Biotechnology Collection (page 4)

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

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

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

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

Streptavidin-biotin molecular complex. Molecular model of a single-strand binding complex of streptavidin (ribbons) and biotin (space-filled model, centre). Biotin is also known as vitamin B7

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

Stem cell sample F007 / 0381
Stem cell sample

Genetic code, artwork F006 / 8998
Genetic code, computer artwork

Genetic code, artwork F006 / 8997
Genetic code, computer artwork

Creation of artificial life, artwork F006 / 8968
Creation of artificial life, conceptual computer artwork

DNA molecule, artwork F006 / 8969
DNA molecule, computer artwork

Creation of artificial life, artwork F006 / 8967
Creation of artificial life, conceptual computer artwork

Designer babies, conceptual artwork F006 / 8957
Designer babies, conceptual computer artwork

DNA molecules, artwork F006 / 8775
DNA molecules, computer artwork

DNA molecules, artwork F006 / 8776
DNA molecules, computer artwork

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

DNA molecules, artwork F006 / 8774
DNA molecules, computer artwork

Personal genome sequencing, artwork F006 / 9888
Personal genome sequencing, conceptual computer artwork

Packaged DNA, conceptual artwork F006 / 9861
Packaged DNA, conceptual computer artwork

Packaged DNA, conceptual artwork F006 / 9853
Packaged DNA, conceptual computer artwork

Human cloning, conceptual artwork F006 / 9851
Human cloning, conceptual computer artwork

Green fluorescent protein molecule F006 / 9402
Green fluorescent protein (GFP), molecular model. The molecule has a cylindrical structure formed from beta sheets (ribbons). GFP is found in the Pacific jellyfish Aequorea victoria

Green fluorescent protein molecule F006 / 9343
Green fluorescent protein (GFP), molecular model. The molecule has a cylindrical structure formed from beta sheets (ribbons). GFP is found in the Pacific jellyfish Aequorea victoria

Green fluorescent protein molecule F006 / 9313
Green fluorescent protein (GFP), molecular model. The molecule has a cylindrical structure formed from beta sheets (ribbons). GFP is found in the Pacific jellyfish Aequorea victoria

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)

Genetic fingerprints, conceptual artwork C016 / 7521
Genetic fingerprints, conceptual computer artwork

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

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

Cre-Lox recombination, molecular model
Cre-Lox recombination. Molecular model of the enzyme CRE (cyclization recombination) recombinase (blue) mediating the recombination of strands of DNA (deoxyribonucleic acid, pink and yellow)

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

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

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

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

Gecko foot C014 / 0963
Gecko foot. Close-up of the foot of a southern turniptail gecko (Thecadactylus solimoensis), showing the adhesive lamellae (ridges)

Imitation honeycomb filling C014 / 0293
Imitation honeycomb filling. Close-up of a acrylic tubes assembled to mimic the honeycomb structure of bee hives. The honeycomb structure offers great strength to weight ratio

Imitation honeycomb C014 / 0294
Imitation honeycomb. Section of material with a design based on the honeycomb structure of bee hives. This structure gives the material great strength whilst keeping its weight to a minimum

Imitation honeycomb filling C014 / 0291
Imitation honeycomb filling. Close-up of a section through acrylic tubes assembled to mimic the honeycomb structure of bee hives. The honeycomb structure offers great strength to weight ratio

Imitation honeycomb filling C014 / 0292
Imitation honeycomb filling. Close-up of a acrylic tubes assembled to mimic the honeycomb structure of bee hives. The honeycomb structure offers great strength to weight ratio

Imitation honeycomb filling C014 / 0290
Imitation honeycomb filling. Top down view of acrylic tubes assembled to mimic the honeycomb structure of bee hives. The honeycomb structure offers great strength to weight ratio

Imitation skin C014 / 0286
Imitation skin. Close-up of the surface of a latex material designed to mimic the look and feel of human skin. The skin is made by SkinBag and is used for fashion clothing and accessories

Iridescence C014 / 0284
Iridescence. Butterfly with iridescent wings on a surface coated with iridescent material. Iridescence is caused by the tiny microstructures of the surface reflecting light in different ways

Artificial mould C014 / 0281
Artificial mould. Close-up of material designed to resemble mould (fungus). This material is used for decorative flocking effects on material surfaces

Plant-based insulating materials C014 / 0322
Plant-based insulating materials. Close-up of two different insulating materials made from plant products; one made from compressed dried algae (top) and the other made from soya (Glycine max)

Hook and loop fastener C014 / 0321
Hook and loop fastener. Close-up of a hook and loop fastener showing the hooks (right) clinging to the loops (left). These common fasteners were inspired by the prickly burrs used by some plants to

Shark-skin-inspired antibacterial surface. Close-up of Sharklet an antibacterial material whose surface structure was inspired by the microstructures found on the surface of shark skin

Artificial gecko feet adhesive C014 / 0313
Artificial gecko feet adhesive. Coloured scanning electron micrograph (SEM) showing the surface of a material that uses a similar structure to that of a geckos foot

Mother of pearl fabric C014 / 0316
Mother of pearl fabric. Close-up of a fabric (left) made using strips of mother of pearl, next to a pearly seashell (right), the source of mother of pearl

Fabric inspired by pine cones C014 / 0308
Fabric inspired by pine cones. Close-up of the surface of a climate-sensitive fabric that reacts to temperature and humidity in a similar manner to that of pines cones

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"Unveiling the Future: Biotechnology Revolutionizing Our World" Step into a world where boundaries blur and possibilities expand as biotechnology takes center stage. In this captivating image, a transparent man walks through the vast expanse of a desert, symbolizing the limitless potential that lies ahead. Picture No. 12479759 showcases cutting-edge advancements in artificial intelligence (AI), androids, and augmented reality (AR). With arms raised in triumph, these technological marvels redefine what it means to be human. Gone are the days of back pain and limitations; bionic enhancements offer us an unprecedented level of freedom and capability. Delving deeper into history, Picture No. 12479758 transports us to Washington D. C. , circa 1926. Witnessing scientists huddled around flasks brimming with promise, we glimpse the birth of biotechnological breakthroughs that would shape our modern world. In another frame, we find ourselves peering through the lens of scientific discovery as a dedicated scientist gazes intently into a microscope. The science laboratory buzzes with excitement as researchers unravel mysteries at microscopic levels – unlocking secrets that will revolutionize medicine and beyond. A person engrossed in their own microscopic exploration reminds us that curiosity fuels progress. Through relentless pursuit of knowledge, we uncover groundbreaking solutions to complex challenges - from curing diseases to improving agricultural practices. But it's not just humans pushing boundaries; even robots join this transformative journey towards advancement. A robot woman weighs in on matters both physical and metaphorical – representing how automation can enhance efficiency while also sparking debates about ethics and humanity's role in an increasingly automated world. As acetylene illuminates dark corners within laboratories equipped with state-of-the-art technology, AI-driven systems work tirelessly alongside passionate scientists who strive for excellence amidst adversity. This fusion between advanced technology and human ingenuity propels us forward towards unimaginable achievements. Biotechnology is more than just science; it's a testament to our unwavering affection for progress.