Biochemistry Congress 2024
About Conference
Euroscicon welcomes speakers, members, students, agents, and exhibitors from all over the world to the "9th International Congress on Biochemistry and Molecular Biology," which will be held as an in-person conference on May 06 - 07, 2024, and will include keynote addresses, oral presentations, poster presentations, and exhibitions. The current year's conference, "The results of biochemistry and technological improvements to deliver micronutrients for a healthier society and happiness," will investigate the atomic instruments that can bring about life's procedures based on hereditary data shown on DNA.
Biochemistry and Molecular Biology functions as a tool to investigate and ponder atomic science by managing the structure, capacity, and associations of natural macromolecules. It includes all aspects of contemporary subatomic and cell organic chemistry. Atomic science is the study of the sub-atomic underpinnings of replication, interpretation, and cell work. The central code of atomic science, where hereditary material is translated into RNA and then changed over into protein, despite being distorted, still provides a good starting point for understanding the field.
This "Euro Biochemistry and Molecular Biology" conference would lay the groundwork for all academicians, scientists, young researchers, and industrial members to collaborate and bring their advanced logical perspectives into contact with world-renowned researchers, thereby accelerating progress.
What's New?
Biochemistry and molecular biology research has also set itself the goal of attempting to set up exercises at various levels to improve coordinated efforts between specialists in basic and clinical research, as well as to energise interdisciplinary research works out.
Neuron-like cells derived from a readily available cell line have allowed scientists to investigate how the human cerebrum influences a metabolic system critical to the survival of all living things. The researchers used whole-genome sequencing and chemo genetics to identify new medication targets and protection properties in 262 Plasmodium falciparum parasite cell lines resistant to 37 different antimalarial combinations. According to new research that looked at the illness of individual cells caused by contamination and the result of antiviral intervention, an antiviral solution that limits a contamination's replication equipment focuses on the most compelling diseases.
Why to Attend?
Biochemistry Congress 2024 primarily targets colleges, foundations, and genuine social orders, as well as organisations with a significant market share in research facility innovations.
We value every interested member who joins us at our biochemistry and molecular biology meeting.
Our conference will be an excellent venue for illuminating learning by:
- Innovative Techniques to Benefit Your Research
- Sterling workshop and meetings
- Creative talks by the specialists of the international academic group
- Noteworthy Awards and Global Recognition to praiseworthy Research’s
- Worldwide Business and Networking Prospects
- Wonderful Platform for exhibiting your items and International Sponsorship
- Target Audience
- Researchers
- Scientists
- Faculty
- Dean
- Directors
- CEO's of the companies
- Young Research people
- Business Entrepreneurs
- Training Institutes
- Industry Professionals
- Health Promoters
- Professors and Students from Academia
sessions & Tracks
Track 1: Biochemistry
Biochemistry, also known as "natural technology," is the study of compound methods within and identification of living organisms. Biochemical processes provide ascension to the multifaceted first class of lifestyles by controlling the route of records via biochemical flagging and the circulation of artificial energy via digestion. Today, the primary focus of pure natural chemistry is on understanding how natural particles provide ascent to the processes that occur inside living cells, which is particularly relevant to the examination and comprehension of tissues, organs, and entire organisms, i.e., all of technology.
- Biochemical processes
- Enzymatic chemistry
- Biochemical signalling
- Membrane biochemistry
- Activation of enzyme
- Neurodevelopmental Disorders
Track 2: Molecular Biology
Subatomic technology is concerned with the subatomic premise of herbal action between the various frameworks of a cell, which include collaborations between various types of DNA, RNA, and proteins and their biosynthesis, and focuses on how these institutions are managed. It has a wide range of applications, including excellent disease sub-atomic system detection and remedial methodologies like cloning, articulation, and high-quality production. The study area includes fine articulation, epigenetics and chromatin shape and capacity, RNA making readiness, non-coding RNA elements, and translation. Molecular technology, DNA replication, repair and recombination, transcription, RNA handling, post-translational exchange, proteomics, mutation, site-coordinated mutagenesis, and other topics are currently being researched. Epigenetics, chromatin structure, and capacity, to name a few. Maladies' Molecular Systems
- DNA replication, repair and recombination
- Interpretation and Gene Expression
- RNA handling
- Atomic instruments of maladies
- DNA replication, repair and recombination
- Interpretation and Gene Expression
- Molecular cloning
- Protein Behaviour
- Macromolecular Interaction
- Chemical Biology
- Protein Function
Track 3: Medicinal and Pharmaceutical Biochemistry
The department of medicinal drugs requisite for such natural chemistry and digestion of human well-being and pollutants has been known as restorative natural chemistry. The therapeutic scientist is educated in the management and operation of clinical natural chemistry labs and works as an expert in all aspects of their use. The medical clinical expert controls clinical research facilities, counselling, and decisions, as well as treating patients with a variety of metabolic difficulties and biochemical irregularities. Medicinal natural chemistry explains the behaviour of common and pathologic creatures from a biochemical standpoint. One could gain a solid understanding of the consequences of natural chemistry while seducing the inquiry and exploratory aptitudes through modules in neurodegenerative disorders, difficulty, and restorative strength.
- Protein structure and dynamics
- Forensic biochemistry
- Histopathology
- Pharmacokinetics
- Pharmacodynamics
Track 4: Nano Biochemistry
The investigation is managed by the examination of Nano scale structures, which use components or frameworks 109 times smaller than the average size of parts. Natural chemistry regulates various metabolic and biochemical processes at the interstices of residing animals. The combination of both of these breakthroughs resulted in the estimated start of Nano natural chemistry. This learning-based blend of connected science and natural chemistry will produce one-of-a-kind, inventive contraptions. The term "related science" in the natural sciences refers to the development of substances and devices that are specifically designed to function in the body.
- Biosensors
- Nano medicines and interactions
- Bio molecular detection strategies
- Structural DNA nanotechnology
Track 5: Proteomics in Biochemistry and Molecular Biology
Proteomics is the study of proteins on a large scale. Proteins are required by all living things and serve a variety of roles. The proteome is the entire group of proteins that can be added to or changed by a living structure or framework. These changes occur as a result of moments as well as distinctive essentials, or stresses, that such a cell or creature encounters. Antibodies to specific proteins or their altered systems have been used in organic chemistry and cellular technology. These are several well-known subatomic scientists' devices today. There are several specific strategies and conventions for using antibodies for protein recognition. Atomic technology is concerned with the subatomic premise of natural movement among biomolecules within the various structures of a living organism.
- Techniques of molecular biology
- Molecular engineering & microbiology
- Molecular modelling & protein structure prediction
- Clinical & structural biochemistry
- Molecular & analytical biochemistry
- Nano & medical biochemistry
Track 6: Glycobiology in Biochemistry and Molecular Biology
Glycobiology is the study of the structure, composition, and technology of cosmopolitan saccharides. Sugars or saccharides are basic components of all living things that are being researched in particular therapeutic, herbal advanced technologies, and biotechnological fields. The study of such subatomic underpinnings as replication, interpretation, and cell painting methods is known as atomic technology. Despite being a distorted image of subatomic technology, the central authoritative opinion of subatomic technology, in which hereditary material is transcribed into RNA and then transformed into protein, serves as a good starting point for information in the field.
- Structural Glycobiology
- Microbial Glycobiology
- Cellular Glycobiology
- Systems Glycobiology
- Molecular Glycobiology
Track 7: Plant and Animal Biochemistry
Plant organic chemistry is a linked body of scientific knowledge that has the ability to contribute to the assimilation of horticultural and pharmaceutical problems. Plants provide important modern raw materials, including fats and starch, and yet they may also be the source of pharmaceutics development. The study of different synthetic reactions that take place in advance within a group of animals over time is known as animal biochemistry. The study concentrated on animal natural chemistry, which is critical to comprehending actual elements of veterinary technology and creature farming in order to comprehend the digestion and capacity of creatures in health and illness.
- Inheritance study
- Disease diagnosis
- Extraction of energy from food
- Synthetic Biology
- Function of cells
- Plant & animal biotechnology
Track 8: Medical Genetics
The medical, natural, and technological know-how art is concerned with the physical and compound attributes of traits, as well as their demeanour, which govern the progression and preservation of living beings. The field of medicinal hereditary qualities is still in its early stages, but it describes the reason for a few acquired diseases by means of acclimation. Infection typically causes the ageing of inconsistent proteins, as in haemophilia, as well as hundreds of "inalienable errors" of digestion that are interpreted in creatures. Mannosidosis and galactosemia are diseases caused by the lack of a specific protein or chemical that prevents sugar, protein, and fat digestion and thus provides medical advice.
- Clinical genetics
- Metabolic/biochemical genetics
- Cytogenetic
- Molecular genetics
- Mitochondrial genetics
Track 9: Macromolecule blotting and probing
A smear is a method for more constantly shifting proteins, nucleic acids, and ribonucleic acids onto such a carrier than gel electrophoresis. Nucleic (Southern blotch) and ribonucleic (Northern smudge) acids can be evaluated for precise groupings via complementary strands, while protein blends (Western and Eastern smears) can be tested for precise proteins. Microarrays, which are plates with an infinitesimal pocket of correlating DNA, can also be used to examine DNA.
Track 10: Bioorganic and Biological Chemistry
Bioorganic is a rapidly evolving logical path that combines herbal technology and organic chemistry. While herbal chemistry aims to understand herbal techniques via science, bioorganic technological know-how appears to be more technological in nature as it seeks to grow herbs artificially. Bioorganic technology encompasses bioinorganic science when examining metalloproteases and cofactors. When trying to represent subtle elements of atomic recognition using bioorganic technology, the term "biophysical natural science" is used. Some of the advanced biological chemistry pursuits include nucleic acids, DNA restoration, bio conjugate technology, peptides as well as peptidomimetics, glycol technology, bimolecular shape as well as capacity, imaging, and natural catalysis.
- Enzyme catalysis
- Biotransformation and enzyme inhibition
- Nucleic acids chemistry
- Natural product chemistry and natural product biosynthesis
- Biophysical chemistry
- Biomimetic chemistry
Track 11: Structural Bioinformatics and Structural Molecular Biology
Auxiliary bioinformatics is the department of bioinformatics that is diagnosed with the exam and expectation of the three-dimensional shape of natural macromolecules, for example, proteins, RNA, and DNA. It manages speculations approximately macromolecular 3-D shape, for example, examinations of trendy folds and community topics, standards of atomic collapsing, development, and limiting associations, and shape/work connections, working both from tentatively tackled systems and from computational models. The term auxiliary has indistinguishable importance from in basic technology, and primary bioinformatics Auxiliary bioinformatics is a branch of bioinformatics concerned with the examination and prediction of the three-dimensional shape of natural macromolecules, including proteins, RNA, and DNA. It handles hypotheses about macromolecular 3-D shape, for example, examinations of current layers as well as community topics, standards of atomic collapsing, advancement, and restricting associations, and shape-work interactions, working both from tentatively addressed systems and from computational models. The term "auxiliary" is indisputable in basic technology, and primary bioinformatics can be considered a subset of computational fundamental technology. Auxiliary technological know-how is a division of subatomic science, herbal chemistry, and biophysics involved only with the subatomic structure of natural macromolecules, particularly amino and nucleic acids, how they acquire their systems, and how changes occur.
- Databases
- Algorithms
- Software
- Tools
- Protein behaviour
- Macromolecular interaction
- Chemical Biology
- Protein function
Track 12: Molecular Development Biology
Molecular Development Biology is the science of how life forms, expands, and is generated only at molecular as well as hereditary levels. The examination focuses on the genetic control of cellular development, separation, enlargement, and morphogenesis.
- Developmental processes
- Embryonic development of animals
- Plant Development
- Developmental model organisms
Track 13: Quantitative Biology and Biophysics
There is a wide range of scales throughout Biochemistry, Quantitative Biology, and Biophysics, from atoms to cells to entire lifestyle bureaucracies. Its methods encompass a wide range of modern disciplines, including natural chemistry and atomic science, biophysics, cell technology, genomics and proteomics, computational technology, and primary technology. The interface between technology and the extra-quantitative sciences is quantitative technological know-how. Realizing the hidden standards of complex natural behaviour, including bodily and medical fashions, is one of the precise factors of quantitative biology.
Track 14: Biomarkers and biochemistry
Biochemical biomarkers track the evolution of creatures from ecologically artificial materials. They can also give dangerous proportions, for example, by relying on subatomic components that underpin lethality. In an ideal world, biomarkers would be sensitive, unique, easy to use, and inexpensive for the amount of material obtained using non-hazardous analysis techniques (e.g., of blood). Recently, there has been encouraging progress in the development of certain types of biomarkers. Serum "B" esterase estimation restraint to demonstrate the introduction of winged animals to organ phosphorus Trojan horse sprays The assessment of DNA damage caused by aromatic hydrocarbons The 32P-submit marking procedure was used to investigate DNA adduct arrangement. A few novel strategies are being investigated.
- Genetic Biomarkers
- Protein Biomarkers
- Basophil Activation as a Biomarker of Food Allergy and Asthma
- T-Regulatory Cells as Markers of Allergen Immunotherapy
- Recent Advancements in Biomarkers of Allergy
Track 15: Biochemistry of food allergens
Interior protein sustenance refers to a wide range of proteins with capacities ranging from capacity to enzymatic motion. An acidic isoelectric point, abundance in the sustenance, ability to assimilate, and proximity to various, direct, i.e., prohibiting epitopes are all general characteristics of nourishment allergens. However, even among these extremely broad characteristics, there are exceptions, making it difficult to predict whether or not a protein is an allergen. Because the development of an IgE response to an allergen involves a progression of cooperation among antigen-presenting cells (APCs), T-cells, and B-cells, it is critical to continue characterising both B-cellular and T-cellular epitopes of known allergens.
Track 16: Clinical Biochemistry & Immunology
Clinical Biochemistry & Immunology is the qualitative and quantitative examination of organic fluids such as blood, serum or plasma, urine, or tissues for specific chemical elements or physiologic processes. These outcomes are used by doctors to screen for, diagnose, or screen for diseases. Members of Clinical Biochemistry and Immunology are also involved in research to create new diagnostic medical laboratory exams to discover or reveal disorder, sickness processes, or disease treatment. Examples of tests developed with the assistance of Clinical Biochemistry & Immunology laboratories include:
- Evaluation of immune factors causing disease
- Evaluation of endocrine organ function
- Monitoring response to cancer treatment
- Assessment of transplant immunosuppression
- Evaluation of genetic variation on routine therapies
- Assessment of nutritional status
- Evaluation of drug and metal toxicity
Track 17: Genomics
Genomics is an interdisciplinary field of science that focuses on the structure, function, advancement, mapping, and modification of genomes. A genome is the entire DNA arrangement of a life form, including the majority of its characteristics. Rather than investigating individual qualities and their roles in legacy, genomics focuses on the aggregate portrayal and evaluation of qualities, which coordinate the generation of proteins with the assistance of compounds and ambassador particles. Proteins, for example, form body structures such as organs and tissues while also controlling concoction responses and conveying motions between cells. Genomics also includes the sequencing and analysis of genomes using high-throughput DNA sequencing and bioinformatics to collect and dissect the capacity and structure of whole genomes.
- Etymology
- Early Sequencing Efforts
- DNA-Sequencing Technology Developed
- Complete Genomics
- The “Omics” Revolution
- Functional Genomics
- Structural Genomics
- Epigenomics
- Metagenomics
- Genomic Medicine
- Synthetic Biology and Bioengineering
Track 18: Genomics and Bioinformatics
Next-generation sequencing and other high-throughput technologies are revolutionising how we address fundamental biological questions ranging from development to evolution to disease. Because of the unprecedented amounts of data made available by these technologies, we can begin to address biological questions in their entirety. Answering these questions is a highly interdisciplinary endeavour that necessitates the expertise of biologists, statisticians, computer scientists, and bioinformaticians.
- Human Genomes
- Structural Bioinformatics
- Applying grid technologies to bioinformatics
- Microbial genome database
Track 19: Cancer Genomics
Cancer genomics is the study of the genetic mutations that cause cancer through genome sequencing as well as bioinformatics. The goal of clinical genomics is to determine which sets of genes and gene interactions affect the different subsets of cancer in order to improve cancer treatment and outcomes. The International Cancer Genome Consortium (ICGC) is just a non-profit scientific organisation that facilitates collaboration between the world's top cancer and genomic researchers.
- Use of genomic information to optimize cancer chemotherapy
- Role of germ line genomic investigation in oncology
- GWAS studies in preclinical models
- Combining cell based models and clinical findings
Track 20: Genome Engineering and Proteomic Research
Genome engineering refers to the strategies and techniques developed in recent years for the targeted, specific modification of living organisms' genetic information or genome. The CRISPR-cas9 system makes gene editing more efficient, accessible, and simple than ever before in many organisms and cells, including our own egg, sperm, and embryo. These ground-breaking capabilities have sparked discussions about the new system's ethics and applications, garnering significant attention around the world to make sure ethically correct usage. Proteomics is the large-scale study of proteins. Proteins are essential components of living organisms with numerous functions. The term "proteomics" has been coined in 1997 in reference to genomics, or the study of the genome.
- Field of genomics led to the development of proteomics
- Techniques used in proteomics to analyse proteins
- Ways in which cancer proteomics may lead to better treatments
Track 21: Plant Molecular Biology
Plant molecular biology is a specialised science that investigates plant cells and even modifies them to improve plant utility. Agriculture, food science, healthcare, environmental science, as well as teaching are all viable career options. Continue reading to learn more about plant molecular biology and working in the field.
- Agrobacterium transformation
- Advances in Gene Technology
- Programmed Cell Death in Higher Plants
- Practical applications of Plant Molecular Biology
Track 22: Virology
Model systems and human pathogens are being used to contribute to basic and applied research on viruses and their hosts. The questions fall into three broad and overlapping categories: virus structure, viral mechanisms, as well as pathogenesis. Hepatitis B and C viruses, papillomaviruses, Brome mosaic virus, Sindbis virus, Reovirus, and others are among the systems used.
Track 23: Microbial Interactions and Pathogenesis
Many bacteria exist in nature's challenging and diverse environments. Although Escherichia coli can be easily grown in pure culture, its natural home is the mammalian gut, in which it competes for nutrients and space with the complex resident micro biome and wants to avoid the host immune system's defences. Microbiologists are investigating the fascinating mechanisms by which microbes survive in certain complex environments.
- Ecology in a molecular perspective
- Micro biome interaction with its host
- Endophyte–phytopathogen-plant interaction
- Microbial community’s interaction
Track 24: Chromatin, Chromosomes, and Genome Integrity
The Department of Biology has a strong community of labs that focus on various aspects of chromosome biology, such as gene regulation, DNA replication, chromosome segregation, chromosome structure, the DNA damage response, and genome integrity. To study chromosome biology, our labs employ a variety of model systems, including budding yeast, plants, worms, fruit flies, mice, as well as human cells. Our research focuses on how chromosomes have been duplicated in S phase and segregated through M phase, how DNA breaks promote crossovers in meiosis, how DNA damage has been repaired, the role of mutations in evolution, and how epigenetic chromatin modifications regulate the cell cycle, gene silencing, and cancer.
Track 25: Evolution in Molecular Biology
The process of change in the sequence composition of cellular molecules such as DNA, RNA, and proteins over generations is known as molecular evolution. To explain patterns in these changes, molecular evolution employs principles from evolutionary biology and population genetics. The rates and effects of single nucleotide changes, neutral evolution against natural selection, the origins of new genes, the genetic nature of complex traits, the genetic basis of speciation, the evolution of development, and also how evolutionary forces influence genomic and phenotypic changes are all major topics in molecular evolution.
Market Analysis
Biochemistry Congress 2024 Market Analysis
The Biochemistry Market report provides an in-depth analysis of the industry by segregating it by object, application, innovation, region, and end-use with development slants, various partners including such financial specialists, CEOs, merchants, providers, investigators, and media, a general manager, director, as well as president, a SWOT analysis examining the organization's quality, weakness, opportunity, and threat, and others This report examines the Professional Global Biochemistry Analyser Market 2019-2024 in terms of volume and incentives at the global, territorial, and friend levels. The Global Enzymes Showcase has been worth $10.48 billion in 2018 and is expected to grow at an 8.9% CAGR from 2019 to 2025. Catalysts are biocatalysts that enliven natural reactions and deliver the desired results.
There is a growing interest in the claim to fame compounds in applications such as diagnostics, pharmaceuticals, and biotechnology. It is expected to be the primary driver of development. Japan is the world's second-largest showcase for life sciences, after the United States. Due to some EU plans aimed at advancing economic prosperity, Europe was one of the significant markets for chemicals in 2017. It intends to reduce greenhouse gas emissions by replacing non-renewable energy sources with bio - fuels such as biodiesel and bioethanol. This report focuses on the global biochemistry analyser market, specifically throughout North America, Europe, and Asia-Pacific, as well as South America, the Middle East, and Africa. This report defines the market by producers, districts, type, and application.
Expanding interest in natural chemistry analysers, a growing geriatric population, expanding R&D activities, a developing populace, and urbanisation are the factors driving the development of the biochemistry analyser industry market. One of the critical development factors for this market is the increased computerization of research facilities. With more secure working conditions, lower operational expenses, and a decrease in labour power, research centre mechanisation results in a more noticeable improvement in profitability. Furthermore, mechanisation enables viability in distinguishing proof of tests, simple information stockpiling, decreased segment utilisation and test volume, decreased consumption of research facility space, and decreased turnaround time. The Americas are expected to be a significant income supporter of the market due to their growing population and high prevalence of chronic and irreversible diseases. According to another GIR (Global) study, the global market for biochemistry analysers is expected to grow at a CAGR of approximately xx% over the next five years, reaching xx million US dollars in 2024, up from xx million US dollars in 2017. By 2024, it hopes to have 10% of all vehicle fuel sourced from sustainable sources, such as biofuel. Several governments (Germany, Sweden, France, and Austria) are taking steps to organise biodiesel production. In the near future, I anticipate growth in the European chemical market.
The introduction of various new methodologies is fuelling the growth of biochemistry research. The growing drug resistance, combined with the high rate of drug exchange, is reducing the need for extensive R&D activities, which is expected to increase the use of structural biology and molecular modelling techniques in the drug discovery and development process. This is expected to be an effective method for expediting the development of high-potency drugs. China and India are two emerging markets that have become profitable for companies involved in biochemistry research marketing and development. Clinical and nutritional biochemistry, medicinal and pharmaceutical biochemistry, structural and molecular biochemistry, and protein and analytical biochemistry are the most well-known branches of biochemistry. Clinical natural chemistry is the study of biochemical components within the body. Clinical natural chemistry employs a genuine change of diagnostic systems, with applications primarily in clinical science, science, remedial medication recognition, toxicology, research organization immunology, and prescription used for diagnosing, anticipating, therapeutic guidance, and disease administration. The Global Biochemistry analysers Market Report was created using a top-to-bottom market examination and contributions from industry experts. The report includes the Americas, as well as EMEA and APAC. The report also provides an overview of a Global Biochemistry analysers market as well as its prospective future opportunities, as well as an exchange of key vendors in this market.
The investigation was carried out using a specific mix of primary and secondary data, with the achievements of prominent members to the business in mind. Major Companies: Human GmbH (Germany) Mind Ray Medical International Ltd. (China) Abbott Laboratories, Inc. (USA) Medical Corp. (USA) Novartis (USA) Abaxis Inc. (USA) Danaher Corp. (USA) Nova Biomedical Corp. (USA) Ortho-Clinical Diagnostics Inc. (Switzerland) Siemens Healthiness (Germany) Thermo Fisher Scientific Inc. (USA), Pfizer Inc. (USA), Human Genome Sciences Inc. (UK), Merck (USA), Novo Nordisk (Denmark), Amgen (USA), GlaxoSmithKline (UK), Bristol-Myers Squibb (USA), AbbVie (USA), AstraZeneca (UK), Mylan (Netherlands), Amgen Inc. The American Institute of Biological Sciences (AIBS), the American Society for Biochemistry and Biology (ASBMB), the Federation of American Societies for Experimental Biology (FASEB), and the International Union of Biochemistry and Molecular Biology are the major biochemistry societies (IUBMB). The "Global Biochemistry analysers Market Report" was created using an in-depth market analysis and input from industry experts. The report focuses on the Americas, as well as the EMEA and APAC regions. In the following sections, it also examines the Global Biochemistry analysers Market landscape and its prospects. The report also discusses the key vendors operating in this market. The analysis was conducted using an objective combination of primary and secondary data, as well as input from key industry participants. The market is expected to grow at a CAGR of 3.1% to $29.4 billion in 2024, up from $25.3 billion in 2021. With a CAGR of 12.9% from 2021 to 2024, Asia is the fastest-growing region of the global IVD market. The market is expected to be worth $15.3 billion in 2021 and $28.2 billion by 2024.
Past Conference
The EuroScicon congress on Biochemistry & Molecular Biology (Biochemistry & Molecular Biology 2023) hosted by EuroSciCon LLC took place at London, UK during November 13-14, 2023. It was organized by EuroSciCon LLC and generous response was received from the Editorial Board Members of EuroSciCon LLC Journals as well as from eminent scientists, talented researchers and young student community. Researchers and students who attended from different parts of the world made the conference one of the most successful and productive events in 2018 from EuroSciCon LLC LTD. The two day program witnessed thought provoking keynote and plenary presentations from experts in the field of Biochemistry, highlighting the theme, ”Exploring advancements of Biochemistry Molecular Biology for COVID-19 in Life Sciences".
The meeting was carried out through various sessions, in which the discussions were held on the following major scientific tracks:
- Biochemistry
- Medicinal and Pharmaceutical Biochemistry
- Nano Biochemistry
- Structural Biology
- Glycobiology in Biochemistry and Molecular Biology
- Plant and Animal Biochemistry
- Medical Genetics
- Molecular Biology
- Enzymology & Biochemistry
- Pharmacology and Toxicology
- Agricultural and Food Chemistry
- Proteomics in Biochemistry and MolecularBiology
- Clinical and Nutritional Biochemistry
- Structural and Molecular Biochemistry
- Cardiac Biochemistry
- Biochemical biomarkers
- Molecular Development Biology
- Quantitative Biology and Biophysics
The highlights of the meeting were form the eminent keynote lectures from
- Lili Arabuli, University of Georgia, Georgia
- Dietmar Fuchs, Innsbruck Medical University, Austria
- Leon Blaustein, University of Haifa, Israel
- Mohamed Ibrahim Eletrebi, CEO Allergy Cure Centre, Egypt
- Ales Prokop, Vanderbilt University, USA
- Karin Schutze, CellTool GmbH, Germany
- Tomokatsu Hori, Moriyama Neurological Center Hospital, Japan
Biochemistry 2023 played an important role in promoting multidisciplinary interactions between science and medicine to enhance research in Biochemistry. The program covered current and emerging research innovations in the field of Biochemistry.
We would specially thank the Moderator Nafis Ahmetov, Kazan Federal Unicvercity, and Russia for his contribution for the conference.
We are obliged to the various delegates from companies and institutes who actively took part in the discussions. We sincerely thank the Organizing Committee Members and Editorial board of Biochemistry 2022 for their gracious presence and continuous support throughout the proceedings of this event. With the valuable feedback and generous response received from the participants of the event, EuroSciCon LLC LTD would like to announce the commencement of” EuroScicon congress on Biochemistry & Molecular Biology” during November 13-14, 2023 at London, UK.
Let us meet again @ Biochemistry Congress 2024
Learn more
Top Biochemistry & Molecular Biology Universities Worldwide:
Biochemistry & Molecular Biology Universities in Europe
Carinthia University of Applied Sciences | University of göttingen | Wageningen University | University of Helsinki | University of Gothenburg | European University Cyprus | University of Nottingham | University of Illinois | University of Copenhagen | Universität Wien | University of Oxford | University of Cambridge | University College London | The University of Manchester | King's College London | Moscow State University | Universidade de Lisboa | Moscow State University | Lancaster University | The University of York | University of Twente | University of Valencia | Lunds university | Swiss Federal Institute of Technology Zurich | The University of Edinburgh | Catholic University of Leuven | Free University of Berlin | University of Oslo University of Southampton | Newcastle University.
USA Biochemistry & Molecular Biology Universities:
McGill University | Purdue University | Tufts University | University of Connecticut | University of Illinois at Urbana-Champaign | Bastyr University | New York Chiropractic College | The University of Bridgeport | Boston University | Colorado State | Cornell University | Harvard University | Clemson University | University of California | University of Washington | University of Delaware | Ohio State University | Rutgers University | Stanford University | Duke University | Brown University | University of California | Scripps Research Institute | Johns Hopkins University | University of Michigan | Yale University | University of Maryland.
Asian Biochemistry & Molecular Biology Universities:
National University of Singapore | University of Hong Kong | KAIST - Korea Advanced Institute of Science & Technology| Nanyang Technological University, Singapore | Hong Kong University of Science and Technology | the Chinese University of Hong Kong | Peking University | Seoul National University | Tsinghua University | the University of Tokyo | Osaka University | Kyoto University | Hokkaido University | University of Science and Technology of China | Nanjing University| Hanyang University.
African Biochemistry & Molecular Biology Universities:
University of Cape Town | University of Pretoria | University of South Africa | University of the Witwatersrand | University of KwaZulu-Natal | Universities Stellenbosch | University of Johannesburg | North-West University | University of Nairobi | University of the Western Cape | The American University | University of Ibadan | Cairo University | Rhodes University | University of the Free State | Moi University | Makerere University | Cape Peninsula University of Technology | Addis Ababa University | Egerton University of Ghana | University of Nigeria | Eduardo Mondlane University | University of Lago | Kenyatta University | Durban University of Technology | Covenant University | Kwame Nkrumah University of Science and Technology | Mansoura University | University of Dar es Salaam | Ahmadu Bello University | Ain Shams University | Jimma University and Ethiopia | University Cheikh Anta Diop | University of Reunion | Alexandria University
Top Biochemistry & Molecular Biology Societies and Associations Worldwide:
Federation of European Biochemical Societies (FEBS) | International Union of Biochemistry and Molecular Biology (IUBMB) | Federation of Asian and Oceanic Biochemistry and Molecular Biology (FAOBMB) | American Society for Biochemistry and Molecular Biology | Association of Clinical Biochemists of India (ACBI)Australasian Association of Clinical Biochemists (AACB)|Australian Society of Biochemistry and Molecular Biology | Belgian Society of Biochemistry and Molecular Biology | Biochemistry and Biomedical Sciences Society (BBSS) | Biochemistry Society | British Society for Proteome Research | Canadian Society for Molecular Biosciences | Egyptian society of Biochemistry and Molecular Biology | Hong Kong Society of Biochemistry and Molecular Biology | International Society of Nucleosides, Nucleotides, & Nucleic Acids| Italian Society of Biochemistry and Molecular Biology | Lithuanian Biochemical Society | Serbian Biochemical Society | Singapore Society for Biochemistry and Molecular Biology | Society for Plant Biochemistry and Biotechnology | Swedish Mass Spectrometry Society (SMSS)|Swiss Society of Crystallography | The Croatian Society of Biochemistry and Molecular Biology (HDBMB) | The Danish Society for Biochemistry and Molecular Biology (DSBMB) | The Israel Society for Biochemistry and Molecular Biology | The Italian Society of Clinical Biochemistry and Clinical Molecular Biology | The Nigerian Society of Biochemistry and Molecular Biology | The Slovak Society for Biochemistry and Molecular Biology | The South African Society for Biochemistry and Molecular Biology
Top Biochemistry & Molecular Biology Journals Worldwide:
The Journal of Biochemistry & Molecular Biology | Journal of Plant And Animal Biochemistry | Journal of Clinical Biochemistry & Molecular Biology | Molecular Biology | Microbiology | Vaccine | European Journal of Biochemistry & Molecular Biology | Nature | Carbohydrates and Biochemistry | Medicinal And Pharmaceutical Biochemistry | Quantitative Biology And Biophysics | Nature Reviews Biochemistry & Molecular Biology | Biochemistry & Molecular Biology | Nature Biochemistry & Molecular Biology | International Biochemistry & Molecular Biology | | Biological Chemistry| Central Dogma | Human Biochemistry & Molecular Biology | Veterinary Biochemistry & Molecular Biology | Interaction between DNA,RNA and Protein | Carbohydrates | Pharmacology And Toxicology | American Journal of Biochemistry & Molecular Biology | Journal of Biochemistry & Molecular Biology | Journal of Carbohydrates | Proteins | Critical Reviews in Biochemistry & Molecular Biology | Clinical Reviews in Animal Biochemistry | Apoptosis | DNA polymerases | Plant And Animal Biochemistry | International Reviews of Biochemistry & Molecular Biology | Medical Genetics | Bioorganic And Biological Chemistry | Biochemistry & Molecular Biology journal | Agricultural And Food Chemistry | Molecular Development Biology | Journal of Quantitative Biology And Biophysics | Journal of Nano Biochemistry | Journal of Structural Biology | International journal of Food Chemistry | journal of Enzymology & Biochemistry | Animal Biochemistry journal | European journal of Enzymology & Biochemistry | American Journal of Enzymology & Biochemistry | Journal of Enzymology & Biochemistry | Journal of Enzymology & Biochemistry Research | American Journal of Enzymology & Biochemistry | Journal of Pharmacology And Toxicology | Asian Pacific Journal of Pharmacology And Toxicology | European Journal of Bioorganic And Biological Chemistry | Journal of Bioorganic And Biological Chemistry | Bioorganic And Biological Chemistry: Current Research | Journal of Enzymology Research | Journal of Biochemistry Techniques & Infectious Diseases | Biochemistry: Open Access | Journal of Structural Biology | Journal of Blotting techniques | Glycobiology In Biochemistry | International Journal of Proteomics In Biochemistry And Molecular Biology| Journal of Medicinal And Pharmaceutical Biochemistry | Journal of Clinical and Medicinal And Pharmaceutical Biochemistry | Journal of Molecular Development Biology | Structural Bioinformatics And Structural Molecular Biology | Archives of Biochemistry | Journal of Proteomics In Biochemistry And Molecular Biology
Biochemistry & Molecular Biology Job Opportunities:
Scientific Research in Biochemistry & Molecular Biology | Physicians and Paediatricians in Biochemistry & Molecular Biology | College Teaching and Research of Biochemistry & Molecular Biology | Associate Professor of Biochemistry & Molecular Biology | Assistant Professor of Biochemistry & Molecular Biology | 2018 MRL Biochemistry & Molecular Biology Intern | Research Group Leader (m/f) - Rapid Identification | Cancer Immunologist & System biologist | Directors of Research Divisions and SWIMS | Post-doctoral positions in Molecular Biology | Research Faculty in Biochemistry & Molecular Biology | Postdoctoral Researcher in Tumour Biochemistry & Molecular Biology | Postdoctoral Fellow - Diabetes, Obesity & Metabolism Institute | Senior Translational Scientist in Biochemistry & Molecular Biology | Postdoctoral Fellow in Biochemistry & Molecular Biology | Associate Editorial in Biochemistry & Molecular Biology | Project Manager in Biochemistry & Molecular Biology | Principal Investigator | Biomedical Sciences Faculty Positions - Cluster Hire in Biochemistry & Molecular Biology | Assistant Professor of Biochemistry & Molecular Biology at MIT-Ragon Institute | Computational Biology Faculty Position in Biochemistry & Molecular Biology | Principal Investigator - Infectious Disease Research | Associate Program Officer | Assistant or Associate Professor| Faculty Position in Biomedical Engineering at UC Davis in Biochemistry & Molecular Biology | Research Scientist Position: Biochemistry & Molecular Biology| Chief Scientific Officer and Vice President, Science and Education in Biochemistry & Molecular Biology | Senior Scientific Writer in Biochemistry & Molecular Biology | Pathology FTE in Biochemistry & Molecular Biology | Assistant Professor of Human Disease Models in Biochemistry & Molecular Biology | Post-doctoral Position in Biochemistry & Molecular Biology/Inflammatory Bowel Disease | Senior Faculty Positions in the Life Sciences | Translational Research in Gastrointestinal & Hepatobiliary Cancers | Cancer Experimental Therapeutics | Research Associate Technician-Therapeutic Tumour | Assistant Professor, Marine Disease Biology | Principal Investigator of Biochemistry & Molecular Biology | Post Doc in Biochemistry & Molecular Biology | Post-Doctoral Scientist position in Biochemistry & Molecular Biology | Tenure Track Assistant Professor in Biochemistry & Molecular Biology | Postdoctoral Research Fellow in Biochemistry & Molecular Biology | Faculty Position in Biochemistry & Molecular Biology