• 한국육종학회지
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• 제41권4호
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• pp.539-542
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• 2009

A new gerbera variety "Pink Swan" was released by the National Horticultural Research Institute (NHRI) in 2007. A cross was made between "Royal" with orange and single and 'Himalaya' with white and semi-double in 2004. After investigation of the characteristics for 4 years (from 2004 to 2007), it was selected specially for the use of cut-flower. "Pink Swan" is a vigorous medium-sized cultivar with pink (RHS R48D), yellow green center and semi-double. The average flower diameter is 10.6 cm. And inner ray floret and disc diameter is 5.99cm and 1.83cm, respectively. It produces a large yield with continuous supply of flowers and has adequate peduncle height. We believe that "Pink Swan" has a great potential for expanding cultivated area of domestic gerbera cultivar and increasing farmers-income.

• Molecules and Cells
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• 제23권2호
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• pp.192-197
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• 2007

Bulb color in onions (Allium cepa) is an important trait whose complex inheritance mechanism involves epistatic interactions among major color-related loci. Recent studies revealed that inactivation of dihydroflavonol 4-reductase (DFR) in the anthocyanin synthesis pathway was responsible for the color differences between yellow and red onions, and two recessive alleles of the anthocyanidin synthase (ANS) gene were responsible for a pink bulb color. Based on mutations in the recessive alleles of these two genes, PCR-based markers for allelic selection were developed. In this study, genotype analysis of onions from segregating populations was carried out using these PCR-based markers. Segregating populations were derived from the cross between yellow and red onions. Five yellow and thirteen pink bulbs from one segregating breeding line were genotyped for the two genes. Four pink bulbs were heterozygous for the DFR gene, which explains the continuous segregation of yellow and pink colors in this line. Most pink onions were homozygous recessive for the ANS gene, except for two heterozygotes. This finding indicated that the homozygous recessive ANS gene was primarily responsible for the pink color in this line. The two pink onions, heterozygous for the ANS gene, were also heterozygous for the DFR gene, which indicated that the pink color was produced by incomplete dominance of a red color gene over that of yellow. One pink line and six other segregating breeding lines were also analyzed. The genotyping results matched perfectly with phenotypic color segregation.

• 한국의류학회지
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• 제36권7호
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• pp.767-777
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• 2012

This study analyzed the system and arguments on the light-pink official uniforms and investigated the backgrounds and principles on the changes of the Sibok system. A study on light-pink danryeong in the latter part of the Joseon Dynasty is a de facto study on Sibok since the name of the light-pink official uniforms (implemented at the time of King Seonjo) changed from Sangbok to Sibok. Sangbok is discussed to explain the name change from Sangbok to Sibok and distinguish their usages; in addition, Gongbok is examined to understand the characteristics of the Sibok system. The Annals of the Joseon Dynasty (books written by scholars) and related laws are used as research materials. The research results are as follows. The name of the light-pink uniforms (a custom before the Japanese invasion in 1592) changed from Sangbok to Sibok at the time of King Gwanghaegun and the light-pink uniform was used as a relatively light formal uniform compared to Sangbok. Sibok was added to the law Sok-dae-jeon at the time of King Yeongjo (because the king respected the custom) and its color rank system was denoted from light-pink and red. Sibok was revised to light-pink, blue, and green under the law Dae-jeon-tong-pyeon that was promulgated at time of King Jeongjo. In the development of the Sibok system in the latter part of the Joseon Dynasty, the color rank system of Gongbok was reflected. The sovereign ideas in the official uniforms in the latter part of the Joseon Dynasty (revealed in the study of the system and arguments on the light-pink official uniforms) were the thoughts that respected the custom and the principles that distinguish ranks to establish a Confucian based hierarchy.

• 원예과학기술지
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• 제32권6호
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• pp.906-911
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• 2014

'Uridream Pink'는 감마선 조사에 의해 의해 발생된 돌연변이에 의해 육성된 금계국속 신품종이다. 우리꽃 종묘에서 자체 육성한 품종인 'Uridream 01'의 발근된 삽수를 대상으로, 2009년 한국원자력연구원에서 다양한 선량의 $^{60}CO$ 감마선을 24시간동안 처리하였다. 10-100Gy 처리 중 30Gy에서 발생된 돌연변이체의 화색은 파스텔 분홍색으로 주로 적자색을 띄는 'Uridream 01'(Red-purple group, 59A)과 차이가 있었다. 2009년부터 2010년까지 변형된 분홍 화색의 변이체를 분리, 삽목을 통해 3회 이상 진행, 고정하였다. 분리 육성된 변형된 분홍 화색의 변이체는 기존의 품종에 비해 상품성 있는 색상을 띄며, 이형주의 발생이 없는 것으로 평가되었다. 꽃의 주된 색은 파스텔 분홍(Red-purple group, 67B)을 띄기에 'Uridream Pink'로 명명하고 국립종자원에 신품종 등록되었다(품종보호: 제4410호). 본 신품종은 화기 및 잎 등이 'Uridream 01'보다는 작지만 다화성이다. 또한 개화기간이 늦은 봄에서 늦가을까지 길어 분화 재배뿐만 아니라 노지 재배도 가능하다.

• 한국육종학회지
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• 제43권3호
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• pp.214-217
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• 2011

농촌진흥청 국립원예특작과학원에서는 2008년 연분홍색 겹꽃 프리지아 신품종 육성을 위한 목적으로 2003년에 'Michelle'과 'Rossini' 조합의 실생계통 'Pink Jewel'과 'Purple Rain' 품종을 교배하여 연분홍색 겹꽃, 동시개화성 품종 'Pink Ribbon'을 개발하였다. 2003년 2월 교배하여 종자를 획득하였으며, 실생으로부터 파종 7개월 후 화색이 선명한 연분홍색 겹꽃 동시개화성 우수개체를 1차로 선발하였다. 2004년부터 2007년까지 4년에 걸쳐 생육특성 및 수량 검정을 실시하였으며 안정성, 균일성, 초세, 절화수명, 및 구근 증식력이 우수하다고 판단되어 2008년 농작물 직무육성 신품종선정위원회의 심의를 거쳐 'Pink Ribbon'으로 명명하였다. 'Pink Ribbon'는 연분홍색 (RHS, RP74C) 동시개화성 겹꽃 품종이다. 화형이 매우 안정되어 있고 초세가 강하며 잎과 꽃대가 직립하는 성질을 갖고 있다. 절화 수확량은 평균 7.7개로 매우 많고 개화소요 일수는 대비품종에 비해 다소 빠르다. 구근 증식량이 많으며 국내 시설재배 환경에 적합한 품종이다.

• 자원환경지질
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• 제29권3호
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• pp.293-304
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• 1996

The Wolchul Mt. area is composed of a biotite granite and a pink feldspar granite. These granites are distinctly different in terms of their field occurrence, mineralogy, trace element and REE composition, as well as their isotope ages. The biotite granite has higher ferromagnesian elements and lower lithophile trace element abundances than the pink feldspar granite. The biotite granite has high Sr and Ba while the pink feldspar granite has high Rb. On the Rb-Sr-Ba diagram the biotite granite plots as a granodiorite while the pink feldspar granite belongs to a strongly differentiated granite. The ${\Sigma}$ LREE/ ${\Sigma}$ REE for the biotite granite is 0.95 and for the pink feldspar granite it is 0.88. The ratio shows a steep decrese in LREE while HREE is essentially constant. Based on the Eu/Sm, $[La/Lu]_{cN}$ and low Eu(-), the biotite granite has quartz diorite to granodiorite composition while the pink feldspar granite, with a relatively high Eu(-) anomaly, falls into the monzo- to syenogranite classification. The silica vs. trace element diagrams for the two granites indicate that the biotite granite could have formed near to a continental margin or volcanic island setting environment while the pink feldspar granite formed within a continental plate or as result of plate collision. The biotite granite has a U-Pb zircon age of 175 Ma, i.e. Middle Jurassic. The pink feldspar granite is younger, it has a K-Ar orthoclase age $93.6{\pm}1.5$ Ma which is Late Cretaceous age.

• 한국육종학회지
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• 제43권3호
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• pp.206-209
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• 2011

농촌진흥청 국립원예특작과학원에서는 2006년 밝은 녹심의 백색 반겹꽃 'Himalaya'와 초세가 강건한 흑심의 파스텔 크림색 홑꽃 'Vital'을 교배하여 얻은 실생계통으로부터 2006년부터 2009년까지 4년 동안의 생육특성검정을 거쳐 화색이 밝고 선명하며 초세가 강건한 밝은 녹심의 파스텔톤 분홍색(RHS R48B) 반겹꽃 절화용 거베라 신품종 'Noble Pink'를 육성 하였다. 꽃의 직경은 11.8 cm인 대륜계통이며, 내화경과 화심장이 각각 4,77 cm와 2.17 cm 정도이다. 꽃목의 굵기가 굵고 절화수명이 긴 품종으로, 절화수량이 많고 초세가 강건하여 재배농가 기호도가 높아 앞으로 국내육성품종의 재배면적 확대 및 농가 수입 증대에 기여할 것으로 기대된다.

• 한국축산식품학회지
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• 제43권2호
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• pp.331-345
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• 2023

The effects of pink inhibiting ingredients (PII) to eliminate the pink color defect in cooked turkey breast produced from presalted and stored raw ground turkey in the absence or presence of sodium tripolyphosphate (STP) were examined. Ground turkey breast was mixed with 2% sodium chloride and vacuum packaged. After storage for 6 d, ten PII were individually incorporated without or with added STP (0.5%) as follows: none (control), citric acid (CA; 0.1%, 0.2%, 0.3%), calcium chloride (CC; 0.025%, 0.05%), ethylenediaminetetraacetic acid disodium salt (EDTA; 0.005%, 0.01%), and sodium citrate (SC; 0.5%, 1.0%). Treatments were cooked at a fast or slow cooking rate, cooled, and stored before analysis. All PII tested were capable of lowering inherent pink color compared to the control (No STP: CIE a^* pooled day reduction of 23.0%, 5.2%, 12.6%, and 12.6% for CA, CC, EDTA, and SC, respectively; STP: reduction of 21.5%, 17.4%, 6.0%, and 18.2% for CA, CC, EDTA, and SC, respectively). For samples without STP, fast cooking rate resulted in higher CIE a^*. However, slow cooking resulted in more red products than fast cooking when samples included STP. Presalting and storage of ground turkey caused the pink discoloration in uncured, cooked turkey (CIE a^* 6.24 and 5.12 for without and with STP). This pink discoloration can be decreased by inclusion of CA, CC, EDTA, or SC, but incorporation of CA decreased cooking yield. In particular, the addition of SC may provide some control without negatively impacting the cooking yield.

• 대한심미치과학회지
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• 제23권2호
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• pp.70-76
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• 2014

After extraction of tooth, alveolar ridge resorption is inevitable in most cases. Clinicians confront with horizontal and vertical resorption of alveolar bone. Without massive amount of bone and soft tissue graft, dental implant will be placed apically to gain stability. In those cases, not only white esthetic part, but also pink esthetic part should be restored with pink porcelain. The margin of prosthesis should be located apically to reproduce natural look with adjacent teeth. However, when the margin is located apically, it is always hard to remove remaining cement, thus complications may arise. In this report, a novel design of implant prosthesis is introduced to solve those issues. The novel design is consisted of zirconia framework with pink porcelain and separate crowns on top of the framework. It eliminates the possibility of cement remnants by bringing the crown margin coronally. Pink esthetic part is incorporated in abutment part instead of crown part and the screw hole is covered with separate crowns.

• 한국세라믹학회지
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• 제45권3호
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• pp.172-178
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• 2008

This paper described the study of a sphene-pink pigment based on $Cr_2O_3-SnO_2-CaO-SiO_2$ system exhibits stable pink-red color at high temperature. This study is focused on the optimization of the synthesis parameter such as temperature and holding time for the formation the Malayaite crystal. Malayaite crystal is sensitively influenced by the synthesizing temperature, maintaining time and contents of substituting chromium. The crystal phases formed at different temperatures exhibits various color. The optimum temperature is suggested at $1300^{\circ}C$ for 2 h and substituting contents of Cr for Sn is 0.01 mole. The maximum substituting contents is 0.02 mole based on analysis results by XRD, FT-IR, SEM and UV-vis.