Call for Abstract
Scientific Program
25th World Chemistry & Systems Biology Conference, will be organized around the theme “The study of biological systems applying chemical techniques to utilise those systems for new functions”
CSBC 2019 is comprised of 21 tracks and 48 sessions designed to offer comprehensive sessions that address current issues in CSBC 2019.
Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.
Register now for the conference by choosing an appropriate package suitable to you.
\r\n Computational System Biology reflects conviction that the investigation of biological systems is best drawn nearer by fusing various points of read. We have a tendency to unite various qualities of controls that supplement one another to disentangle the complexness of biology. The thought incorporates anatomy, physiology, cell and somatic cell biology, biology, developmental biology, biochemistry and biophysics. We have a tendency to work with animals, plants and microorganisms and our exploration traverses the amount of the organic chain of command from molecules to ecosystems. Our expansive scope of mastery incorporates: geneticists, palaeontologists, physiologists, behaviourists, systematises, morphologists, microbiologists, bioinformatician, evolutionary biologists, ecologists, biophysicists and biotechnologists.
\r\n\r\n
\r\n\r\n Biophysics covers the natural association, from the atomic level to entire life forms level in an exceedingly biological processes. It depicts however creatures get sustenance, imparting, detecting nature, and continuance. This subject seeks to clarify biological operate in terms of the molecular structures and properties of specific molecules. a crucial space of biophysical study is that the elaborate analysis of the structure of molecules in living systems. The recent analysis square measure as are biophysical approaches to cell biology, cellular movement and cell motility, procedure and theoretical natural philosophy, molecular structure and behaviour of lipids, proteins and nucleic acids, molecular structure & behaviour of membrane proteins, role of biophysical techniques in analysis and prediction, biophysical mechanisms to clarify specific biological processes and Nano biophysics. most up-to-date researchers square measure going on: Biophysical approaches to cell biology, Cellular Movement and Cell Motility, procedure and theoretical biophysics, Molecular Structure and behaviour of Lipids, Proteins and Nucleic Acids, Molecular Structure & Behaviour of Membrane Proteins, Role of Biophysical Techniques in analysis and prediction, Biophysical Mechanisms to clarify specific biological processes.
\r\n\r\n
\r\n\r\n Industrial biotechnology is that the application of biotechnology for industrial functions, as well as industrial fermentation. The apply of exploitation cells like micro-organisms, or elements of cells like enzymes, to get industrially helpful product in sectors like chemicals, food and feed, detergents, paper and pulp, textiles and biofuels. Industrial Biotechnology offers a premier forum bridging basic analysis and R&D with later-stage commercialisation for property bio based mostly industrial and environmental applications.
\r\n\r\n An increasing variety of chemicals and materials, like base chemicals, polymers, industrial catalysts, enzymes and detergents area unit created exploitation biotechnology. In 2010, the sales of commercial chemicals created mistreatment biotechnology in a minimum of one step of the assembly method equalled €92bn globally, and this is often expected to extend to €228bn by 2015.
\r\n\r\n
\r\n\r\n Biomaterials play a pivotal role in field of tissue engineering. Biomimetic synthetic polymers have been created to elicit specific cellular functions and to direct cell-cell interactions both in implants that are initially cell-free, which may serve as matrices to conduct tissue regeneration, and in implants to support cell transplantation. Biomimetic approaches have been based on polymers endowed with bio adhesive receptor-binding peptides and mono- and oligosaccharides. These materials have been patterned in two- and three-dimensions to generate model multicellular tissue architectures, and this approach may be useful in future efforts to generate complex.
\r\n\r\n
\r\n\r\n Synthetic bioengineering is that the manipulation of the biological compounds variable their physical and chemical forms victimisation engineering principles and techniques. Engineering is completed at cellular and subcellular level i.e. molecular level. Bioengineering is that the biological or medical application of engineering principles or engineering instrumentation. Recently,the apply of bioengineering has expanded on the far side large-scale efforts like medical specialty and hospital instrumentation to incorporate engineering at the molecular and cellular level with applications in energy and also the environment additionally as healthcare.
\r\n\r\n
\r\n\r\n Next Generation Sequencing is a non-Sanger-based and high-throughput methodology that permits for generation of countless sequences directly. This sequencing technology has delivered on its promise of sequencing deoxyribonucleic acid at unprecedented speed, thereby sanctionative spectacular scientific achievements and novel biological applications. Millions or billions of DNA strands can be sequenced in parallel, yielding significantly a lot of turnout and minimizing the necessity for the fragment cloning techniques that area unit oftentimes utilised as a part of Sanger sequencing of genomes. DNA sequencing business is divided into instruments and consumables, administrations, and advancement product.
\r\n\r\n
\r\n\r\n Protein mass spectrometry is an analytical technique that refers to the appliance of mass spectrometry to the study of proteins. Mass spectrometry is a very important technique for the correct mass determination and characterization of protein. Its applications embrace the identification of proteins and their post-translational modifications, the elucidation of protein complexes, their subunits and purposeful interactions, yet because the global activity of proteins in proteomics. It also can be accustomed localize proteins to the varied organelles, and verify the interactions between completely different proteins yet like membrane lipids.
\r\n\r\n
\r\n\r\n Bio informatics is a field that develops ways of software system tools for understanding biological information. It's a field of science which mixes with computing, statistics, mathematics and engineering to analyse and interpret biological information. It has been used for in silico analyses of biological queries exploitation mathematical and applied math techniques.
\r\n\r\n
\r\n\r\n DNA & RNA Sequencing means that to see the first structure of a branchless biopolymer and also the ends up in a symbolic linear depiction called a sequence that compactly summarizes abundant of the atomic-level structure of the sequenced molecule. In bioinformatics, Sequence Analysis is that the method of subjecting a DNA, ribonucleic acid or peptide sequence to any of a large varies of analytical strategies to know its options, function, structure, or evolution. The strategies embody sequence alignment, biological databases. The sequences are being compared to that of the identified functions, harmoniously to know the biology of the organism which provides the new sequence. Synergistic use of three-dimensional structures and deep sequencing is completed to understand the impact of personalised medication
\r\n\r\n Currently, cancer treatment is an extremely dynamic field and important advances area unit being created within the development of novel cancer treatment ways. In distinction to traditional cancer medical specialty, cancer biomarkers have enlarged vastly giving sudden possibilities to enhancing therefore on enhance the administration of disease patients the proficiency of discovery and viability of treatment. Biomarkers of disease may incorporate a good scope of organic chemistry components, as an example, nucleic acids, proteins, sugars, lipids, and small metabolites, cytogenetic and cytokinetic parameters and furthermore entire neoplasm cells found within the body liquid. A way reaching comprehension of the relevance of every biomarker are going to be very important for diagnosis the ill health consistently, moreover as facilitate within the decision of various remedial choices as of currently accessible that's liable to advantage the patients. A biological molecule found in blood, different body liquids, or tissues that's a sign of a typical or strange procedure, or of a condition or illness. A biomarker might be utilized to exactly how well the body reacts to a treatment for a sickness or condition. And also known as molecular marker and signature molecule.
\r\n\r\n
\r\n\r\n Systems biology is a branch of science that is field among biology aimed toward understanding biological processes at the systems level and developing from dynamic interactions of individual elements operative at multiple spatiotemporal scales. This field considers organic Systems by expeditiously bothering them (organically, hereditarily, or artificially) and perceptive the standard, protein, and academic pathway reactions , incorporating these information; decreases within the expense of manufacturing genomic data have created deoxyribonucleic acid sequencing, RNA-sequence, associated high-throughput screening an undeniably imperative piece of medicine exploration.
\r\n\r\n
\r\n\r\n Stem cells are cells begin altogether multi-cell organisms. Stem cell treatments square measure a kind of medical care that brings new cells into grown-up bodies for conceivable treatment of cancer, diabetes, neurologic disorders and alternative medical conditions. Stem cells are used to repair tissue broken by infection or age. In an exceedingly making embryo, stem cells can separate into all the particular cells ectoderm, endoderm and mesoderm, to boot sustain the standard turnover of regenerative organs, for instance, blood, skin, or enteric tissue.
\r\n\r\n
\r\n- Track 12-1Synthetic Biochemistry
- Track 12-2Synthetic organic chemistry
- Track 12-3Green chemistry
- Track 12-4Industrial production of Mobilized and Immobilized enzymes
- Track 12-5Industrial Waste management
- Track 12-6Mutation, Site-directed mutagenesis
\r\n Systems and synthetic Biology is a comparatively new field in medical specialty analysis. It focuses on engineering new or changed signalling proteins to form desired signalling pathways within the cell. Each living cell is a particularly complicated machine expressing thousands of various proteins. Because of extreme regulation, several cells like photoreceptors and different neurons in vertebrates will live for many years. Cells may self-reproduce by biological process, wherever each daughter cells area unit perfectly viable. Because of elucidation of the intricacies of cellular restrictive mechanisms we are able to currently play evolution on our time scale: re-design proteins and signalling pathways to realize our ends.
\r\n\r\n
\r\n\r\n Plasma chemistry is that the branch of chemistry that studies chemical processes in low-temperature plasma, together with the laws that govern reactions in plasma and also the fundamentals of plasma chemical technology. Plasmas area unit by artificial means created in plasmatrons at temperatures that vary from 103 to a pair of × 104 K and pressures that vary from 10–6 to 104 atmospheres. Interaction between the reagents in plasma ends up in the formation of ultimate, or terminal, product; these products will be faraway from the plasma by speedy cooling, or ending. The fundamental feature of all plasmochemical processes is that reactive particles are generated in considerably higher concentrations than underneath normal conditions of chemical reactions. The reactive particles that are created in plasma area unit capable of effecting new varieties of chemical reactions; the particles embrace excited molecules, electrons, atoms, atomic and molecular ions, and free radicals. Indeed, a number of these particles will only exist within the plasma state.
\r\n\r\n
\r\n\r\n Supramolecular Chemistry is the branch of chemistry beyond that of molecules and focuses on the chemical system made up of a discrete number of assembled molecular subunits of components.
\r\n\r\n
\r\n- Track 15-1Mechanically Interlocked Molecular Architectures
- Track 15-2Dynamic covalent Chemistry
- Track 15-3Host guest chemistry
- Track 15-4Biomimetics
- Track 15-5Food Sciences
\r\n Nano chemistry is a new branch of chemistry that is the combination of chemistry and nanoscience, related to synthesis of building blocks that are hooked in to size, surface, shape, and defect properties.
\r\n\r\n
\r\n- Track 16-1Function and structure of Nanomaterials
- Track 16-2Synthesis Nano diamond
- Track 16-3Application of Nano chemistry
- Track 16-4Techniques of Nano topography and Nanolithography
- Track 16-5Colloid chemistry
\r\n Chemical biology is that the branch of science wherever the study of the chemicals and chemical reactions concerned in biological processes, incorporating the disciplines of bioorganic chemistry, biochemistry, cell biology and pharmacological medicine.
\r\n\r\n
\r\n- Track 17-1Molecular sensing
- Track 17-2Using of siRNA tools
- Track 17-3Designing of protein and other macromolecules
- Track 17-4Chemical synthesis of peptide
- Track 17-5Application of DNA microarray
- Track 17-6Application of DNA microarray
- Track 17-7Discovering of Biomolecules through Metagenomics
- Track 17-8Frontiers in chemical biology
- Track 17-9Chemical biology in regenerative medicine
\r\n Medicinal chemistry is intersection of chemistry that's particularly organic chemistry and pharmacological medicine and numerous alternative biological specialties, wherever they're concerned with design, chemical synthesis, and development for market of pharmaceutical agents or bio-active molecules (Drugs).
\r\n\r\n
\r\n- Track 18-1Drug design
- Track 18-2Pharmacognosy
- Track 18-3Pharmacokinetics
- Track 18-4Pharmacology
- Track 18-5Drug discovery and development
- Track 18-6Pharmaceutical formulation
\r\n Analytical Chemistry is that the branch of chemistry that studies and uses instruments and ways used to separate, identify, and quantify matter. In apply separation, identification or quantification may represent the complete analysis or be combined with another technique. Separation isolates analysts. It has broad applications to forensics, medicine, science and engineering.
\r\n\r\n
\r\n- Track 19-1Qualitative analysis
- Track 19-2Quantitative analysis
- Track 19-3NMR & Mass spectrometry
- Track 19-4Electrochemical analysis
- Track 19-5Thermal analysis
- Track 19-6Separation science
\r\n Green chemistry is additionally known as sustainable Chemistry. It's the utilization of a group of principles that reduces or eliminates the employment or generation of unsafe substances within the design, manufacture and application of chemical products. Green Chemistry is a part of chemistry and chemical engineering targeted on the designing of products and processes that minimize the utilization and generation of unsafe substances.
\r\n\r\n
\r\n- Track 20-1Green solvent
- Track 20-2Several synthetic techniques
- Track 20-3Substitution of dangerous chemicals
- Track 20-4Green computing
- Track 20-5Drug Discovery
\r\n Molecular biology is the branch of biological science that deals with a molecular basis of biological activity including the interactions between the different types of DNA, RNA and proteins and their biosynthesis, and studies how these interactions are regulated. The field overlaps with other areas of biology and chemistry, particularly genetics and biochemistry. It has many applications such as gene searching, molecular mechanisms of diseases and its therapeutic approaches by cloning, expression and regulation of gene. Research area includes gene expression, epigenetics and structure and function of chromatin, RNA processing, functions of non-coding RNAs, transcription. Recently, most advanced researches are going on these topics: Molecular biology, structural mechanism of DNA replication, repair and recombination, Transcription, RNA processing, Post-translational modification, proteomics, Genetic Mutation, Site-directed mutagenesis, Epigenetics, Molecular mechanisms of diseases.
\r\n\r\n
\r\n- Track 21-1DNA Replication, Repair and Recombination
- Track 21-2Transcription and Gene Expression
- Track 21-3RNA processing
- Track 21-4Post-translational modification, proteomics
- Track 21-5Epigenetics, chromatin structure and function
- Track 21-6Molecular mechanisms of diseases