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Genetic Engineering Collection

"Exploring the Marvels of Genetic Engineering: From C

Background imageGenetic Engineering Collection: C. elegans worms, light micrograph

C. elegans worms, light micrograph
C. elegans worms. Differential interference contrast micrograph of an adult Caenorhabditis elegans worm (centre) surrounded by C. elegans larvae hatching from eggs

Background imageGenetic Engineering Collection: Square tomato

Square tomato. Conceptual image of a tomato that has a cuboid shape

Background imageGenetic Engineering Collection: Genetic circuit diagram

Genetic circuit diagram. Genetic circuits are used by synthetic biologists to design genetically modified bacteria cells

Background imageGenetic Engineering Collection: Roots of Thale cress plant, Arabidopsis thaliana

Roots of Thale cress plant, Arabidopsis thaliana
Root genetics research. Roots of the Thale cress plant, Arabidopsis thaliana, growing in a culture medium. The roots have fine root hairs growing horizontally out of them

Background imageGenetic Engineering Collection: Cultured cress plant

Cultured cress plant
Plant genetics research. Thale cress plants, Arabidopsis thaliana, growing in a culture medium

Background imageGenetic Engineering Collection: Insulin production plant C017 / 9435

Insulin production plant C017 / 9435
Insulin production plant. Worker in the reactor room of a factory producing genetically engineered insulin. Photographed at the Novouralsk Medsintez Plant, Novouralsk, Sverdlov Oblast, Russia

Background imageGenetic Engineering Collection: Ag Agricultural Agriculture Bloom Blooming Blossom

Ag Agricultural Agriculture Bloom Blooming Blossom
A landscape view of a Canola crop in full bloom at sunset during a storm: Namao, Alberta, Canada

Background imageGenetic Engineering Collection: Close up of a green wheat head with dew drops, East of Calgary, Alberta, Canada

Close up of a green wheat head with dew drops, East of Calgary, Alberta, Canada
Close up of a green wheat head with dew drops; East of Calgary, Alberta, Canada

Background imageGenetic Engineering Collection: Golden wheat field with a lone tree in the middle

Golden wheat field with a lone tree in the middle
Golden wheat field on rolling hills with a lone tree in the middle; Palouse, Washington, United States of America

Background imageGenetic Engineering Collection: Human genetic engineering

Human genetic engineering. Conceptual computer artwork representing the genetic engineering of humans. Sperm cells labelled with bar codes are seen

Background imageGenetic Engineering Collection: Yeast protein interaction map

Yeast protein interaction map
Yeast protein map showing relationships between proteins in the yeast Saccharomyces cerevisiae. Each dot represents one of the proteins found in this single-celled fungus

Background imageGenetic Engineering Collection: Genetic engineering, conceptual image F007 / 8516

Genetic engineering, conceptual image F007 / 8516
Genetic engineering, conceptual composite image

Background imageGenetic Engineering Collection: Plant research, conceptual image F005 / 0826

Plant research, conceptual image F005 / 0826
Plant research, conceptual image

Background imageGenetic Engineering Collection: Balanced diet, conceptual image F005 / 0358

Balanced diet, conceptual image F005 / 0358
Balanced diet, conceptual image

Background imageGenetic Engineering Collection: Plant research, conceptual image F005 / 0829

Plant research, conceptual image F005 / 0829
MODEL RELEASED. Plant research, conceptual image

Background imageGenetic Engineering Collection: Plant research, conceptual image F005 / 0830

Plant research, conceptual image F005 / 0830
MODEL RELEASED. Plant research, conceptual image

Background imageGenetic Engineering Collection: Plant research, conceptual image F005 / 0825

Plant research, conceptual image F005 / 0825
Plant research, conceptual image

Background imageGenetic Engineering Collection: Plant research, conceptual image F005 / 0827

Plant research, conceptual image F005 / 0827
Plant research, conceptual image

Background imageGenetic Engineering Collection: Plant research, conceptual image F005 / 0828

Plant research, conceptual image F005 / 0828
MODEL RELEASED. Plant research, conceptual image

Background imageGenetic Engineering Collection: E. coli Holliday junction complex C014 / 0878

E. coli Holliday junction complex C014 / 0878
E. coli Holliday junction complex

Background imageGenetic Engineering Collection: Genetic research, conceptual image C014 / 1256

Genetic research, conceptual image C014 / 1256
Genetic research. Conceptual image of a molecular model of a strand of DNA (deoxyribonucleic acid) being held on a human hand

Background imageGenetic Engineering Collection: Synthetic biology, conceptual artwork C018 / 0907

Synthetic biology, conceptual artwork C018 / 0907
Synthetic biology, conceptual illustration. Lab set-up inside a yeast cell

Background imageGenetic Engineering Collection: Genetic engineering, conceptual artwork F006 / 8780

Genetic engineering, conceptual artwork F006 / 8780
Genetic engineering, conceptual computer artwork

Background imageGenetic Engineering Collection: DNA Holliday junction complex F006 / 9334

DNA Holliday junction complex F006 / 9334
DNA Holliday junction complex. Molecular model of the enzyme FLP recombinase in complex with a Holliday junction between homologous strands of DNA (deoxyribonucleic acid)

Background imageGenetic Engineering Collection: Cre-Lox recombination, molecular model F006 / 9322

Cre-Lox recombination, molecular model F006 / 9322
Cre-Lox recombination. Molecular model of the enzyme CRE (cyclization recombination) recombinase (beige) mediating the recombination of strands of DNA (deoxyribonucleic acid, red and blue)

Background imageGenetic Engineering Collection: E coli Holliday junction complex F006 / 9261

E coli Holliday junction complex F006 / 9261
E. coli Holliday junction complex. Molecular model of a RuvA protein (red) in complex with a Holliday junction between homologous strands of DNA (deoxyribonucleic acid, blue) from an E

Background imageGenetic Engineering Collection: Spider silk research C016 / 9552

Spider silk research C016 / 9552
Spider silk research. Golden silk orb-weaver spider in a laboratory being used for research on spider silk proteins. A thin strand of silk is visible emerging from the spiders spinnerets (centre)

Background imageGenetic Engineering Collection: Eugenics caricature, 1913 C016 / 8826

Eugenics caricature, 1913 C016 / 8826
Eugenics caricature. Cover illustration for Puck magazine caricaturing the subject of eugenics, originally developed by Francis Galton in the 1880s

Background imageGenetic Engineering Collection: Genetically modified tomato, artwork

Genetically modified tomato, artwork
Genetically modified tomato. Conceptual artwork representing genetic modification, showing a lemon (yellow) partially depicted on a tomato

Background imageGenetic Engineering Collection: Genetically modified grapes, artwork

Genetically modified grapes, artwork
Genetically modified grapes. Conceptual artwork of grapes in the double helix shape of DNA (deoxyribonucleic acid) on a vine. This represents concepts such as the genetic modification of food crops

Background imageGenetic Engineering Collection: Restriction enzyme and DNA, illustration C018 / 0785

Restriction enzyme and DNA, illustration C018 / 0785
Restriction enzyme. Illustration of a restriction enzyme (green) complexed with DNA (deoxyribonucleic acid, across centre)

Background imageGenetic Engineering Collection: E. coli bacteria, illustration C018 / 0733

E. coli bacteria, illustration C018 / 0733
Escherichia coli, illustration. E. coli are Gram-negative rod-shaped bacteria that are part of the normal flora of the human gut

Background imageGenetic Engineering Collection: Genetic research, conceptual image C014 / 1255

Genetic research, conceptual image C014 / 1255
Genetic research. Conceptual image of a molecular model of a strand of DNA (deoxyribonucleic acid) being examined through a magnifying glass

Background imageGenetic Engineering Collection: E. coli Holliday junction complex

E. coli Holliday junction complex. Molecular model of a RuvA protein (red) in complex with a Holliday junction between homologous strands of DNA (deoxyribonucleic acid, brown and orange) from an E

Background imageGenetic Engineering Collection: Gene switching, artwork

Gene switching, artwork
Gene switching, computer artwork. Coloured dots on a DNA helix, representing the process of switching specific genes on or off

Background imageGenetic Engineering Collection: Induced nerve stem cells, micrograph

Induced nerve stem cells, micrograph
Induced nerve stem cells. Fluorescence light micrograph of neural (nerve) stem cells that have been created (induced) from human adult skin fibroblast cells by gene manipulation

Background imageGenetic Engineering Collection: Insulin production plant C017 / 9437

Insulin production plant C017 / 9437
Insulin production plant. Worker in the section for volume measuring and checking for particulate matter at a factory producing genetically engineered insulin

Background imageGenetic Engineering Collection: Insulin production plant C017 / 9436

Insulin production plant C017 / 9436
Insulin production plant. Worker in the section for volume measuring and checking for particulate matter at a factory producing genetically engineered insulin

Background imageGenetic Engineering Collection: Felix Rey, French virologist

Felix Rey, French virologist. Rey is director of research on the Chikungunya virus research project at the Pasteur Institute, Paris France

Background imageGenetic Engineering Collection: Chikungunya virus research

Chikungunya virus research. Researcher working with cells cultured from Drosophila sp. fruit flies that have been genetically engineered to produce proteins of the Chikungunya virus

Background imageGenetic Engineering Collection: Eduardo Kac, transgenic artist

Eduardo Kac, transgenic artist. Kac uses biotechnology, often genetic engineering, to explore and critique scientific techniques and advances

Background imageGenetic Engineering Collection: Transgenic plant

Transgenic plant made by the transgenic artist Eduardo Kac. This is the Plantimal, a petunia that has had one of Kacs own genes inserted into it

Background imageGenetic Engineering Collection: DNA Holliday junction complex C013 / 8888

DNA Holliday junction complex C013 / 8888
DNA Holliday junction complex. Molecular model of the enzyme FLP recombinase in complex with a Holliday junction between homologous strands of DNA (deoxyribonucleic acid)

Background imageGenetic Engineering Collection: Gene therapy, conceptual image C013 / 4716

Gene therapy, conceptual image C013 / 4716
Gene therapy, conceptual image. Computer artwork of DNA (deoxyribonucleic acid) molecules inside pill capsules, representing treatments to repair abnormally functioning genes

Background imageGenetic Engineering Collection: Gene therapy, conceptual image C013 / 4717

Gene therapy, conceptual image C013 / 4717
Gene therapy, conceptual image. Computer artwork of a DNA (deoxyribonucleic acid) molecule inside a pill capsule, representing treatments to repair abnormally functioning genes

Background imageGenetic Engineering Collection: Gene therapy, conceptual image C013 / 4715

Gene therapy, conceptual image C013 / 4715
Gene therapy, conceptual image. Computer artwork of DNA (deoxyribonucleic acid) molecules inside nano-robots, representing the use of nano-robots to repair abnormally functioning genes

Background imageGenetic Engineering Collection: Gene therapy, conceptual image C013 / 4690

Gene therapy, conceptual image C013 / 4690
Gene therapy, conceptual image. Computer artwork of DNA (deoxyribonucleic acid) molecules inside pill capsules, representing treatments to repair abnormally functioning genes

Background imageGenetic Engineering Collection: Molecular design

Molecular design. Computer artwork of plans for a molecular model of the nucleotide adenine with the finished model

Background imageGenetic Engineering Collection: Parents and babies, conceptual artwork

Parents and babies, conceptual artwork. The babies (white, upper left) are seen in a tree

Background imageGenetic Engineering Collection: Hands with petri dishes with Aspergillus cultures

Hands with petri dishes with Aspergillus cultures

Background imageGenetic Engineering Collection: Organ harvesting

Organ harvesting. Conceptual image based on Leonardo da Vincis Vitruvian Man depicting a human body filled with various organs

Background imageGenetic Engineering Collection: Avian flu, conceptual art

Avian flu, conceptual art
Avian flu. Conceptual computer artwork depicting a man in a biohazard uniform walking in front of a giant egg. Avian flu is a viral disease of poultry

Background imageGenetic Engineering Collection: Boiled eggs

Boiled eggs in cups. Conceptual computer artwork of three eggs in the primary colours (red, green and blue). The eggs could also represent genetic modification (GM)

Background imageGenetic Engineering Collection: Conceptual image of genetically-engineered fruit

Conceptual image of genetically-engineered fruit
Genetically-engineered fruit. Conceptual image of square fruit: an apple, orange and strawberry, to depict the genetic engineering of food

Background imageGenetic Engineering Collection: Concept of genetically engineered strawberries

Concept of genetically engineered strawberries
Genetically engineered strawberries. Conceptual image representing the farming of giant genetically engineered strawberries

Background imageGenetic Engineering Collection: Ethical dilemma

Ethical dilemma. Conceptual computer artwork of a man questioning whether he has the right to bring two wires together

Background imageGenetic Engineering Collection: Concept image of genetically engineered tomatoes

Concept image of genetically engineered tomatoes
Genetically engineered tomatoes. Conceptual image representing the farming of giant genetically engineered tomatoes

Background imageGenetic Engineering Collection: Genetically-engineered sweetcorn & DNA sequence

Genetically-engineered sweetcorn & DNA sequence
GM food. Two genetically-modified (GM) cobs of sweetcorn or maize in between which is a DNA (deoxyribonucleic acid) fingerprint or sequence

Background imageGenetic Engineering Collection: Two-headed sheep

Two-headed sheep. Conceptual image of a sheep (Ovis aries) with two heads

Background imageGenetic Engineering Collection: Stem cells and God

Stem cells and God. Conceptual computer artwork showing enlarged cells in a petri dish, with a representation of God from Michelangelos painting The Creation of Adam

Background imageGenetic Engineering Collection: GM soya beans

GM soya beans
MODEL RELEASED. GM soya beans. Genetically modified (GM) soya (Glycine max) has had a gene altered in the laboratory to make it resistant to chemical herbicides

Background imageGenetic Engineering Collection: Genetically- engineered baby

Genetically- engineered baby
Genetically-engineered baby. Conceptual computer illustration of a baby that has been genetically- engineered to have blue eyes, seen below an eye

Background imageGenetic Engineering Collection: Culturing genetically engineered plant seedlings

Culturing genetically engineered plant seedlings

Background imageGenetic Engineering Collection: GM plant, conceptual artwork

GM plant, conceptual artwork
Genetically modified plant, conceptual artwork. Plant stems and leaves forming a structure that echoes a DNA (deoxyribonucleic acid) double helix

Background imageGenetic Engineering Collection: GM plants, conceptual artwork

GM plants, conceptual artwork
Genetically modified plants, conceptual artwork. Plant stems and leaves forming structures that echo DNA (deoxyribonucleic acid) double helices. This could represent genetically modified (GM) plants

Background imageGenetic Engineering Collection: Mangoes and biohazard symbols

Mangoes and biohazard symbols (blue). This conceptual image could represent genetically modified (GM) food

Background imageGenetic Engineering Collection: Transgenic sheep

Transgenic sheep. These transgenic sheep were bred at the Biotechnology Research Centre of the Russian Academy of Agricultural Sciences (RASHN)

Background imageGenetic Engineering Collection: Scientists holding GM tomatoes

Scientists holding GM tomatoes
MODEL RELEASED. Genetically engineered tomato. Conceptual image of two scientists holding genetically modified tomatoes

Background imageGenetic Engineering Collection: Algae growing on petri dishes

Algae growing on petri dishes, Solazyme Inc. USA. Algae are photosynthesising micro-organisms

Background imageGenetic Engineering Collection: GM maize

GM maize
Genetically-modified maize. Petri dish containing sprouting genetically-modified (GM) maize kernels (Zea mays)

Background imageGenetic Engineering Collection: Designer babies

Designer babies. Conceptual computer artwork of human babies and two strands of DNA (deoxyribonucleic acid), representing designer babies

Background imageGenetic Engineering Collection: Plant biotechnology

Plant biotechnology, conceptual image. Sunflower seedling (Helianthus sp.) in a test tube

Background imageGenetic Engineering Collection: GM food, conceptual image

GM food, conceptual image
GM food. Conceptual image of the genetic modification of food, showing the DNA base letters written in Alphabetti Spaghetti

Background imageGenetic Engineering Collection: Algae research

Algae research. Researcher from Solazyme Inc. USA, examining a petri dish from an incubation room containing different algae strains. Algae are photosynthesising micro-organisms

Background imageGenetic Engineering Collection: Genetically modified apple, artwork

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

Background imageGenetic Engineering Collection: Animal cloning

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

Background imageGenetic Engineering Collection: Transgenic mouse, conceptual artwork

Transgenic mouse, conceptual artwork
Transgenic mouse, conceptual computer artwork

Background imageGenetic Engineering Collection: Conceptual image of genetically engineered potato

Conceptual image of genetically engineered potato
Genetically engineered potato. Conceptual image representing the farming of a giant genetically engineered potato

Background imageGenetic Engineering Collection: Designer embryos

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

Background imageGenetic Engineering Collection: Designer baby

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

Background imageGenetic Engineering Collection: Conceptual image: genetically-engineered tomatoes

Conceptual image: genetically-engineered tomatoes

Background imageGenetic Engineering Collection: Conceptual image of genetically-engineered tomato

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)

Background imageGenetic Engineering Collection: Gene therapy, artwork

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

Background imageGenetic Engineering Collection: Recombinant DNA

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



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"Exploring the Marvels of Genetic Engineering: From C. Elegans Worms to Golden Wheat Fields" Delving into the Microcosm: A captivating light micrograph reveals intricate details of C. Elegans worms, offering a glimpse into genetic engineering's microscopic world. The Square Tomato Revolution: Witness the innovative outcome of genetic manipulation as we unveil a perfectly square tomato, pushing the boundaries of nature's design. Unearthing Nature's Secrets: Dive beneath the surface and uncover the hidden potential within Thale cress plant roots (Arabidopsis thaliana), where genetic engineering holds promises for enhanced growth and resilience. Cultured Cress Plant Wonders: Step inside our laboratory and witness how genetic engineering nurtures cultured cress plants that defy conventional limitations, showcasing their extraordinary adaptability. Decoding Life's Blueprint: Embark on an enlightening journey through a mesmerizing genetic circuit diagram, unraveling the complex web that governs life itself. Insulin Production Plant C017/9435: Discover how cutting-edge technology merges with genetics to create specialized plants capable of producing insulin, revolutionizing medical treatments worldwide. Blooming Beauty in Agriculture: Behold nature's exquisite artistry as vibrant blooms adorn agricultural landscapes, reminding us of both Mother Earth's grace and mankind's scientific advancements. Captivating Close-Up: Zoom in on a green wheat head adorned with dew drops in East Calgary, Alberta—a breathtaking testament to nature’s beauty enhanced by careful genetic selection. A Golden Tapestry Unveiled: Lose yourself amidst rolling golden wheat fields punctuated by a solitary tree—an idyllic scene blending agriculture’s timeless charm with modern scientific achievements. Yeast Protein Interaction Map Revealed. Peer into yeast cells' intricate dance as they interact harmoniously—unveiling invaluable insights facilitated by groundbreaking advances in genetic engineering research. Celebrating Nature's Abundance.

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