• Journal of Crop Science and Biotechnology
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• 제11권1호
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• pp.17-22
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• 2008

Aromatic rice has become popular owing to its aroma. Growing demand for aromatic rice has spurred interest in the development of domestic cultivars that offer similar combinations of grain attributes such as texture, cooking characteristics, aroma, and taste. In this study, the most important agronomic attributes and aroma of 26 cultivars from Afghanistan, Iran, and Uzbekistan, and controls from Japan, Thailand, and India were characterized. Also $F_2$ populations derived from the cross between(Jasmine 85 aromatic$\times$Nipponbare non-aromatic) and(Jasmine 85$\times$Basmati 370 aromatic) were obtained. Tasting individual grains, cooking test, 1.7% KOH sensory test, and molecular marker analysis have been applied to distinguish between aromatic and non-aromatic rice. Diversity for some traits of agronomic importance, such as plant height was detected among countries, e.g. Afghan cultivars classified as tall, and Iranian and Uzbek intermediate and short, respectively. Differentiations of panicle, grain, leaf, basal internode, and culm dimension among rice cultivars, indicating the source of rice diversity in Central Asia. According to the results, 6 of 10, 2 of 7, and 0 of 6 of Afghan, Iranian, and Uzbek rice cultivars were scored as aromatic, respectively. Therefore, Afghan cultivars are a good source of aromatic rice germplasm for Central Asia. The expression between aromatic and non-aromatic, and aromatic and aromatic combinations has been evaluated. The observed segregation ratio of these crosses in the $F_2$ populations was tested by $x^2$ analysis against the expected ratio for a single gene. A segregation ratio of 3:1 between non-aromatic and aromatic combination has been detected, while segregation has not been detected between the aromatic and aromatic combinations. Also, parallel results were obtained from the tested aromatic rice cultivars. Thus, our results suggest that a single recessive gene controls aroma in all aromatic rice cultivars.

• 한국식품저장유통학회지
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• 제23권5호
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• pp.673-679
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• 2016

향미의 활용성 증진을 위하여 발아 향미차를 제조 하였으며, 볶음 온도와 볶음 시간에 따른 발아 향미 및 향미차의 품질특성을 조사하였다. 발아 향미의 색도 중 명도는 볶음온도가 높을수록 볶음 시간이 증가할수록 감소하였으며, 적색도와 황색도는 온도와 시간에 비례하여 증가하는 경향을 보였으나, $250^{\circ}C$-20분 이상에서는 발아 향미가 탄화가 일어나 값이 감소하였다. 발아 향미차의 갈색도, 탁도, 가용성 고형분 함량은 볶음 온도와 시간이 증가할수록 증가하는 경향을 나타내었다. 발아 향미의 총 폴리페놀 및 DPPH 라디칼 소거 활성 또한 볶음 온도가 높을수록 볶음 시간이 길어질수록 증가하였다. 발아 향미의 향기 성분은 볶음 과정에 따라서 전체적 함량이 증가하는 경향을 나타내었으며, hexanal, heptanal, benzaldehyde 등의 구수한 향을 내는 물질을 생성하여 발아 향미차의 관능적 특성을 증가시켰으나, $300^{\circ}C$ 이상의 높은 온도에서는 methyl benzene, pentanol 등의 자극적인 향을 나타내는 물질 생성과 기호도 평가에서 높은 볶음 온도에서 기호도가 감소하는 결과를 보였다. 발아 향미차의 기호도는 볶음 온도와 시간이 증가함에 따라서 색에 대한 기호도가 증가하나, $300^{\circ}C$-10분 이상의 조건에서는 발아 향미의 탄화로 인하여 향, 맛, 종합적 기호도가 감소하는 경향을 나타내어 $250^{\circ}C$-30분이 발아 향미차의 볶음 조건으로 적합한 것으로 나타났다.

• 한국작물학회지
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• 제44권3호
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• pp.181-185
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• 1999

To compare the composition of volatile flavor components of three different cultivars of rice, Hyangnambyeo (aromatic cultivar), Heugjinjubyeo (pigmented cultivar) and Dongjinbyeo (normal cultivar), the volatile flavor components of brown rice were isolated by Likens-Nickerson simultaneous steam distillation and extraction apparatus. The flavor concentrates obtained were analyzed by gas chromatography and gas chromatography-mass spectrometry. A total of 65 components, including 14 aliphatic aldehydes and ketones, 7 aliphatic alcohols, 8 aromatic alcohols, 13 hydrocarbons, 9 esters, 7 aliphatic acids, and 7 miscellaneous components were identified. The aliphatic aldehydes, which are known as contributors to the overall flavor of cooked rice, were present in larger amounts in Hyangnambyeo than in Heugjinjubyeo and Dongjinbyeo, while the difference in quantity of these components between Heugjinjubyeo and Dongjinbyeo was not remarkable. Hyangnambyeo and Heugjinjubeyo contained 562 ng and 259 ng of 2-acetyl-1-pyrroline per gram of brown rice based on dry weight, respectively, which is a key compound contributing to the popcorn-like aroma in aromatic rice. Dongjinbeyo contained about 6 ng.

• 한국작물학회지
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• 제56권2호
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• pp.167-176
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• 2011

Brown planthopper (BPH) is a serious insect pest of rice crop throughout rice growing countries, and yield loss due to its infection can be up to 60%. This study aimed to evaluate efficiency of molecular markers for screening BPH resistance accessions among 86 aromatic rice germplasm Eighty-six accessions of aromatic rice germplasm included two accessions of Tongil type (bred in Korea), 28 accessions of japonica type and 56 accessions of indica type. We applied eight STS markers (pBPH9, pBPH19, pBPH20, pBPH21, AJ09-b, RG457L, RG457B, and 7312.T4A) which were linked to four of BPH resistance genes, Bph1, Bph13(t), Bph10, and Bph18(t) respectively. One japonica type accession, 415XIr352, and six indica type accessions possessed one or four positive bands when tested with four STS markers linked to Bph1 gene. One indica type aromatic rice, Basmati9-93, showed the target bands linked to the Bph10 gene. The other accessions did not show same fragments as the respective resistant lines. Bph13(t) is the most widely introduced resistance gene and only one accession showed positive bands implying that this accession might harbor Bph10 and Bph18(t) genes. Three aromatic accessions, Domsiah, Khao Dawk Mali 105 and 415XIr352 showed gene pyramiding of Bph1 and Bph13(t). Two indica aromatic rice, Ds 20 and Basmati 9-93, possessed at least two BPH resistance genes, Bph1, Bph18(t) and Bph13(t), Bph18(t), respectively. These results indicates that aromatic rice germplasm have narrow diversities of BPR resistance genes.

• 한국식품영양과학회지
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• 제28권2호
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• pp.299-304
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• 1999

To compare the composition of volatile flavor components of two different types of rice, the volatile flavor concentrates isolated from brown rices Hyangnambyeo(aromatic cultivar) and Dongjinbyeo (normal cultivar) were analyzed by gas chromatography and gas chromatography mass spectrometry. A total of components, including 16 hydrocarbons, 16 aldehydes and ketones, 15 alcohols, 4 acids, and 10 miscellaneous components were identified positively or tentat ively. Among them, n pentanol was the most abundant component in both samples and Hyangnambyeo contained more aldehydes and alcohols than Dongjinbyeo. 2 Acetyl 1 pyrroline which is chiefly responsible for the character istic odor of aromatic type rice was high in Hyangnambyeo compare to Dongjinbyeo, but these were detected as minor component.

• 한국자원식물학회지
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• 제12권3호
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• pp.192-197
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• 1999

유색미인 흑진주벼 등 5종, 일반미인 동진벼, 향미인 향남벼을 대상으로 이들 품종의 현미 중에 함유된 지방질의 함량과 지방질의 조성을 비교 연구하였다. 1. 총지방질 함량은 건물기준으로 2.04 - 4.68%로 Tohoku 149호, 한산흑미, 상해향혈라 순으로 많았고 흑남벼, 향남벼와 동진벼에서는 비교적 적었으며 그들간에는 차이가 없었다. 2. 총지방질의 조성은 sterol ester & hydrocarbon, triglyceride, free fatty acid, diglyceride, free sterol 등 5종이 동정되었다. 그중 triglyceride의 비율이 가장 높았고 그 다음으로 diglyceride 와 free sterol의 비율이 높았다. 일반미와 유색미 및 향미간에 비교했을때 triglyceride의 비율은 향미와 유색미가 일반미보다 낮은 반면 diglyceride의 비율은 향미와 유색미에서 일반미인 동진벼에 비해 월등히 높았다. 3. 총지방질 중 지방산 조성은 모든 품종 다같이 linoleic acid, oleic acid 및 palmitic acid가 주된 지방산이었고 linolenic, stearic acid은 소량이 함유되어 있었으며, erucic acid는 일반미인 동진벼에는 함유되어 있지 않았다. 양적으로 많은 지방산을 품종별로 비교해 보면 oleic acid는 한산흑미가 41%로 가장 많았고, 그외 품종은 32-37% 범위이었다. 또한 linoleic adid 향남벼와 상해향혈라는 각각 37%그외 품종은 32 - 36%의 범위이었다.

• 한국식품과학회지
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• 제32권4호
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• pp.799-805
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• 2000

국내에서 생산되는 우리밀의 소비촉진과 고품질의 제품을 제조하기 위해서 향현미찹쌀과 현미찹쌀가루를 우리밀가루에 $10{\sim}30%$ 첨가하여 국수를 제조하고 그 품질특성을 조사하였다. 향현미찹쌀과 현미찹쌀가루의 평균 입자크기는 $12.38{\sim}15.59\;{\mu}m$로 고운 분말상태였고 우리밀가루와 큰 차이는 없었다. Farinograph 결과 향현미찹쌀가루와 현미찹쌀가루의 첨가량이 증가할수록 반죽의 수분흡수율은 각각 증가, 감소하였다. 반죽의 안정도, 형성시간 및 점탄성은 첨가물의 함량이 증가할수록 감소하는 경향을 나타냈다. 향현미찹쌀을 첨가한 국수는 대조군과 비교하여 명도는 증가하고 황색도는 감소한 반면에 현미찹쌀가루를 첨가한 국수는 반대의 결과를 나타냈다. 향현미찹쌀과 현미찹쌀을 우리밀에 20%농도까지 첨가하였을 때의 조리특성은 대조군과 거의 차이를 나타내지 않았다. 관능검사결과 향현미찹쌀의 첨가량이 30%, 현미찹쌀은 20%까지 첨가한 국수가 대조군과 외관, 맛 그리고 전체적인 기호도에서 비교적 높은 평가를 받았다.

• The Plant Pathology Journal
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• 제25권4호
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• pp.408-416
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• 2009

A molecular survey was conducted to identify the presence of the bacterial blight resistance genes (Xa1, Xa4, xa5, xa13 and Xa21) in 86 accessions of aromatic rice obtained from germplasm. The results revealed that the resistance gene Xa4 (32.5%), Xa21 (17%), and xa5 (16%) were widely observed in tested rice germplasm. Among tested rice germplasm, 49 accessions showed the presence of more than one of five R genes, and 37 accessions possessed none of the R gene. TALLi and 05-IRRi-M-46 showed the presence of Xa4, xa5, xa13 and Xa21. Rice race $415{\times}Ir352$ exhibited positive amplicon for the Xa1, Xa4, xa5 and Xa21. Hyangmibyeo1hos, Ir841-85-1-1-2 and Jasmine85 showed the positive amplicon for the Xa1, Xa4 and xa5 genes. Yekywin Yinkya Hmwe and Khao Dawk Mali105 showed the presence of Xa1, Xa4 and Xa21 gene. Masino Basmati showed the presence of xa5, xa13, Xa21 genes. Xa1 and Xa21 genes were noticed in Mihayngbyeo, Tarana Deshi, Mayataung and AZUCENA. Hyangmibyeo2ho, Basmati 6311 and Basmati405 possessed only two R genes such as Xa4 and xa5, and xa5 and xa13, respectively. The evaluation results of bacterial blight resistance genes in aromatic rice germplasm will help in breeding of multi disease resistant varieties.

• 한국작물학회지
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• 제56권4호
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• pp.329-341
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• 2011

The objective of this study was to determine the genetic diversities of major rice blast resistance genes among 84 accessions of aromatic rice germplasm. Eighty four accessions were characterized by a dominant 11 set of PCR-based SNP and CAPS marker, which showed the broad spectrum resistance and closest linkage to seven major rice blast resistance (R) genes, Pia, Pib, Pii, Pi5 (Pi3), Pita (Pita-2), and Pi9 (t). The allele specific PCR markers assay genotype of SCAR and STS markers was applied to estimate the presence or absence of PCR amplicons detected with a pair of PCR markers. One indica accession, Basmati (IT211194), showed the positive amplicons of five major rice blast resistance genes, Pia, Pi5 (Pi3), Pib, Pi-ta (Pi-ta2), and Pik-5 (Pish). Among 48 accessions of the PCR amplicons detected with yca72 marker, only five accessions were identified to Pia gene on chromosome 11. The Pib gene was estimated with the NSb marker and was detected in 65 of 84 accessions. This study showed that nine of 84 accessions contained the Pii gene and owned Pi5 (Pi3) in 42 of 84 accessions by JJ817 and JJ113-T markers, which is coclosest with Pii on chromosome 9. Only six accessions were detected two alleles of the Pita or Pita-2 genes. Three of accessions were identified as the Pi9 (t) gene locus.

• Journal of Crop Science and Biotechnology
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• 제10권4호
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• pp.257-264
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• 2007

Rice is one of the world's staple crops and is a major source of carbohydrate. Rice is exported from several countries, providing a major source of income. There are many documents reporting that rice is a salt-sensitive crop in its developmental stages. The objective of this investigation is to evaluate the effective salt-tolerance defense mechanisms in aromatic rice varieties. Pathumthani 1(PT1), Jasmine(KDML105), and Homjan(HJ) aromatic rice varieties were chosen as plant materials. Rice seedlings photoautotrophically grown in-vitro were treated with 0, 85, 171, 256, 342, and 427 mM NaCl in the media. Data, including sodium ion$(Na^+)$ and potassium ion$(K^+)$ accumulation, osmolarity, chlorophyll pigment concentration, and the fresh and dry weights of seedlings were collected after salt-treatment for 5 days. $Na^+$ in salt-stressed seedlings gradually accumulated, while $K^+$ decreased, especially in the 342-427 mM NaCl salt treatments. The $Na^+$ accumulation in both salt-stressed root and leaf tissues was positively related to osmolarity, leading to chlorophyll degradation. In the case of the different rice varieties, the results showed that the HJ variety was identified as being salt-tolerant, maintaining root and shoot osmolarities as well as pigment stabilization when exposed to salt stress or $Na^+$ enrichment in the cells. On the other hand, PT1 and KDML105 varieties were classified as salt-sensitive, determined by chlorophyll degradation using Hierarchical cluster analysis. In conclusion, the HJ-salt tolerant variety should be further utilized as a parental line or genetic resource in breeding programs because of the osmoregulation defensive response to salt-stress.