European Congress on

Protein & Proteomics

Theme: Novel Trends And Advances In Protein & Proteomics

Event Date & Time

Event Location

Seoul, South Korea

18 years of lifescience communication

13024004945

Previous Conference Performers / Professionals From Around The Globe

Tracks & Key Topics

Euro Proteomics 2019

About Conference

EuroSciCon Ltd takes immense delight & feels honoured in inviting the participants across the globe to attend the Protein & Proteomics 2019 conference which is held during September 11-12, 2019 Seoul, South Korea. The main theme of our conference is “Novel Trends and Advances In Protein & Proteomics" with an objective to inspire young minds and their research abilities by providing an opportunity to meet the professionals in the field of Proteomics. Euro Proteomics 2019 is invented to explore various applications and innovations in Biochemistry.

What’s New?

This Proteomics Conference will have two days of discussions on methods and strategies related to management, quality improvement in Biochemistry as well as to explore the new ideas and concepts on Proteomics used to detect protein expression patterns at a given time in response to a specific stimulus and also to determine functional protein networks that exist at the level of the cell, tissue, or whole organism and its innovative techniques. This Proteomics Conference gives a chief interdisciplinary stage to experts, professionals, and teachers to display and discuss the latest developments 

About Proteomics

Proteomics is the extensive scale investigation of proteomes. A Proteome is an arrangement of proteins created in a living being, framework, or natural setting. We may allude to, for example, the proteome of an animal varieties. The proteome isn't consistent; It contrasts from cell to cell and changes after some time. Somewhat, the proteome mirrors the basic. In any case, protein action regularly surveyed by the response rate of the procedures in which the protein is included is likewise balanced by numerous variables notwithstanding the articulation dimension of the applicable quality.

Proteomics has both a physical lab segment and a computational part. These two sections are frequently connected together; now and again information got from lab work can be nourished straightforwardly into grouping and structure forecast calculations. Mass spectrometry of different sorts is utilized most much of the time for this reason.

Our Guests

Euro Proteomics 2019 Conference brings together the specialists from all the aspects to meet and discuss the future of Proteomics in today’s world to thrive and survive with better techniques. The conference will bring together  Directors specialists, Investigators, Students, Young researchers,  Post-Doctoral Fellows, Research & Diagnostic Laboratories, Clinical Fellows, Students, Biomedical Research companies, CRO’s, Healthcare Institutions, Market Research & Consulting Firms, Pharmaceutical Companies, Medical device specialist and all the interested participants willing to enhance and update the knowledge. It will be an unforgettable experience at our conference.

About Seoul

Seoul is the capital and biggest city in South Korea. The official name of the city is the Seoul Special Metropolitan City which is in the northwest piece of South Korea on the Han River. As of January 2017, the number of inhabitants in Seoul is 10,197,604 individuals. The rambling metropolitan zone is a lot bigger at 25.6 million people groups subsequently it is the fifth most crowded on the planet. Seoul is noted for its populace thickness, which is twice that of New York and multiple times more prominent than Rome. Seoul involves 605 square kilometers (234 square miles), with a sweep of around 15 kilometres (9 miles), generally cut up into northern and southern parts by the Han River. The city is circumscribed by eight mountains, and additionally the more dimension terrains of the Han River plain and western zones.

 

 

Scientific Sessions

Track 1: Protein Interactions in Biology

Human genome Project has effectively recognized every human quality and their relating proteins; the challenge in science is to see how these proteins collaborate with one another in a dynamic cell framework. This process is keen on the atomic instruments of integrin enactment in the human platelet so as to all the more likely comprehend thrombotic infection. Utilizing the platelet as a model framework investigation is carried out on different instruments of explaining important protein communications with integrin cytoplasmic tails. Current customary strategies are talked about in this introduction including co-immunoprecipitation, FRET, yeasttwo half and half framework, TAP-Tags and protein chip innovation. Confirmation of recently recognized collaborations includes a mix of writing seeking, bio-informatics and fundamental cell-science systems.

  • Chemical Proteomics
  • Goal of Biomarker Discovery
  • Annotation, visualization, integrated discovery
  • Mathematical and computational biology
  • Systems biologists & biomedicine

Track 2: Proteomics in Biomedical applications

The strategies for examining protein articulation on a scale were in the earliest stages and today (10 years and a half afterward) they are still in quick development. The strategy of two-dimensional gel electrophoresis (2-DE) remains a centre for some connected proteomic extends because of its capacity to isolate at the same time a large number of proteins and to demonstrate post-translational changes that outcome in modifications in protein. In addition, on-going advancements for 2-DE including the utilization of fluorescent colours that encourage the multiplex investigation of tests make it conceivable to accomplish more noteworthy proteomic inclusion joined with increasingly exact differential articulation investigation. Fluid chromatography (LC) based techniques have additionally risen as ground-breaking approaches for protein articulation investigation. Multidimensional LC approaches conceivably have the upside of higher inclusion and affectability yet are as of late being connected to the normal detachment and evaluation of extremely complex blends of proteins.

  • Immunodetection methods
  • Flow cytometry and cell sorting
  • High Content Screening and Analysis Platform technologies
  • Protein expression and purification
  • Imaging using Fluorescent/Confocal Microscopy

Track 3: Cancer Proteome and Biomarkers

Proteomics technologies are used for early detection and diagnosis of cancers for the development of novel therapeutic agents. These studies have led to the development of discovering new drugs and targeted therapeutics towards the tumour cells. Detection, prognosis, diagnosis and therapy of breast cancers are now possible with the advancements in the field of proteomics along with the use of mass spectrometry. This discovery leads to personalized therapy for the patients. Proteins expressed or found in the serum, plasma and the tumour cells using the novel methodologies provide a better view of the heterogeneity of the cancers.

  • Genetic alteration
  • Somatic mutations
  • Translocations
  • Stem cell applications in proteomics
  • Transcriptomic Biomarker

Track 4: Genetics and Molecular Biology

Hereditary designing is altering the biotech business and is progressively connected in already unthought-of business sectors. As of late, a ton of business and close business cases have been seen inside mechanical biotechnology, where hereditary designing standards and apparatuses are connected in microorganism based items. The hereditary building has fundamentally extended the scope of compound items which would now be able to be blended organically. Sub-atomic science concerns the sub-atomic premise of natural action between the different frameworks of a cell, including the collaborations between the diverse kinds of DNA, RNA and proteins and their biosynthesis, and concentrates how these associations are managed. It has numerous applications like in quality finding, sub-atomic systems of sicknesses and its remedial methodologies by cloning, articulation and direction of quality. Research region incorporates quality articulation, epigenetics and chromatin structure and capacity, RNA preparing, elements of non-coding RNAs, translation. These days, most advanced examines are going on these subjects: Molecular science, DNA replication, repair and recombination, Transcription, RNA handling, Post-translational change, proteomics, Mutation, Site-coordinated mutagenesis, Epigenetics, chromatin structure and capacity, Molecular systems of maladies.

  • Molecular modeling & protein structure prediction
  • Protein Behaviour
  • Macromolecular Interaction
  • Techniques of molecular biology
  • CRISPR-based gene editing for drug discovery & targeted therapies

Track 5: Mass Spectrometry in Protein research

Mass spectrometry (MS) - based proteomics permits the delicate and exact evaluation of relatively entire proteomes of complex organic liquids and tissues. Right now, nonetheless, the routinely use of MS-based proteomics is forestalled and convoluted by the exceptionally complex work process containing test arrangement, chromatography, MS estimation took after by information handling and assessment. The new innovations, items and examines created by Precision Proteomics could help empowering and setting up mass spectrometry (MS) - based proteomics in scholarly and pharmaceutical proteomics investigate and in addition in clinical diagnostics.

  • Over expression and purification of the proteins
  • Protein identification and validation
  • Tandem mass spectrometry (MS/MS)
  • Liquid chromatography mass spectrometry (LC-MS)
  • Multidimensional protein identification technology – MudPIT

Track 6: Biochemistry of Proteins

Organic chemistry is the investigation of the structure and capacity of natural atoms, for example, proteins, nucleic acids, sugars and lipids. Organic chemistry is likewise used to depict methods suited to understanding the cooperation’s and elements of natural particles and it is a research facility based science that unites science and science. By utilizing concoction learning and methods, organic chemists can comprehend and tackle natural issues. Organic chemistry centres on forms occurring at a sub-atomic level and it centres on what's going on inside our phones. It likewise takes a gander at how cells speak with each other, for instance amid development or battling sickness. Solution is a general classification yet identifies with natural chemistry on numerous levels. Specialists and medical attendants offer medications to patients to help cure an ailment or avert it. This is since when that medication is added to the human framework, it adjusts how different chemicals in the body work, bringing about infection aversion or recuperation.

  • Protein and analytical biochemistry
  • Bio-organic chemistry
  • Glycoproteomics
  • Structural and molecular biochemistry
  • Nanobiochemistry

Track 7: Proteomics for Bioinformatics

Bioinformatics is both an umbrella term for the assemblage of organic examinations that utilization PC programming as a component of their strategy, and in addition a reference to particular investigation "pipelines" that are over and over utilized, especially in the fields of hereditary qualities and genomics. Normal employments of bioinformatics incorporate the ID of competitor qualities and nucleotides.

  • Bioinformatics, genome analyses & programming languages
  • Biomedical engineering & imaging
  • Applied bioinformatics and public health microbiology
  • Next generation computing and communication technologies
  • Algorithm biology & health informatics

Track 8: Proteomics in Neurodegenerative Diseases

Degeneration, the progressive death of brain cells, and the progressive loss of structure or the function of neurons, including the Death of neurons, is the root cause of dementia. Several neurodegenerative diseases cause dementia with the most common being Alzheimer`s disease (AD) followed by Parkinson’s-Lewy body disease (PD-LBD). Importantly, neurodegenerative brain changes are also frequently associated with vascular disease of the brain (vascular cognitive impairment [VCI]), making mixed disease common in the aging population. These diseases are been considered as incurable. But in this recent Era nothing is been considered as an incurable or an impossible one by research .So as the research approaches many similarities that relate these disease to one another at a cellular level, and these similarities offers hope for therapeutic advances for the treatment of these diseases.  

  • Amyotrophic Lateral Sclerosis
  • Dementia
  • Epilepsy
  • Idiopathic Hypersomnia
  • Huntington Disease

Track 9: Enzyme Nanotechnology

The Nano’s has perfect qualities to equilibrate foremost factors which decide biocatalysts productivity, including particular surface territory, mass exchange protection and successful compound stacking. This audit exhibits the present situation and systems in compound immobilization. A few techniques are utilized which are proficient to join proteins/chemicals with nanoparticles. Immobilization process is to upgrade the operational execution of a catalyst for mechanical applications. So far various lattices have been depicted in the writing to enhance the execution of the immobilized proteins. With the coming of nanotechnology, the nanomaterials due to their one of a kind physico- substance property constitute novel and fascinating frameworks for compound immobilization.

  • Pharmacokinetics
  • Pharmacodynamics
  • Enzyme catalysis
  • Enzyme activation
  • Enzyme Inactivation

Track 10: Protein Engineering and Enzymology

Protein engineering is the process of developing useful proteins with much research taking place into the understanding of protein folding and recognition for protein design principles. Protein engineering has for decades been a powerful tool in biotechnology for generating vast numbers of useful enzymes for industrial applications. There will be challenging topics related to the protein dynamics in the field of protein engineering. Enzyme Engineering is the application of genetic engineering techniques to enzyme technology. There are a number of properties which may be improved or altered by genetic engineering including the production and kinetics of the enzyme, Structure of the enzymes, De novo design, Intersection of protein engineering and next-generation sequencing, Rational alteration of enzyme function, Combinatorial Enzyme Engineering & Enzyme and biosensor Engineering. 

  • Computational methods in protein engineering
  • Artificial metallo-enzymes
  • Protein engineering using CRISPR technology
  • Computational methods in protein engineering
  • Protein-drug interactions

Track 11: Genomics and Metabolomics

Genomics attempts to make use of the vast wealth of data produced by genomics projects to describe gene and protein function. Proteomics deals with the study of proteomes and their functions. This session will discourse about the genomic approaches for the enhancement of quality characteristics in the crop plant, analysis and characterization of proteins and metabolites, transcriptomics, genome editing, gene therapy. Proteomics approaches for the protein-protein interaction, mass spectrometric and computational techniques. Utilize this Biotechnology Congress as the best stage to know more about the recent advances in biotechnology in an efficient manner.

  • Structural Glycobiology
  • Microbial Glycobiology
  • Clinical genetics
  • Metabolic/biochemical genetics
  • Cytogenetics

Track 12: Proteomics in Drug Discovery

In the modern scientific world the process of drug discovery is quite complex. Drug discovery is a lengthy process and it is expensive. Their main applications include target identification and investigations into the mechanism of drug discovery and toxicity and the goal of bio markers. In structural proteomics it determines their functions, structures and their three dimensional structure of proteins. The chemical proteomics is used to identify the protein binding partners and the cellular targets and used to design small molecules, investigate and understand the protein function. The pharmaco-proteomics is used to observe the alternation of proteins on an act of drug administration. The computational design sparks the drug interactions.

  • Structural Proteomics
  • Goal of Biomarker Discovery
  • Chemical Proteomics
  • Pharmaco-proteomics
  • Computational Drug Design

Track 13: Proteomics and Structural Bioinformatics

Structural Bioinformatics is a Structural Biology which characterizes Biomolecules and their arrangement at the Molecular and Atomic level. Structural Bioinformatics is related to the prediction and analysis of the three dimensional structure of macromolecules such as protein, DNA, RNA. It deals with the generalization of overall folds, interactions, local moties, structure and functional relationship and molecular folding of experimentally solved structures and computationally predicted structure.

  • Algorithms
  • Software
  • Databases
  • Tools
  • Alignments

Track 14: Protein Deep Sequencing

Deep Sequencing meets Structural Biology is a dedicated track to show how the recently developed methods are used to determine the Structure of molecules. This approach proves itself helpful in a more efficient way. Synergistic use of three-dimensional structures and deep sequencing is done to realize the effect of personalized medicine.

  • Deep Sequencing for modelling and refinement of macromolecular structures
  • Membrane protein structure and function using Complementary methods
  • Deep sequencing for protein structure determination
  • Synergistic use of 3D structures and Deep sequencing to realize personalized medicine

Track 15: Neuroproteomics and Neurometabolomics

Neuroproteomics is a perplexing field that has far to go regarding profiling the whole neuronal proteome. It is a generally late field that has numerous applications in treatment and science. Up until this point, just little subsets of the neuronal proteome have been mapped, and after that exclusive when connected to the proteins engaged with the neurotransmitter. Neuroproteomics has the troublesome errand of characterizing on a sub-atomic level the pathways of awareness, detects, and self. Neurological disarranges are remarkable in that they don't generally show outward manifestations.

  • Proteomics in clinical neurosciences
  • Proteomics studies in neurological diseases
  • Proteomic analysis of neural epigenetic mechanisms
  • Proteomics in nephrology

Track 16: Protein Sequencing and Molecular Interactions

Protein sequencing is the down to earth procedure of deciding the amino corrosive succession of all or part of a protein or peptide. This may serve to recognize the protein or portray its post-translational adjustments. Commonly, fractional sequencing of a protein gives adequate data (at least one grouping labels) to distinguish it with reference to databases of protein arrangements got from the theoretical interpretation of qualities.

Sub-atomic Interactions are appealing or awful powers amongst particles and between non-reinforced molecules. Atomic connections are vital in different fields of protein collapsing, sedate plan, material science, sensors, nanotechnology, partitions, and root of life. Atomic cooperations are otherwise called noncovalent associations or intermolecular collaborations. Atomic associations are not bonds.

  • Amino acid sequences
  • Protein–ligand interaction
  • Protein–polynucleotide interaction
  • Protein–solvent interaction
  • Protein–protein interaction

Track 17: Integrating Transcriptomics and Proteomics

Current transcriptomic profiling systems incorporate DNA microarray, cDNA enhanced piece length polymorphism (cDNA-AFLP), communicated grouping tag (EST) sequencing, serial investigation of quality articulation (SAGE), huge parallel mark sequencing (MPSS), RNA-seq and so on. The latest innovation for transcriptomic profiling is RNA-Seq which is considered as a progressive instrument for this reason. Eukaryotic transcriptomic profiles are fundamentally broke down with this strategy and it has been now connected for transcriptomic investigation of a few creatures including Saccharomyces cerevisiaeSchizosaccharomyces pombe, Arabidopsis thaliana, mouse and human cell.

  • Transcriptomics & proteomics in microorganisms
  • Epigenetics
  • Single cell transcriptomics
  • Transcriptome analysis & gene expression
  • Transcriptomics & proteomics in microorganisms

Track 18: Proteomics in Plants and Animals

Plant proteomics deals with the different proteome databases and proteome studies performed to analyse specific tissues of plants for the physiological processes such as germination, growth and so on. This proteomic research in the field of plants leads to the new advancements in agriculture. The proteome of each living cell is dynamic, modifying in light of the individual cell's metabolic state and gathering of intracellular and extracellular flag atoms, and huge numbers of the proteins which are communicated will be post-translationally modified. Subsequently if the reason for the proteome examination is to help the comprehension of protein capacity and connection, at that point it is distinguishing proof of the proteins in their last state which is required: for this mass spectrometric recognizable proof of individual proteins, showing site and nature of changes, is fundamental.

  • Proteomics animal science
  • Plant genomics & proteomics
  • Plant growth & development
  • Plant proteomics
  • Animal proteomics

Track 19: Protein Biotechnology

The auxiliary and practical intricacy of proteins as hetero polymeric polypeptide chains depends on various associations between an assortment of their hydrophobic, polar and ionizable side chains. This cooperation happens in unaligned proteins and in addition on relationship with ligands. This multifaceted nature makes it hard to foresee precisely the structure and capacity of a protein from its essential succession. Given the huge measure of succession data delivered from the genome ventures, and additionally the revelation that specific maladies are because of deviant protein structures, for example, amyloid fibrils, there is an expanding requirement for a superior comprehension of protein structure and capacity at the sub-atomic level.​

  • Protein folding
  • Protein Mis-folding
  • Protein characterization
  • Protein structure
  • Protein extraction and identification

Track 20: Proteomics in Diet, Nutrition and Food processing

Nutrition is the combination of catabolism and anabolism of food in the body. Nutritional Science explores the Metabolic and Physiological reactions of the body to abstain from food. The investigation of Human Nutrition is progressively worried about Metabolism and Metabolic pathways the grouping of biochemical strides through which substances in living things change starting with one shape then onto the next. It has been acknowledged that unhealthy eating and physical inactivity are leading causes of death. Food technology is one of the blooming fields of science and technology. It includes all the process from the post harvesting handling of raw materials till the end product suitable for human consumption. All the recent innovations in food handling techniques, food processing, Equipment’s, food preservation and food packaging made the food industries to gain a huge profit. The on growing demand among the consumers made food technology the challenging field with numerous research and findings.

  • Low-density lipoproteins
  • Consuming Fresh Fruits & Vegetables
  • Dietary approaches for weight loss
  • Diet & Weight Management
  • Proteins for Weight Loss

 

Market Analysis

Worldwide Proteomics Market was esteemed at $17,988 million out of 2015, and is required to reach $44,452 million by 2022, upheld by a CAGR of 13.7%. Proteomics is the investigation of the structure and elements of proteins that can be utilized as a part of the medication revelation, conclusion, and treatment of ailments. A proteome is never steady as it varies from one cell to other with time.

Organizations and government associations have expanded their R&D use on the improvement of proteomics. According to the proteomics statistical surveying report, iProteomics is utilized to assess the rate of protein generation, cooperation of proteins with each other, inclusion of proteins in metabolic pathways, and adjustment of proteins. Likewise, it finds broad applications in sedate disclosure, improvement of customized medications, and recognizable proof of markers for malady determination, which has prompted the stellar development of the proteomics showcase in the previous couple of years. With the expansion in mindfulness in regards to the advantages of customized pharmaceuticals, trends are evaluated that reagents section will keep on leading the general market amid the conjecture time frame.

The current mechanical headways in the field of proteomics is relied upon to goad the proteomics advertise. These headways draw in light of a legitimate concern for pharmaceutical and biotechnology organizations to wander in the field of proteomics as the accommodation of utilization of the instrument and the result of the technique have moved forward. For example, innovative progressions, for example, expanded determination of mass spectrometry removes more data from insignificant measure of test. Correspondingly, double mass analyzers, for example, LC/MS, GC/MS, FT-MS, and MALDI-TOF/TOF help to give more point by point data about protein structure. In addition, the advancement of enhanced fluid chromatography and gel electrophoresis have essentially helped in the protein ID and partition strategies. Two-dimensional gel electrophoresis, which depends on isoelectric centering (IEF) and denaturing polyacrylamide gel grid for protein partition, have likewise been produced by researcher as of late. These innovative progressions are relied upon to drive the proteomics advertise.

 

 

Learn More

PROTEOMICS UNIVERSITIES IN USA

Harvard University | Massachusetts Institute of Technology | Stanford University | California Institute of Technology  |Johns Hopkins University |  University of California San Francisco | Yale University | Cornell University | Rockefeller University | University of California San Diego | University of Chicago | University of Wisconsin Madison | University of Michigan University of Pennsylvania | EuroSciCon Conferences | University of Washington | Proteomics Conferences | Vanderbilt University | University of Texas | Brown University Indiana University | University of Arizona | Ohio State University | University of Alabama | University of Pittsburgh | Michigan State University | Proteomics Conferences | University of Virginia | Arizona State University | Brandeis University | Georgia Institute of Technology | University of Florida | Purdue University | University of Maryland 

PROTEOMICS UNIVERSITIES IN EUROPE 

University of Cambridge | University of Barcelona | King's College London | University of Geneva | University of Milan | University of Amsterdam University of Hamburg University of Oslo | University of Leeds | University of Birmingham University of Southampton | University of Cologne | Medical University of Vienna | University of Münster Proteomics Conferences |  University of Lisbon | University College Dublin | University of Liverpool | Trinity College Dublin | Delft University of Technology | University of Regensburg | University of Warsaw|

PROTEOMICS UNIVERSITIES IN ASIA

 University of Tokyo | National University of Singapore | Kyoto University | Peking University | Weizmann Institute of Science | Proteomics Conferences | Osaka University | Seoul National University | Shanghai Jiao Tong University | Fudan University | Zhejiang University | Tel Aviv University | Pohang University of Science and Technology | Indian Institute of Science | Proteomics Conferences | Nankai University | Tongji University | EuroSciCon | King Saud University Nanjing University | Harbin Institute of Technology Kyung Hee University | Sichuan University | Xiamen University | EuroSciCon Conferences | Chonnam National University | Jilin University | Central South University | University of Tehran Aligarh Muslim University | Chinese University Hong Kong | University of Delhi | South China University of Technology | Waseda University | Okayama University | Southeast University | Soochow University |Mahidol University | Hiroshima University | Tianjin Medical University | Kanazawa University |Tehran University of Medical Sciences | Kumamoto University | Kyungpook National University | National Yang-Ming University | China Medical University Taiwan |

PROTEIN AND PROTEOMICS COMPANIES

BioInquire, LLC | Proteome Systems, Ltd | ProteoSys ,GmbH | Correlogic Systems, Inc. | Tasso, Inc.Denator | Platypus Technologies | SomaLogic | ABREOS BIOSCIENCES, INC. | |OXFORD BIOMEDICAL RESEARCH, INC. | MassTech Inc.| MicroFab Technologies | Oxford BioTherapeutics | Metabolomic Discoveries | BIOVIDRIAINC. | VLST Corporation |POTOMAC AFFINITY PROTEINSLLC |Cargill  | Centre Europe (Haubourdin SAS) | NEOPROTEOMICSINC. |

JOURNALS OF PROTEIN AND PROTEOMICS

Journal of Childhood Obesity | Journal of Medical Physics and Applied Sciences | Journal of Biomedical Science & Applications | European Journal of Experimental Biology | Journal of Animal Research and Nutrition | European Journal of Experimental Biology | Journal of Autoimmune Disorders | Chemical Informatics | Biochemistry & Molecular Biology Journal | Journal of Healthcare Communication | Journal of Clinical and Molecular Pathology | Advances in Applied Science Research | European Journal of Experimental Biology | International Journal of Drug Development and Research | American Journal of Phytomedicine and Clinical Therapeutics | Journal of molecular and Cellular Proteomics | Journal of Proteome Research | Journal of Proteomics | Journal on Proteomics - Clinical Applications Expert Reviews Proteomics | Journal on BBA Proteins and Proteomics | Journal on Proteome Science | Journal on EuPA Open Proteomics | Journal on Genomics, Proteomics & Bioinformatics | Journal on Clinical Proteomics | Journal of Proteomics and Bioinformatics | Journal on Translational Biomedicine |Journal of Clinical & Experimental Nephrology | Journal of Neurology and Neuroscience | Electronic Journal of Biology |Translational Biomedicine |

SOCITIES OF PROTEIN AND PROTEOMICS

Russian Human Proteome Organisation | Australasian Proteomics Society | Sociedad Española de Proteómica | Austrian Proteomics Society | Swedish Proteomics Society | California Separation Science Society | Swiss Electrophoresis Society | European Proteomics Association | Swiss Proteomics Society | Finnish Proteomics Society | US HUPO La Société Française d'Electrophorése et d'Analyse Protéomique | German Electrophoresis Society | German Society for Proteomics | Hellenic Proteomics Society Human Proteome Organization | Iranian Proteomics Society | Italian Proteomic Association | The Japanese Electrophoresis Society | The Japanese Human Proteome Organization | The Korean Human Proteome Organization | Nordic Society for Separation Science |Portuguese Proteomics Society | Proteomics and Metabolomics Victoria | Proteome Society | Réseau Protéomique de Montréal - Montreal Proteomics Network | American Electrophoresis Society | European Society for Biomedical Research on Alcoholism | Role of Bioinformatics in Genomeâ€wide Association Studies | Translational Bioinformatics- Medical Library Association | Bioinformatics Challenges in Genome-Wide Association Studies | Japan Human Proteome Organization | Taiwan Proteomic Society | Iranian Proteomic Society | Australasian Proteomics Society |  British Society for Proteome Research | Swedish Proteomics Society | European Proteomics Association | Italian Proteomics Association | British Mass Spectrometry Society | Belgian Mass Spectrometry Society | Danish Mass Spectrometry Society | Evolutionary Proteomics Uncovers Ancient Associations of Cell Press | Proteomic analysis revealed association of aberrant ROS signaling | Minutes of the European Proteomics Association | Genome-wide association studies with proteomics data reveal genes |

 

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Sponsors/Exhibitors

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