Call for Abstract

8th World Congress on Epigenetics and Chromosome, will be organized around the theme “Exploring the field of Epigenetics”

EPIGENETICS CONGRESS 2021 is comprised of 16 tracks and 76 sessions designed to offer comprehensive sessions that address current issues in EPIGENETICS CONGRESS 2021.

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.

Epigenetics is the study of heritable changes in gene function without including the progressions in DNA arrangement. It principally includes the progressions in a chromosome which influences gene activity and functions, and furthermore be utilized to report any heritable phenotypic change which doesn't get from an adjustment of the genome. Such impacts on cell and physiological phenotypic qualities may result due to normal development. A chromosome is a long DNA particle with genetic material of an organism. Most eukaryotic chromosomes incorporate bundling proteins called histones which, helped by chaperone proteins, tie to and gather the DNA atom to maintain its integrity. These chromosomes show an intricate three-dimensional design, which assumes a huge part in transcriptional guideline.

  • Track 1-1DNA damage
  • Track 1-2Covalent modification
  • Track 1-3Structural Inheritance
  • Track 1-4Nucleosome positioning
  • Track 1-5Transgenerational

Epigenetics adjustments are the reason for the disease development, environmental exposure, drug treatment and aging. Epigenetic changes can be reversible and are possibly focused on by pharmacological mediation. Epigenetic changes are the elements of human diseases, including Fragile X disorder, Angelman's Syndrome, Prader-Willi condition, and different Cancers. About 80% of brain disorders are related with multiple genomics defects in conjunction with environmental factors and epigenetic phenomena.

  • Track 2-1Autosomal dominant polycystic kidney diseases
  • Track 2-2Mitochondrial disorders
  • Track 2-3Nondisjunction
  • Track 2-4Aneuploidy
  • Track 2-5Cardiovascular diseases

Cancer Epigenetics is consider as the study of actual heritable changes to atomic cycles which impact the progression of data between the DNA of disease cells and their quality gene expression patterns. This includes comparison between cancer cell and normal cell and examination of atomic association, DNA methylation, Histone change and the results of Genetic Mutations in qualities encoding epigenetic controllers. DNA methylation designs go through complex changes in cancer growth.

  • Track 3-1MicroRNA gene silencing
  • Track 3-2Epigenetic carcinogenic
  • Track 3-3Prostate Cancer
  • Track 3-4Cervical cancer
  • Track 3-5Histone modification

Human genetics is the inheritance of characteristics that occurs in human beings. Genes are the normal factor of the characteristics of most human-inherited traits. The study of human genetics helps to understand the human hereditary qualities can respond to inquiries concerning human nature, can help understand diseases and the advancement of successful treatment and assist us with understanding the hereditary qualities of human existence. At a more pragmatic level, a comprehension of human heredity is of basic significance in the prediction, diagnosis, and treatment of sicknesses that have a genetic component.

  • Track 4-1Cytogenetics
  • Track 4-2Molecular genetics
  • Track 4-3Biochemical genetics
  • Track 4-4Genomics
  • Track 4-5Population genetics

Medical genetics is the part of medicine that includes the analysis and management of hereditary disorders. Medical genetics varies from human genetics in that human genetics is a field of scientific research that could possibly apply to medication, while medical genetics qualities alludes to the utilization of hereditary qualities to clinical consideration. For example, research on the causes and inheritance of hereditary issues would be considered inside both human genetics and medical genetics, while the finding, the board, and advising individuals with hereditary diseases would be viewed as a feature of medical genetics.

  • Track 5-1Clinical genetics
  • Track 5-2Metabolic genetics
  • Track 5-3Cytogenetics
  • Track 5-4Molecular genetics
  • Track 5-5Mitochondrial genetics

Genomics is the field of science that focus on the structure, function, development, planning, and altering of genomes. A genome is a life form's finished arrangement of DNA, including all of its genes. Rather than hereditary qualities, which alludes to the study of individual qualities and their parts in inheritance, genomics focuses on the aggregate characterization and measurement of all the organic entity's qualities, their interrelations and impact on the life form. Genes may coordinate the creation of proteins with the help of catalysts and messenger molecules. The, proteins make up body constructions, for example, organs and tissue just as control substance responses and convey signals between cells. Genomics additionally includes the sequencing and examination of genomes through employments of high throughput DNA sequencing and bioinformatics to collect and break down the capacity and design of whole genomes.

  • Track 6-1Functional genomics
  • Track 6-2Structural genomics
  • Track 6-3Epigenomics
  • Track 6-4Metagenomics

Chromatin is a complex of DNA, protein and RNA found in eukaryotic cells. Its essential capacity is bundling long DNA atoms into more minimized, denser designs. This keeps the strands from getting tangled and furthermore assumes significant parts in building up the DNA during cell division, forestalling DNA harm, and directing quality articulation and DNA replication. The dynamic construction of chromatin tweaks other atomic cycles, including record and replication, by changing the availability of the DNA to administrative components.

  • Track 7-1ChIP-seq
  • Track 7-2DNase-seq
  • Track 7-3FAIRE-seq
  • Track 7-4ATAC-seq
  • Track 7-5DNA footprinting

Medical Epigenetics is the study of epigenetics to wellbeing the executives. Medical epigenetics is focusing in on human systems, epigenetic diseases and treatment based on epigenetics-issues and infections. Medical epigenetics will cover all human frameworks applicable to epigenetic maladies. After the assortment of genomics data and related information like the degrees of RNA, proteins and different metabolites that are essential elements in medical, the genomic or customized drugs are given to patients.

  • Track 8-1Methylation inhibiting drugs
  • Track 8-2Bromodomain and inhibitors
  • Track 8-3Histone acetylase (HAT) inhibitors
  • Track 8-4Protein methyltransferase inhibitors
  • Track 8-5Epigenetics meets endocrinology
  • Track 8-6Future direction of epigenetic drugs

Epigenetic therapy is intended to utilize the medications or Epigenome-affecting methods to treat clinical states. Histone Deactylases, which change histones, and DNA methyltransferases, which methylate DNA are the two chemicals that are significant in epigenetic alterations and key focuses for treatment with drugs. Effective clinical examinations completed for both the chemicals. Epigenetic treatment has shown a solid viability against blood cancer and strong Tumors, acquiring FDA endorsement for cutaneous T-cell Lymphoma, ER-positive metastatic bosom disease, Myelodysplastic disorder, numerous myeloma, and fringe T-cell lymphoma. Epigenetic Therapy has demonstrated effective for a few sorts of disease, including cellular breakdown in the lungs, bosom malignant growth, and lymphoma.

  • Track 9-1Fear
  • Track 9-2Anxiety
  • Track 9-3Trauma
  • Track 9-4Cardiac dysfunction
  • Track 9-5Schizophrenia
  • Track 9-6Pharmacokinetics epigenetics

Epigenetics in the Nervous System is the investigation of the cooperation between epigenetic measure, which controls quality articulation without changing the deoxyribonucleic corrosive arrangement, and the turn of events, Physiology and elements of the sensory system.

 

  • Track 10-1Histone Modifications in the Nervous System
  • Track 10-2Neurological disorders
  • Track 10-3Mania (Bipolar disorder)
  • Track 10-4Brain Disorders

Cytogenetics is characterized as the investigation of chromosomal design, chromosome area and capacity in cells. Present day cytogenetic methodologies are empower to definitely name the chromosomal area of any quality utilizing distinctive hued spots, inspect cells from a tissue (even tumor cells), recognize cells that have lost or acquired a particular chromosome and decide if explicit districts of chromosomes have been lost or acquired while never taking a gander at the chromosomes under a microscope.

 

  • Track 11-1Cancer cytogenetics
  • Track 11-2Karyotyping
  • Track 11-3Fluorescent in situ hybridization
  • Track 11-4Cytotaxonomy
  • Track 11-5Molecular cytogenetics

Epigenetics changes have an enormous number of consequences for the maturing interaction. At different levels these epigenetic changes happen, including diminishing the levels of the center histones, changes in the examples of histone post-translational alterations and DNA methylation, replacement of accepted histones with histone variations and changes the noncoding RNA articulation. The reversible idea of epigenetic data gives energizing way to remedial mediation in maturing and age-related sicknesses, including cancer.

  • Track 12-1Epigenetic clock
  • Track 12-2Epigenetic changes in aging
  • Track 12-3Histone modification changes during aging
  • Track 12-4Transgenerational epigenetic changes that affect aging
  • Track 12-5DNA methylation changes during aging

The study of epigenetic alterations on the hereditary material of a cell is known as the epigenome. The field is corresponding to genomics and proteomics, which are the investigation of the genome and proteome of a cell. Epigenomic support is having a significant job in keeping up the security of eukaryotic genomes by partaking in pivotal organic instruments. The plant flavones are the hindering epigenomic marks that cause tumor.

  • Track 13-1Human genome
  • Track 13-2Human genomics project
  • Track 13-3Plant genomics
  • Track 13-4Histone modification assay
  • Track 13-5Epigenomics compounds

Nutriepigenomics refers to the study of food supplements and their impacts on people all through the epigenetic changes. Dietary awkwardness during the beginning phases of life may likewise cause non-transmittable sicknesses like stoutness, hypertension, malignancy, and cardiovascular diseases. The time of advancement in which the healthful irregularity happens likewise decides the kind of qualities which will be influenced. In nutriepigenomic concentrates there exist, certain models, to brief the job of nourishment on aggregate. One of the fascinating techniques is the trick up strategy where the posterity of the rodent is exposed to various sorts of diets and afterward cross-cultivated with the ordinary rats.

  • Track 14-1Nutriepigenetics and development
  • Track 14-2Transgenerational effects
  • Track 14-3Catch-up model
  • Track 14-4Prenatal, perinatal and adulthood effects

Plants are principally relying upon epigenetics measure for their right capacities. Plant epigenomes are furthermore defenseless against ecological impact than those in creatures. Epigenetic instruments are required for right guideline though epi-alleles and epi-freaks, exceptionally like they're hereditary upgrades, depict changes in aggregate identified with unmistakable epigenetic situation. The investigation of epigenetics in plants is experimentally eagerness because of epigenetics have long-standing significance in farming.

  • Track 15-1Growth and development
  • Track 15-2Plant transgenerational epigenetics
  • Track 15-3Genotype and Phenotype
  • Track 15-4Epitranscriptomics

Transgenerational epigenetic inheritance is the exchange of data in life forms from guardians to youngster that influences the qualities of group of people yet to come without adjusting of the essential design of DNA that is epigenetically. The expression "Epigenetic Inheritance" might be utilized to depict data move in both the cell and cell or organic entity and creature in organic entities. Albeit in Unicellular organic entities these two degrees of epigenetic inheritance are same, they may have particular components and transformative qualifications in multicellular organic entities.

  • Track 16-1Deleterious effects
  • Track 16-2Putatively adaptive effects
  • Track 16-3Inheritance of epigenetic marks