BD GENOMES

✅Bacterial Whole Genome Sequencing


✅Bacteriophage Whole Genome Sequencing


✅Viral Whole Genome Sequencing


✅Plant Whole Genome Sequencing


✅Fungal Whole Genome Sequencing


✅Animals Whole Genome Sequencing


✅Clinical Exome Sequencing


✅Exome & Large Panel Sequencing


✅Single-Cell Profiling (scRNA-Seq, scDNA-Seq, oligo tagging assays)


✅Whole genome bisulfite sequencing


✅Chromosome sequencing


✅Lung cancer panel sequencing


✅Brest cancer panel sequencing


✅De Novo sequencing

BD GENOMES

THE STUDY OF GENOMES HAS REVOLUTIONIZED OUR UNDERSTANDING OF LIFE AND ITS COMPLEXITY. EVERY LIVING ORGANISM, FROM THE TINIEST MICROBE TO THE LARGEST ANIMAL, POSSESSES A GENOME THAT CONTAINS ALL THE GENETIC INFORMATION NECESSARY FOR ITS DEVELOPMENT AND FUNCTION. THE HUMAN GENOME, FOR EXAMPLE, CONTAINS AROUND 20,000-25,000 GENES, WHICH CONTROL EVERYTHING FROM OUR PHYSICAL CHARACTERISTICS TO OUR SUSCEPTIBILITY TO DISEASE.
Over the last few decades, advances in technology have enabled us to sequence and analyze the genomes of a wide range of organisms. This has opened up new avenues of research in fields such as genetics, evolutionary biology, and personalized medicine. With the help of genomic analysis, researchers are gaining new insights into how organisms evolve, how diseases arise, and how we can develop new therapies and diagnostic tools.

Changing future

One of the most significant advances in genome research has been the development of next-generation sequencing (NGS) technologies. NGS allows researchers to sequence entire genomes in a matter of hours, rather than months or years, and at a much lower cost. This has made it possible to study the genomes of a wide range of organisms, from bacteria to plants to humans.
 
NGS has also revolutionized the field of personalized medicine. By sequencing the genomes of individuals, researchers can identify genetic variations that may increase the risk of certain diseases or affect the response to certain treatments. This knowledge can be used to develop personalized treatment plans that take into account an individual's genetic makeup, improving the chances of a successful outcome.
 
Another area of genome research that is gaining increasing attention is the study of the microbiome. The microbiome refers to the vast collection of microbes that inhabit our bodies, including bacteria, viruses, and fungi. These microbes play a crucial role in our health and well-being, and the study of their genomes is shedding new light on the complex interplay between the microbiome and human health.