• Korean Journal of Breeding Science
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• v.43 no.5
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• pp.368-374
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• 2011

Apricot (Prunus armeniaca L.) cultivars show a gametophytic self-incompatibility (GSI) system, like other fruit species of Rosaceae family. Thus, it is necessary to determine their S-genotypes in order for stable fruit set in commercial cultivation. S-genotypes of apricots were determined by PCR and test crosses. Three sets of consensus primers designed from Prunus S-RNases were used to amplify fragments containing the first and second S-RNase intron, respectively. Through the results obtained from the 3 PCRs, we could identify SI genotypes of 33apricot cultivars. Several cultivars such as 'Heiwa', 'Yamagata No.3' and 'Shinsuoomi' had the self-compatible (Sc) allele. Self-pollination tests revealed that cultivars with Sc allele were self-compatible. Cross-pollination tests confirmed that there was cross-incompatibility between the cultivars with the same S-genotypes. These results might be very useful for growers for effective pollination and for breeders using these in cross breeding programs.

• Journal of Food Hygiene and Safety
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• v.22 no.4
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• pp.395-400
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• 2007

Apricot Kernel, consumed as herbal medicine, contains amygdalin which generate HCN upon hydrolysis. Dyspnea was reported by ingesting large amount of apricot kernel, and neurological disorders such as tropic ataxic neuropathy or konzo were known as chronic toxicity of amygdalin. Other cyanogen containing plants, including flaxseed and almond, are consumed as food around the world. Moreover, some of them are promoted as functional food, leading to higher consumption, and posing health risk by cyanogenic components. The objective of this study was to find a method for the reduction of the cyanogenic compound, using apricot kernel as a model food. The most effective reduction was obtained by boiling the slices of the kernel for one hour in pH 1 HCl solution, showing 90% removal. However, the common process known to reduce the cyanogen contents, i.e., long incubation at the low temperature, did not show significant change in cyan concentration. Our data contribute to the safety of the plants containing cyanogenic compounds if they were to be developed as foodstuff.

• Applied Biological Chemistry
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• v.27 no.4
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• pp.278-284
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• 1984

The triglyceride compositions of peach kernel and apricot kernel oil have been investigated by a combination of high performance liquid chromatography (HPLC) and gas liquid chromatography(GLC). The triglycerides of peach kernel and apricot kernel oil were first separated by thin layer chromatography(TLC), and fractionated on the basis of their partition number(PN) by HPLC on a C-18 ${\mu}-Bondapak$ column with methanol-chloroform solvent mixture. Each of these fractionated groups was purely collected and analyzed by GLC according to acyl carbon number(CN) of triglyceride. Also the fatty acid compositions of these triglycerides were determined by GLC. From the consecutive analyses of these three chromatography techniques, the possible triglyceride compositions of peach kernel and apricot kernel oil were combinated into fifteen and thirteen kinds of triglycerides, respectively. The major triglycerides of peach ternel oil were those of $(3{\times}C_{18:1}\;30.9%)$, $(2{\times}C_{18:1},\;C_{18:2},\;21.2%)$, $(C_{18:1},\;2{\times}C_{18:2}\;10.6%)$, $(3{\times}C_{18:2}\;3.8%)$, $(C_{18:0},\;2{\times}C_{18:1},\;1.8%)$, $(C_{16:0},\;C_{18:1},\;C_{18:2},\;1.5%)$, $(C_{18:0},\;C_{18:1},\;C_{18:2},\;1.1%)$ and those of apricot kernel oil were $(3{\times}C_{18:1},\;39.5%)$, $(2{\times}C_{18:1},\;C_{18:2},\;24.5%)$, $(C_{18:0},\;2{\times}C_{18:2},\;14.2%)$, $(3{\times}C_{18:2},\;2.0%)$.

• Research in Plant Disease
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• v.23 no.1
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• pp.75-81
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• 2017

In May 2016, 24 peach samples showing abnormal and virus like symptoms were collected in one of major peach producing area, Yeongcheon-si, Gyeongsangbuk-do, Korea. We performed RT-PCR diagnosis for confirmation of viral infection. The diagnostic targets are 17 species of viruses and viroids that quarantine and high risk pathogens when it occur. As a results, seven species of viruses and viroids, including an unreported (Apricot pseudo-chlorotic leaf spot virus, APCLSV) and a quarantine (Peach latent mosaic viroid, PLMVd) species in Korea, were detected. For the sequence analysis of unreported virus, APCLSV, the sequence of coat protein gene were amplified and cloned. The sequence showed 97% nucleotide identity with other APCLSV isolates and compared with other seven species of reported Trichoviruses. This virus was classified as APCLSV based on the sequence and phylogenetic analysis. This isolate was named Yeongcheon. As patterns of APCLSV occurrence, all samples that APCLSV detected were co-infected with Apple chlorotic leaf spot virus (ACLSV). As properties of ACLSV, APCLSV has high possibility of wide spread disease in fruit tree farms in Korea. Therefore, it is necessary to do related researches, such as infection route and influence of disease in commercial orchards.

• Korean Journal of Food Science and Technology
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• v.4 no.2
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• pp.134-139
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• 1972

The contents and their seasonal changes of non-volatile organic acids and sugars of various fruits in Korea, apricot(maesil), peach, grape, apple and pears were measured. The organic acid contents were determined by gas chromatography and the free sugars were detected by thin layer chromatography. The results were as follows: 1) The common non-volatile organic acids found in those fruits were oxalic, fumaric, succinic, maleic, tartaric and citric acids: though their contents varied from almost none to 3430mg/100g. 2) Malic acid was contained in all above fruits with generally the highest contents ranging $18{\sim}3430mg/100g$ among different fruits. In every fruits oxalic was the least contained among other organic acids, almost none to trace except apricot(maesil) which contained 10.8mg/100g. 3) It seemed that generally all the non-volatile acids contents decreased after ripening except maleic acid and the cases of an apple and a pear varieties where they increased. 4) Glucose and fructose were detected in all fruits both matured and unripened by thin layer chromatography. Maltose was found in apricot(maesil), peach, grape and apple. Sucrose was detected in apricot(maesil), peach, grape, apple and pear.

• Journal of the Korean Society of Food Science and Nutrition
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• v.36 no.1
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• pp.81-86
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• 2007

This study was conducted to evaluate the quality characteristics of pork jerky added with the extracts of paprika (Capsicum annuum L.) and Japanese apricot (Prunus mume Sieb. et Zucc.). Color stability, lipid oxidation, texture, and consumer acceptability of the pork jerky were also compared before and after storage of 70 days. The pork jerky added with 0.5% paprika extract and 3.5% Japanese apricot extract had the highest score for overall acceptability. The redness (a-value) of the pork jerky added with the natural extracts had a similar level as the one with nitrite. The extracts of paprika and Japanese apricot were also effective in inhibiting the lipid oxidation of the pork jerky during storage. In texture measurement, the total shear force of the natural extracts-treated sample was lower than that of control (the natural extracts-untreated samples). All sensory properties of the pork jerky were significantly (p<0.05) improved by the addition of the natural extracts. The results of this study indicated that the extracts of paprika and Japanese apricot could be used as natural agents for retarding color and lipid oxidations.

• Korean Architects
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• s.601
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• pp.108-109
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• 2019

• Food Science and Industry
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• v.45 no.2
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• pp.20-28
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• 2012

• Journal of the Korean Society of Food Science and Nutrition
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• v.18 no.2
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• pp.223-228
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• 1989

In order to modelize the pretreatment procedure of the cyanide-free apricot seed oil, the conditions of crushing, frying, drying and steaming were investigated. Hydrogen cyanide was formed in the crushed seed at wide temperature range of $5{\sim}70^{\circ}C$, and the highest formation temperature was $40^{\circ}C$. The cyanide content in the crushed seeds incubated 5 and $40^{\circ}C$ for 96 hours was 200 and $780{\mu}g/g$ respectively, however the cyanide contained small amount in the non-crushed seeds. Consequently, emulsin inactivaton procedure was required for the preparation of cyanide-free oil. Steaming for 15 min. was the most desirable pretreatment procedure for the cyanide-free apricot seed oil. But oil production from the steamed seeds was lower than those from frying.

• Korean journal of food and cookery science
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• v.21 no.5
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• pp.599-606
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• 2005

The study was carried out to measure the antitumor effect of traditional doenjang (Korean soybean paste) added with Japanese apricot, garlic or ginger. Four kinds of traditional doenjang inhibited significantly the tumor growth in mice injected sarcoma-I80 cells. Especially, traditional doenjang added with ginger (Gi-TD) showed an inhibition of tumor cell activity of 97% by the administration of 1.0 mg/kg methanol extracts. Among Balb/c mouse administered doenjang extracts, the liver weight of mice fed Gi-TD was heavier than that of the group not administered doenjang. However, no difference was found between the control and doenjang administrated groups in weights of body, spleen, kidney and heart. The activity of natural killer (NK) cells was relatively high in mice administrated with the four kinds of doenjang. Particularly, mice administrated with the Gi-TD methanol extracts showed a strong activity of 82.9%. The activity of glutathione S-transferase (GST) in mice administrated with the 4 kinds of doenjang was higher than that of the group not administered with doenjang. In particular, the GST activity was the strongest in the group administrated with Gi-TD. The results suggest that Gi-TD has a strong growth inhibition activity against sarcoma-180 tumor cells.