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International Conference on Molecular Biology and Medicine, will be organized around the theme “Exploring the Modern Innovation in the field of Molecular Biology and Medicine”
Molecular Biology Meet 2018 is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in Molecular Biology Meet 2018
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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. Recent and advanced researches are going on Molecular biology, structural mechanism of DNA replication, repair and recombination, Transcription, RNA processing, Post-translational modification, proteomics, Genetic Mutation, Epigenetics, Molecular mechanisms of diseases.
- Track 1-1Translation
- Track 1-2Transcription
- Track 1-3DNA replication
- Track 1-4Molecular Biology Evolution
- Track 1-5Cell Molecular Biology
- Track 1-6Molecular Biology Aging
- Track 1-7Biochemistry of Metabolic Syndromes
- Track 1-8Gene coding
Molecular enzymology is the department of biochemistry that encompasses the useful and basic characteristics of the enzymes at molecular level. Enzymes are globular proteins which play an exceptionally critical part as a catalyst for a biochemical response. Thus, Molecular enzymology encompasses of different application in the pharm and biotechnological strategy and understanding the molecular structure through bioinformatics method. It thinks about making a difference in understanding and creating the enzymes as biomarkers. It also deals with planning and synthesis of chemicals and various enzymes where the neglected restorative needs are based on inventive sedate targets. Furthermore, this field deals with the potential employments of the enzymes in the industry, for the environment and for human wellbeing are explored.
- Track 2-1Protein Engineering
- Track 2-2Bioinformatics
- Track 2-3Biocatalysis
- Track 2-4Enzyme Kinetics
- Track 2-5Molecular Modelling
- Track 2-6Bio-Molecular Engineering
Molecular toxicology is a department that deals with the factors resulting on the living organisms due to various chemical components. It holds the potential to be a key supporter to the investigative toxicology paradigm. Among those molecular advances with appropriateness for early organize preclinical security appraisal are cDNA library screening, gene expression and cloning and expression investigation advances. Toxicology covering with science, chemistry, pharmacology, and pharmaceutical, that includes the study of the antagonistic impacts of chemical substances on living beings and the practice of diagnosing bipolar disorder and treating exposures to poisons and toxicants.
- Track 3-1Chemical Toxicology
- Track 3-2Oral-toxicology
- Track 3-3Metal toxicology
- Track 3-4Cardiac Toxicity
- Track 3-5Chemical Toxicology
- Track 3-6Developmental Toxicology
- Track 3-7Drug Toxicity
Molecular pathology is a part of pathology which is aims in the analysis and finding of disease through the examination of particles inside organs, tissues or characteristic fluids. It imparts a few parts of training to anatomic pathology and clinical pathology, molecular science, bio chemistry, proteomics and genetics, and is at times considered a "hybrid" teaches. Usually infections or diseases are analysed by looking at signs and indications in patients and by utilizing demonstrative tests. But it’s conceivable that indications and tests can provide the same answers for diverse infections, or for subsets of the same infection that are caused by distinctive basic issues. Hence, Molecular pathology is distinctive in that it looks for to depict and get effect and presence of illness at the level of macromolecules (for case DNA, RNA and protein) and in a few cases at an indeed smaller scale. It is multi-disciplinary in nature and concentrates predominantly on the sub-microscopic parts of illness.
- Track 4-1Pathogenomics
- Track 4-2Clinical Pathology
- Track 4-3Pediatric Pathology
- Track 4-4Cellular Medicine
- Track 4-5Polymerase chain reaction
- Track 4-6Molecular Animal Pathology
Pharmacology is the premise of much of the research and improvement of unused drugs. The future of pharmacology is guaranteed, as there are numerous illnesses for which neither cures nor have palliations been concocted - for example, Alzheimer’s illness, neurogenerative diseases, many forms of cancer. Indeed when a remedy or treatment is accessible, few medications are perfect and the look for superior drugs proceeds. In addition, researchers such as physiologists, biochemists and clinicians regularly discover the knowledge of pharmacology valuable as they use drugs to test and characterize the organic systems they are examining. The cellular and chemical abnormalities of illness states are considered in the expectation that molecules may be planned specifically to redress the variation from the norm. The consideration of pharmacology requires understanding normal body capacities (biochemistry and physiology) and the unsettling influences that happens (pathology).
- Track 5-1Neuroscience
- Track 5-2Cell biology
- Track 5-3Immunology
- Track 5-4Biochemistry
- Track 5-5Biophysics
Molecular Microbiology inquires about centres on the bacterial cell cycle, translation direction, chromosome isolation and cell division. It Incorporates the Structure-function examination of the NusA-RNA polymerase interaction, Exploitation of the interaction of start factor with RNA sequencing and examination for unused anti-microbial advancement, Frameworks science of the model Gram positive life form Bacillus, Bacterial chromosome repair mechanisms. It points at understanding protein trade, solute transport and cell division in micro-organisms. These forms take place at the cytoplasmic film of micro-organisms, and membrane manufactured biology medication.
- Track 6-1Bacteriology
- Track 6-2Environmental Microbiology
- Track 6-3Evolutionary Microbiology
- Track 6-4Food Microbiology
- Track 6-5Medical (or Clinical) Microbiology
- Track 6-6Microbial Genetics
Drug designing, habitually implied to as a sensible pharmaceutical layout or basically a typical arrange, is the imaginative strategy of finding unused pharmaceuticals considering the data of a characteristic target. The medication is most generally a natural little atom that actuates or restrains the capacity of a structure of molecules. For example, a protein, which thus brings about a remedial advantage to the patient? In the most essential plant pathology medicate configuration includes the outline of particles that are corresponding fit as a fiddle and charge to the bio molecular focus with which they collaborate and in this way, will tie to it. Medication outline much of the time however not really depends on PC displaying systems.
- Track 7-1Drug Targets
- Track 7-2Drug & Device Safety
- Track 7-3Nanoparticles for drug delivery
- Track 7-4Drug development
- Track 7-5Retrometabolic drug design
- Track 7-6Drug Screening
- Track 7-7Structure Based Drug
- Track 7-8Rational drug design
- Track 7-9Computer-aided Drug Design
Molecular cloning is a set of exploratory strategies in molecular science that are utilized to gather replication DNA particles and to coordinate their replication inside host life forms. In this procedure, DNA coding for a protein of intrigued is cloned into a plasmid. The utilization of the word cloning alludes to the truth that the strategy includes the replication of one particle to deliver a population of cells with indistinguishable DNA molecules. A vector has 3 particular highlights: a beginning of replication, a numerous cloning location and a specific marker. The beginning of replication will have promoter districts upstream from the replication/transcription begin location. This plasmid can be embedded into either bacterial or creature cells. Presenting DNA into bacterial cells can be done by transformation, conjugation or by transduction. A few diverse transfection strategies are accessible, such as calcium phosphate transfection, electroporation, microinjection and liposome transfection.
- Track 8-1Properties of nucleic acids
- Track 8-2Preparation of radiolabeled DNA and RNA probes
- Track 8-3Cloning of adiponectin receptors
- Track 8-4Molecular cloning of cDNAs
- Track 8-5Plasmid Vectors
- Track 8-6Cosmid vectors
Molecular diagnostics is regarded as the determination of genomic variants in-order to ease the process of detection, diagnosis, sub-classification, prognosis, and monitoring the effects of therapy. Molecular diagnostics is a set of strategies utilized to dissect biomarkers in the genome and proteome and to identify the individual's hereditary code and to study how their cells express their genes as proteins by applying molecular biology to restorative testing. The method is utilized to analyze and screen infection, distinguish hazard, and choose which treatments will work best for individual patients. The methodology is utilized to dissect and screen affliction, recognize chance, and select which medications will work best for particular patients. By dissecting the specifics of the patient and their sickness, molecular diagnostics offers the plausibility of customized pharmaceutical.
- Track 9-1DNA melting
- Track 9-2Genotyping
- Track 9-3Heteroduplexes
- Track 9-4HLA Matching
- Track 9-5LC Green
- Track 9-6Dye Melting Temperature
Pathology is a significant component of the medical sciences to understand the nature of the disease and a major field in diagnosis and applied biomedicine. It incorporates a wide range of medical practices and bioscience research to diagnose disease mostly by analysing cells, tissues and body fluids. The sense of the word pathology as a synonym of disease or pathos is very common in health care. Molecular medicine is an emerging area that aims to understand the molecular determinants of disease and health for the prevention, diagnosis and treatment using physical, chemical, biological and medical techniques. It points to get it how wellbeing is kept up and the origins and mechanisms of human infections. The molecular pharmaceutical point of view emphasizes cellular and molecular marvels and interventions rather than the past conceptual and observational centre on patients and their Artificial Organs.
- Track 10-1Dermatopathology
- Track 10-2General medical pathology
- Track 10-3Clinical Pathology
- Track 10-4Molecular pathology of schizophrenia
- Track 10-5Stem cell
- Track 10-6Pathology of tumours
Microbiology deals with the study of living micro-organisms, which includes unicellular (single cell), multicellular (cell colony) organisms such as bacteria, virus, fungi, etc. Microbiology includes various sub disciplines counting virology, parasitology, mycology and bacteriology. Eukaryotic microorganisms have membrane-bound cell organelles and incorporate fungi, while prokaryotic life forms lack the membrane-bound cell organelles. The Microbiologists customarily depend on culture, staining, and microscopy. It is regularly based on molecular science devices such as DNA arrangement based identification, illustration 16s rRNA gene grouping utilized for microbes identification. Molecular genetics is the field of science that thinks about the structure and work of genes at molecular level and in this way utilizes strategies of both molecular science and genetics. This is valuable in the pondering of formative science and in understanding and treating genetic illnesses.
- Track 11-1Cloning
- Track 11-2Genetic manipulation
- Track 11-3Pseudomonadales
- Track 11-4Enterobacteriales
- Track 11-5DNA sequencing
- Track 11-6Betaproteobacteria
Evolutionary genetics is based on how genetic variation leads to developmental change. This field impacts a differing set of scholarly disciplines counting infectious disease, behaviour, physiology, genome advancement, adjustment, and speciation. It incorporates points such as the advancement of genome structure, the hereditary premise of speciation and adjustment and hereditary change in reaction to determination within populations. This field endeavours to account for advancement in terms of changes in quality and genotype frequencies within population and the forms that change over the variation with population into more or less permanent variation between species.
- Track 12-1Genetic Disorders
- Track 12-2Cell & Developmental Biology
- Track 12-3Evolutionary Computation
- Track 12-4Glycinebetaine synthesis
- Track 12-5Genetic Programming
- Track 12-6Genetic Epidemiology
Genetic engineering is the direct manipulation of an organism's genes using biotechnology. It is a set of technologies used to change the genetic makeup of cells, including the transfer of genes within and across species boundaries to produce improved or novel organisms. It has been applied in numerous fields including research, medicine, and industrial biotechnology. As well as producing hormones, vaccines and other drugs genetic engineering has the potential to cure genetic diseases through gene therapy. The rise of commercialised genetically modified crops has provided economic benefit to farmers in many different countries, but has also been the source of most of the controversy surrounding the technology. Viruses are the most common type of vectors used in gene therapy, which is genetically altered to carry the normal human DNA.
- Track 13-1Human pluripotent cells
- Track 13-2Genetic Engineering of Terpenoid Metabolism Attracts
- Track 13-3Therapeutic human monoclonal antibodies
- Track 13-4Glycinebetaine synthesis
- Track 13-5Clonal growth
Cell therapy incorporates a treatment in which cell fabric is imbued into a living cell. It refers to the cell alterations at the molecular level. If the chemotherapy in oncology for occurrence is considered, it implies to kill the cell by passing on harmful administrators to the cell, while Molecular medications would come to a conclusion over the cell division without basically butchering the cell. Gene therapy is a special strategy utilized in restorative treatment those employments particular sorts of genes to treat a few sorts of infections. Gene therapy is the one in which most endless researches are being carried out by analysts all over the world in order to avoid or treat few illnesses such as immune deficiencies, molecular biology of irresistible illnesses, cancer, and indeed HIV, through distinctive methodologies. Gene therapy is also utilized to treat a few innate infections, wherein the transformed imperfect gene is supplanted with the utilitarian gene.
- Track 14-1Cardiovascular Cell Therapy
- Track 14-2Molecular Basis of Epigenetics
- Track 14-3Cell& Gene therapy Bioprocessing & Commercializatiion
- Track 14-4Cell & Gene Therapy Insights
- Track 14-5Cell Line Development
- Track 14-6Tissue Science & Regenerative Medicine
Cell biology is a department of science that ponders the diverse structures and capacities of the cell and it mainly revolves around the concept that the cell is the fundamental unit of life. It clarifies the structure, organization of the organelles they contain their physiological properties, metabolic forms, flagging pathways, life cycle, and intuitive with their surrounding environment. This is done both on a minuscule and molecular level as it includes both membrane-bound and membrane lacking prokaryotic cells and eukaryotic cells. Knowing the components and working of cells and its principal to all biological sciences; it is moreover basic and necessary to inquire about it in bio-medical fields such as cancer, and other infections. Investigations in cell science are closely related to genetics, biochemistry, molecular science, immunology, and formative biology.
- Track 15-1Organelles
- Track 15-2Chemical and molecular environment
- Track 15-3Diabetic complications
- Track 15-4Immune cell biology
- Track 15-5Multipara meter protein
- Track 15-6Nuclear transplantation
Structural science is characterized as a department of molecular science which bargains with biophysics and organic chemistry with respect to the molecular structure of natural macromolecules and in particular it is the study of proteins and nucleic acids and their alterations. It moreover gives data approximately even for the basic changes involved and how it influences throughout the work. This process of assurance of structures of lipoproteins, nucleic acids may take a long time as the shape, estimate and gatherings of these molecules may be modifying the work. Scholars appear incredible intrigued as they bargain with the assurance of the work of macromolecules.
- Track 16-1Protein crystallography
- Track 16-2Adrenergic receptor
- Track 16-3G-protein-coupled receptor
- Track 16-4Protein structure
- Track 16-5Ensemble protein design
- Track 16-6Viral membrane fusion
The limited sequence similarity of protein sequences with known structures has led to an indispensable need for computational technology to predict their structures. Structural bioinformatics (SB) has become integral in elucidating the sequence–structure–function relationship of a protein. Glycobiology along with the field of proteomics, especially the application of mass spectrometry examination to protein tests, is well established and developing quickly. Proteomics is the newly emerging field of life science research that uses High Throughput (HT) technologies to display, identify and/or characterize all the proteins in a given cell, tissue or organism. Structural bioinformatics bargains with Basic information of particles. It abuses calculations for elucidation and deals with 3D spatial information. The principal advancements in strategies of structural bioinformatics are tertiary structure expectation and folding mechanism analysis, the binding mechanism and the intuitive between biological macromolecules and ligands.
- Track 17-1Computational Geometry
- Track 17-2Computer Vision
- Track 17-3Computer Graphics
- Track 17-4Medical Image Interpretation
- Track 17-5Pattern Recognition.
Biochemistry deals with the structure and work of various biological molecules such as proteins, nucleic acids, carbohydrates and lipids and also the chemical and physic-physical process occurring with living organisms. It is moreover utilized to depict methods suitable for understanding the intuitive and capacities of biological molecules and it is a research facility based science that brings together science and chemistry. By utilizing chemical information and strategies, organic chemists can get it and unravel biological issues. Biochemistry centers on forms happening at a molecular level and it centres on what’s happening inside our cells. It too looks at how cells communicate with each other, for case amid cell development or battling sickness.
- Track 18-1Biocatalysts
- Track 18-2Biogeochemistry
- Track 18-3Bio inorganic chemistry
- Track 18-4Biophysical chemistry
- Track 18-5Carbohydrates
- Track 18-6Chemical modification
Metabolomics refers to the pondering of chemical forms including metabolites. Particularly it is the "efficient ponder of the one of a kind chemical fingerprints that particular cellular forms take off behind", the consideration of their small-molecule metabolite profiles. The metabolomics speaks to the collection of all metabolites in a natural cell, tissue, organ or living being, which are the conclusion items of cellular forms. mRNA quality expression information and proteomic examinations uncover the set of quality items being created in the cell, information that speaks to one perspective of cellular work. The challenge of frameworks science and useful genomics is to coordinated proteomic and metabolomics data to supply a superior understanding of molecular and cellular biology.
- Track 19-1Exometabolomics
- Track 19-2Pharmacometabolomics
- Track 19-3Transcriptomics and proteomics
- Track 19-4Tetrahydrofolate metabolites
- Track 19-5Human Metabolomics
- Track 19-6Biomarker
Nuclear Medicine includes the field of Molecular imaging. It uses in very small amounts of radioactive materials (radio pharmaceuticals) to diagnose and treat disease. In nuclear medicine imaging, the radio pharmaceuticals are detected by special types of cameras that work with computers to provide very precise pictures of the area of the body being imaged. Nuclear medicine can also be used to treat certain types of cancer and other diseases. Nuclear Medicine and Molecular Imaging are unique because an external source of energy such as x-rays, magnetic fields or ultrasound waves is used to produce pictures of bone and soft tissue.
- Track 20-1Nuclear medicine in treatment
- Track 20-2Nuclear medicine in diagnosis
- Track 20-3Multiple-Gated Acquisition
- Track 20-4Radiology
- Track 20-5Red blood cells
- Track 20-6Internal Dose Assessment in Nuclear Medicine
Medical diagnosis is the way toward figuring out which illness or condition clarifies a man's side effects and signs. It is frequently alluded to as analysis with the medicinal setting being verifiable. The data required for conclusion is normally gathered from a history and physical examination of the individual looking for therapeutic agents. Frequently, at least one indicative methodology, for example, analytic tests, are additionally done amid the procedure. In some cases, posthumous finding is viewed as a sort of medicinal analysis. Finding is frequently testing, because many signs and side effects are nonspecific. For instance, redness of the skin systematic lupus erythematous without anyone else's input is an indication of many issue and in this manner, doesn't tell the human services proficient what isn't right. In this manner differential analysis, in which a few conceivable clarifications are considered, must be performed.
- Track 21-1Molecular Radiology
- Track 21-2Local Therapy
- Track 21-3Neuroimaging Technology
- Track 21-4Tumor metabolism
- Track 21-5Genetic Testing
- Track 21-6Genetic Testing
- Track 21-7Nanoparticle sensors