http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Sohn, Hwang-Bae,Lee, Han-Yong,Seo, Ju-Seok,Jung, Choon-Kyun,Jeon, Jae-Heung,Kim, Jeong-Han,Lee, Yin-Won,Lee, Jong-Seob,Cheong, Jong-Joo,Choi, Yang-Do The Korean Society of Plant Biotechnology 2011 Plant biotechnology reports Vol.5 No.1
Jasmonates control diverse plant developmental processes, such as seed germination, flower, fruit and seed development, senescence and tuberization in potato. To understand the role of methyl jasmonate (MeJA) in potato tuberization, the Arabidopsis JMT gene encoding jasmonic acid carboxyl methyltransferase was constitutively overexpressed in transgenic potato plants. Increases in tuber yield and size as well as in vitro tuberization frequency were observed in transgenic plants. These were correlated with JMT mRNA level-- the higher expression level, the higher the tuber yield and size. The levels of jasmonic acid (JA), MeJA and tuberonic acid (TA) were also higher than those in control plants. Transgenic plants also exhibited higher expression of jasmonate-responsive genes such as those for allene oxide cyclase (AOC) and proteinase inhibitor II (PINII). These results indicate that JMT overexpression induces jasmonate biosynthesis genes and thus JA and TA pools in transgenic potatoes. This results in enhanced tuber yield and size in transgenic potato plants.
Glycoalkaloids content in tuber peel and cortex of 24 potato cultivars of Korea
Hwang-Bae Sohn,Su-Jeong Kim,Yu-Young Lee,Hyang-Mi Park,Manjulatha Mekapogu,Su-Young Hong,Jeong-Hwan Nam,Jin-Cheol Jeong,Kibum Kweon,Yul-Ho Kim 한국육종학회 2015 한국육종학회 심포지엄 Vol.2015 No.07
Potato glycoalkaloids(PGAs) are potentially toxic to humans at high levels and current safety regulations have recommended that PGAs content in tubers of potato cultivars should not exceed 20 mg/100g·FW. Accordingly, it is important to determine the PGAs composition and levels on potato cultivars for food safty and the breeding for new cultivars with low levels of PGAs. The main aim of this study was to evaluate α-chaconine, α-solanine and total PGAs content in the peel and cortex portions in 24 cultivars including ‘Haryoung’, ‘Goun’, ‘Hongyoung’ and ‘Jayoung’, recently released by Highland Agricultural Research Institute. The total PGAs ranged from 3.1 to 10.1 mg/100g·FW. 75-94% of total PGAs was existed in the peel part of all cultivars. We selected two cultivars, which can be eaten wth the skin on tubers, and so used for soy sauce braised potatoes and baby potatoes for the rest area. These results will provide consumers and breeders with fundamental information about the content of PGAs in Korea major cultivars.
국내 감자 24품종의 괴경내 글리코알칼로이드(glycoalkaloids) 함량 분포
손황배(Hwang-Bae Sohn),김수정(Su-Jeong Kim),이유영(Yu-Young Lee),박향미(Hyang-Mi Park),메카포구 만줄라타(Manjulatha Mekapogu),장동칠(Dong-Chil Chang),홍수영(Su-Young Hong),남정환(Jeong-Hwan Nam),서종택(Jong-Taek Suh),권기범(Ki-Bum Kweo 한국육종학회 2015 한국육종학회지 Vol.47 No.4
Potato glycoalkaloids (PGA) are potentially toxic to human at high levels and current safety regulations have recommended that PGA content in tubers should not exceed 20 mg/100g·FW. The purpose of this study was to evaluate α-chaconine, α-solanine and total PGA content in tuber peel and flesh of 24 potato cultivars including ‘Haryeoung’, ‘Goun’, ‘Hongyoung’ and ‘Jayoung’. The total PGA ranged from 3.1 to 10.1 mg/100g·FW and 41-85% of total PGA was accumulated in tuber peel in all cultivars. Potato cultivars with lower level of PGA were ‘Jasim’ (3.1 mg/100g·FW) and ‘Goun’ (3.4mg/100g·FW), whereas ‘Haryoung’ exhibited the highest level of PGA, 10.1 mg/100g·FW. Especially ‘Jasim’ and ‘Goun’ with the lower level of PGA can be consumed along with the peel on tubers. Also, these results provide the composition and levels of PGA in various potato cultivars for food safety and breeding of new cultivars with low levels of PGA for potato breeders and farmers.
Light induced expression of key genes for glycoalkaloid accumulation in potato
Manjulatha M,Hwang-Bae Sohn,Kwang-Soo Cho,Oh-Keun Kwon,Jin-Cheol Jeong 한국육종학회 2013 한국육종학회 심포지엄 Vol.2013 No.07
Glycoalkaloids are a family of toxic secondary metabolites present in the plants of solanaceae family, which serve for plant defense. Two major glycoalkaloids present in plants are a-solanine and a-chaconine. The upper safe limit of glycoalkaloids for human consumption is 20mg/KG FW and its excess may cause severe health disorders. Light is the major factor known to increase the glycoalkaloid content in post harvest potato tuber. Glycoalkaloid pathway is not completely understood. Hence, identification and characterization of SGA biosynthetic genes and the genetic factors that control their expression levels assumes significance. Present investigation was focused on the study of expression pattern of key genes in steroidal glycoalkaloidal pathway under various light qualities in potato (Solanum tuberosum L). Two potato cultivars Atlantic and Haryeong which accumulates low and high glycoalkaloids respectively were used to check the levels of gene expression under various light qualities viz., red, blue, white, green, yellow, purple, UV light and in dark at different time intervals. Expression of three genes viz., SGT1, SGT2 and SGT3 which are directly involved and four other genes, HMG1, SQS1, SMT1 and SMT2 in the pathway envisaged to be indirectly involved in the glycoalkaloid formation was quantified by RT PCR. Varietal variation in the expression among the genes was observed in different light qualities. White, red and green light compared to other light qualities majorly contributed for the increased expression of genes for glycoalkaloid accumulation at different time intervals. Importantly, there is no significant transcript accumulation of these genes in dark condition. However, more efforts would be extended for further understanding of glycoalkaloid accumulation under light.
Drought stress induced expression of key genes for glycoalkaloid accumulation in potato
Manjulatha M,Hwang Bae Sohn,Kwangsoo Cho,Yulho Kim,Yong-Ik Jin,Oh-Keun Kwon,Jin Cheol Jeong 한국육종학회 2014 한국육종학회 심포지엄 Vol.2014 No.07
Steroidal glycoalkaloids which serve the plant defense, are toxic secondary metabolites present in the plants of solanaceae family. The upper safe limit of glycoalkaloids for human consumption is 20mg/KG FW, excess of which may cause severe health disorders. Several factors like drought, high temperature, light exposure, and wounding increase tuber glycoalkaloid content. Among these, drought is an important factor which causes a rapid increase in potato glycoalkaloid content. Glycoalkaloid biosynthetic genes and their expression pattern need to be characterized to regulate the glycoalkaloid accumulation. Three key genes SGT1, SGT2 and SGT3 are demonstrated to be directly participated in the biosynthetic pathway for glycoalkaloid formation. Present study was focused on the study of expression pattern of key genes in GA pathway under drought stress in two different potato cultivars Atlantic and Haryoung which are low and high glycoalkaloid accumulating respectively. Drought stress was imposed by withholding water to the plants grown in pots and control plants kept irrigated. Expression analysis of SGT1, SGT2 and SGT3 was done from the leaf and tuber sample of three time intervals i.e 5, 10 and 20 days after imposing stress. Variation in the expression level of genes was observed in leaf and tuber where the fold increase in expression over control was higher in tuber sample compared to leaf. Expression levels also varied in leaf and tuber among two cultivars. However, expression of SGT1, SGT2 and SGT3 is significant indicating the involvement of these genes in glycoalkaloid accumulation under drought stress.
Breeding of New Ever-bearing Strawberry “Doha” Variety
Jong Nam Lee(Jong Nam Lee),Jong Taek Suh(Jong Taek Suh),Su Jeong Kim(Su Jeong Kim),Hwang Bae Sohn(Hwang Bae Sohn),Do Yeon Kim(Do Yeon Kim),Jung Hwan Nam(Jung Hwan Nam) 한국자원식물학회 2022 한국자원식물학회지 Vol.35 No.6
“Doha” is a new strawberry (Fragaria x ananassa Duch.) variety, which was released by the Highland Agriculture Research Institute in 2021. The “Doha” variety originates from a 2014 cross between “Saebong No. 3” and “Yeolha,” both of which exhibited excellent ever-bearing characteristics, including continuous flowering and large fruits under long-day and high temperature conditions. This new cultivar was initially named “Saebong No. 13” after examining its characteristics and productivity during summer cultivation between 2015 and 2018. After regional adaptability tests, “Doha” was selected from “Saebong No. 13” as an elite cultivar. The general characteristics of “Doha” include spreading, elliptic leaves, and strong growth. The fruits are long and conical and of a red color. The plant height of “Doha” was similar to that of “Goha,” but the number of leaves was lower. The number of flower clusters of “Doha” was 8.6, which was 2.8 fewer than that of the control variety, “Goha,” with 11.4. The average fruit weight of “Doha” was 13.9 g, which was 4.9 g heavier than that of “Goha.” The fruit hardness of “Doha” was 35.5 g·㎜−2, which was 9.4 g·㎜−2 harder than that of “Goha.” The marketable yield of “Doha” was 26,971 ㎏·㏊−1, 125% more than that of “Goha” with 21,479 ㎏·㏊−1. The findings of this study suggest that “Doha” is a hard fruit and high-yielding variety of ever-bearing strawberries that could increase farming income when distributing to farmers.
AKR2A-mediated import of chloroplast outer membrane proteins is essential for chloroplast biogenesis
Bae, Wonsil,Lee, Yong Jik,Kim, Dae Heon,Lee, Junho,Kim, Soojin,Sohn, Eun Ju,Hwang, Inhwan Nature Publishing Group 2008 Nature cell biology Vol.10 No.2
In plant cells, chloroplasts have essential roles in many biochemical reactions and physiological responses. Chloroplasts require numerous protein components, but only a fraction of these proteins are encoded by the chloroplast genome. Instead, most are encoded by the nuclear genome and imported into chloroplasts from the cytoplasm post-translationally. Membrane proteins located in the chloroplast outer envelope membrane (OEM) have a critical function in the import of proteins into the chloroplast. However, the biogenesis of chloroplast OEM proteins remains poorly understood. Here, we report that an Arabidopsis ankyrin repeat protein, AKR2A, plays an essential role in the biogenesis of the chloroplast OEM proteins. AKR2A binds to chloroplast OEM protein targeting signals, as well as to chloroplasts. It also displays chaperone activity towards chloroplast OEM proteins, and facilitates the targeting of OEP7 to chloroplasts in vitro. AKR2A RNAi in plants with an akr2b knockout background showed greatly reduced levels of chloroplast proteins, including OEM proteins, and chloroplast biogenesis was also defective. Thus, AKR2A functions as a cytosolic mediator for sorting and targeting of nascent chloroplast OEM proteins to the chloroplast.