12th International Conference and Expo on Proteomics and Molecular Medicine (CSE) AS
08:00 - 23:59
12th International Conference and Expo on Proteomics and Molecular Medicine About Proteomics and Molecular Medicine 2018 Conference Proteomics and Molecular Medicine 2018 Congress On behalf of the Scientific Committee, we are honored to invite you to 12th International Conference and Expo on Proteomics and Molecular Medicine to be held in Dublin, Ireland during November 26-28, 2018. The Theme of the Proteomics and Molecular Medicine 2018 is “Solving problems in Proteomics, Biology and Medicine" which covers wide range of critically important sessions in the field of Proteomics, Molecular Medicine, Mass Spectrometry, Protein Analysis, Biochemistry, Bioinformatics, Molecular Diagnostics, Molecular Devices, Molecular Biology and Pathology. Objective of this meeting is to share the foremost updated knowledge in the field of proteomics, drug discovery, development and diagnostics. We will gather academicians and young inspired scientists from all around the world involved in researches at the cutting edge in the study of the proteomics and molecular medicine. The conference proceedings will include Keynote/plenary Sessions, Oral Presentations, Seminars, Symposiums, Workshops, Young Researchers Forums and Posters Presentations on the latest treatment innovations in the field of Molecular Medicine, Diagnostics and the advancements in Proteomics, Bioinformatics and Mass spectrometry by experts from both academic and business background. It also provides a premier interdisciplinary platform for researchers, practitioners and educators to present and discuss the most recent innovations, trends, and concerns as well as practical challenges encountered and solutions adopted in the fields of Proteomics and Molecular Medicine. Proteomics and Molecular Medicine 2018 committed to create real and reliable contributions to the scientific community. Conference Series llc LTD organize 2000+ Conferences once a year across USA, Canada , Europe, Middle East & Asia with support from a thousand additional scientific societies and Publishes 900+ Open access journals that contains over thousands eminent personalities, putative scientists as editorial board members. Why to attend?? Encounter the target market with members from across the globe, committed to learn about Proteomics and Molecular Medicine. This is the best opportunity to outreach the largest gathering of participants from around the world. Conduct presentations, distribute and update knowledge about Proteomics and Molecular Medicine and receive name recognition at this 3-days event. World-eminent speakers, most recent researches, latest treatment techniques and the advanced updates in protein analysis, mass spectrometry, molecular diagnostics and devices are the principal features of this conference. Target Audience: Our Organization would be privileged to welcome the: Directors of Proteomics and Molecular Medicine or related Programs or Associations Heads, Deans and Professors of Proteomics and Molecular Medicine departments Proteomicists, Proteomics researchers, Pharmaceutical Companies Bioinformaticians, Physicians, Molecular diagnosticians Doctors Business Professionals Scientists and Researchers organizers Research Scholar Lab Technicians Healthcare professionals Founders and Employees of the related companies Clinical investigators & Researcher Hospitals and Health Services Pharmaceutical companies Laboratory members Training institutions Support organizers Proteomics and Molecular Medicine training and education Biomedical Research organizations, societies and associations Sessions/Tracks Highlights of latest advances on Proteomics and Molecular Medicine 2018 Track: 1 Proteomics from Discovery to Function Proteomics is an emerging field that has been highly enabled by the human genome project. Proteins are the products of genes, the machinery of the cells in our bodies. When genes are disrupted, the proteins are also affected. When pathogens infect us, causing disease, proteins play a key role in signaling the presence and ridding us of these invaders. Almost every process that occurs in our cells – from the metabolization of simple sugar to the division of cells – is dependent on proteins for smooth operation. In general, proteomics seeks to detect and quantify as many proteins as possible. Discovery & targeted proteomics Chemical & single cell proteomics Molecular and cellular proteomics Microarrays approaches in proteomics Top down & bottom up proteomics Quantitative proteomics Post-translational modifications & signal transduction Track: 2 Mass Spectrometry in Proteome Research Mass spectrometry (MS) - based proteomics allows the sensitive and accurate quantification of almost complete proteomes of complex biological fluids and tissues. At the moment, however, the routinely usage of MS-based proteomics is prevented and complicated by the very complex work flow comprising sample preparation, chromatography, MS measurement followed by data processing and evaluation. The new technologies, products and assays developed by Precision Proteomics could help enabling and establishing mass spectrometry (MS) - based proteomics in academic and pharmaceutical proteomics research as well as in clinical diagnostics. Mass spectrometry for protein analysis Protein identification and validation Multidimensional protein identification technology – MudPIT Liquid chromatography mass spectrometry (LC-MS) Mass spectrometry applications Mass spectrometry ionization methods High performance liquid chromatography (HPLC) Gas chromatography (GC) and liquid chromatography (LC) Tandem mass spectrometry (MS/MS) Track: 3 Proteomics and Molecular Medicine Molecular Medicine promotes the thoughtful of biological mechanism of disease at the cellular and molecular levels for enhanced diagnoses, treatment, and prevention of disease. Proteomics plays an important role in medical research and molecular medicine, such as in drug discovery and diagnostics, because of the link between proteins, genes and diseases, and it is considered to be the next step in modern biology. Proteomics is dynamic compared to genomics because it changes constantly to reflect the cell’s environment. The main objectives in the arena of proteomics are; identifying all proteins, analyse differential protein expression in different samples, characterise proteins by identifying and studying their function and cellular localisation, and recognize protein interaction networks. Applied proteomics and molecular medicine Molecular medicine and personalized healthcare Current advances and clinical aspect of molecular medicine Pathology and molecular medicine Best Practices in Personalized and translational medicine Cell-based biomarkers for cancer immunotherapy discovery and development Track: 4 Molecular Medicine and Diagnostics Molecular diagnostics is prominent disruptive innovation in healthcare by the introduction of many tools that are having a profound impact on healthcare delivery. These include next-generation sequencing, wearable sensors, liquid biopsies, direct-to-consumer testing, point-of-care assays, and early cancer detection. Join industry leaders at the molecular diagnostics event to discuss recent developments and decipher how changes in regulation, reimbursement, and implementation guidelines will impact progress in new markets created by innovations in this technology. NGS assay selection, validation and compliance Molecular medicine, biology and pathology Multiplexing single cell analysis: A combined effort Murine models for pre-clinical studies in immuno-oncology Regulatory compliance in molecular diagnostics Clinical informatics: Big data Track: 5 Molecular Diagnostics and Devices Molecular diagnostics and devices are enabling precise diagnosis and treatment of oncology, infectious disease and immunotherapy. Experts in the arena will highlight the latest tools, clinical advances, besides commercial applications of circulating and tissue-based biomarkers that are transforming medicine. Next-generation sequencing as a diagnostics platform Molecular diagnostics, Clinical NGS diagnostics Liquid biopsy technologies and applications Molecular diagnostics for infectious disease Circulating tumor cells and liquid biopsy Track: 6 Protein Expression and Analysis Protein expression refers to the way in which proteins are synthesized, modified and regulated in living organisms. In protein research, the term can apply to either the object of study or the laboratory techniques required to manufacture proteins. Protein analysis is the bioinformatics study of protein structure, protein interaction and function using database searches, sequence comparisons, structural and functional predictions. Recombinant proteins and Functional proteomics Protein Biochemistry Protein interaction and identification Protein profiling and characterization Gel-free & based proteomics techniques Protein expression and analysis Track: 7 Proteomics and its Medicinal Research Personalised medicine aims to tailor treatments to achieve the best outcome for individual patients, rather than treating patients with a ‘one size fits all’ approach. Personalized medicine, also termed precision medicine, is a medical procedure that separates patients into different groups—with medical decisions, practices, interventions and/or products being tailored to the individual patient based on their predicted response or risk of disease. Proteomics in cardiovascular biology and medicine Bioinformatics & computational biology Top-down proteomics in clinical research Preventive & personalised medicine Biomedical informatics & technology Immunology & tissue engineering Track: 8 Proteomics in Biochemistry and Molecular Biology Biochemistry is the study of the structure and function of biological molecules such as proteins, nucleic acids, carbohydrates and lipids. Biochemistry is also used to describe techniques suited to understanding the interactions and functions of biological molecules and it is a laboratory based science that brings together biology and chemistry. By using chemical knowledge and techniques, biochemists can understand and solve biological problems. Biochemistry focuses on processes happening at a molecular level and it focuses on what’s happening inside our cells. It also looks at how cells communicate with each other, for example during growth or fighting illness. Medicine is a broad category but relates to biochemistry on many levels. Doctors and nurses give drugs to patients to help cure a disease or prevent it. This is since when that drug is added to the human system, it alters how other chemicals in the body function, resulting in disease prevention or recovery. Nano & medical biochemistry Biochemistry of multimolecular complexes Techniques of molecular biology Molecular engineering & microbiology Molecular modeling & protein structure prediction Clinical & structural biochemistry Molecular & analytical biochemistry Track: 9 Precision Medicine and Immuno-Oncology The significance and role of the human genome in the diagnosis and treatment of disease, they lay out the groundwork for precision or genomic medicine. In turn, immuno-oncology researches are changing the way we treat cancer by unleashing the immune system, and achieving better survival for many patients and cure for some. Covering latest advances in precision medicine, genomics and genetics for drug discovery application, cancer immuno-therapy, biomarkers and translational strategies in immune-oncology, Precision Medicine and Immuno-Oncology tracks will bring together uppermost experts from industry and academia to discuss emerging trends and solutions in order to provide the most up-to-date, scientifically sound care for patients with cancer and chronic diseases. Preclinical and translational immuno-oncology Immuno-oncology biomarkers and companion Immunology and drug discovery Genomics for pharma R&D Precision medicine Track: 10 Proteomics in Computational Systems Biology Systems biology is an exciting new approach to understand biological complexity. It builds on large-scale measurement technologies, such as next-generation sequencing and mass spectrometry. In silico systems biology Systems biologists & biomedicine Cancer systems biology and pharmacology Mathematical and computational biology Systems biology in drug development Track: 11 Proteomics for Bioinformatics Bioinformatics is both an umbrella term for the body of biological studies that use computer programming as part of their methodology, as well as a reference to specific analysis "pipelines" that are repeatedly used, particularly in the fields of genetics and genomics. Common uses of bioinformatics include the identification of candidate genes and nucleotides. Bioinformatics, genome analyses & programming languages Biomedical engineering & imaging Applied bioinformatics and public health microbiology Next generation computing and communication technologies Structural & metagenomics bioinformatics Bioinformatics, data analysis & pattern recognition Track: 12 Proteomics and its Research Proteins provide most of the molecular machinery of cells. Many are enzymes or subunits of enzymes. Other proteins play structural or mechanical roles, such as those that form the struts and joints of the cytoskeleton. Each protein is linear polymers built of amino acids. Biopharmaceuticals and its applications Cell research in proteomics Proteomics in structural and Glycobiology Plant, animal and environmental proteomics Proteomics in food & nutrition Proteomics database Market Analysis Report Summary: Proteomics attribute to the study of proteomes, but is also used to characterize the techniques used to determine the complete set of proteins of an organism or system, such as protein purification and MS. Proteomics is a developing field that has been deeply enabled by the human genome project. Proteins which are the products of genes, the machinery of the cells in our bodies. When genes are disturbed, the proteins are also damaged. When pathogens infect us, causing disease, proteins play a major role in signaling the presence & ridding us of these invaders. Almost every process which that occurs in our cells from the metabolization of clean sugar to the distribution of cells is dependent on proteins for smooth operation. In general, proteomics seeks to distinguish & quantify as many proteins as possible likewise Molecular Medicine promotes the understanding of biological mechanism of disease at the cellular and molecular levels for better diagnoses, treatment, and prevention of disease. Proteomics plays an important role in medical research and molecular medicine, such as in drug discovery and diagnostics, because of the link between proteins, genes and diseases, and it is considered to be the next step in modern biology. Importance & Scope: There are numerous advances in this proteomics innovation, especially in the field of sub-atomic science. New proteomics and genomics advancements and creations could be utilized for ailment particular biomarker revelation and to screen tolerant reaction to the treatment. Proteomics might likewise set up new, atomic order of the malady. Applying genomic and proteomic strategies to body liquids (serum, cerebrospinal liquid, pee, and so on.) and tissue concentrates would put profitable goal diagnostic force in the hands of the clinician however approval of those techniques is an imperative issue. The quick extension of the analytic apparatuses taking into account advancements in proteomic and genomic advances can be essential for the improvement of customized solution. As a science that studies interactions between the molecular components that carry out the various biological processes in living cells, an important idea in molecular biology states that information flow in organisms follows a one-way street: Genes are transcribed into RNA, and RNA is translated into proteins. Why Dublin, Ireland? Europe is one such region which encompasses the major share of the Proteomics and molecular medicine research which is mainly on ovarian cancer biomarker research. Dublin being one of the most advanced European economies is bound to hold the chief share in Europe’s Proteomics and molecular medicine market. Further as EU expands the research, export and trading relations are bound to enhance. Major Proteomics and Molecular Medicine, diagnostics Related Associations around the Globe: Human Proteome Organization European Proteomics Association (Eupa) Spanish Proteomics Society– (Seprot) Netherlands Proteomic Platform (Npp) Japan Human Proteome Organisation (Jhupo) Italian Proteomic Association (Itpa) Portugese Proteomic Association (Rede Procura) Iranian Proteomic Society Taiwan Proteomic Society (Tps) Austrian Proteomics Society European Proteomics Association British Mass Spectrometry Society Belgian Mass Spectrometry Society Danish Mass Spectrometry Society Australian and New Zealand Mass Spectrometry Society Indiana Proteomics Consortium Proteome Society European federation of biotechnology Australasian Proteomics Society Association for Molecular Pathology Molecular and Cellular Cognition Society Hong Kong Society For Molecular Diagnostic Sciences Limited Biochemical Society Society for Molecular Biology & Evolution The French Society for Biochemistry and Molecular Biology The German Society for Biochemistry and Molecular Biology Please contact the event manager Marilyn (marilyn.b.turner(at)nyev`entslist.com ) below for:- Multiple participant discounts- Price quotations or visa invitation letters- Payment by alternate channels (PayPal, check, Western Union, wire transfers etc)- Event sponsorshipsNO REFUNDS ALLOWED ON REGISTRATIONSService fees included in this listing.-----------------------------------------------------------------This event is brought to you by:Conference Series - NewYorkEventsListhttp://www.NyEventsList.comhttp://www.BostonEventsList.comhttp://www.SFBayEventsList.com-----------------------------------------------------------------MYL180422CEV MYL180627UPA
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