Bio Technology Collection (#10)

DNA autoradiograms and numbers. Conceptual computer artwork of DNA autoradiograms (orange) superimposed over random numbers (white)

TEM of HIV-antigen AIDS vaccine from yeast
Transmission electron micrograph (TEM) of an experimental " HIV-antigen" vaccine for AIDS. The virus-like particles seen here are derived from yeast

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

RNA interference, computer artwork
RNA interference (RNAi) is a mechanism of gene expression involving double-stranded ribonucleic acid (RNA). Double-stranded RNA (or dsRNA), as is seen here

Computer artwork of genetic engineering
Genetic engineering. Computer artwork showing a molecule of DNA (deoxyribonucleic acid) being manipulated during genetic engineering

Researcher with algae fermenter
Researcher with algae fermentation bioreactor, Solazyme Inc. USA. Algae are photosynthesising micro-organisms that can convert carbon dioxide (CO2) into sugars

DNA and red blood cells, conceptual computer artwork

Computer artwork depicting embryo paternity test
Embryo paternity testing. Computer artwork of a paternity test of an embryo (at upper right). A sample of DNA, deoxyribonucleic acid (orange & red strand), is taken from the embryo and its parents

Conceptual artwork of human genetic analysis
Human genetic analysis. Conceptual computer artwork of a human passing through a scanning device, representing human genetic analysis for health and medical purposes

Molecular graphic of LAC repressor binding to DNA
LAC repressor binding to DNA. Computer graphic of a lac repressor molecule (pink) interacting with genes on DNA that control lactose metabolism in Escherichia coli bacteria

GM wheat
MODEL RELEASED. GM wheat. Scientist pricking out genetically modified (GM) wheat seedlings (Triticum sp.). Genetic modification involves the alteration of an organisms DNA (deoxyribonucleic acid)

Researcher holding an autoradiogram
MODEL RELEASED. Researcher holding an autoradiogram

Researcher holding a medium tray
MODEL RELEASED. Researcher holding a medium tray

Dinosaur cloning, computer artwork
Dinosaur cloning. Image 2 of 3. Computer artwork of a Tyrannosaurus rex (T rex) dinosaur embryo that has been cloned from the soft tissue remains inside a fossilised bone

Genetically modified grass. Conceptual image of grass in a petri dish. This could be used to represent the cloning or genetic modification of plants for improved pest or herbicide resistance

DNA autoradiograms

DNA autoradiogram

Bacterial DNA, artwork
Bacterial DNA. Computer artwork of rings of double-stranded DNA (deoxyribonucleic acid). Bacterial DNA is typically found in rings like this, which are known as plasmids

Bacterial computing, conceptual artwork

Livestock research, conceptual image
Livestock research. Conceptual image of domesticated pigs (Sus scrofa domestica) marked with bar codes. This represents the tracking of individual pigs for research purposes

Gene therapy, conceptual image. Computer artwork representing the treatment of chromosomes (purple) to repair abnormally functioning genes

Organ engineering, conceptual image. Computer artwork of a machine printing a kidney, representing the artificial engineering of human tissue to produce organs for transplant

Human cloning, conceptual artwork

Viral transfer of bacterial DNA, artwork
Viral transfer of bacterial DNA. Computer artwork showing the process of transduction, whereby genetic information is transferred from one bacterium (right column) to another (left column)

Antimicrobial wound dressing, SEM
Antimicrobial wound dressing. Coloured scanning electron micrograph (SEM) of fibres (diagonal) from an Aquacel Ag wound dressing

Sniffer honeybee detector. Honeybee (Apis melifera) head protruding from a cartridge that forms part of a chemical vapour detection device

Synthetic Mycoplasma bacteria, TEM
Synthetic Mycoplasma bacteria, coloured transmission electron micrograph (TEM). The first self-replicating bacteria cell controlled by a synthetic genome was developed by scientists at the J

DNA sequence, abstract artwork
Abstract computer artwork of a dna sequence

Bacteria with integrated foreign bacteria. Computer artwork showing a section of foreign DNA (deoxyribonucleic acid, blue) integrated into a bacterial chromosome (green)

Synthetic bacteria, SEM
Synthetic bacteria, coloured scanning electron micrograph (SEM). The first self-replicating bacteria cell controlled by a synthetic genome was developed by scientists at the J

Parasite detection, conceptual artwork
Parasite detection, conceptual computer artwork. These bacteria have been genetically engineered to detect the presence of Schistosoma parasites (pink)

Plant biotechnology, conceptual image. Leaf growing on top of a technological device, representing the fusion of human technology with nature

Genetics of vision, conceptual artwork
Genetics of vision. Conceptual artwork of an eye (right), strands of deoxyribonucleic acid (DNA, far right and centre left), binary code (across bottom) and part of a digital camera (centre)

GM tomato, conceptual image
GM tomato. Conceptual image of a tomato with an added (grey) characteristic, with a DNA (deoxyribonucleic acid) autoradiogram in the background

Biochip, artwork
conducting path in gauze

Synthetic cell creation, computer artwork
Computer artwork depicting the creation of synthetic cells. From top: the chromosome of an existing bacterial cell is decoded, fragments copied and assembled forming a new synthetic DNA

Plant research, conceptual image

Artificial meat, conceptual image
Artificial meat, conceptual computer artwork

Gecko foot showing adhesive lamellae
Tokay gecko (Gecko gecko) feet on glass showing the arrangement of lamellae. Gecko feet use very small subdivided filaments on the lamellae to bond with their substrates at the molecular level using

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"Unleashing the Power of Bio Technology: Revolutionizing Science and Shaping Our Future" In today's rapidly advancing world, bio technology stands at the forefront of innovation, unlocking endless possibilities for humanity. As we gaze upon a computer screen displaying a mesmerizing human genetic sequence, we witness the intricate blueprint that defines our existence. But it doesn't stop there; bio technology continues to surprise us with its boundless creativity. Behold the square tomato, an extraordinary feat achieved through genetic engineering, showcasing how science can reshape nature itself. Delving deeper into this captivating realm, we encounter a DNA autoradiogram artwork—a fusion of science and art—where beauty meets scientific discovery in stunning visual representation. Zooming into the microscopic world, we observe a false-color scanning electron microscope image of hybridoma cells—an invaluable tool in producing monoclonal antibodies for medical breakthroughs against diseases like cancer. Speaking of cancer treatment advancements, an anti-cancer drug binding to DNA comes alive under atomic force microscopy (AFM), illustrating how precision medicine is revolutionizing patient care on a molecular level. The complexity behind these innovations becomes apparent as we explore genetic circuit diagrams—a roadmap guiding scientists towards manipulating biological systems for various applications such as sustainable agriculture or disease eradication. With every step forward in bio technology comes meticulous analysis. Scientists diligently examine DNA sequences using cutting-edge techniques to unravel mysteries hidden within our genes and unlock potential cures for countless ailments. Venturing beyond human genomes, grapevine genome sequencing takes center stage—unveiling secrets that enhance wine production while preserving ancient varieties cherished by connoisseurs worldwide. Yet amidst all this progress lies responsibility. The international biohazard symbol reminds us of the crucial need for safety protocols when working with potentially dangerous organisms or substances—a reminder that ethical considerations must always accompany scientific exploration. Within glass laboratory flasks bubbling with curiosity and ambition lie answers waiting to be discovered—the very essence of scientific inquiry that propels bio technology forward.