Conference Description:

Conference Series llc LTD takes immense pleasure in inviting all the participants from across the globe to attend “4th International Conference on Biochemistry & Molecular Biology” which will be held during May 10-11, 2019 at Tokyo, Japan. This comprises of proficient keynote presentations, verbal speeches, productive poster presentations and exhibitions providing insights to the importance and efficiency of Biochemistry & Molecular Biology fields. The main theme of the conference is “Bridging Biochemistry & Molecular Biology: A Peek into Future”.

Conference Series llc LTD organizing 1000+ Global Events every year in Conference series, on Clinical, Medicine, Pharmaceutical Sciences and Science & Technology every year across USA, Europe, Asia, Middle East, Australia and UK with support from 1000 more scientific societies and publishes 700+ open access journals which contains over 100000 eminent personalities, reputed scientists as editorial board and organizing committee members.

Biochemistry is the application of chemistry to the study of biological processes at the cellular and molecular level. Biochemistry is both a life science and a chemical science - it explores the chemistry of living organisms and the molecular basis for the changes occurring in living cells. It uses the methods of chemistry, physics, molecular biology and immunology to study the structure and behavior of the complex molecules found in biological material and the ways these molecules interact to form cells, tissues and whole organisms. Biochemistry has become the foundation for understanding all biological processes. It underlies and includes such exciting new fields as molecular genetics and bioengineering. Biochemistry is also unique in providing teaching and research in both protein structure/function and genetic engineering.

Biochemistry also includes many subspecialties such as neurochemistry, bioorganic chemistry, clinical biochemistry, physical biochemistry, molecular genetics, biochemical pharmacology and immunochemistry. Recent advances in these areas have created links among technology, chemical engineering and biochemistry.

Why to attend?

Biochemistry 2019 mainly focusses on the universities, institutes, research centers and major societies along with companies which hold a big market in laboratory technologies. Target audience involves students, faculties, researchers, scientists, dean, directors and CEO's of the companies.

We welcome all interested participants to join us for our conference on Biochemistry and Molecular Biology at the exquisite destination Tokyo, Japan.

Our Conference will provide a perfect platform to enlighten knowledge through:

Innovative talks by the experts of the global scientific community
Sterling workshop and sessions
Remarkable Awards and Global Recognition to meritorious Researchers
Global Networking with 50+ Countries across the globe
Novel Techniques to Benefit Your Research
Global Business and Networking Opportunities
Exquisite Platform for showcasing your products and International Sponsorship

Scientific Sessions

Track 1: Clinical and Nutritional Biochemistry

The field Clinical biochemistry is a study of biochemical mechanisms within the body in relevancy un-wellness condition, through the testing of body fluids like body waste or blood or spittle. Several diseases tend to indicate important changes in their chemical composition of body fluids just like the multiplied levels of blood enzymes due to their release from heart muscles soon after a heart attack or also elevated glucose levels in diabetes mellitus that happens thanks to less or null of internal secretion. Biochemistry tests are aimed to notice these modifications either qualitatively or quantitatively compared to results from nutrient individuals. Clinical biochemistry uses a good vary of analytical techniques with its applications principally in clinical chemistry, biology, therapeutic drug observance, toxicology, laboratory immunology & medicine used for diagnosing, prognosis, medical aid and management of disease. Nutritional biochemistry maintains with the perception of mechanism by which diet influences human health & illness condition. It principally contributes with the properties of nutrients, different dietary substitutes & the study of their physiological, metabolic, biochemical & epigenetic functions. nutritional organic chemistry may be a combined sort of science because it incorporates physiology, pharmacology, medicine, biology, microbiology & chemistry & implements these sciences specifically to study of illness conditions, health, nutrition, & the connections that exist between them.

Track 2: Medicinal and Pharmaceutical Biochemistry

Medicinal biochemistry is that branch of drugs involved with the biochemistry and metabolism of human health and sickness. The medical chemist is trained within the operation and management of clinical biochemistry laboratories, and acts as an authority all told aspects of their use. The medical chemist directs clinical laboratories, consults, diagnoses and treats patients with a range of metabolic disorders and biochemical abnormalities. Medical biochemistry addresses the functioning of traditional and pathologic organisms from a biochemical purpose of view. Through modules in neurodegeneration, disorder and medical specialty, one can develop a powerful understanding of the implications of biochemistry at intervals drugs aboard the analysis and experimental skills. Pharmaceutical biochemistry consist the data of biochemistry & chemistry & applies to the production of the many helpful medicine. It principally issues with the science of medicine, their clinical uses and therefore the study of their adverse effects on living organisms. It provides a whole understanding of all chemical processes occurring and related to living cells at the molecular level that's associated with drug action. It conjointly helps to acquire data on the adverse effects, molecular targets, & characterization of medicine or different chemical substance within the living cells & organisms.

Track 3: Structural and Molecular Biochemistry

Structural Biochemistry is a sub-division of biochemistry that mainly focuses on the structural characteristics of the molecules within cells and other made up of living organisms. The main area is focused on structural basis of fundamental biological processes. It involves the study of the structure of macro molecules. It includes methods for structure determination and huge data of structural information. Few of the tools will be used to study some class of structures such as membrane, regulatory proteins, structural proteins. These structural macromolecules will provide the framework for discussion on domains, motifs, structural homology, etc., as well as addressing as to how specific biological problems can be solved at the atomic level. A major branch of biochemistry deals with the numerous aspects of macromolecules at the structural and useful levels. It additionally deals with the interactions amongst totally different cell parts as well as macromolecules like nucleic acids, proteins, lipids, amino acids and carbohydrates. Molecular biochemistry has big wide to capture the array of chemistry, physics, medicine and biology. it's one among the foremost necessary aspects of molecular biology to find the chemical properties of the molecules. The processes that occur inside the cell area unit answerable for their structure, reproduction and response to stimuli.

Track 4: Protein and Analytical Biochemistry

Proteins offer most of the molecular machinery of cells. Several square measure enzymes or subunits of enzymes. Alternative proteins play structural or mechanical roles, like those who kind the struts and joints of the bodily structure. Every macromolecule is linear polymers designed of amino acids. Analytical biochemistry is the study of biochemical components found in a cell or other biological sample. This field uses a broad vary of techniques for separation, identification, quantification and practical characterization of biological molecules like nucleic acids, enzymes, proteins, pigments, carbohydrates and additional. The main ways involved in analytical biochemistry to separate the biological components are qualitative analysis techniques, chromate graphical Techniques, super molecule Estimation & Purification Techniques and medicine Techniques.

Track 5: Cellular and Molecular Biology

Cell and Molecular Biology is an interdisciplinary field of science that deals with the fields of chemistry, structure and biology as it seeks to understand life and cellular processes at the molecular level. Molecular cell biology mainly focuses on the determination of cell fate and differentiation, growth regulation of cell, Cell adhesion and movement, Intracellular trafficking. The relationship of signalling to cellular growth and death, transcriptional regulation, mitosis, cellular differentiation and organogenesis, cell adhesion, motility and chemotaxis are more complex topics under Cellular and Molecular Biology. Molecular biology explores cells, their characteristics, parts, and chemical processes, and pays special attention to how molecules control a cell’s activities and growth. The molecular components make up biochemical pathways that provide the cells with energy, facilitate processing “messages” from outside the cell itself, generate new proteins, and replicate the cellular DNA genome. To understand the behaviour of cells, it is important to add to the molecular level of description an understanding on the level of systems biology.

Track 6: Enzymology & Biochemistry

Biochemistry, sometimes called biological chemistry, is the study of chemical processes within and relating to living organisms. By controlling information flow through biochemical signalling and the flow of chemical energy through metabolism, biochemical processes give rise to the complexity of life. Over the last decades of the 20th century, biochemistry has become so successful at explaining living processes that now almost all areas of the life sciences from botany to medicine to genetics are engaged in biochemical research. Today, the main focus of pure biochemistry is on understanding how biological molecules give rise to the processes that occur within living cells, which in turn relates greatly to the study and understanding of tissues, organs, and whole organisms - that is, all of biology.

Track 7: Enzymology in Molecular Biology

Molecular enzymology is designing and synthesis of enzymes and high unmet medical needs are based on innovative drug targets. The work of designing and synthesis of enzymes and high unmet medical need are based on innovative drug targets. Molecular Enzymology's interest include in all aspects related to enzymes like discovery of enzymes, enzyme structure, enzyme mechanisms, cellular and metabolic functions of enzymes, exploitation of enzymes for biotechnological and pharmaceutical applications, drug discovery, biochemical aspects of enzymes, bioinformatics, computational analysis, molecular modelling studies, new methods in enzyme expression and purification, bio catalysis, bio molecular engineering, enzyme kinetics and inhibitors.

Track 8: Proteomics in Biochemistry and Molecular Biology

Proteomics is the large-scale study of proteins. Proteins are vital parts of living organisms, with many functions. The proteome is the entire set of proteins that are produced or modified by an organism or system. This varies with time and distinct requirements, or stresses, that a cell or organism undergoes. Antibodies to particular proteins or to their modified forms have been used in biochemistry and cell biology studies. These are among the most common tools used by molecular biologists today. There are several specific techniques and protocols that use antibodies for protein detection. Molecular biology concerns the molecular basis of biological activity between biomolecules in the various systems of a cell, including the interactions between DNA, RNA, and proteins and their biosynthesis, as well as the regulation of these interactions.

Track 9: Nano Biochemistry

The science of Nano scale structures deals with the investigation moreover as utilization of parts or systems that are 109 times smaller than the quality size of parts. Biochemistry deals with numerous metabolic and biochemical processes at intervals the living creatures. Consolidation of those two technologies resulted in starting of Nano biochemistry. This knowledge base combination of applied science & biochemistry will produce various innovative tools. Application of applied science to biological sciences indicates creation of materials and devices designed to act at intervals the body with high degree specificity. This might be presumably accustomed target cellular and tissue-specific clinical applications that are directed at top therapeutic effects with no adverse-effects. Applied science Application to medical specialty sciences can present several revolutionary possibilities within the fight against most sorts of cancers, cardiac, neurodegenerative disorders, infection and diseases.

Track 10: Cardiac Biochemistry

Cardiac Biochemistry is the biochemical mechanisms and properties underlying normal cardiovascular function and diseases such as heart failure. The molecular properties and regulatory mechanisms controlling the function of G protein-coupled receptors. The adrenergic receptors for adrenaline and related molecules are used as model systems. The cardiovascular system and the biochemistry of grafts used in heart surgery.

Track 11: Toxicology and Pharmacology

Pharmacology is an area of science which relates to the discovery, chemistry, composition, identification, biological and physical effects, uses and manufate of drugs. Pharmacology is commonly mistaken for pharmacy, which is a profession involving the preparation, and dispensing of drugs. Toxicology is a branch of biology, chemistry, and medicine concerned with the study of the adverse effects of chemicals on living organisms. It also studies the harmful effects of chemical, biological and physical agents in biological systems that establish the extent of damage in living organisms. The relationship between dose and its effects on the exposed organism is of high significance in toxicology. Factors that influence chemical toxicity include the dosage; the route of exposure, the species, age, sex and environment.

Track 12: Medical Genetics

The science of Medical biological science is concerned with the physical and chemical characteristics of genes and their expression that controls the development & maintenance of the organism. The field of medical genetics is kind of new & presently accustomed describe the reason behind many inherited diseases. The unwellness usually leads to generation of unreliable proteins like in cases of haemophilia then quite two hundred 'inborn errors' of metabolism are recognized in animals, unwellness conditions like mannosidosis & galactosemia occur due to lack of a specific protein/enzyme that prohibits metabolism of carbohydrates, proteins, fats & thus shows clinical signs.

Track 13: Clinical Pathology

Clinical pathology is related to the analysis of disease using laboratory tools for testing of blood and other bodily fluids, tissues, and microscopic appraisal of individual cells. Clinical pathology also has improved in technology field. In the recent times it has introduced image digitizing technology, which makes easy for the viewers of the results or the lab technician.

14th International Conference and Exhibition on Metabolomics & Systems Biology, April 29-30, 2019 Kyoto, Japan; 4th International Conference on Biochemistry & Molecular Biology, May 10-11, 2019 Tokyo, Japan; 13th International Conference on Proteomics and Bioinformatics, May 10-11, 2019 Tokyo, Japan; 5th International Conference on Enzymology and Molecular Biology, February 28-March 01, 2019 Berlin, Germany; Asia-Pacific Congress of Clinical Biochemistry, November 17-20, 2019, India; 9th International Conference on Bioscience, Biochemistry and Bioinformatics (ICBBB 2019), January 07-09, 2019 Singapore; ICBBMB 2019: 21st International Conference on Biochemistry, Biophysics and Molecular Biology, July 29 - 30, 2019, Istanbul, Turkey; Biochemical Society; Belgian Society of Biochemistry and Molecular Biology; American Society for Biochemistry and Molecular Biology; American Chemical Society - Division of Biological Chemistry.

Track 14: Structural Biology

Structural biology is a branch of molecular biology, biochemistry, and biophysics. Structural biology is the study of the 3D structure of biologically important molecules and macromolecules such as proteins, nucleic acids and carbohydrates. The 3D structures of these molecules generally define their function. Biomolecules are too small to see in detail even with the most advanced light microscopes. The methods that structural biologists use to determine their structures generally involve measurements on vast numbers of identical molecules at the same time.

Track 15: Structural Bioinformatics and Structural Molecular Biology

Structural bioinformatics is the branch of bioinformatics which is related to the analysis and prediction of the three-dimensional structure of biological macromolecules such as proteins, RNA, and DNA. It deals with generalizations about macromolecular 3D structure such as comparisons of overall folds and local motifs, principles of molecular folding, evolution, and binding interactions, and structure/function relationships, working both from experimentally solved structures and from computational models. The term structural has the same meaning as in structural biology, and structural bioinformatics can be seen as a part of computational structural biology. Structural biology is a branch of molecular biology, biochemistry, and biophysics concerned with the molecular structure of biological macromolecules, especially amino and nucleic acids, how they acquire the structures they have, and how alterations in their structures affect their function.

Track 16: Computational Chemistry and Chemical Biology

Computational chemists develop and apply computer programs to answer key questions in biochemistry. They model, predict, visualize, and analyze the structures, functions, and interactions of biologically important molecules. Computational chemistry is a branch of chemistry that uses computer simulation to assist in solving chemical problems. It uses methods of theoretical chemistry, incorporated into efficient computer programs, to calculate the structures and properties of molecules and solids. Biochemistry is the study of the chemistry of biology. It encompasses topics such as understanding how proteins are translated and peptide bonds formed, how macromolecular interactions occur, how the cell makes metabolites, etc.

Track 17: Animal and Plant Biochemistry

Animal Biochemistry is the study of different chemical reactions going on in the body of animal for life. The research focus on Animal biochemistry highly relevant to the understanding of major aspects of vet nary science and animal husbandry so as to understand the metabolism and function of animals in health and disease. Plant biochemistry is not only an important field of basic science explaining the molecular function of a plant, but is also an applied science that is in the position to contribute to the solution of agricultural and pharmaceutical problems. Plants are the source of important industrial raw material such as fat and starch but they are also the basis for the production of pharmaceutics. It is expected that in the future, gene technology will lead to the extensive use of plants as a means of producing sustainable raw material for industrial purposes. As such, the techniques and use of genetic engineering to improve crop plants and to provide sustainable raw materials for the chemical and pharmaceutical industries are described in this edition. The latest research findings have been included, and areas of future research are identified.

Track 18: Lipids and Metabolism

Lipid metabolism is the synthesis and degradation of lipids in cells. Lipid metabolism is the break down or storage of fats for energy; these fats are obtained from consuming food and absorbing them or they are synthesized by an animal's liver.

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