This study aimed to investigate the biochemical compounds of five different apple cultivars (Amasya, Braeburn, Golden Delicious, Granny Smith, and Starking) grown in the same location and to reveal the differences between peel and pulp in the fresh, oven-dried, and sun-dried samples. Sugar and organic acid contents were analyzed through high-performance liquid chromatography. Besides, antioxidant activity, total flavonoid, and total phenolic contents were analyzed with a spectrophotometer. The results of these analyses showed that the compounds varied between peel and pulp and among fresh, oven-dried, and sun-dried samples. The largest level of total flavonoid was found in Amasya oven-dried peel, and the largest total phenol, antioxidant activity, fructose, and total sugar levels were observed in Amasya sun-dried peel. Moreover, the largest L-ascorbic acid was detected in Amasya oven-dried pulp. Granny Smith oven-dried pulp was rich in citric, succinic acids, and glucose. Braeburn sun-dried pulp, Golden Delicious oven-dried pulp, and Granny Smith sun-dried pulp contained the largest sucrose, malic acid, and total soluble solids levels, respectively. For data interpretation, t-test, ANOVA, Duncan’s test, Kruskal–Wallis H test, and principal component analysis were performed. The peel contained significantly higher total flavonoid, total phenol, and antioxidant activity than pulp. Moreover, among fresh, oven-dried, and sun-dried samples, total phenol, succinic acid, malic acid, and L-ascorbic acid significantly differed. As a whole, the pulp was rich in sugars. The results provide valuable information on the food quality parameters of five different apple cultivars. It was demonstrated that consuming apple with its peel is healthier (in terms of total flavonoid, total phenol, antioxidant activity parameters, and L-ascorbic acid), and drying (especially the sun-drying method) is an effective food storage method for apples.
Crimson Sweet is one of the favorite watermelon cultivars with high sugar content and great flavor containing small and dark seeds. Both fruit flesh and seeds have high nutrition content. In order to evaluate new sources of oil for the growing population, watermelon seed oil is used in some nations. Therefore, it was aimed to determine the fatty acid profile of differentially stored Crimson Sweet watermelon seed oil in this study. The results indicated that seeds are rich in Omega 6 fatty acid (40.62-42.34%). The amount of this essential fatty acid was higher at samples stored at 4 o C. Palmitic, oleic, and stearic acids are the main fatty acids followed by linoleic acid in Crimson Sweet watermelon, respectively. Moreover, the ratio of polyunsaturated fatty acid to saturated fatty acids was determined as 1.16, 1.20, 1.27 (room temperature, 4 o C, and newly harvested, respectively) which are in the desirable range for qualified oil.
This study aimed to investigate the effects of plant growth regulators in callus cell culture on the oil content and fatty acid composition of the castor bean (Ricinus communis L.). Ricinus communis L. are valued for its oil and the performance of oil is closely related to its fatty acid composition. Thus, producing oil in vitro with favored fatty acid profiles is a promising research area and may also offer industrial opportunities. In line with this, the total amount of fat and the fatty acid composition of the samples, which were endosperm and calli obtained by treatment of various doses of plant growth regulators were determined. Results showed that the type and amount of the plant growth regulator used in the media affect the fatty acid composition. In detail, the biggest change was shown by Indole-3-Acetic Acid (IAA), in general, using the plant growth regulators at 5 mgL-1, instead of 20 mgL-1, was found to have induced larger differentiations. The effect of a natural plant growth regulator (IAA) on fatty acid profiles was larger than the synthetic ones (NAA, 1-Naphthaleneacetic acid, and 2,4 D, 2,4-Dichlorophenoxyacetic acid). The media containing 5 mgL-1 of NAA, 20 mgL-1 of NAA, 20 mgL-1 of 2,4 D, or 5 mgL-1 of 2,4 D gave similar results.
Plants-based oils and fats usually obtained from seeds have been indispensable substances for mankind, both in nutritional and industrial respect. This study aimed to determine the total amount of oil and the fatty acid compositions of Phoenix theophrasti Greuter, P. roebelenii O'Brien, P. caneriensis Hort. Ex Chabaud, and P. dactylifera L.The seeds of these four Phoenix species were collected from the same location, east Mediterranean agroecological conditions when the fruits were fully ripened, which means the environmental factors that may affect the oil content and the fatty acid compositions were controlled. The highest oil content of the samples was obtained from P. caneriensis (8.435 g/100 g) and followed by P. dactylifera (6.400 g/100 g), P. roebelenii (5.130 g/100 g), and P. theophrasti (4.730 g/100 g), respectively. The dominant fatty acids detected in the seed oils were oleic acid (C18:
In this study, the fuel characteristics of biodiesel produced from jojoba [Simmondsia chinensis (Link) Schneider] oil and biodiesel obtained from the jojoba oil procured under laboratory conditions were compared. For this purpose, jojoba seed endosperm and oil, which was attained from the jojoba endosperm calli via soxhlet extraction, was obtained. Biodiesel was produced from this oil via the transesterification method. It was determined that the fuel characteristics of the biodiesels produced from the oil procured under the laboratory conditions and the oil attained from the seeds were close to each other, and it was observed that the other features were in parallel with the standards, except for the viscosity and freeze point. This research study offers a solution for the raw material problem, which is one of the most important obstacles against the widespread use of biodiesel, in terms of environmental and economic aspects.
Hyacinth (Hyacinthus orientalis L.) is one of the most beloved ornamental plants with fragrant flowers. As one of the important bulbous plants, hyacinth is used as a cut flower, potted flower, and garden flower. Due to their unique aroma, hyacinth flowers are used in perfumery especially in France whose perfume industry is well-known in the world. In this study, Headspace Solid Phase Micro Extraction (HS-SPME) GC/MS (Gas Chromatography/Mass Spectrometry) technique was used for the analysis of volatile compounds of flower samples. A total of 28 volatile compounds were identified in the fresh flowers of hyacinths. Phenylethyl alcohol, benzyl acetate, a-pinene, and furfural were the major aromas accounting for hyacinth fragrance.
Allium tuncelianum (Kollman) Özhatay, Matthew & Şiraneci forms a single-cloved edible white bulb with mild garlic (A. sativum) odour and taste. Its ability to form seeds make it suitable for genetic improvement via classical and modern approaches. A detailed study was carried out to determine the gynogenesis potential of two A. tuncelianum (AT1 and AT2) accessions. Unopened flower buds of A. tuncelianum accessions were cultured in various BDS- and MS-based induction media. A total of 17 (0.09%) gynogenic plantlets were obtained from ~20000 flower buds used in gynogenesis induction experiment. Accessions showed slight differences in their responses to gynogenesis induction cultures. The highest gynogenic plantlet production frequency (0.34 %) in AT1 was achieved flower buds cultured in T12 medium (MS with 100 g/L sucrose, 1 mg/L a-naphthalene acetic acid (NAA) and 8 mg/L isopentenyl adenine (2IP). Flower buds of AT2 showed the highest gynogenic plantlet production response (0.44 %) in T2 medium (BDS with 50 g/L sucrose). Eight of 17 gynogenic plantlets continued to grow and became healthy plants with green leaves and well established roots. Flow cytometric (FCM) analysis of well-developed gynogenic plants showed that two were haploid (25 %), four were diploid (50 %), and two were mixoploid (25 %) for haploid and diploid cells. Nine gynogenic plantlets showing abnormal development were diploid. Therefore, formation of gynogenic plantlets with abnormal phenotypes was likely due to genetic factors. Results obtained from this study suggest use of DH technology in the production of homozygous A. tuncelianum inbreeds in variety improvement programs.
Castor bean has not been well studied in different genotypes and geographic zones despite its application in industry and medicine. Recently, the use of castor beans as biodiesel and industry makes this plant a point of interest for researchers. However, more studies are needed for evaluating genotypes from different ecologies. The effect of climatic zones, Adana and Mersin, on the fatty acid profile of chaster bean seed oils was investigated. It was found that locations significantly influenced the fatty acid content. The main fatty acid was ricinoleic acid with 84.63% and 86.87% in both Adana and Mersin locations, respectively. Despite ricinoleic acid, Adana had higher concentrations of Palmitic acid (1.97%), Stearic acid (2.1%), Oleic acid (4.4%), and Palmitoleic acid (2.29%) whereas Linolenic acid (5.83%), and Ricinoleic acid (86.87%) was high in Mersin. These results showed that climate affects the fatty acid contents of studied caster oil. This study will help in the selection of proper caster oil cultivars not only in these regions but in other regions of the world as well.
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