MRL的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列懶人包和總整理

Toxicology of Organophosphate Poisoning: New Insights

為了解決MRL的問題，作者Jindal, Tanu,Ranjan, Anuj 這樣論述：

Dr. Anuj Ranjan is an Assistant Professor at Amity Institute of Environmental Toxicology, Safety, and Management, Amity University, Noida, UP, India. Environmental Health is his major research area. He has worked on Organophosphate poisoning in humans and its risk assessment. His expertise includes

structural bioinformatics, target characterization, molecular docking and simulation, and predictive toxicology. He has guided graduate and post-graduate students of Environmental Health Science students and is currently the supervisor of three Ph.D. Students. He has received awards from CSIR, Govt.

of India, and the American Chemical Society (2016), and has presented his work at North American Chemical residue workshops (NACRW) (2017) in Naples, Florida, USA. He has also been a scientific member of the 34th Indian Scientific Expedition to Antarctica polar environment monitoring program of the

Government of India. Prof. Tanu Jindal completed her PhD in Ecotoxicology from Department of Zoology, University of Delhi in 1999. She is Group Additional Pro Vice Chancellor (R&D) and the Director of Amity Institute for Environmental Toxicology, Safety and Management (AIETSM) and Amity Institute o

f Environmental Sciences (AIES) at Amity University, Noida., UP, India. She is responsible for PhD, MSc. and B.Sc Environmental Science courses to promote environmental research and studies with syllabus covering important and current area of environmental science. She has filed six patents on lysim

etric-device, apparatus to estimate the loss of xenobiotics by volatilization and mineralization, natural pesticide, photochemical method to dispose of dilute pesticide waste and cost-effective water testing kit. She has completed projects on Yamuna, Hindon, Ghagghar River ad groundwater contaminati

on through pesticides, MoEF&CC; Contamination of soil and groundwater through leaching of drains in Delhi, MoES; Groundwater contamination of Chlorpyrifos in soils at different pH with CWRDM, DST; Environmental monitoring studies at Antarctica- NCAOR, Goa; Impact of Electro Magnetic Radiation- DST.

Her recent initiatives are projects on Development of Lysimeter -DST; Air Pollution Monitoring through CAAQMS-UPPCB; Development of Emission Factors, CPCB. Establishment of the Pesticide Referral Laboratory and MRL fixation of pulses and spices were her research endeavors at ICAR. Her expertise area

is ISO-17025, GLP-studies, radio and stable isotope tracer techniques, GCMS and LCMS studies etc. She taught Pesticides Chemistry and Toxicology in Delhi University for 7 years to MSc students. She holds membership of eminent scientific societies. She has travelled extensively nationally and intern

ationally presenting papers and has publications in referred journals of high impact factor. She has published more than 38 papers in reputed journals and has been serving as an editorial board member of repute. Editor of The Year Award 2017 by MTRES, Excellence in Research and Teaching Award 2017 b

y National Environmental Science Academy, prestigious Scientist of the year Award - 2015, Environmentalist of the Year Award-2014 by NESA, New Investigator Award presentation at ACS, DST Young Scientist Award Project are to her credit. She has received travel awards from CSIR, DST & INSA.

MRL進入發燒排行的影片

中國一帶一路政策的挑戰-以馬來西亞為例

為了解決MRL的問題，作者梁碩文 這樣論述：

中國在 2013 年由國家主席習近平所倡議的『一帶一路』計劃，是個雄心壯志的大工程。一開始就受到歐美媒體的大肆質疑，舉凡參與國任何施工問題或是國內政局動盪，都會被媒體宣稱中國意圖控制該國，並且與『一帶一路』計劃推行畫上等號。馬來西亞是為東協（Association of Southeast Asian Nation, ASEAN）第一個響應『一帶一路』計劃的國家，唯參與以來又歷經了建國 61 年來第一次的政黨輪替，國內局勢波動不安。而『一帶一路』計劃之實施，也使得國內貪瀆不斷，掀起政壇與民間巨大的波浪。本研究以文獻分析法以及歷史研究法，經由三角戰略做為研究途徑，從中美角力之大格局切入，並聚焦

於馬來西亞與中國的國際互動，兩國攜手之『一帶一路』計劃的起源與現況，另外亦剖析所遭遇到之挑戰。經由研究之進行得到三項結論：一、『一帶一路』推行是為馬來西亞於外交結合經濟的傾中的表態；二、與國際媒體呈現落差的馬來西亞『一帶一路』計劃的實際；三、務實而不受拘束的外交身段，是馬國求得國家最大利益的手段，但結果卻是差強人意。

Microbiological Methods for Environment, Food and Pharmaceutical Analysis

為了解決MRL的問題，作者Chauhan, Abhishek,Jindal, Tanu 這樣論述：

Dr. Abhishek Chauhan obtained his B.Sc. in Industrial Microbiology and M.Sc., Ph.D. in Microbiology from Gurukul Kangri University, Haridwar, U.K., India. He is currently working as a Senior Scientist at Amity University, Noida, UP, India and formerly worked as a Scientist ’C’ and Head, Department o

f Microbiology, Shriram Institute for Industrial Research (SRI), Delhi, India. He is known for his analytical and research mind-set and supervised approximately more than twenty-five Industry sponsored projects. He has developed and validated several microbiological methods related to food, water, d

rugs and pharmaceutical. Dr. Chauhan has participated in 35th Indian Scientific Expedition to Antarctica and 10th Indian Southern Ocean Expedition, scientific ventures of Ministry of Earth Science, Govt. of India. He has a total 15 years of rich experience and has guided more than ten post graduate

students on emerging issues of Microbiology and Biotechnology. He has authored a research book on key aspects of ＂Antibacterial Activity of Cyanobacteria＂ and Edited a book entitled Plants and Microbes: An Innovative approach. He has delivered various plenary lectures and invited talk at various sym

posium and conferences and has been a key speaker of teleconferencing talk on ＂Food and Diet＂ under EduSAT network, Vigyan Prasar, DST, Govt. of India. He has been a reviewer for many peer reviewed journals and published more than 45 research papers and honored with prestigious awards such as ’Young

Scientist Award’ (2013); STOX-Appreciation Award (2016); NCEEBR-Certificate of Excellence for Oral Presentation; Best Presentation Award (IIPA-DST Govt. of India) 2012. He has also been certified on various quality certification and Accreditations such as ISO: 17025 (Laboratory Quality Management S

ystem), ISO: 17043 (Proficiency Testing), ISO: 22000, ISO:9001, ISO:14001. He is an active member of the Indian Science Congress Association, Society for Plant Research and Association of Microbiologists of India. Prof. Tanu Jindal completed her PhD in Ecotoxicology from Department of Zoology, Unive

rsity of Delhi in 1999. She is Group Additional Pro Vice Chancellor (R&D) and the Director of Amity Institute for Environmental Toxicology, Safety and Management (AIETSM) and Amity Institute of Environmental Sciences (AIES) at Amity University, Noida., UP, India. She is responsible for PhD, MSc. and

B.Sc Environmental Science courses to promote environmental research and studies with syllabus covering important and current area of environmental science. She has filed six patents on lysimetric-device, apparatus to estimate the loss of xenobiotics by volatilization and mineralization, natural pe

sticide, photochemical method to dispose of dilute pesticide waste and cost-effective water testing kit. She has completed projects on Yamuna, Hindon, Ghagghar River ad groundwater contamination through pesticides, MoEF&CC; Contamination of soil and groundwater through leaching of drains in Delhi, M

oES; Groundwater contamination of Chlorpyrifos in soils at different pH with CWRDM, DST; Environmental monitoring studies at Antarctica- NCAOR, Goa; Impact of Electro Magnetic Radiation- DST. Her recent initiatives are projects on Development of Lysimeter -DST; Air Pollution Monitoring through CAAQM

S-UPPCB; Development of Emission Factors, CPCB. Establishment of the Pesticide Referral Laboratory and MRL fixation of pulses and spices were her research endeavors at ICAR. Her expertise area is ISO-17025, GLP-studies, radio and stable isotope tracer techniques, GCMS and LCMS studies etc. She taugh

t Pesticides Chemistry and Toxicology in Delhi University for 7 years to MSc students. She holds membership of eminent scientific societies. She has travelled extensively nationally and internationally presenting papers and has publications in referred journals of high impact factor. She has publish

ed more than 38 papers in reputed journals and has been serving as an editorial board member of repute. Editor of The Year Award 2017 by MTRES, Excellence in Research and Teaching Award 2017 by National Environmental Science Academy, prestigious Scientist of the year Award - 2015, Environmentalist o

f the Year Award-2014 by NESA, New Investigator Award presentation at ACS, DST Young Scientist Award Project are to her credit. She has received travel awards from CSIR, DST & INSA.

利用醯胺醇類協同作用及組合外排泵抑制劑有效對抗豬胸膜肺炎放線桿菌與敗血性巴氏桿菌

為了解決MRL的問題，作者汪玉祉 這樣論述：

Antimicrobial resistance (AMR) not only continues to pose a threat to therapy of infectious disease but also presents a major challenge for global health concerns. To make the matter worse, new antibiotics are not being discovered at a fast enough rate to counter the development of bacterial resist

ance. In veterinary medicine, amphenicols have been extensively used as the drug of choice to treat bacteria associated with porcine respiratory disease complex, namely, Actinobacillus pleruopeumoniae and Pasteurella multocida, thereby leading to varying levels of amphenicol resistance. To re-empowe

r existing antibiotics, using a combination of two commercially available antibiotics in the same class; FF and TAP, or a combination of amphenicols with efflux pump inhibitors (EPIs) as adjuvant therapy were investigated against porcine A. pleruopeumoniae and P. multocida in the current study. In

the first study, the in vitro and in vivo efficacy of FF+TAP combination were evaluated. The in vitro results from the checkerboard assay and reconfirmation with time kill study in the representative isolates illustrated that the synergistic FF-TAP combination was a potential therapeutic option for

treatment of A. pleuropneumoniae and P. multocida infection. In vivo experiments in pigs demonstrated that FF and TAP combination at a ratio correlating to their MIC deductions was equally effective to their original recommended dosage. In the second study, the effects of five EPIs including Carbon

yl Cyanide Chlorophenylhydrazone (CCCP), omeprazole, Phenylalanine-arginine β-naphthylamide (PAβN), reserpine and verapamil, on their ability to enhance the in vitro antimicrobial activity of FF were preliminarily evaluated. The results indicated that CCCP demonstrated promising improvement of FF ac

tivity while PAβN showed some effect but at high concentrations. Both broth microdilution and time kill assay complementarily confirmed the effect of CCCP on the antimicrobial activity of FF. In addition, the beneficial effect between FF and CCCP was initially identified as through the antagonizatio

n of the FloR pump conferred by the floR gene. In the third study, the effect of CCCP on the in vitro FF and TAP antimicrobial activity by a larger number of isolates, the presence of the efflux pump gene, and the intra-bacterial concentration of FF were further investigated. The CCCP, at relatively

low concentrations, could prominently improve FF and TAP antimicrobial activity in a dose-dependent manner, as well as increasing the intracellular concentration of FF, possibly by inhibition of the FloR efflux pump. Collectively, these findings underline the importance of FloR efflux pump in the d

evelopment of amphenicol resistance in A. pleuropneumoniae and P. multocida. Taken together, our studies may provide potential therapeutic options using amphenicols synergism and amphenicols in combination with EPIs against amphenicol-resistant A. pleuropneumoniae and P. multocida.