Track Categories

The track category is the heading under which your abstract will be reviewed and later published in the conference printed matters if accepted. During the submission process, you will be asked to select one track category for your abstract.

Molecular Biology is a part of science that worries the molecular premise of natural movement between biomolecules in the different frameworks of a cell, including the cooperations between DNA, RNA, proteins and their biosynthesis, and in addition the control of these collaborations. Different zones of Biology center straightforwardly or by implication around cells, though formative science and cell science concentrate specifically, while phylogenetic and developmental science concentrate by implication. The particular procedures utilized in molecular biology are particular to the field, however, may likewise be covered with strategies and ideas concerning genetics and biochemistry, so there is no accordingly a qualification between these controls.

  • Track 1-1Comparative Genomics
  • Track 1-2DNA Forensics
  • Track 1-3Functional Genomics
  • Track 1-4Gene Therapy
  • Track 1-5Genomics
  • Track 1-6Molecular genetics
  • Track 1-7Pharmacogenomics
  • Track 1-8Proteomics
  • Track 1-9Biochemistry

Genomics is an investigation of structure, limit, and headway of genomes. A genome is done plan of DNA with its characteristics. Inherited characteristics imply particular characteristics, while genome revolves around the whole course of action of characteristics. Bleeding edge genomic sequencing let clinicians and masters to an extraordinary degree increase the genomic data accumulated on sweeping examination peoples. The central legitimate assessment of atomic science is the examination of the shoreline of genetic information in a characteristic structure. The statement of faith is for a perspective on the trading of collection information in between bio-polymers in living structures.

  • Track 2-1Bacterial genetics
  • Track 2-2Somatic cell genetics
  • Track 2-3Eukaryotic genetics
  • Track 2-4Archaea genetics
  • Track 2-5Viral genetics
  • Track 2-6Viroids genetics
  • Track 2-7Plasmid genetics

Analysts in molecular biology utilize particular methods similar to molecular biology however progressively combine these with strategies and ideas from hereditary qualities and biochemistry. There is certifiably not a characterized line between these two. Biochemistry is the investigation of the chemical substances and essential processes happening in organisms. Biochemists focus mainly on the role, function, and structure of biomolecules. The study of the chemistry behind organic procedures and the synthesis of biologically dynamic particles are examples of biochemistry.

  • Track 3-1Animal Biochemistry
  • Track 3-2Plant Biochemistry
  • Track 3-3Metabolism
  • Track 3-4Immunology
  • Track 3-5Enzymology
  • Track 3-6Biochemical Techniques
  • Track 3-7Applications of Biochemistry

Molecular medicine is a boarding zone where physical, substance, organic, bioinformatical strategies can be utilized to locate the molecular structure. It is a connection between the therapeutic sciences and bioinformatics. Molecular prescription aides in evaluating the hereditary mistakes of a malady to think up new molecular systems for the treatment of the sickness. Molecular Medicine is another area derived from Molecular Biology in European studies. Sequencing of the entire genome and finding the gene responsible for the disorder is troublesome and time taking. Consequently, to develop a cure we have to comprehend where and when the specific gene will be expressed and furthermore their capability when the individual is normal and when the individual is affected. Regenerative Medicine aims at helping the body to form new functional tissue to compensate lost/defective ones. Regenerative Medicine includes the use of tissue engineering and stem cell technology.

  • Track 4-1Tissue engineering
  • Track 4-2Cell therapy
  • Track 4-3Clinical trial
  • Track 4-4Commercialization of regenerative medicines

Bioinformatics is a software tool to determine biological information. Bioinformatics is utilized for identification for genes and SNPs. Such identifications are made for understanding the hereditary basis of an illness, its properties, and contrasts between the populace. Bioinformatics endeavors to catch the standards of nucleic acid and protein called proteomics. Bioinformatics is the most important part of Molecular Biology. Significant research is done in drug discovery, gene determination, determination of gene expression, protein-protein association, molecular biology and so on., Structural Bioinformatics additionally assumes a vital job in bioinformatics.

  • Track 5-1Sequence comparison
  • Track 5-2Linkage analysis
  • Track 5-3Phylogenetic analysis
  • Track 5-4Databases

A biomarker is a trait that can be contemplated as a marker of pathogenic and biological task alongside pharmacological answer to a remedial association. They show either typical or disorder in the body. Biomarkers are particular molecules, gene, gene products, hormones, cells or proteins. Tumor markers are produced using normal cells and diseased cells. These are the substances which are delivered by diseased cell or some other cells of the body in light of growth or certain considerate conditions. Most tumor markers are proteins. Additionally, as of late, outlines of quality articulation and change to DNA have likewise started to be utilized as tumor markers. Till now, over 20 tumor markers have been recognized and are in clinical utilize. Mindfulness on tumor biomarkers has lifted lately exceedingly giving extraordinary open doors for profiting the activity of disease patients by enhancing the effectiveness of identification and viability of treatment.

  • Track 6-1High-Through Technology
  • Track 6-2Disease related biomarkers
  • Track 6-3Natural History Marker, Biological Activity Marker, Single or Multiple Markers or Therapeutic Efficacy
  • Track 6-4Predictive Biomarkers
  • Track 6-5Pharmacodynamic Biomarkers
  • Track 6-6Prognostic Biomarkers
  • Track 6-7Role of biomarkers in drug development
  • Track 6-8Limitations of biomarkers

Plant molecular biology is an exceptional field of science for examining plant cells and transforming them to expand the use of plants in regular day to day existence. Profession territories involve farming, food sciences, health care, ecological sciences, and education. Plant molecular biology investigates the functions of specific cells, their capacity in plant life and techniques to adjust those cells to more greater impact. Probably the most widely recognized studies are the result of different stresses, protection from regular disorders and minerals contained inside the plant..

  • Track 7-1Genetic engineering
  • Track 7-2Plant specific genetics
  • Track 7-3Epigenomics
  • Track 7-4Epigenetics
  • Track 7-5Gene expression
  • Track 7-6Photobiology

Metabolomics is the investigation of tiny particles tallying metabolic intermediates (amino acids, nucleotides, sugars and so on.) that exists between cells. The metabolome administers a sensitive indicator of the physiological status of a cell and has potential uses in observing illnesses and its administration. Metabolomics or metabolic profiling is the quantitative investigation of all such cell metabolites at any one time under characterized conditions. In view of the unique synthetic nature of minor cell metabolites, an assortment of techniques is required to quantify these including gas chromatography, HPL chromatography and capillary electrophoresis coupled to NMR and mass spectrometry. The yield from these techniques can create a unique mark of gatherings of related mixes.  


  • Track 8-1Applications of metabolomics
  • Track 8-2Biomarker discovery
  • Track 8-3Exometabolomics
  • Track 8-4Target analysis
  • Track 8-5Metabolite Profiling
  • Track 8-6Metabolic Fingerprinting

Traditional methods for determining gene expression or the phenotypic impact of gene activation can just investigate little quantities of predetermined genes. The methods of the genome-wide examination permit the investigation of the expression or systematic disruption of all genes in a cell. DNA microarrays are little strong backings to which there are spotted individual DNA tests, comparing to gene quality in a creature. At the point when hybridized to marked cDNA comprising the aggregate mRNA populace of a cell and every cDNA ties to its corresponding gene DNA and can be independently evaluated. These new innovations are utilized to ponder the gene expression and its regulation

  • Track 9-1Nucleic acid Fractionation
  • Track 9-2Polymerase Chain Reaction
  • Track 9-3Hybridization
  • Track 9-4Molecular Cloning
  • Track 9-5Nucleic acid enzymes
  • Track 9-6Microarray
  • Track 9-7DNA sequencing
  • Track 9-8Electrophoretic separation of nucleic acid
  • Track 9-9Detection of genes
  • Track 9-10Detection of genes
  • Track 9-11Genetic recombination
  • Track 9-12Genomics
  • Track 9-13Transcriptomics
  • Track 9-14Proteomics
  • Track 9-15Metabolomics

The capability to sequence and handle the genomes of microorganisms, creatures and plants have prompted real methodologies in our origination of cell science. Real advancement in molecular biology became feasible in the late 1970s with the development of r-DNA technology. This has empowered genes to be segregated, sequenced, adjusted and transferred from one life form to the other. The everlasting change of hereditary sickness by gene therapy is now a reasonable probability. In this way, molecular biology and the innovations that have been created have assumed a focal job in the expansion of human, creature, medication, agriculture and the biotechnology field. Recombinant DNA innovation has made numerous assignments less demanding for the Scientists, for example, a detachment of one quality or some other section of DNA, assurance of nucleotide succession, investigation of transcripts, the transformation of transcripts and reinserting it into a living creature along these lines offering to ascend to the idea of transgenic.


  • Track 10-1Goals of rDNA technology
  • Track 10-2Restriction enzymes
  • Track 10-3Enzymes used in rDNA technology
  • Track 10-4Vectors
  • Track 10-5Techniques used in rDNA technology
  • Track 10-6Applications of rDNA technology

Molecular methods are utilized in molecular biology, biochemistry, and genetics for the examination of DNA, RNA, and protein. Molecular cloning is the generally utilized Molecular technique. Molecular biology maintains the structure and capacity of macromolecules and furthermore about the association between DNA, RNA, protein and its biosynthesis. The distinctive techniques in molecular biology are Haemocytometer cell counter, Restriction chemical absorption, DNA ligation, transfection, western smear, plasmid filtration, electroporation, warm stun strategy, and ELISA. A standout amongst the most essential methods of molecular biology to consider protein work is molecular cloning. Molecular Biology methods are standard systems utilized as a part of biochemistry, molecular science, biophysics and hereditary qualities which for the most part include control and examination of DNA, RNA, lipid, and protein. Since around 1960, molecular researches have been created distinctive approaches to distinguish, detach and control sub-molecular segments in cells including DNA, RNA, and proteins.

  • Track 11-1Nucleic acid isolation
  • Track 11-2Electron Microscopy
  • Track 11-3Centrifugal Techniques
  • Track 11-4Gel Electrophoresis
  • Track 11-5Nucleases and restriction maps
  • Track 11-6Recombinant DNA Technology
  • Track 11-7DNE sequence determination
  • Track 11-8Gel electrophoresis
  • Track 11-9Gel electrophoresis
  • Track 11-10SDS PAGE

Transcriptomics is a sorted out and quantitative investigation of all transcripts present in a cell or a tissue under a characterize set of conditions (the transcriptome). The significant focal point of interest for transcriptomics is the mRNA populace, in spite of the fact that there is expanding interest for noncoding RNAs. The attention on mRNA demonstrates its pertinence to molecular biology. The creation of the transcriptome fluctuates notably relying upon cell compose, development or advancement arrange and on ecological signals and conditions. The transcriptome is the full arrangement of RNA transcripts created from the genome at some random time. Transcriptomics contribute worldwide and quantitative examination of interpretation under an express arrangement of conditions. The key methods utilized depend on nucleic acid hybridization and PCR. The transcriptome is favored for all quantitative examination of gene expression as interpretation stays imperative in molecular biology.


  • Track 12-1Transcriptomics scope and aim
  • Track 12-2Technologies
  • Track 12-3Next-generation sequencing Technologies
  • Track 12-4Applications in Plant breeding

Molecular diagnosis has an extensive variety of use in arranging issues influencing the human condition. As a result of wide utilization of specific techniques, molecular biology has quickly ended up inescapable. Molecular diagnosis applying nucleic acids ( DNA or RNA ) isn't just constrained to medication, however, it can be connected in such a significant number of different fields, for example, populace genetics, toxicology, pharmacogenomics, crime scene investigation, prehistoric studies, fossil science, genetically altered creatures. Methodologies in molecular biology and genetic designing innovation, microbial genetic controls have advanced the utilization of microorganisms in biological and ecological research. Molecular biology in the discovery and portrayal of microorganisms has changed on a very basic level the symptomatic microbiology. Molecular Detection has come to the microbiology research tool as PCR. The identification of viral diseases should be possible in minimal effort, diminished time and without capable works utilizing molecular strategies. Western Blot is utilized for the discovery of HIV. Treatment examination and observing of viral DNA and RNA should likewise be possible utilizing molecular methods.

  • Track 13-1Genetic engineering
  • Track 13-2DNA finger-printing
  • Track 13-3Diagnosis of genetic disorders
  • Track 13-4Gene therapy
  • Track 13-5Drug designing
  • Track 13-6Forensic analysis
  • Track 13-7Paternity
  • Track 13-8Research

Stem cells unspecialized cells that are discovered just in multicellular living beings which can offer ascent to a number of cells of a similar sort. The most imperative property of the stem cell is that it can self-restore. Stem cell storage offers the opportunity to cryogenically spare undifferentiated cells at their most exceptional state for last use in its applications. Stem cells are found and utilized from various areas of the body, for example, fringe blood, bone marrow, and umbilical cord. Among these sources, Umbilical cord blood is believed to be readied wellspring of stem cells and can be ensured in the midst of work and utilized for pharmaceuticals when required. Umbilical cord blood stem cells have been used for over 25 years in 35000 transplants over the world. They have wide applications for the regeneration of damaged tissues after accidents. They are used for the treatment of genetic disorders. Scientists have successfully used stem cell therapy for the treatment of various disorders such as Leukemia, Anaemia, SCID, Autoimmune Diseases, Cardiovascular Diseases.

  • Track 14-1 Nuclear reprogramming
  • Track 14-2Somatic Cell Nuclear Transfer
  • Track 14-3Human cloning
  • Track 14-4Induced pluripotent stem cells
  • Track 14-5Potential of stem cells; Tissue repair, Heart disease, Leukemia and cancer, Rheumatoid
  • Track 14-6Arthritis, Parkinson’s disease, diabetes, etc
  • Track 14-7Stem cell transplantation
  • Track 14-8Tissue engineering

In late investigations of Molecular Biology, researchers had discovered that genetic alteration changes the physical expression. The difference between fit toes and unmistakable digits might be the result of not simply genetic data but rather how the genes control that data. Investigates had set up that a minimal, nonspecific turn to a mammals' DNA can seed-specific and amazing physical change. In an alternate research of Molecular Biology, initial monkey clones were created by the technique that made dolly sheep. The initial primate clones made by somatic cell nuclear transfer were two genetically undifferentiated since quite a while ago followed macaques that had hitherto been conceived. The logical point of reference makes it a reasonable prospect for labs to oversee investigate with adjustable populaces of genetically uniform monkeys. Current pattern in an undifferentiated cell is Stem cells help in the repair of Traumatic Brain Injury by building Bio bridge. Another examination is a patient's own cells can be utilized for the treatment of Parkinson's Disease Treatment. Regenerative Medicine and undifferentiated cells focal point of Clinic heart studies.

  • Track 15-1Blotting; Southern, Northern, and Western
  • Track 15-2Loop-Mediated Isothermal Amplification(LAMP)
  • Track 15-3Gene expression/cloning
  • Track 15-4DNA Microarray
  • Track 15-5RNA interferencing
  • Track 15-6Stem Cell Technology

mRNA is a subtype of RNA. mRNA molecule passes on a fragment of the DNA code to various parts of the cell for preparing. mRNA is made in the midst of elucidation. In the midst of the translation handle, a single strand of DNA is decoded by RNA polymerase, and mRNA is incorporated. mRNA is a strand of nucleotides formed after transcription which is further processed into protein through translation.


  • Track 16-1Use of Bioinformatics
  • Track 16-2The Central Dogma
  • Track 16-3Transcription Enzymes
  • Track 16-4Gene expression
  • Track 16-5Transcription process
  • Track 16-6Translation process
  • Track 16-7Use of Bioinformatics

Sequencing is used as a piece of molecular biology to contemplate genomes and the proteins they change over. Data obtained using sequencing empowers specialists to perceive changes in characteristics, association with infections and phenotypes, and recognize potential medication targets. A microarray is an examination center device used to recognize the surge of thousands of characteristics meanwhile. DNA microarrays are amplifying focus point slides that are printed with a colossal number of minor spots in portrayed positions, with each spot containing a known DNA progression or quality. Mostly, these slides are suggested as quality chips or DNA chips. The DNA molecules associated with each slide go about as tests to recognize quality explanation, or, in other words, the transcript me or the course of action of conveyance individual (mRNA) transcripts imparted by a get-together of characteristics. Cutting edge Sequencing (NGS) is routinely hinted as unfathomably parallel sequencing, which proposes that a broad number of little parts of DNA can be sequenced then, making a gigantic pool of information. Cutting edge sequencing (NGS), hugely parallel or huge sequencing is related terms that portray a DNA sequencing improvement which has exasperates genomic look at.

  • Track 17-1Purpose of sequencing
  • Track 17-2Types of methods for sequencing
  • Track 17-3Applications of DNA sequencing
  • Track 17-4Types of Microarrays
  • Track 17-5Types of Microarrays
  • Track 17-6Applications of DNA microarray
  • Track 17-7Advantages and disadvantages of microarray

Computational Molecular Biology deals with the essential issues concerning examination of progressions, genomes and structures. This presents the direct computational methods used to understand the cell on a sub-molecular level. It covers subjects, for instance, the gathering course of action estimations: hashing, dynamic programming, postfix trees, and Gibbs looking at. Additionally, it revolves around computational approaches to manage: genetic and physical mapping; genome sequencing, get together and remark; RNA enunciation and discretionary structure; protein structure and crumbling; and atomic affiliations and movement.

  • Track 18-1Comparative sequence and genome analysis
  • Track 18-2Data mining and Pattern Discovery
  • Track 18-3Computational Structural Biology

RNA processing is a method in which introns are removed and exons are joined before interpretation. As it were, RNA joining is the modification of the early pre-dispatch RNA (pre-mRNA) transcript. To address the request and distinctive parts of mRNA amalgamation and setting up, various researchers swung to the examination of DNA diseases that infect animal cells in culture RNA planning implies any alteration made to RNA between its translation and is completing work in the cell. These getting ready advances fuse the departure of extra zones of RNA, specific changes of RNA bases, and adjustments of the terminations of the RNA. The technique is begun in the cell's center, where specific mixes relax up the required fragment of DNA, which makes the DNA in this area accessible and an RNA copy can be made. This RNA particle changes from the core to the cell cytoplasm, where the clear procedure of protein synthesis  happens.

  • Track 19-1Types of RNA
  • Track 19-2Process of Transcription
  • Track 19-3Process of Translation
  • Track 19-4Protein interaction prediction
  • Track 19-5Protein structure prediction

Proteomics is the generous scale examination of proteins. The proteome is the entire arrangement of proteins that are conveyed or modified by a living thing or framework. This changes with time and obvious necessity or stress that a cell or living being experience. Antibodies to particular proteins or to their changed structures have been used as a piece of Biochemistry and cell science thinks about. These are among the most notable devices used by molecular scientists today. There are a couple of specific techniques and methods that use antibodies for protein recognition. Molecular biology concerns the sub-molecular commence of characteristic activity between biomolecules in the distinctive systems of a cell, including the associations between DNA, RNA and Proteins and their biosynthesis, and likewise the control of this participation.

  • Track 20-1Post-translational modifications
  • Track 20-2Protein databases
  • Track 20-3Methods of studying proteins
  • Track 20-4Practical applications of proteomics
  • Track 20-5Proteome informatics (Bioinformatics for proteomics)
  • Track 20-6Emerging trends in proteomics
  • Track 20-7Limitations of proteomics studies

Sugars or saccharides are basic parts of all living things and the roles they play in science and are explored in various restorative, biochemistry, and biotechnological fields. Molecular biology is the examination of sub-molecular underpinnings of the systems of replication, elucidation, and cell work. The focus authoritative opinion of molecular biology where genetic material is converted into RNA and after that translated to protein, despite being a misshaped picture of molecular biology, still gives a better than average starting stage to understanding the field. This photograph, regardless, is encountering correction in light of rising novel parts for RNA.

  • Track 21-1Glycoconjugates
  • Track 21-2Glycomics
  • Track 21-3Challenges in the study of sugar structures
  • Track 21-4Modern tools and techniques
  • Track 21-5Medicines
  • Track 21-6Skin aging