Proceedings of the Korean Society of Crop Science Conference (한국작물학회:학술대회논문집)
The Korean Society of Crop Science (KSCS)
- Semi Annual
Domain
- Agriculture, Fishery and Food > Science of Food and Crops
2019.09a
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The objectives of this paper are (i) to analyze past trends and future directions of rice production, consumption and trade across the world and (ii) to discuss emerging challenges and future directions in the global rice industry. Rice is a staple food of over half of the world's 7.7 billion people. It is an important economic, social, political, and cultural commodity in most Asian countries. Rice is the
$1^{st}$ most widely consumed,$2^{nd}$ largely produced, and$3^{rd}$ most widely grown food crop in the world. It was cultivated by 144 million farms in over 100 countries with harvested area of over 163 million ha producing about 745 million tons paddy in 2018. About 90% of the total rice is produced in Asia. China and India, the biggest rice producers, account for over half of the world's rice production. Between 1960 and 2018, world rice production increased over threefold from 221 to 745 million tons (2.1% per year) due to area expansion from 120 to 163 million ha (0.5% per year) and paddy yield increase from 1.8 to 4.6 t/ha (1.6% per year). The Green Revolution led massive increase in rice production prevented famines, provided food for millions of people, reduced poverty and hunger, and improved livelihoods of millions of Asians. The future increase in rice production must come from yield increase as the scope for area expansion is limited. Rice is the most widely consumed food crop. The world's average per capita milled rice consumption is 64 kilograms providing 19% of daily calories. Asia accounted for 84% of global consumption followed by Africa (7%), South America (3%), and the Middle East (2%). Asia's per capita rice consumption is 100 kilograms per year providing 28% of daily calories. The global and Asian per capita consumption increased from the 1960s to the 1990s but stable afterward. The per capita rice consumption is expected to decline in Asia but increase outside Asia especially in Africa in the future. The total milled rice consumption was about 490 million tons in 2018 and projected to reach 550 million tons by 2030 and 590 million tons by 2040. Rice is thinly traded in international market because it is a highly protected commodity. Only about 9% of the total production is traded in global rice market. However, the volume of global rice trade has increased over six-fold from 7.5 to 46.5 million tons between the 1960s and 2018. A relatively small number of exporting countries interact with a large number of importing countries. The top five rice exporting countries are India, Thailand, Vietnam, Pakistan, and China accounting for 74% of the global rice export. The top five rice importing countries are China, Philippines, Nigeria, European Union and Saudi Arabia accounting for 26% of the global rice import. Within rice varieties, Japonica rice accounts for the highest share of the global rice trade (about 12%) followed by Basmati rice (about 10%). The high concentration of exports to a few countries makes international rice market vulnerable to supply disruptions in exporting countries, leading to higher world prices of rice. The export price of Thai 5% broken rice increased from 198 US$/ton in 2000 to 421 US$/ton in 2018. The volumes of trade and rice prices in the global market are expected to increase in the future. The major future challenges of the rice industry are increasing demand due to population growth, rising demand in Africa, economic growth and diet diversification, competition for natural resources (land and water), labor scarcity, climate change and natural hazards, poverty and inequality, hunger and malnutrition, urbanization, low income in rice farming, yield saturation, aging of farmers, feminization of agriculture, health and environmental concerns, improving value chains, and shifting donor priorities away from agriculture. At the same time, new opportunities are available due to access to new technologies, increased investment by the private sector, and increased global partnership. More investment in rice research and development is needed to develop and disseminate innovative technologies and practices to overcome problems and ensure food and nutrition security of the future population. -
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Zou, Xiao-Xia;Shi, Pu-Xiang;Zhang, Cai-Jun;Si, Tong;Cho, Jin-Woong;Wang, Yue-Fu;Zhang, Xiao-Jun;Yu, Xiao-Na;Wang, Hai-Xin;Wang, Ming-Lun 17
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It is necessary to maintain stable crop productions under the unsuitable environments, because the drought and flood may be frequently caused by the global warming. Therefore, it is agent to improve the crop growth model corresponded to soil moisture status. Chili pepper (Capsicum annuum) is one of the useful crop in Asia, and then it is affected by change of precipitation in consequence drought and flood occur however crop model to evaluate water stresses on chili pepper is not enough yet. In this study, development of crop model under different soil moisture status was attempted. The experiment was conducted on the slope fields in the greenhouse. The water level was kept at 20cm above the bottom of the container. Habanero (C. chinense) was used as material for crop model. Sap bleeding rate, SPAD value, chlorophyll content, stomatal conductance, leaf water potential, plant height, leaf area and shoot dry weight were measured at 10 days after treatment (DAT) and 13 DAT. Moreover, temperature and RH in the greenhouse, soil volume water contents (VWC) and soil water potential were measured. As a result, VWC showed 4.0% at the driest plot and 31.4% at the wettest plot at 13 DAT. The growth model was calculated using WVC and the growth analysis parameters. It was considered available, because its coefficient of determination showed 0.84 and there are significant relationship based on plants physiology among the parameters and the changes over time. Furthermore, we analyzed the important factors for higher accuracy prediction using multiple regression analysis.
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Choi, Ju-Young;Cho, Seong-Woo;Roy, Swapan Kumar;Chun, Jae-Buhm;Kwon, Soo-Jeong;Sung, Jwa-Kyung;Sakagami, Jun-Ichi;Woo, Sun-Hee 20
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Approximately 80% of rice field in Africa conducts in rainfed (Nishimaki 2017). The rice is damaged by water stress because fields like rainfed lowland repeat drying and humidity of soil because of impossible water control. Then water stress is one of the major limiting factors for decreasing rice yield. So, in initial growth stage, quick and efficient root development is useful way to avoid drought stress by getting water from deeper soil layer with roots elongation as the hypothesis. Daniel et al (2016) reported that NERICA1 and NERICA4 show different patterns of root plasticity for drought stress. NERICA1 has greater development of lateral root in shallow soil layer, while NERICA4 has greater development in deep root elongation to underground. This study was aimed to evaluate the effect of root development in initial growth stage on growing NERICA1 and NERICA4 under different soil moisture condition in rainfed lowland rice field. They were grown in same water condition until 35 days after sowing (35DAS), and after that each varieties were separated in dry and wet condition. The rice plants were grown until 60DAS. The results of soil moisture, the root extension angle, shoot dry weight and bleeding ratio showed that NERICA4 can mitigate dry stress from surface soil compered to NERICA1.
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Green stem disorder (GSD) of soybean (Glycine max (L.) Merr.) is characterized by delayed senescence of stems with normal pod ripening and seed maturation (Hobbs, 2006). GSD complicates harvesting of soybeans by significantly increasing the difficulty in cutting the affected plants. There is also the potential for moisture in the stems to be scattered on the seed, reducing the grade and storability of the seed. Not only the cause of GSD is yet unknown, but also GSD cannot be evaluated until maturity, therefore the method to evaluate GSD in early growth stage with high sensitivity is necessary. In previous studies, it has been reported that vegetative storage protein (VSP) accumulates and the syndrome of GSD appears in soybean after depod treatment (Fischer, 1999). Soybean VSP is a storage protein which is abundant in young sink leaves and degraded during seed fill (Wittenbach, 1982). Hence, we have established a system to quantify VSP of high sensitivity by using standard protein made by genetically transformed E. coli and specific antibody against VSP, and studied the relationship between VSP and GSD, by depod experiment and drought/excess wet experiments. The result of depod experiment with the cultivar 'Yukihomare' was the same with the previous studies, VSP accumulated much more than control and the syndrome of GSD appeared in soybean in depod treatment. Drought and excess wet had different impact on GSD. Excess wet caused GSD of the cultivar 'Tachinagaha (GSD susceptible)', while drought caused a little syndrome of GSD in the cultivar 'Touhoku 129 (GSD resistant)'. The accumulation of VSP differed between the two cultivars over time. In conclusion, the accumulation of VSP came along with the emergence of GSD. Different cultivars showed different response to drought and excess wet. In the future, it is expected that the dynamics of VSP will be elucidated in detail, leading to the development of early diagnosis technology for green stem disorder and the elucidation of mechanism of soybean GSD.
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Sang, Wangyu;Lee, Yunho;Kim, Junhwan;Shin, Pyeong;Baek, Jaekyeong;Cho, Jeongil;Seo, Myungchul 24
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Hwang, Woon-Ha;Lee, Chung-Kuen;Choi, Kyung-Jin;Jung, Jae-Hyeok;Lee, Hyeon-Seok;Yang, Seo-Young;Lim, Yeon-Hwa 26
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Lee, Sais-Beul;Hur, Yeon-Jae;Kim, Tae-Heon;Kang, Ju-Won;Cho, Jun-Hyun;Lee, Ji-Yoon;Kwon, Yeongho;Jo, Sumin;Lee, Jong-Hee;Park, No-Bong;Song, You-Cheon;Ko, Jong-Min;Park, Dong-Soo 27
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Sin, Dong-Jin;Lee, Si-Cheol;Kim, Tae-Heon;Lee, Jong-Hui;Park, Jun-Heum;Lee, Jin-Won;Lee, Ji-Yun;Jo, Rae-Hyeon;Choe, Jae-Yeong;Lee, Won-Hui;Park, Ji-Hwan;Lee, Dae-U;Ito, Hisashi;Kim, Dae-Heon;Tanaka, Ayumi;Jo, Jun-Hyeon;Song, Yu-Cheon;Hwang, Dae-Hui;Purugganan, Michael D.;Jeon, Jong-Seong;An, Jin-Heung;Nam, Hong-Gil 28
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Roy, Swapan Kumar;Kwon, Soo-Jeong;Cho, Kun;Choi, Sang-Heon;Ju, Yong-Hwan;Choi, Ju-Young;Chun, Hyeun-Chung;Woo, Sun-Hee 31
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Gang, Ju-Won;Lee, Ji-Yun;Jo, Jun-Hyeon;Gwon, Yeong-Ho;Lee, So-Myeong;Jo, Su-Min;Sin, Dong-Jin;Park, Dong-Su;Song, Yu-Cheon;Lee, Jong-Hui 32
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Lee, Jong-Hui;Gang, Ju-Won;Jo, Jun-Hyeon;Lee, Ji-Yun;Lee, So-Myeong;Sin, Dong-Jin;Cha, Jin-Gyeong;Gwon, Yeong-Ho;Jo, Su-Min;Park, Dong-Su;Song, Yu-Cheon;Go, Jong-Min 33
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Kim, Seong-Hun;Sin, Myeong-Jae;Lee, Myeong-Cheol;Lee, Jeong-Ro;Choe, Yu-Mi;Hyeon, Do-Yun;Jo, Gyu-Taek 41
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Kim, Young-Jin;Jeong, Han-Yong;Kim, Kyeong-Min;Choi, Chang-Hyun;Kang, Chon-Sik;Kim, Kyeong-Hoon;Park, Jin-Hee;Park, Tae-Il 48
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Ju, Yong-Hwan;Roy, Swapan Kumar;Choi, Ju-Young;Lee, Dong-Gyu;Choi, Sang-Heon;Kwon, Ku-Hyun;Kwon, Soo-Jeong;Woo, Sun-Hee 51
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Sang, Wangyu;Lee, Yunho;Kim, Junhwan;Shin, Pyeong;Baek, Jaekyeong;Cho, Jeongil;Seo, Myungchul 52
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Lee, Ji-U;Jo, Yun-Sang;Kim, Seong-Yong;Jeong, Jae-Hwan;Lee, Hye-Ri;Song, Yun-Ho;Lee, Ji-Ae;Go, Jae-Yeong;Jeong, Jae-Hyeok 58
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Lee, Seungyong;Hwang, Um-Ji;Yu, Gyeong-Dan;Park, Jin-Cheon;Nam, Sang-Sik;Chung, Mi-Nam;Han, Seon-Kyeong;Lee, Hyeong-Un;Go, San;Lee, Im-Been 59
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Lim, Yeonhwa;Kim, Il-tae;Choi, Kyung-Jin;Hwang, Woon-Ha;Jeong, Jae-Hyeok;Lee, Hyun-Seok;Yang, Seo-yeong;Lee, Chung-Keun 60
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Seo, Myung Chul;Jo, Hyeon-Suk;Kim, Joon Hwan;Sang, Wan Gyu;Lee, Yun Ho;Cho, Jung Il;Shin, Pyeong;Baek, Jae Kyeong 67
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Cho, Hyeoun-Suk;Seo, Myung-Chul;Cho, Jung-Il;Kim, Jun-Hwan;Sang, Wan-gyu;Lee, Yoon Ho;Shin, Pyeong;Baek, Jaekyeong 74
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Kim, Ki Hyun;Yu, Seong Hyun;Kim, Young Sang;Kim, Ik Jei;Hong, Seong Taek;Han, Won Young;Youn, Young Ho;Woo, Sun Hee 76
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Jeong, Han-young;Kim, Young-Jin;Kang, Chon-Sick;Kim, Kyeong-Hoon;Kim, Kyeong-Min;Choi, Chang-Hyun;Park, Jinhee;Son, Jae-Han;Yang, Jinwoo;Cheong, Young-Keun 77
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Jeong, Han-young;Kim, Young-Jin;Kang, Chon-Sick;Kim, Kyeong-Hoon;Kim, Kyeong-Min;Choi, Chang-Hyun;Park, Jinhee;Son, Jae-Han;Yang, Jinwoo;Cheong, Young-Keun 78
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Lim, Yeonhwa;Kim, Il-tae;Choi, Kyung-Jin;Hwang, Woon-Ha;Jeong, Jae-Hyeok;Lee, Hyeon-Seok;Yang, Seo-yeong;Lee, Chung-Keun 79
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Choe, Ye-Seul;Lee, Chae-Yeong;Lee, Hui-Du;Kim, Ik-Je;Hong, Seong-Taek;Kim, Jeong-Gon;U, Seon-Hui 81
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Cho, Hyeoun-Suk;Seo, Myung-Chul;Cho, Jung-Il;Kim, Jun-Hwan;Sang, Wan-gyu;Lee, Yoon Ho;Shin, Pyeong;Baek, Jaekyeong 82
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Lee, Hyeon-Seok;Lee, Chung-Geun;Hwang, Un-Ha;Jeong, Jae-Hyeok;Im, Yeon-Hwa;Yang, Seo-Yeong;O, Myeong-Gyu;Choe, Gyeong-Jin 84
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Lee, Chae Young;Choi, Ye Seul;Lee, Hee Du;Kim, Ik Jei;Hong, Seong Teak;Kim, Chung Kon;Woo, Sun Hee 86
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Choe, Myeong-Gu;Jeong, Jae-Hyeok;Choe, Gyeong-Jin;Lee, Chung-Geun;Hwang, Un-Ha;Lee, Hyeon-Seok;Yang, Seo-Yeong;Im, Yeon-Hwa 87
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Jeong, Jae-Hyeok;Hwang, Un-Ha;Lee, Hyeon-Seok;Yang, Seo-Yeong;Im, Yeon-Hwa;Choe, Myeong-Gu;Lee, Chung-Geun;Choe, Gyeong-Jin;Dakheel, Abdullah Al 92
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Oh, Yang Yeol;Kim, Sun;Gang, Yong-Gu;Ryu, Jin Hee;Lee, SuHwan;Jo, Hyun-Suk;Kang, Bang Hun;Lee, Jeong-Tae 94
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Yang, Seo-Yeong;Jeong, Jae-Hyeok;Im, Yeon-Hwa;Lee, Hyeon-Seok;Hwang, Un-Ha;Lee, Chung-Geun;Choe, Gyeong-Jin 95
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Han, Won-Yeong;Ryu, Jong-Su;Park, Jin-Gi;Won, Ok-Jae;Yun, Yeong-Ho;Han, Gil-Su;Jeong, Tae-Uk 100
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Lee, Yun-Ho;Sang, Wan-Gyu;Baek, Jae-Gyeong;Seo, Myeong-Cheol;Jo, Jeong-Il;Kim, Jun-Hwan;Sin, Pyeong;Gwon, Dong-Won 101
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Jeong, Geon-Ho;Lee, Jae-Eun;Kim, Seong-Guk;Kim, Seon-Rim;Jeon, Won-Tae;Sin, Su-Hyeon;Lee, Jin-Seok;Kim, Min-Tae 105
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Jo, Yun-Sang;Lee, Ji-U;Kim, Seong-Yong;Song, Yun-Ho;Jeong, Jae-Hwan;Lee, Hye-Ri;Go, Jae-Yeong;Park, Jeong-Hwa 106
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Kim, Min-Tae;Jeong, Geon-Ho;Sin, Su-Hyeon;Lee, Jae-Eun;Jeon, Won-Tae;Sim, Gang-Bo;Kim, Seong-Guk;Park, Jeong-Hwa 107
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Lee, Jae-Eun;Jeong, Geon-Ho;Sin, Su-Hyeon;Kim, Min-Tae;Jeon, Won-Tae;Kim, Seong-Guk;Yang, Jeong-Uk;U, Gwan-Sik 109
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Jo, Jeong-Il;Lee, Yun-Ho;Sang, Wan-Gyu;Seo, Myeong-Cheol;Kim, Jun-Hwan;Sin, Pyeong;Baek, Jae-Gyeong 116
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Ryu, Jong-Su;Yun, Yeong-Ho;Han, Gil-Su;Han, Won-Yeong;Park, Jin-Gi;Won, Ok-Jae;Lee, Sang-Hun 118
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Lee, Hyeon-Seok;Lee, Chung-Geun;Hwang, Un-Ha;Jeong, Jae-Hyeok;Im, Yeon-Hwa;Yang, Seo-Yeong;O, Myeong-Gyu;Choe, Gyeong-Jin 120
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Park, Hyang-Mi;Hyeon, Ung-Jo;An, Eok-Geun;Jeong, Guk-Hyeon;Jeong, Eung-Gi;Kim, Jeong-Ju;Won, Yong-Jae 121
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Kang, Chon-Sik;Yun, Young-Mi;Choi, Chang-Hyun;Son, Jae-Han;Park, Jin-Hee;Jeong, Han-Yong;Yang, Jin-Woo;Cheong, Young-Keun;Park, Tae-Il 122
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Kim, Yeong-Sang;Kim, Gi-Hyeon;Yun, Cheol-Gu;Lee, Gyeong-Ja;Kim, Ik-Je;Hong, Seong-Taek;Lee, Myeong-Hui 124
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Han, Won-Yeong;Ryu, Jong-Su;Park, Jin-Gi;Won, Ok-Jae;Yun, Yeong-Ho;Han, Gil-Su;Jeong, Tae-Uk 127
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Han, Won-Yeong;Ryu, Jong-Su;Park, Jin-Gi;Won, Ok-Jae;Yun, Yeong-Ho;Han, Gil-Su;Jeong, Tae-Uk 128
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Sin, Pyeong;Sang, Wan-Gyu;Baek, Jae-Gyeong;Lee, Yun-Ho;Gwon, Dong-Won;Kim, Jun-Hwan;Jo, Jeong-Il;Seo, Myeong-Cheol 129
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Kim, Yeong-Sang;Kim, Gi-Hyeon;Yun, Cheol-Gu;Lee, Gyeong-Ja;Kim, Ik-Je;Hong, Seong-Taek;Lee, Myeong-Hui 131
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Seo, Jeong-Hyeon;Gang, Beom-Gyu;Kim, Hyeon-Tae;O, Jae-Hyeon;Sin, Sang-Uk;Kim, Hong-Sik;Baek, In-Yeol 145
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Gang, Ju-Won;Lee, So-Myeong;Gwon, Yeong-Ho;Jo, Su-Min;Lee, Ji-Yun;Jo, Jun-Hyeon;Sin, Dong-Jin;Park, Dong-Su;Song, Yu-Cheon;Go, Jong-Min;Lee, Jong-Hui 147
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Analysis of Differentially Expressed Genes Between Leaves and Grain Tissues of Three Wheat CultivarsWheat is a very important crop as a food source worldwide, but gluten in wheat causes a variety of allergic reactions. Previous studies have developed
${\omega}-5$ gliadin deleted O-free, known as the central antigen of WDEIA (wheat-dependent exercise-induced anaphylaxis). In this study, we performed RNA sequencing on the grains and leaves of the allergic-reduced species O-free and their cultivars, Keumkang and Olgeuru, to analyze differentially expressed genes (DEG) based on different cultivars and tissues. Tissues of all species were biologically repeated three times. We used bowtie2 version 2.3.5.1 to get sequence data from RNAseq and used cufflinks and Tophat programs to find DEG. When comparing leaf and grain tissues, a total of 1,244 DEGs were found in the leaf tissues while only 563 DEGs were found in the grain tissues. As a result of gene ontology analysis of differentially expressed genes, the leaf tissues were mostly included in the "catalytic activity" part of molecular function, "metabolic process" part of biological process, and "membrane" part of cell component. The grain tissues were mostly included in the "metabolic process" part of biological process, "binding" and "catalytic activity" part of molecular function, and "membrane, cell, cell part" parts of cell component. Based on these results, we present information on the differentially expressed genes of the three cultivars of leaves and grains. This study could be an important basis for studying the characteriztion of O-free. -
Choi, Jang Gyu;Cho, Ji Hong;Chang, Dong Chil;Im, Ju Sung;Park, Hyun Jin;Seo, Jin Hui;Lee, Gyu Bin;Choen, Chung Ki;Cho, Kwang Soo;Cho, Seung Ho;Park, Mi Kyung;Hwang, Song Yeon;Lee, Soon-Ae;Park, Yeong Eun 149
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Rauf, Muhammad;Choi, Yu-Mi;Lee, Sukyeung;Shin, Myoung-Jae;Lee, Myung-Chul;Oh, Sejong;Yoon, Hyemyeong 150
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Choi, Jang Gyu;Cho, Ji Hong;Chang, Dong Chil;Im, Ju Sung;Park, Hyun Jin;Seo, Jin Hui;Lee, Gyu bin;Choen, Chung Ki;Cho, Kwang Soo;Cho, Seung Ho;Park, Mi Kyung;Hwang, Song Yeon;Lee, Soon-Ae;Park, Yeong Eun 152
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Ahn, Hong-Il;Bae, Seon-Hwa;Lee, Ye-Ji;Lee, Myoung-Hee;Lee, Jeong-Hee;Lee, Keunpyo;Kim, Tae-Ho 157
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Dhungana, Sanjeev Kumar;Kim, Hong-Sik;Kang, Beom-Kyu;Seo, Jeong-Hyun;Kim, Hyun-Tae;Shin, Sang-Ouk;Oh, Jae-Hyeon;Baek, In-Youl;Kwak, Do-Yeon 158
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Bae, Seon-Hwa;Ahn, Hong-Il;Lee, Ye-Ji;Lee, Myoung-Hee;Lee, Jeong-Hee;Lee, Keunpyo;Lee, Jundae;Kim, Tae-Ho 159
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Kim, Gyutae;Seo, Eunju;Kang, Ryulyi;Park, Aron;Choi, Jooyeong;Sun, Hokeun;Jun, Tae-Hwan;Ha, Bo-Keun 160
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Jin, Mina;Kim, Sung Up;Chun, JaeBuhm;Kim, Dool-Yi;Choi, Man-Soo;Seo, Mi-Suk;Jeong, Namhee;Cho, Chuloh 161
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Choi, Sang-Heon;Roy, Swapan Kumar;Kwon, Ku-Hyun;Choi, Ju-Young;Kwon, Soo-Jeong;Chun, Hyen-Chung;Cho, Seong-Woo;Kim, Ju-Ho;Cho, Yong-Gu;Woo, Sun-Hee 170
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Kang, Ji-Nam;Seo, Mi-Suk;Kim, Jung Sun;Won, So Youn;Lee, Jeongyeo;Kim, Hye-Ran;Kwon, Soo-Jin 171
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Kwon, Youngho;Jo, Sumin;Lee, Ji-Yoon;Jo, Jun-Hyeon;Lee, Sais-Beul;Kim, Taehun;Kang, Joowon;Ko, Jongmin;Lee, Jong-Hee;park, Dong-Soo 172
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Transcriptomic Profiling of Sorghum Leaves Responsive to Waterlogging Stress at the Vegetative StageKwon, Ku-Hyun;Choi, Sang-Heon;Lee, Dong-Gyu;Roy, Swapan Kumar;Kwon, Soo-Jeong;Chun, Hyen-Chung;Kim, Joo-Ho;Cho, Sung-Woo;Woo, Sun-Hee 173
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Lee, Ji-Yun;Jo, Jun-Hyeon;Lee, Jong-Hui;Park, No-Bong;Park, Dong-Su;Park, Byeong-Myeong;O, In-Yeo;Jo, Su-Min;Song, Yu-Cheon;Go, Jong-Min 175
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Choi, Changhyun;Kang, Chon-Sik;Kim, Kyung-Hoon;Yun, Young-Mi;Jeong, Han-Yong;Kim, Young-Jin;Cheong, Young-Keun;Park, Tae-Il 177
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Kang, Seong-Wook;Kim, Gyeong-Min;Gang, Cheon-Sik;Chun, JaeBuhm;Cho, Seong-Woo;Park, Chul Soo 178
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Lee, So-Myeong;Kang, Ju-Won;Lee, Jong-Hee;Jo, Jun-Hyeon;Shin, Dong-Jin;Cha, Jin-Kyeong;Koh, Jong-Min 184
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Son, Jae-Han;Kang, Chon-Sik;Choi, Chang-Hyun;Kim, Kyeong-Hoon;Kim, Kyeong-Min;Cheong, Young-Keun;Park, Tae-Il 185
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Kim, Kyeong-Min;Park, Jong-Ho;Kang, Chon-Sick;Kim, Kyeong-Hoon;Choi, Chang-Hyun;Park, Jinhee;Jeong, Han-young;Kim, Young-Jin;Cheong, Young-Keun;Park, Tae-Il 187
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Won, Yong-Jae;Hyeon, Ung-Jo;An, Eok-Geun;Jeong, Guk-Hyeon;Kim, Seong-Guk;Park, Hyang-Mi;Jeong, Eung-Gi 189
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Bae, Hwan-Hui;Gwon, Yeong-Sang;Son, Beom-Yeong;Kim, Jeong-Tae;Go, Yeong-Sam;Kim, Seon-Rim;Baek, Seong-Beom;Sin, Seong-Hyu;Kim, Sang-Gon 190
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Kim, Jin-Hui;Jeong, Jong-Min;Kim, Seok-Man;Mo, Yeong-Jun;Kim, U-Jae;Ha, Su-Gyeong;Kim, Bo-Gyeong;Jeong, Ji-Ung 192
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Ryu, Si Hwan;Kim, Moon Jong;Namgung, Min;Han, Jeong Heon;Choi, Jae Keun;Choi, Seungchul;Park, Jong Yeon;Ham, Jin Kwan 194
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An, Eok-Geun;Won, Yong-Jae;Jeong, Eung-Gi;Park, Hyang-Mi;Jeong, Guk-Hyeon;Hyeon, Ung-Jo;Seong, Nak-Sik;Kim, Byeong-Ju 195
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Lee, Chang-Min;Seo, Jeong-Pil;Park, Hyeon-Su;Baek, Man-Gi;Lee, Geon-Mi;Park, Seul-Gi;Kim, Chun-Song;Jo, Yeong-Chan 196
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Gang, Beom-Gyu;Seo, Jeong-Hyeon;O, Jae-Hyeon;Kim, Hyeon-Tae;Kim, Hong-Sik;Choe, Man-Su;;Sin, Sang-Uk;Baek, In-Yeol;Lee, Jeong-Dong;Gwak, Do-Yeon 197
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Gang, Beom-Gyu;Seo, Jeong-Hyeon;O, Jae-Hyeon;Kim, Hyeon-Tae;Kim, Hong-Sik;Choe, Man-Su;;Sin, Sang-Uk;Baek, In-Yeol;Gwak, Do-Yeon 198
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Lee, Su-Gyeong;Jo, Gyu-Taek;Hyeon, Do-Yun;Kim, Seong-Hun;Kim, Gyeong-Hwan;Baek, Jeong-Ho;Lee, Eun-Gyeong 201
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Kwon, Chang;Kim, So-Yeon;Yang, Yu-Jin;Ahmed, Md Faruk;Hasan, Md Rahimul;Shamsuzzaman, Md;Kim, Seung-Hyun;Chung, Ill-Min 208
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Cho, Jun Hyeon;Lee, Ji Yoon;Seo, Woo Duck;Jo, Su Min;Kwon, Young Ho;Lee, So Myeong;Kang, Ju Won;Kim, Tae Heon;Lee, Sais Beul;Lee, Jong Hee;Park, Dong Soo;Song, You Chun;Ko, Jong Min 209
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Lee, Mi Ja;Kim, Hyun Young;Park, Song Yi;Lee, Hyun Jin;Lee, Kwang Sik;Ham, Hyeon Mi;Seo, Woo Duck 210
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Im, Ju Sung;Kim, Mee Ok;Park, Yeong Eun;Cho, Ji Hong;Chang, Dong Chil;Choi, Jang Gyu;Cheun, Chung Gi;Park, Hyun Jin;Seo, Jin Hee;Lee, Gyu Bean;Lee, Jong Nam;Cho, Gwang Soo;Cho, Seong Ho 211
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Kim, Min Young;Kim, Hyun-Joo;Lee, Yu-Young;Kim, Mi Hyang;Lee, Jin Young;Lee, Byoungkyu;Lee, Byong Won 212
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Yu, Gyeong-Dan;Hwang, Um-Ji;Lee, Seungyong;Park, Jin Cheon;Lee, Hyeong-Un;Goh, San;Lee, Im Bin;Nam, Sang-Sik;Chung, Mi-Nam;Han, Seon-Kyeong 213
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Yu, Gyeong-Dan;Hwang, Um-Ji;Lee, Seungyong;Park, Jin Cheon;Lee, Hyeong-Un;Goh, San;Lee, Im Bin;Nam, Sang-Sik;Chung, Mi-Nam;Han, Seon-Kyeong 214
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Kang, Chon-Sik;Yun, Young-Mi;Choi, Chang-Hyun;Son, Jae-Han;Lee, Jong-Yeol;Jeong, Han-Yong;Kim, Young-Jin;Cheong, Young-Keun;Park, Tae-Il 215
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Lee, Byeong-Won;Kim, Min-Yeong;Kim, Hyeon-Ju;Kim, Mi-Hyang;Lee, Jin-Yeong;Lee, Yu-Yeong;Lee, Byeong-Gyu 217
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Gwak, Ji-Eun;Lee, Jae-Seong;Yun, Mi-Ra;Lee, Jeom-Sik;Hay, Fiona R.;Kim, Mi-Jeong;Park, Hye-Yeong;Sim, Eun-Yeong;Cheon, A-Reum;Jeon, Yong-Hui;Lee, Chun-Gi 218
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Kang, Chon-Sik;Son, Jae-Han;Kim, Kyeong-Hoon;Park, Jin-Hee;Yun, Young-Mi;Choi, Chang-Hyun;Kim, Kyeong-Min;Cheong, Young-Keun 220
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Son, Yu-Rim;Park, Hyeong-Ho;Lee, Byeong-Gyu;Lee, Byeong-Won;Kim, Mi-Hyang;Kim, Hyeon-Ju;Lee, Jin-Yeong;Lee, Yu-Yeong 222
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Kim, Mi-Hyang;Lee, Byeong-Won;Lee, Yu-Yeong;Kim, Min-Yeong;Lee, Byeong-Gyu;Kim, Hyeon-Ju;Lee, Jin-Yeong 223
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Lee, Jin-Yeong;Kim, Hyeon-Ju;Lee, Byeong-Won;Choe, Myeong-Eun;Kim, Min-Yeong;Kim, Mi-Hyang;Lee, Yu-Yeong;Lee, Byeong-Gyu 225
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Sin, Dong-Seon;Kim, Nam-Geol;Choe, In-Deok;Choe, Hye-Seon;Park, Ji-Yeong;Lee, Seok-Gi;Park, Jang-Hwan 226
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Choe, Jae-Geun;Park, Jong-Yeol;Ryu, Si-Hwan;Choe, Seung-Chul;Nam, Gung-Min;Kim, Mun-Jong;Han, Jeong-Heon;Yong, U-Sik;Nam, Gyeong-Nam;Seo, In-Seok;Ham, Jin-Gwan 227
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Hyun, Do Yoon;Lee, Kyung Jun;Cho, Gyu-Taek;Lee, Jung-Ro;Sebastin, Raveendar;Kim, Seong-Hoon;Lee, Sookyeong 228
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