平時照顧好健康 病了就要好好看醫生吃藥論文書籍站
Proteomics的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列問答集和懶人包總整理
Proteomics的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦寫的 Nanotechnology Theranostics in Livestock Diseases and Management 和的 Boron in Plants and Agriculture: Exploring the Physiology of Boron and Its Impact on Plant Growth都 可以從中找到所需的評價。
另外網站Proteomics Core Facility - European Molecular Biology ...也說明:The Proteomics Core Facility provides a full proteomic infrastructure for the identification and characterization of proteins.
這兩本書分別來自 和所出版 。
國立臺北科技大學 電資學院外國學生專班(iEECS) 白敦文所指導 VAIBHAV KUMAR SUNKARIA的 An Integrated Approach For Uncovering Novel DNA Methylation Biomarkers For Non-small Cell Lung Carcinoma (2022),提出Proteomics關鍵因素是什麼,來自於Lung Cancer、LUAD、LUSC、NSCLC、DNA methylation、Comorbidity Disease、Biomarkers、SCT、FOXD3、TRIM58、TAC1。
而第二篇論文國立陽明交通大學 分子醫學與生物工程研究所 黃兆祺所指導 陳芃慈的 研究 Cep170 不同的分布位置以及其對神經型態發生之影響 (2021),提出因為有 人腦異常、神經突生長、神經發育疾病、神經微管、神經極化的重點而找出了 Proteomics的解答。
最後網站Purdue Proteomics Facility - Bindley Bioscience Center則補充:The Purdue Proteomics Facility (PPF) provides innovative state-of-the-art LCMS/MS analysis of proteins in clinical, environmental and other biological ...
Nanotechnology Theranostics in Livestock Diseases and Management
為了解決Proteomics 的問題,作者 這樣論述:
Dr. Minakshi is a Professor in the Department of Animal Biotechnology, LLR University of Veterinary and Animal Sciences (LUVAS), India. Her research interest is in Bioinformatics and Biotechnology with specialization in viruses; molecular characterization, diagnosis and vaccine design, study of geno
me analysis and diversity among viruses. She has been conferred with various prestigious awards notably, International Lifetime Achievement Award 2019 by PISRF(I) in Thailand; International Research Ratna Award, Malaysia. She has more than 20 years of teaching and research experience in Microbiology
and Biotechnology, Molecular Diagnosis, Forensics, Vaccinology, Comparative Genomics, Bioinformatics. She has also published more than 70 research articles in the peer-reviewed international journal and authored or co-authored books and book chapters. She is a member of many international scientifi
c societies and organizations importantly, the National Academy of Agricultural Sciences, India; the National Academy of Veterinary Sciences, International Academy of Biosciences, UK.Dr. Rajesh Kumaris working as Scientist in the Department of Veterinary Physiology and Biochemistry, Lala Lajpat Rai
University of Veterinary and Animal Sciences, Hisar, Haryana, India. Earlier, he was engaged as an Assistant Professor, Kerala Veterinary and Animal Science University, Kerala, India. His research interest is in Reproductive Physiology, Environmental Physiology, Proteomics and Metabolomics, Nanotech
nology, Antioxidant and Redox Biology. Dr. Kumar has to his credit a patent for the development of diagnosis method of anoestrous animals which have genetic linkage. He has been awarded with several prestigious fellowships and worked as referee for several prestigious International journals. He has
authored or co-authored over 40 research articles in the peer-reviewed international journals, several books and book chapters. He is a member of different national and international scientific societies and organizations.Dr. Mayukh Ghosh is an Assistant Professor in the Department of Veterinary Phy
siology and Biochemistry, RGSC, Banaras Hindu University, UP, India. His research interest is in Proteomics and Metabolomics, Nanotechnology, Reproduction, Molecular Parasitology, Antioxidant and Redox Biology. He has authored or co-authored more than 30 research articles in the peer-reviewed intern
ational journals and several books and book chapters. He is a member of several national and international scientific societies and organizations.Dr Shafiq Syed is currently a Lecturer at the University of Newcastle. His research work is focused on defining the molecular pathways involved in the pat
hogenesis of gynaecological cancers, for which he has developed several models including cancer patient-derived-xenograft and -organoid models, and genetically modified mouse-models of cancer progression and metastasis. He has published more than 30 research articles and book chapters. He is a membe
r of the Hunter Cancer Research Alliance (HCRA) and Australian Society of Reproductive Biology.Dr. Soumendu Chakravarti is a Scientist (Sr. Scale) in ICAR-Indian Veterinary Research Institute, Izatnagar, India and has more than 12 years of research and teaching experience in Molecular Virology. He h
as been awarded ICAR International Fellowship and is currently on deputation as a Visiting Scientist, The Pirbright Institute, UK. He is currently working on a project to identify host-restriction factors mediated by Interferon-stimulated genes (ISGs) in virus infections and factors governing specie
s-specific host restriction against viral diseases at the Pirbright Institute. He has published more than 50 research and review articles in peer-reviewed journals. He is a reviewer of several peer reviewed journals and is Life member of several scientific societies such as Society of General Microb
iology (UK), Indian Science Congress Association, Indian Society for Veterinary Immunology and Biotechnology, Veterinary Council of India.
Proteomics進入發燒排行的影片
An Integrated Approach For Uncovering Novel DNA Methylation Biomarkers For Non-small Cell Lung Carcinoma
為了解決Proteomics 的問題,作者VAIBHAV KUMAR SUNKARIA 這樣論述:
Introduction - Lung cancer is one of primal and ubiquitous cause of cancer related fatalities in the world. Leading cause of these fatalities is non-small cell lung cancer (NSCLC) with a proportion of 85%. The major subtypes of NSCLC are Lung Adenocarcinoma (LUAD) and Lung Small Cell Carcinoma (LUS
C). Early-stage surgical detection and removal of tumor offers a favorable prognosis and better survival rates. However, a major portion of 75% subjects have stage III/IV at the time of diagnosis and despite advanced major developments in oncology survival rates remain poor. Carcinogens produce wide
spread DNA methylation changes within cells. These changes are characterized by globally hyper or hypo methylated regions around CpG islands, many of these changes occur early in tumorigenesis and are highly prevalent across a tumor type.Structure - This research work took advantage of publicly avai
lable methylation profiling resources and relevant comorbidities for lung cancer patients extracted from meta-analysis of scientific review and journal available at PubMed and CNKI search which were combined systematically to explore effective DNA methylation markers for NSCLC. We also tried to iden
tify common CpG loci between Caucasian, Black and Asian racial groups for identifying ubiquitous candidate genes thoroughly. Statistical analysis and GO ontology were also conducted to explore associated novel biomarkers. These novel findings could facilitate design of accurate diagnostic panel for
practical clinical relevance.Methodology - DNA methylation profiles were extracted from TCGA for 418 LUAD and 370 LUSC tissue samples from patients compared with 32 and 42 non-malignant ones respectively. Standard pipeline was conducted to discover significant differentially methylated sites as prim
ary biomarkers. Secondary biomarkers were extracted by incorporating genes associated with comorbidities from meta-analysis of research articles. Concordant candidates were utilized for NSCLC relevant biomarker candidates. Gene ontology annotations were used to calculate gene-pair distance matrix fo
r all candidate biomarkers. Clustering algorithms were utilized to categorize candidate genes into different functional groups using the gene distance matrix. There were 35 CpG loci identified by comparing TCGA training cohort with GEO testing cohort from these functional groups, and 4 gene-based pa
nel was devised after finding highly discriminatory diagnostic panel through combinatorial validation of each functional cluster.Results – To evaluate the gene panel for NSCLC, the methylation levels of SCT(Secritin), FOXD3(Forkhead Box D3), TRIM58(Tripartite Motif Containing 58) and TAC1(Tachikinin
1) were tested. Individually each gene showed significant methylation difference between LUAD and LUSC training cohort. Combined 4-gene panel AUC, sensitivity/specificity were evaluated with 0.9596, 90.43%/100% in LUAD; 0.949, 86.95%/98.21% in LUSC TCGA training cohort; 0.94, 85.92%/97.37 in GEO 66
836; 0.91,89.17%/100% in GEO 83842 smokers; 0.948, 91.67%/100% in GEO83842 non-smokers independent testing cohort. Our study validates SCT, FOXD3, TRIM58 and TAC1 based gene panel has great potential in early recognition of NSCLC undetermined lung nodules. The findings can yield universally accurate
and robust markers facilitating early diagnosis and rapid severity examination.
Boron in Plants and Agriculture: Exploring the Physiology of Boron and Its Impact on Plant Growth
為了解決Proteomics 的問題,作者 這樣論述:
Boron in Plants and Agriculture: Exploring the Physiology of Boron and Its Impact on Plant Growth highlights the various emerging techniques and applications that are currently being used in plant-boron interaction studies, and provides a direction towards implementation of programs and practices
that will enable sustainable production of crops, resilient to boron stress.Boron is an important micronutrient that plays a crucial role in the growth and development of plants, however despite a significant amount of recent research, there has remained a gap in the understanding of boron update a
nd transportation. Boron deficiency is one of the most widespread deficiencies among plant micronutrients in agriculture and it causes a wide range of symptoms including the cessation of root elongation, reduced leaf expansion and the loss of fertility, depending on the plant species and development
al stage. This book reviews and integrates the currently available information on the impact of boron on functional and adaptive features of plants from molecular, biochemical, physiological to whole plant level. It is a key resource for those working in stress physiology, stress proteins, genomics,
proteomics, genetic engineering and other fields of plant physiology related to boron nutrition, including agriculture.
研究 Cep170 不同的分布位置以及其對神經型態發生之影響
為了解決Proteomics 的問題,作者陳芃慈 這樣論述:
微管是神經細胞中不可缺少的結構,會參與神經細胞發育過程中的每一步驟,與微管有相互作用的蛋白質稱為微管相關蛋白 (MAP),許多 MAP 會藉由調節微管影響神經細胞的發育。運用質譜儀定量且定序比較分化為神經細胞前後的MAP,發現 Cep170 富含於神經細胞的微管。 Cep170 為一具有 Forkhead associated (FHA) 功能域的中心體相關蛋白,位於具有絲分裂能力細胞的中心體遠端附屬物 (subdistal appendage), Cep170 被發現和人腦發育異常相關疾病有關,例如小頭畸形和平腦症,如此證明 Cep170 在中樞神經系統的發育中有著至關重要的作用。實驗室發
現 Cep170 大量表達會促進神經纖維生長,然而由於先前抑制 Cep170 的效率較差,無法觀察到抑制 Cep170 後對於神經細胞的影響;另外還觀察到 Cep170 在神經細胞中有多種不同的定位:細胞本體中形成一個點、沿著神經纖維的點狀分布、在最長的神經纖維的尾端含量上升,但是這些不同位置在神經細胞中的作用仍然未知。在此研究中,我們成功抑制神經細胞內的 Cep170 ;此外,我們依照功能域設計不同的 Cep170 截斷行突變來破壞神經細胞中特定的 Cep170 分布。我們發現沿著神經纖維的點狀分佈需要微管結合功能域和 FHA 功能域,而 Cep170 聚集於神經纖維尾端需要 FHA 功能域
;且微管穩定性會影響 Cep170 沿著神經纖維的點狀分佈,不穩定的微管會導致 Cep170 於近端神經纖維的點狀分布消失。