2^nd International Conference on Genetics and Molecular Biology September 24-25, 2020 Paris, France

Cancer Genomics is the study of genetic mutations responsible for cancer, using genome sequencing and bioinformatics. Clinical genomics is to improve cancer treatment and outcomes lies in determining which sets of genes and gene interactions affect different subsets of cancers. International Cancer Genome Consortium (ICGC) is a voluntary scientific organization that provides a forum for collaboration among the world's leading cancer and genomic researchers.

Molecular biology  concerns the molecular basis of biological activity between the various systems of a cell, including the interactions between the different types of DNA, RNA and proteins and their biosynthesis, and studies how these interactions are regulated. It has many applications like in gene finding, molecular mechanisms of diseases and its therapeutic approaches by cloning, expression and regulation of gene. Research area includes gene expression, epigenetics and chromatin structure and function, RNA processing, functions of non-coding RNAs, transcription. Nowadays, Most advanced researches are going on these topics: Molecular biology, DNA replication, repair and recombination, Transcription, RNA processing, Post-translational modification, proteomics, Mutation, Site-directed mutagenesis, Epigenetics, chromatin structure and function, Molecular mechanisms of diseases

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The human ordering is that the complete set of super molecule sequences for humans encoded as polymer among the twenty-three body pairs in cell nuclei and in a very tiny polymer molecule found among individual mitochondria. This area unit sometimes treated on an individual basis because of the nuclear ordering, and also the mitochondrial ordering. Human genetics in the world Health Initiative aims to produce info and lift awareness among the health sector, governments and therefore the wider public on the health challenges and opportunities among the apace developing science of human genetics. The initiative on Human genetics in world Health builds on the previous work of the Human genetic science programmed and therefore the Initiative on genetics & Public Health.

National Science Foundation (NSF) announces its intention to continue to support plant genome research through the Plant Genome .Research Program (PGRP). Plant Genomics Research Program (PGRP) awards from the National Science Foundation (NSF) that NSF offers supplements to support research collaboration with scientist sin developing countries. The intent of Developing Country Collaborations in Plant Genome Research (DCC-PGR) awards is to support collaborative research linking U.S. researchers with partners from developing countries to solve problems of mutual interest in agriculture, energy and the environment, while placing U.S. and international researchers at the center of a global network of scientific excellence.

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Structural biology seeks to provide a complete and coherent picture of biological phenomena at the molecular and atomic level. The goals of structural biology include developing a comprehensive understanding of the molecular shapes and forms embraced by biological macromolecules and extending this knowledge to understand how different molecular architectures are used to perform the chemical reactions that are central to life. Most recent topics related to structural biology are: Structural Biochemistry, Structure and Function Determination, Hybrid Approaches for Structure Prediction, Structural Biology In Cancer Research, Computational Approaches in Structural Biology, Structural Biology Databases.

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Stem cells are cells originate in all multi-cellular organisms. They were isolated in mice in 1981 and in humans in 1998. In humans there are several types of stem cells, each with variable levels of potency. Stem cell treatments are a type of cell therapy that introduces new cells into adult bodies for possible treatment of cancer, diabetes, neurological disorders and other medical conditions. Stem cells have been used to repair tissue damaged by disease or age. In a developing embryo, stem cells can differentiate into all the specialized cells—ectoderm, endoderm and mesoderm, but also maintain the normal turnover of regenerative organs, such as blood, skin, or intestinal tissues.

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The human genome is the finished arrangement of nucleic corrosive successions for people, encoded as DNA inside the 23 chromosome combines in cell cores and in a little DNA particle found inside individual mitochondria. These are typically treated independently as the atomic genome, and the mitochondrial genome.

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Clinical Genomics is the utilization of genome sequencing to educate understanding analysis and care. Genome sequencing  is relied upon to have the most effect in: portraying and diagnosing hereditary infection; stratifying patients for fitting malignancy treatment; and giving data around an individual's imaginable reaction to treatment to lessen antagonistic medication responses. 

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Bioinformatics is the exploration of gathering and breaking down complex organic information, for example, hereditary codes. Sub-atomic solution requires the joining and examination of genomic, sub-atomic, cell, and additionally clinical information and it in this way offers a momentous arrangement of difficulties to bioinformatics.

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The investigation of cells is called cell science. Cells comprise of cytoplasm encased inside a layer, which contains numerous biomolecules, for example, proteins and nucleic acids. Life forms can be named unicellular (comprising of a solitary cell; including microscopic organisms) or multicellular (counting plants and creatures).

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Cutting edge sequencing  (NGS) is regularly alluded to as greatly parallel sequencing, which implies that a large number of little parts of DNA can be sequenced in the meantime, making a gigantic pool of information. Cutting edge sequencing (NGS), hugely parallel or profound sequencing is connected terms that portray a DNA sequencing innovation which has upset genomic research. Untranslated regions (3'-UTR) of specific mRNAs. A growing body of evidence shows that mRNAs are one of the key players in cell differentiation and growth, mobility and apoptosis.