논문성과
재난안전 R&D를 통해 발간된 논문 성과 입니다. 논문명을 클릭하면 상세 정보를 확인할 수 있습니다.
논문성과 : 번호, 성과발생년도, 성과발생부처, 성과사업명, 논문명, 학술지명, 재난안전 유형 순으로 나열되고 있습니다.
| 번호 |
성과발생년도 |
성과발생부처 |
성과사업명 |
논문명 |
학술지명 |
재난안전 유형 |
| 9015 |
2019 |
식약처 |
식품등안전관리(R&D) |
High-performance liquid chromatography and gas chromatography to set the analysis method of stearoyl lactylate, a food emulsifier
|
FOOD SCIENCE AND BIOTECHNOLOGY |
1. 식품사고
2. 유해화학물질사고
|
| 9014 |
2019 |
식약처 |
식품등안전관리(R&D) |
Naturally occurring benzoic, sorbic, and propionic acid in vegetables
|
FOOD ADDITIVES & CONTAMINANTS PART B-SURVEILLANCE |
1. 식품사고
|
| 9013 |
2019 |
식약처 |
식품등안전관리(R&D) |
Simultaneous determination of sodium iron chlorophyllin and sodium copper chlorophyllin in food using high-performance liquid chromatography and ultra-performance liquid chromatography-mass spectrometry
|
FOOD CHEMISTRY |
1. 식품사고
2. 유해화학물질사고
|
| 9012 |
2019 |
식약처 |
식품등안전관리(R&D) |
Analysis of microbiome in raw chicken meat from butcher shops and packaged products in South Korea to detect the potential risk of foodborne illness
|
FOOD RESEARCH INTERNATIONAL |
1. 식품사고
|
| 9011 |
2019 |
식약처 |
축수산안전관리(R&D) |
Simultaneous determination of spinosad, temephos, and piperonyl butoxide in animal-derived foods using LC-MS/MS
|
BIOMEDICAL CHROMATOGRAPHY |
1. 식품사고
|
| 9010 |
2019 |
식약처 |
안전성평가기술개발연구(R&D) |
Significance of protein kinase C in the neuropsychotoxicity induced by methamphetamine-like psychostimulants
|
NEUROCHEMISTRY INTERNATIONAL |
1. 의약품사고
|
| 9009 |
2019 |
식약처 |
안전성평가기술개발연구(R&D) |
Glutathione peroxidase-1 overexpressing transgenic mice are protected from cocaine-induced drug dependence
|
NEUROCHEMISTRY INTERNATIONAL |
1. 의약품사고
|
| 9008 |
2019 |
식약처 |
안전성평가기술개발연구(R&D) |
Protein kinase C delta knockout mice are protected from cocaine-induced hepatotoxicity
|
CHEMICO-BIOLOGICAL INTERACTIONS |
1. 의약품사고
|
| 9007 |
2019 |
식약처 |
안전성평가기술개발연구(R&D) |
Genetic depletion of p53 attenuates cocaine-induced hepatotoxicity in mice
|
BIOCHIMIE |
1. 의약품사고
|
| 9006 |
2019 |
식약처 |
안전성평가기술개발연구(R&D) |
Methiopropamine, a methamphetamine analogue, produces neurotoxicity via dopamine receptors
|
CHEMICO-BIOLOGICAL INTERACTIONS |
1. 의약품사고
|
