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한상은,김현희,허권 한국식물분류학회 2013 식물 분류학회지 Vol.43 No.2
This study was carried out to determine the karyotype and chromosomal localizations of 45S and 5S rDNAs using FISH in Astragalus koraiensis. The somatic metaphase chromosome number of this species was 2n = 16 with basic chromosome number of x = 8. The karyotype of A. koraiensis was consisted of six pairs of median region chromosomes(chromosome 1, 3, 4, 5, 6, 8) and two pairs of submedian chromosomes(chromosome 2, 7). Based on the FISH, one pair of 45S rDNA site was detected on the centromeric region of chromosome 5. Whereas, two pair of 5S sites were detected on the short arm of chromosome 4 and centromeric region of chromosome 7, respectively. These are quite different patterns from A. membranaceus, A. membranaceus var. alpinus, and A. mongholicus. Although A. koraiensis is considered as Korean endemic species, therefore, it should be conducted out comparative FISH study with A. sikokianus and A. bhotanensis which are very similar to A. koraiensis morphologically. 국내에 자생하는 황기속(Astragalus L.) 식물인 정선황기(A. koraiensis)의 핵형을 분석하고, 5S 및 45S rDNA 유전자를 이용한 FISH 실험에 기초하여 세포유전학적 연구를 수행하였다. 핵형 분석 결과, 정선황기의 체세포 염색체수는 2n = 16으로, 기본 염색체수는 x = 8임을 확인하였다. 염색체 조성은 6쌍의 중부염색체(염색체 1, 3, 4, 5, 6, 8)와 2쌍의 차중부염색체(염색체 2, 7)로 구성되었다. 정선황기의 염색체상에서의 FISH 결과, 1쌍의 45S rDNA signal이 5번 염색체의 동원체 부위에서 관찰되었고, 2쌍의 5S rDNA signal이 4번 염색체의 단완 말단부위와 7번 염색체의 동원체 부위에서 관찰되었다. 이는 기존의 황기 및 제주황기, 몽골황기(A. mongholicus) 와는 전혀 다른 FISH 패턴을 보이고 있어 정선황기가 고유종임을 암시하지만, 형태학적으로 유사한 갯황기(A. sikokianus) 및 A. bhotanensis 와의 비교연구를 수행하여 정확한 분류학적 처리가 이루어져야 할 것이다.
陽이온 交換樹脂를 利用한 金屬觸媒들의 合成과 活性度比較에 관한 硏究
한상은,김형강 숙명여자대학교 1984 藥硏 Vol.15 No.-
The preparation of the metallic chloride copolymer complexes have been achieved by the incorporation of AlCl_3, SbCl_5, FeCl_3, SnCl_4 and ZnCl_2 with cation exchange resin in the carbon disulfide solvent. The metal contents of the metallic chloride copolymer complexes have been analyzed by the visible spectrophotometer. The catalytic activity for esterification is discussed. The resynthesis of the used ferric chloride copolymer complex and the application are also studied.
SCAR 마커 개발 및 이를 활용한 국내 육성 복숭아 품종 판별
한상은,조강희,남은영,신일섭,김정희,김현란,김대현 한국육종학회 2010 한국육종학회지 Vol.42 No.5
복숭아의 기원은 중국으로 알려져 있으며, 저장기간이 짧아 소비자들의 선호도가 낮았다. 이런 이유로 육종가들은 저장성을 높이는 것과 향과 맛을 좋게 하는데 육종 목표를 설정했으며, 국립원예특작과학원 육종가들은 이 목표에 따라 새로운 품종(‘천홍’, ‘수홍’, ‘하홍’, ‘유명’, ‘백미조생’, ‘천향’, ‘진미’, ‘수미’, ‘미스홍’, ‘유미’)을 육성하였다. 국립원예특작과학원 과수과에서는 육성 품종의 보호와 특허권을 확보하기 위해 분자생물학적 마커의 Peaches (Prunus persica) are less popular than the fresh fruits, because their flesh gets soft faster. So many breeders focused on their aim to firmness. Other breeders focused on juiciness, flavor and aroma. Breeding requires much labor, time and money. To reduce these requirements, many scientists develop many SSR, CAPS and SCAR makers. New peach varieties bred in our National Institute of Horticultural & Herbal Science (NIHHS) such as, Cheonhong, Suhong and Harhong are yellow flesh cultivars and Yumyeong, Baekmijosaeng, Baekhyang, Jinmi, Soomee, Mihong, Misshong and Yumee are white flesh cultivars. These peach cultivars are planted in orchard of Korea. To assert breeding cultivar patents and prevent patent disputes, we detected cultivar-specific DNA fragment using 235 sets of Operon RAPD primers, analyzed 134 DNA sequences and constructed SCAR primers. To confirm the cultivar-specific SCAR markers, we applied candidate SCAR primers to 30 peach cultivars widely cultivated in Korea. These selected lines are included father and mother lines that were used to develop new varieties in NIHHS. Using fourteen SCAR primer sets, we characterized thirty cultivars selected. The SCAR marker is expected to serve as molecular evidence distinguishing different peach varieties.
한상은,조규성,이세병 한국원자력학회 2017 Nuclear Engineering and Technology Vol.49 No.4
The purpose of this study is to assess the additional neutron effective dose during passivescattering proton therapy. Monte Carlo code (Monte Carlo N-Particle 6) simulation wasconducted based on a precise modeling of the National Cancer Center's proton therapyfacility. A three-dimensional neutron effective dose profile of the interior of the treatmentroom was acquired via a computer simulation of the 217.8-MeV proton beam. Measurementswere taken with a 3He neutron detector to support the simulation results, whichwere lower than the simulation results by 16% on average. The secondary photon dose wasabout 0.8% of the neutron dose. The dominant neutron source was deduced based on fluxcalculation. The secondary neutron effective dose per proton absorbed dose ranged from4.942 ± 0.031 mSv/Gy at the end of the field to 0.324 ± 0.006 mSv/Gy at 150 cm in axialdistance.