Bio Technology Collection (#4)

Genetically modified apple, artwork
Genetically modified apple. Computer artwork of an apple with a symbol for genetic modification

Animal cloning. Computer artwork of a family tree of cloned sheep

Conceptual computer artwork of cloned human babies
Human cloning. Conceptual computer illustration of human cloning showing identical crawling babies. Cloning is a method of producing a genetically identical copy of an organism

Transgenic mouse, conceptual artwork
Transgenic mouse, conceptual computer artwork. The mouse is standing next to a model of a strand of DNA (deoxyribonucleic acid)

Conceptual computer artwork of human cloning
Human cloning. Conceptual computer illustration of human cloning showing identical babies breaking free from their eggs. Cloning is a method of producing a genetically identical copy of an organism

A chimera, a mixture of goat and sheep
Sheep/goat chimera. Chimera or chimaera, a creature that contains a mixture of genetically- different tissues, in this case those of a sheep and a goat

Conceptual image of genetically engineered potato
Genetically engineered potato. Conceptual image representing the farming of a giant genetically engineered potato. Genetic engineering of plants involves altering their DNA (deoxyribonucleic acid)

Designer embryos. Conceptual computer artwork of designer human embryos for sale. Human embryos are an early stage of the development of a human from a fertilised egg cell

Designer baby. Conceptual computer artwork of a human baby, a DNA (deoxyribonucleic acid) double helix (centre) and genetic sequences (white bands), representing a designer baby

Genetically modified tomatoes. Conceptual image representing genetically modified (GM) tomatoes. Genetic modification involves adding or deleting sections of DNA (deoxyribonucleic acid)

Conceptual image: genetically-engineered tomatoes

Cell culture research, fume cupboard
MODEL RELEASED. Cell culture research. Researcher using a pipette to handle a cell culture (pink). The pink liquid is a nutrient medium in which cells can be grown

Cloning research
MODEL RELEASED. Cloning research. Researcher using a mouth pipette to move oocyte cells in a container. A light microscope allows her to see the cells

Cloned sheep, computer artwork. A clone is a genetically identical copy of an organism. In cloning, DNA (deoxyribonucleic acid)

Conceptual image of genetically-engineered tomato
Genetically-engineered tomato. Conceptual image of a tomato in a cage or molecule-like structure. In the background is a strand of DNA (deoxyribo- nucleic acid)

DNA construction, artwork
Conceptional computer artwork of a DNA being constructed or repaired

Nanotechnology
Abstract conceptual computer artwork depicting nanotechnology, molecules, biotechnology research and bioengineering

Genetic individuality, male Head with DNA
Genetic individuality. Conceptual computer artwork showing a male head with a DNA. DNA (deoxyribonucleic acid) carries genetic information

DNA sequences. Computer composite of several autoradiograms of DNA (deoxyribonucleic acid) sequences, sometimes known as DNA fingerprints

Genetic research, conceptual artwork
Genetic research, conceptual computer artwork

DNA sequence magnified by a magnifying gl

Gene therapy, artwork
Gene therapy, conceptual computer artwork. Molecule of DNA (deoxyribonucleic acid, blue and orange), bound to a repair protein (purple), and a human figure

Recombinant DNA. Illustration of the DNA molecule (Deoxyribonucleic Acid, showing a recombined fragment. DNA carries the inherited instructions of a living organism)

cientist studies DNA autoradiogram with magnifier
MODEL RELEASED. Gene mapping. Male scientist studies a series of DNA sequencing autoradiograms or " genetic fingerprints" through a magnifying glass

Genetics as the new religion. Conceptual artwork depicting a Moses-like figure holding stone tablets, each engraved with a double helix

Liposomes, SEM

Medical nanorobots, artwork
Medical nanorobots. Computer artwork of nanorobots (snake-like) wrapped around sperm cells

DNA BioChip plotter being tested for accuracy
DNA BioChip plotter test. Testing of the plotter used in the manufacture of DNA BioChips. The DNA BioChip allows cheap and rapid simultaneous analyses for infectious organisms to be carried out

DNA over a boys face
MODEL RELEASED. DNA autoradiogram superimposed on a boys face. This may represent genetic individuality, paternity testing or biometric identification

Computer artwork depicting babys paternity test
Paternity testing. Computer artwork of the procedure involved in a babys paternity test. A sample of DNA (deoxyribonucleic acid, far left) is taken from the baby and its parents

DNA molecules and Petri dishes
DNA molecules. Computer artwork of three molecules of DNA (deoxyribonucleic acid) emerging from three Petri dishes. DNA contains sections called genes that encode an organisms genetic information

DNA circuit board. Computer artwork of a molecule of DNA (deoxyribonucleic acid) integrated into a printed circuit board. Such systems could be used to prevent fraud

Colour TEM of genetically-altered E. coli bacteria
Genetically-altered bacteria. Coloured Trans- mission Electron Micrograph (TEM) of Escherichia coli bacteria which have been genetically engin- eered to produce human insulin

Stem cell gene expression. Gene expression colormap for blood and neural stem cells. All cells contain a complete copy of an organisms genetic information in the form of DNA (deoxyribonucleic acid)

DNA molecule and eggshell
DNA molecule. Computer artwork of a molecule of DNA (deoxyribonucleic acid) emerging from a cracked eggshell in a shaft of light

Rows of PCR systems copying human DNA
Human genome research. Rows of GeneAmp polymerase chain reaction (PCR) systems copying human DNA at the Joint Genome Institute (JGI)

Cryostorage of DNA samples in microtubes

DNA biochip, artwork
DNA biochip. Computer artwork of a DNA biochip, used for cheap and rapid simultaneous analyses of pieces of DNA. It consists of a chip holding tiny dots of DNA

DNA double helix. Computer artwork of a DNA (deoxyribonucleic acid) double helix. The normal helical structure is formed when the genetic coding components (called nucleotide bases)

Chromosome analysis
MODEL RELEASED. Chromosome analysis. Geneticist analysing human chromosomes by fluorescent microscopy. Individual chromosomes are visible on the computer monitor as pale blue rods

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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.