PIXE and GC–MS investigation for the determination of the chemical composition of Syrian Cuminum cyminum L

Rihawy, M.S.; Bakraji, E. H.; Odeh, Adnan

doi:10.1016/j.apradiso.2014.01.003

Cited by 18 publications

(14 citation statements)

References 36 publications

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“…3-caren-10-al (47.27%) and cuminal (25.92%) were the main compounds followed by 2-caren-10-al (8.05%), c-terpinene (7.66%), (-)-b-pinene (5.11%), p -cymene (2.71%). Figure 1A gives Iran, National Botanical Garden (Gachkar et al, 2007) Saudi Arabia (Naeini et al, 2014) Iran, Alborz (Mohammadpour et al, 2012) India, varanasi (Kedia et al, 2014) Syrian, Idleb (Rihawy et al, 2014) Tunisia, Swassi (Hajlaoui et al, 2010) Syrian, Aleppo (Rihawy et al, 2014) China, Urumqi (Li et al, 2009) China, Changohum (Wang et al, 2006) Tunisia, Menzel Temim (Bettaieb Rebey et al, 2012) Iran, khorasan-e-Razavi (Moghaddam et al, 2015) Iran, Ilkhechei (present study) cyminum EOs based on the chemical composition of our EO and those from the literature as location, altitude, temperature and light, agronomic characteristics and cultural management practices, extraction method and etc. affect yield and chemical composition of essential oils (Radušien_ e et al, 2012).…”

Section: Resultsmentioning

confidence: 99%

“…1B). Dendrogram obtained based on the comparisons between the studied essential oil sample and those in the literature (Gachkar et al, 2007;Hajlaoui et al, 2010;Kedia et al, 2014;Li et al, 2009;Moghaddam et al, 2015;Mohammadpour et al, 2012;Naeini et al, 2014;Rebey et al, 2012;Rihawy et al, 2014;Wang et al, 2006) showed that the highest phytochemical distance obtained in * 120 units. Cumin essential oils studied by different researchers and from different locations were categorized into four groups in distance of 64 units.…”

Section: Hierarchical Cluster Analysis (Hca)mentioning

confidence: 90%

“…So, this is really a new chemovar and is differentiated by 3-caren-10-al/cuminal/2-caren-10-al (Cluster I) components. The second group (Cluster II), exemplified by seven samples, had cuminal/c-terpinene/geranial as the major compounds (Gachkar et al, 2007;Hajlaoui et al, 2010;Li et al, 2009;Moghaddam et al, 2015;Rebey et al, 2012;Rihawy et al, 2014;Wang et al, 2006). Only one sample was in cluster III with cymene/c-terpinene as its main compound (Kedia et al, 2014).…”

Section: Hierarchical Cluster Analysis (Hca)mentioning

confidence: 99%

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Antioxidant and antifungal activities of a new chemovar of cumin (Cuminum cyminum L.)

Ghasemi

Fattahi

Alirezalu

et al. 2018

Food Sci Biotechnol

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Chemical composition, antifungal and antioxidant properties of essential oil extracted from Cuminum cyminum from Iran was studied. GC-MS analysis revealed the presence of 18 components, with 3-caren-10-al and cuminal as the principal constituents. Hierarchical cluster analysis and antioxidant capacities showed that this essential oil made a single group at 64 unit distinct from other reported essential oils extracted from cumin in the literature and was with high antioxidant activity [150 lL exhibiting strong reducing power; 2200 (FRAP) lmol/L Fe ?2 during 15 min and * 89 DPPH % at 60 min]. The antifungal effects of the essential oil against three postharvest fungal pathogens, Botrytis cinerea, Aspergillus niger and Penicillim expansum revealed that at concentrations of C 750 lL/L, the mycelial growth of the tested fungi were completely inhibited. Overall, the essential oil derived from this new cumin chemovar could be a promising candidate for its utilization as a natural preservative.

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Section: Resultsmentioning

confidence: 99%

Section: Hierarchical Cluster Analysis (Hca)mentioning

confidence: 90%

Section: Hierarchical Cluster Analysis (Hca)mentioning

confidence: 99%

See 1 more Smart Citation

Antioxidant and antifungal activities of a new chemovar of cumin (Cuminum cyminum L.)

Ghasemi

Fattahi

Alirezalu

et al. 2018

Food Sci Biotechnol

View full text Add to dashboard Cite

show abstract

“…Cuminaldehyde (Figure 1), an oxidized aldehyde monoterpene, is a major essential oil component [1][2][3] in green cumin seeds (Cuminum cyminum Linn, Family Apiaceae) which is a widely used spice cultivated natively in Egypt and later spread to various geographical locations mainly Asia, North Africa and Southern Europe, Mexico and Chile with India and Iran as the major producing countries [4][5][6]. Cuminaldehyde has also been determined in high amount in other commonly used spices such as true Cinnamon tree [7] and Black zira [8].…”

Section: Introductionmentioning

confidence: 99%

Cuminaldehyde: A Potential Drug Candidate

Ebada¹

2017

JPCR

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Cuminaldehyde is one of major constituents identified in the essential oil of a number of commonly used spices such as green cumin (Cuminum Cyminum L.) which has been traditionally used for the treatment of dyspepsia, diarrhea, abdominal colic and Jaundice. Cumin essential oil has multiple pharmacological actions including antioxidant, antidiabetic, anti-inflammatory, antibacterial and anticancer effects. Therefore, a great deal of attention has been given to investigate the role of cuminaldehyde in mediating cumin's multiple therapeutic benefits. This short review highlights the most significant recently reported findings which unravel the extent to which cuminaldehyde contributes to the therapeutic effects of its producing herbs. Apart from its non-medical effects as natural bio-fumigant, cuminaldehyde is a promising potential drug candidate against various diseases.

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“…The majority of essential oil chemical analysis dealt with gas chromatography–mass spectrometry (GC‐MS) analysis for organic components. As an example, GC‐MS was used to determine the organic chemical composition of cumin essential oil cultivated from Syria, whereas the elemental analysis of cumin seeds was carried out using proton‐induced X‐ray emission . Similarly, the mineral element contents of leaves of Scutellaria luteo‐caerulea from Iran were developed, whereas the organic chemical compositions of its essential oil were determined by GC‐MS .…”

Section: Introductionmentioning

confidence: 99%

Direct analysis of essential oils by means of TXRF spectrometry

et al. 2019

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Direct analysis of essential oil has been performed for estimation of the elemental content in five different extracted essential oils from the leaves of different plants, namely, Mentha longifolia, Rosmarinus officinalis, Ocimum basilicum, Elletaria cardamomum, and Lavandula hybrida. A benchtop total reflection X-ray fluorescence spectrometer with a maximum power of 40 W was used for this purpose. Fourteen elements have been quantified in most of the extracted essential oil samples, and their limits of detection were determined. The detected elements are P, S, Cl, K, Ca, Cr, Mn, Fe, Ni, Cu, Zn, As, Br, Ni, and Hf. The validity of the present method was demonstrated using a standard reference material of organometallic oil sample. Two extraction methods of essential oils from leaves of the mentioned plants are evaluated, namely, classical hydro-distillation and microwave-assisted hydro-distillation. The quantitative elemental analysis of the extracted essential oils using the two extracted methods was studied and compared.

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PIXE and GC–MS investigation for the determination of the chemical composition of Syrian Cuminum cyminum L

Cited by 18 publications

References 36 publications

Antioxidant and antifungal activities of a new chemovar of cumin (Cuminum cyminum L.)

Antioxidant and antifungal activities of a new chemovar of cumin (Cuminum cyminum L.)

Cuminaldehyde: A Potential Drug Candidate

Direct analysis of essential oils by means of TXRF spectrometry

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