTILS, *PASTA, *CHICKPEA, *DURUM wheat, *CICER, *CORN

Abstract

Simple Summary: Several insects can infest alimentary pasta. Since the olfactory sense in insects plays an important role in locating food sources, the aim of this work was to investigate the responses of adult maize weevils, Sitophilus zeamais, to five commercially available categories of macaroni pasta made from cereals and/or legumes in an olfactometric arena. Maize weevil adults were more attracted to the pasta made of 100% of Triticum durum; the attractiveness strongly decreased when combining T. durum with Cicer arietimun or Lens esculenta. A preferential orientation of adult insects to pasta made of chickpeas or lentils was not observed. These results confirm the importance of volatile compounds in insect orientation towards suitable foods and oviposition substrates and provide useful practical information for the safer prevention of maize weevil pasta infestations. We compared the attractiveness of five commercially available Italian macaroni pastas of different shapes (penne, casarecce, and fusilli) made from cereals and/or legumes [100% Triticum durum; 100% Cicer arietinum; 100% Lens esculenta; 50% Triticum durum + 50% Cicer arietinum; 60% Triticum durum + 40% Lens esculenta] to adults of Sitophilus zeamais (L.). A multiple-choice walking bioassay showed that S. zeamais adults were more attracted to cereal than legume pastas. The modified Flit-Track M2 trap devices baited with pasta made with 100% T. durum captured an average of 61.4% of the adults released into the olfactometric arena after 7 days. Of the insects tested, pasta made with 100% C. arietinum trapped 3.8%, pasta made with 100% L. esculenta trapped 2.7%, pasta made with 50% T. durum + 50% C. arietinum trapped 4.3%, and pasta made with 60% T. durum + 40% L. esculenta trapped 4.2%. When individually compared, 79.6% of S. zeamais adults chose the Triticum durum pasta. Orientation to 100% Cicer pasta or 100% Lens pasta was not observed. In the choice test, only 37% and 25% were attracted to Triticum and Cicer pastas or Triticum and Lens pasta, respectively. Our results confirm that the low attractiveness of legume pasta is mainly due to the lack of attractant stimuli rather than the emission of repellent compounds. From a practical perspective, it is also interesting to note how mixed pasta decreases the risk of S. zeamais infestation. [ABSTRACT FROM AUTHOR]

Published

2024

44. A Comprehensive Study from Cradle-to-Grave on the Environmental Profile of Malted Legumes.

Author

Moresi, Mauro and Cimini, Alessio

Subjects

SUSTAINABILITY, AGRICULTURE, LEGUMES, WATER use, LAND use, CHICKPEA, BEANS, LENTILS

Abstract

Three representative pulses from the Latium region of Italy (namely, Solco Dritto chickpeas, SDC, Gradoli Purgatory beans, GPB, and Onano lentils, OL) underwent malting to reduce their anti-nutrient content, such as phytic acid and flatulence-inducing oligosaccharides. This initiative targets the current low per capita consumption of pulses. Employing Life Cycle Analysis, their environmental impact was assessed, revealing an overall carbon footprint of 2.8 or 3.0 kg CO2e per kg of malted (M) and decorticated (D) SDCs or GPBs and OLs, respectively. The Overall Weighted Sustainability scores (OWSS) complying with the Product Environmental Footprint method ranged from 298 ± 30 to 410 ± 40 or 731 ± 113 µPt/kg for malted and decorticated SDCs, OLs, or GPBs, indicating an increase from 13% to 17% compared to untreated dry seeds. Land use impact (LU) was a dominant factor, contributing 31% or 42% to the OWSS for MDSDCs or MDOLs, respectively. In MDGPBs, LU constituted 18% of the OWSS, but it was overshadowed by the impact of water use arising from bean irrigation, accounting for approximately 52% of the OWSS. This underscores the agricultural phase's pivotal role in evaluating environmental impact. The climate change impact category (CC) was the second-largest contributor, ranging from 28% (MDSDCs) to 22% (MDOLs), and ranking as the third contributor with 12% of the OWSS for MDGPBs. Mitigation should prioritize the primary impact from the agricultural phase, emphasizing land and water utilization. Selecting drought-tolerant bean varieties could significantly reduce OWSSs. To mitigate climate change impact, actions include optimizing electricity consumption during malting, transitioning to photovoltaic electricity, upgrading transport vehicles, and optimizing pulse cooking with energy-efficient appliances. These efforts, aligning with sustainability goals, may encourage the use of malted and decorticated pulses in gluten-free, low fat, α-oligosaccharide, and phytate-specific food products for celiac, diabetic, and hyperlipidemic patients. Overall, this comprehensive approach addresses environmental concerns, supports sustainable practices, and fosters innovation in pulse utilization for improved dietary choices. [ABSTRACT FROM AUTHOR]

Published

2024

45. Research on Factors Affecting Global Grain Legume Yield Based on Explainable Artificial Intelligence.

Author

Li, Yadong, Li, Rujia, Ji, Rongbiao, Wu, Yehui, Chen, Jiaojiao, Wu, Mengyao, and Yang, Jianping

Subjects

SUSTAINABLE agriculture, GRAIN yields, PIGEON pea, COWPEA, FAVA bean, CHICKPEA, LEGUMES, LENTILS

Abstract

Grain legumes play a significant global role and are integral to agriculture and food production worldwide. Therefore, comprehending and analyzing the factors that influence grain legume yield are of paramount importance for guiding agricultural management and decision making. Traditional statistical analysis methods present limitations in interpreting results, but explainable artificial intelligence (AI) provides a visual representation of model results, offering insights into the key factors affecting grain legume yield. In this study, nine typical grain legume species were selected from a published global experimental dataset: garden pea (Pisum sativum), chickpea (Cicer arietinum), cowpea (Vigna unguiculata), garden vetch (Vicia sativa), faba bean (Vicia faba), lentil (Lens culinaris), pigeon pea (Cajanus cajan), peanut (Arachis hypogaea), and white lupine (Lupinus albus). Seven commonly used models were constructed for each legume species, and model performance evaluation was conducted using accuracy, AUC, recall, precision, and F1 score metrics. The best classification model was selected for each grain legume species. Employing Decision Tree analysis, Feature Importance Evaluation, and SHapley Additive exPlanations (SHAP) as explainable techniques, our study conducted both individual and comprehensive analyses of nine leguminous crops. This approach offers a novel perspective, unveiling not only the unique responses of each crop to the influencing factors but also demonstrating the common factors across different crops. According to the experimental results, XGboost (XGB) and Random Forests (RF) are the best-performing models among the nine types of grain legumes, and the classification accuracy of a specific species is as high as 87.33%. Insights drawn from the feature importance map reveal that several factors, including aerial biomass, precipitation, sunshine duration, soil conditions, growth cycle, and fertilization strategy, have a pivotal influence. However, it was found from the SHAP graph that the responses of various crops to these factors are not the same. This research furnishes novel perspectives and insights into understanding the factors influencing grain legume yields. The findings provide a robust scientific foundation for agricultural managers, experts, and policymakers in the pursuit of optimizing pulse yields and advancing agricultural sustainability. [ABSTRACT FROM AUTHOR]

Published

2024

46. Feeding Value of Lupins, Field Peas, Faba Beans and Chickpeas for Poultry: An Overview.

Author

David, Laura S., Nalle, Catootjie L., Abdollahi, M. Reza, and Ravindran, Velmurugu

Subjects

*FAVA bean, *CHICKPEA, *POULTRY feeding, *BEANS, *LUPINES, *LUPINUS albus, *SOYBEAN meal

Abstract

Simple Summary: The fluctuating supply and price of soybean meal have steered nutritionists to explore alternative protein sources in poultry diets. An attractive option is grain legumes because of their reasonable protein, amino acid and energy contents. The presence of antinutritional factors in grain legumes is a major concern associated with their use in poultry feeding. However, as documented, there are effective processing methods that can mitigate the negative effects of these antinutritional factors. The current overview deals with the feeding value of four selected grain legumes, namely lupins, field peas, faba beans and chickpeas, in poultry feeding. Grain legumes are fair sources of protein, amino acids and energy, and can be used as a replacement for soybean meal in poultry feed formulations as the soybean meal becomes short in supply and costly. However, a concern associated with the use of grain legumes in poultry feeding is the presence of antinutritional factors. The effective processing and utilisation of these grain legumes in poultry feeding are well documented. The current review focuses on four selected grain legumes (lupins [Lupinus albus and Lupinus angustifolius], field peas [Phaseolus vulgaris], faba beans [Vicia faba] and chickpeas [Cicer arietinum]) and their nutrient content, the presence of antinutritional factors, processing methods and feeding value, including updated data based on recent research findings. [ABSTRACT FROM AUTHOR]

Published

2024

47. Bacterial Endophytes from Legumes Native to Arid Environments Are Promising Tools to Improve Mesorhizobium –Chickpea Symbiosis under Salinity.

Author

Ben Gaied, Roukaya, Sbissi, Imed, Tarhouni, Mohamed, and Brígido, Clarisse

Subjects

*LEGUMES, *CHICKPEA, *SOIL salinity, *SALINITY, *PLANT exudates, *SYMBIOSIS, *ENDOPHYTES

Abstract

Simple Summary: Soil salinity is increasing worldwide and is a major environmental issue that affects soil fertility and agricultural productivity. In this study, we show that the early events of the Mesorhizobium-chickpea symbiosis are negatively affected by salinity due to substantial changes in the composition of phenolic compounds of chickpea root exudates, which in turn affect the perception and response of its microsymbiont. In addition, the use of non-rhizobial nodule endophytes from legumes native to arid regions proved to be a promising strategy to improve legume growth and to enhance Mesorhizobium-chickpea symbiosis under salinity. In conclusion, this study helps to extend our knowledge on the detrimental effects of salinity on legume-rhizobium symbiosis and highlights the potential use of beneficial nodule bacteria as biological tools to maintain a healthier rhizobium–legume symbiosis, thus enhancing the growth of salt-sensitive legumes under salinity conditions. Symbiotic nitrogen fixation is a major contributor of N in agricultural ecosystems, but the establishment of legume–rhizobium symbiosis is highly affected by soil salinity. Our interest is focused on the use of non-rhizobial endophytes to assist the symbiosis between chickpea and its microsymbiont under salinity to avoid loss of production and fertility. Our aims were (1) to investigate the impact of salinity on both symbiotic partners; including on early events of the Mesorhizobium-chickpea symbiosis, and (2) to evaluate the potential of four non-rhizobial endophytes isolated from legumes native to arid regions (Phyllobacterium salinisoli, P. ifriqiyense, Xanthomonas translucens, and Cupriavidus respiraculi) to promote chickpea growth and nodulation under salinity. Our results show a significant reduction in chickpea seed germination rate and in the microsymbiont Mesorhizobium ciceri LMS-1 growth under different levels of salinity. The composition of phenolic compounds in chickpea root exudates significantly changed when the plants were subjected to salinity, which in turn affected the nod genes expression in LMS-1. Furthermore, the LMS-1 response to root exudate stimuli was suppressed by the presence of salinity (250 mM NaCl). On the contrary, a significant upregulation of exoY and otsA genes, which are involved in exopolysaccharide and trehalose biosynthesis, respectively, was registered in salt-stressed LMS-1 cells. In addition, chickpea co-inoculation with LMS-1 along with the consortium containing two non-rhizobial bacterial endophytes, P. salinisoli and X. translucens, resulted in significant improvement of the chickpea growth and the symbiotic performance of LMS-1 under salinity. These results indicate that this non-rhizobial endophytic consortium may be an appropriate ecological and safe tool to improve chickpea growth and its adaptation to salt-degraded soils. [ABSTRACT FROM AUTHOR]

Published

2024

48. Evaluating the Use of Vibrational Spectroscopy to Detect the Level of Adulteration of Cricket Powder in Plant Flours: The Effect of the Matrix.

Author

Alagappan, Shanmugam, Ma, Siyu, Nastasi, Joseph Robert, Hoffman, Louwrens C., and Cozzolino, Daniel

Subjects

*MATRIX effect, *FLOUR, *ATTENUATED total reflectance, *EDIBLE insects, *CHICKPEA, *ADULTERATIONS, *FOOD chemistry

Abstract

Edible insects have been recognised as an alternative food or feed ingredient due to their protein value for both humans and domestic animals. The objective of this study was to evaluate the ability of both near- (NIR) and mid-infrared (MIR) spectroscopy to identify and quantify the level of adulteration of cricket powder added into two plant proteins: chickpea and flaxseed meal flour. Cricket flour (CKF) was added to either commercial chickpea (CPF) or flaxseed meal flour (FxMF) at different ratios of 95:5% w/w, 90:10% w/w, 85:15% w/w, 80:20% w/w, 75:25% w/w, 70:30% w/w, 65:35% w/w, 60:40% w/w, or 50:50% w/w. The mixture samples were analysed using an attenuated total reflectance (ATR) MIR instrument and a Fourier transform (FT) NIR instrument. The partial least squares (PLS) cross-validation statistics based on the MIR spectra showed that the coefficient of determination (R2CV) and the standard error in cross-validation (SECV) were 0.94 and 6.68%, 0.91 and 8.04%, and 0.92 and 4.33% for the ALL, CPF vs. CKF, and FxMF vs. CKF mixtures, respectively. The results based on NIR showed that the cross-validation statistics R2CV and SECV were 0.95 and 3.16%, 0.98 and 1.74%, and 0.94 and 3.27% using all the samples analyzed together (ALL), the CPF vs. CKF mixture, and the FxMF vs. CKF mixture, respectively. The results of this study showed the effect of the matrix (type of flour) on the PLS-DA data in both the classification results and the PLS loadings used by the models. The different combination of flours (mixtures) showed differences in the absorbance values at specific wavenumbers in the NIR range that can be used to classify the presence of CKF. Research in this field is valuable in advancing the application of vibrational spectroscopy as routine tools in food analysis and quality control. [ABSTRACT FROM AUTHOR]

Published

2024

49. Integrated Bioinformatics and Multi-Omics Analyses Reveal Possible Molecular Mechanisms for Seed Starch Content Differences between Glycine max and Cicer arietinum.

Author

Pan, Yifan, Zheng, Ao, Li, Guiqi, and Zhang, Yuanming

Subjects

*BIOINFORMATICS, *SOYBEAN, *CHICKPEA, *STARCH, *REGULATOR genes, *STARCH metabolism

Abstract

Although soybean and chickpea belong to the legume family, their seed starch content is very different. Currently, many studies focus on the molecular mechanisms of starch synthesis within a single species. However, the key genes and regulatory relationships responsible for the difference in seed starch content between the two species remain unknown. To elucidate the molecular mechanisms responsible for the above difference, multi-omics and bioinformatics analyses were used here to analyze gene expression patterns, protein–protein interaction networks, gene-transcription factor co-expression networks, and miRNA–gene regulatory relationships based on reported sucrose and starch metabolic genes in Arabidopsis. The results were as follows. First, seven differential expression genes of the two species in starch synthesis metabolism, including GBSS1, APL3, APS1, SS2, PTST, SBE2, and ISA, and the starch degradation gene BMY in soybean and chickpea, may contribute to their seed starch content differences. Then, the protein–protein interaction between DPEs and PHS may facilitate seed starch synthesis in chickpea. Finally, the positive regulation of two starch degradation genes (GmBMY and GmPHS) and four sucrose metabolism genes (GmHXK, GmPFK, GmTPS, and GmFRK) by transcription factors may lead to lower seed starch content in soybean. This study elucidates the possible molecular mechanisms underlying the difference in seed starch content between the two species and addresses the scientific problem of why soybean seeds have lower starch content than chickpea seeds. [ABSTRACT FROM AUTHOR]

Published

2024

50. Efficient Single Nucleotide Polymorphism Marker-Assisted Selection to Fusarium Wilt in Chickpea.

Author

Castro, Patricia, Caballo, Cristina, Carmona, Alejandro, Millan, Teresa, Gil, Juan, Die, José V., Izquierdo, Inmaculada, and Rubio, Josefa

Subjects

SINGLE nucleotide polymorphisms, FUSARIUM, HAPLOTYPES, MATERIALS handling, CHICKPEA, WILT diseases, FUSARIUM diseases of plants

Abstract

Fusarium wilt is one of the most destructive chickpea diseases worldwide. Race 5 (Foc5) is the most harmful in the Mediterranean basin. The primary objective of this study is to validate a block of six SNP markers previously mapped in Ca2 in a diverse panel of cultivars, advanced and inbred lines phenotyped for resistance to fusarium wilt. Additionally, we aim to assess the effectiveness of using these markers in the selection of resistant Foc5 lines in an ongoing breeding program. The results showed a 100% coincidence between phenotype and expected haplotype in plant material evaluated for Foc5. We also analyzed 67 inbred lines previously phenotyped by different authors for fusarium wilt reaction, though the specific race was not specified. In these accessions, 65.8% of the analyzed lines exhibited complete correspondence between the phenotype and haplotype. Our results suggest that in early generations it is possible to select resistant materials with reliability, leading to the removal of a significant number of lines, thereby reducing costs and facilitating the handling of materials for additional trait evaluations. Functional annotation of genes delimited by the SNP block revealed several genes in the "response to stimulus" category with potential roles in the resistance reaction. [ABSTRACT FROM AUTHOR]

Published

2024