Genomics Collection

C. elegans worm
Caenorhabditis elegans nematode worm, light micrograph. This soil-dwelling hermaphrodite nematode worm is one of the most studied animals in biological and genetic research

Creation of oil using designer microbes. Conceptual computer artwork depicting an oil well pump in a petri dish, representing the use of artificially created micro-organisms to produce oil

Creation of artificial life, artwork
Creation of artificial life. Conceptual computer artwork depicting the creation of a new life-form in a petri dish. Geneticists are working on methods for combining artificially replicated genes into

Conceptual image of RNA virus replication

DNA MassARRAY analysis C015 / 6522
DNA MassARRAY analysis. Close-up of a Sequenom DNA MassARRAY machine. MassARRAY platforms are used for SNP (single-nucleotide polymorphism) genotyping

DNA MassARRAY analysis C015 / 6520
DNA MassARRAY analysis. Technician holding a chip from a Sequenom DNA MassARRAY machine. MassARRAY platforms are used for SNP (single-nucleotide polymorphism) genotyping

DNA MassARRAY analysis C015 / 6521
DNA MassARRAY analysis. Close-up of a Sequenom DNA MassARRAY machine. MassARRAY platforms are used for SNP (single-nucleotide polymorphism) genotyping

DNA MassARRAY analysis C015 / 6518
DNA MassARRAY analysis. Technician filling sample plates with resin in a molecular epidemiology lab before running it through a Sequenom DNA MassARRAY machine

DNA MassARRAY analysis C015 / 6519
DNA MassARRAY analysis. Technician holding chips from a Sequenom DNA MassARRAY machine. MassARRAY platforms are used for SNP (single-nucleotide polymorphism) genotyping

DNA MassARRAY analysis C015 / 6517
DNA MassARRAY analysis. Technician filling sample plates with resin in a molecular epidemiology lab before running it through a Sequenom DNA MassARRAY machine

Making money from designer microbes. Conceptual computer artwork depicting US dollar signs in petri dishes, representing the economic benefits of creating artificial micro-organisms

Chromosome, SEM
Chromosome. Coloured scanning electron micrograph (SEM) of a condensed chromosome showing chromomeres. Chromosomes, which consist of two identical chromatids joined at a centromere

Genomics. Conceptual computer artwork of an anatomical model of the human face with a DNA (deoxyribonucleic acid) helix (across bottom) and three molecular models (upper right)

DNA microarray and double helix

Genetic identity. Conceptual computer artwork of a hand, a fingerprint and a DNA microarray. These represent genetic fingerprinting and genetic identity

DNA sequencing

DNA microarray. Computer display of a section of a genome (the sequenced genes of an organism) produced by DNA (deoxyribonucleic acid) microarray technology

DNA research. DNA autoradiogram used for finding the base sequence of a segment of DNA (deoxyribonucleic acid). DNA is the molecule that controls the growth and development of all living things

Genetic information storage. Conceptual computer artwork representing the storage in digital form of data derived from genetic research

Systems biology, flow chart
Systems biology. Flow chart showing various biology disciplines and how they are used in modelling living organisms. An organism (top) is studied and information obtained on its genes

DNA sequencers. Technicians standing next to a row of GS FLX sequencing machines at 454 Life Sciences, Connecticut, USA. DNA (deoxyribonucleic acid)

Mycoplasma mycoides bacteria
Mycoplasma mycoides, coloured transmission electron micrograph (TEM). M. mycoides has a very small genome (total genetic material)

Mycoplasma genitalium bacteria
Mycoplasma genitalium, coloured transmission electron micrograph (TEM). M. genitalium has the smallest genome (total genetic material) of all living organisms

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"Unveiling the Secrets of Genomics: From C. Elegans Worm to Designer Microbes and Artificial Life" Genomics, the study of an organism's complete set of DNA, has revolutionized our understanding of life on a molecular level. From unraveling the mysteries hidden within tiny creatures like the C. Elegans worm to engineering designer microbes capable of creating oil, genomics is paving the way for groundbreaking advancements. Intriguingly, it has even delved into the realm of artistry with the creation of artificial life. Artists have used this scientific knowledge to craft conceptual images that depict RNA virus replication—a mesmerizing blend of science and creativity that captivates both scientists and art enthusiasts alike. But it doesn't stop there; it also plays a crucial role in practical applications such as DNA MassARRAY analysis. With cutting-edge technology like DNA MassARRAY analysis C015 / 6522 or C015 / 6520, researchers can delve deep into an organism's genetic makeup, uncovering valuable insights about its traits and potential vulnerabilities. Moreover, genomics extends its reach beyond mere analysis by exploring organisms at their core—like Mycoplasma genitalium bacteria. Through scanning electron microscopy (SEM), we gain glimpses into their intricate structures and understand how they function in minute detail (SEM C013 / 4775 or SEM C013 / 4776). As we continue to unlock nature's blueprint through genomics research, we embark on a journey towards limitless possibilities—from manipulating genes for beneficial purposes to deciphering complex biological processes that shape our world. Genomics holds immense promise not only for scientific discoveries but also for addressing pressing challenges such as disease prevention and sustainable energy production. By harnessing this powerful toolset responsibly, humanity stands poised to make remarkable strides towards a brighter future fueled by genomic innovation.