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Hyo Jeong Kim1,2,Jun Hyuek Yang,Hyun Soo Kim,Yeo Jin Kim,Wonhee Jang,Young Rok Seo,W. Jang,Y. R. Seo 대한독성 유전단백체 학회 2017 Molecular & cellular toxicology Vol.13 No.1
I ntensive usage of electronic appliances containing lithium batteries causes an accumulation of e-trash. Environmental exposure to lithium batteries contaminates ecosystems. In air and water, the batteries form lithium hydroxide (LiOH) on their surfaces. LiOH enters the aquatic environment and contaminates the aquatic ecosystem by being absorbed into biological organisms. In this study, in order to identify meaningful potential biomarkers that appear in response to lithium, we measured significantly up- and down-regulated genes after LiOH exposure by conducting a microarray. In addition, we explored the functions of differentially expressed daphnia genes, and we conducted a comparative analysis in other species, Daphnia spp. to humans, then analyzed the signaling pathways using the human gene set derived from daphnia sequences that are differentially expressed in response to LiOH using the NCBI-BLAST tool and Pathway studio. As a result, we identified signaling pathways and suggested several potential biomarkers that are up- or down-regulated in response to lithium. This study may contribute to the development of a biomonitoring system which can detect the ecotoxicity of lithium. Furthermore, lithium toxicity in humans can be predicted, so the study may also provide potential biomarkers of lithium exposure in humans.
갑상선 미세침흡인세포검사 슬라이드에서 BRAF Mutation 검출을 통한 갑상선 유두암의 진단
박원서<SUP>1<,SUP>,이규언<SUP>2<,SUP>,송정윤<SUP>1<,SUP>,정유승<SUP>3<,SUP>,김훈엽<SUP>4<,SUP>,고석환<SUP>1<,SUP>,윤여규<SUP>2,5<,SUP>,Won Seo Park,<SUP>1<,SUP>,Kyu Eun Lee,<SUP>2<,SUP>,Jeong Yoon Song,Ph,D,<SUP>1<,SUP>,Y 대한갑상선-내분비외과학회 2010 The Koreran journal of Endocrine Surgery Vol.10 No.1
Purpose: The prevalence rate of the BRAF mutation in papillary thyroid cancer (PTC) is as high as about 52 to 83% in Korea. Preoperative detection of BRAF mutation on fine needle aspiration cytology (FNAC) slides may help the surgeon make better therapeutic decisions. The present study aims to assess the feasibility of the mutant allele specific amplification (MASA) and restriction fragment length polymorphism (RFLP) method with using conventional FNAC slides and we also wanted to evaluate the clinical role of preoperatively detecting BRAF mutation. Methods: We extracted the genomic DNA from 59 FNAC slides and performed direct sequencing (DS) for detecting BRAF mutation. We could use only 17 slides for the MASA method and 6 slides for the RFLP method due to the shortage of extracted DNA. Additionally, we retrospectively analyzed the cases for which a histological diagnosis could be made. Results: Genomic DNA was extracted from 23 out of the 59 FNAC slides. The BRAF mutation status could be assessed via DS in 33 out of the 59 FNAC slides. The concordance between the MASA method and DS and the RFLP method and DS was 36.3% and 66.7% respectively. The positive and negative predictive value of the 13 indeterminate nodules was 87.5% and 20%, respectively. We could not find any association between the BRAF mutations and the alleged risk factors of PTC. Conclusion: We believe that the purity and the amount of the DNA template must be increased to detect BRAF mutation with using a FNAC slide. Preoperative detection of the BRAF mutation on a FNAC slide may refine the cytological diagnosis, but the application of assessing BRAF mutation as a prognostic marker is debatable. (Korean J Endocrine Surg 2010;10:12-18)