Bio Technology Collection (page 6)

Computer enhanced coloured LM of lipsomes
Liposomes. Computer enhanced coloured light micrograph of liposomes. A liposome is an artificial vesicle made from phospholipids which can have many uses in biology

Technician monitoring supercomputers at Celera
DNA sequencing supercomputers. Technician with supercomputers used in human genome research at Celera Genomics, Maryland, USA, a rival to the Human Genome Project

Biofactory, conceptual artwork
Biofactory, conceptual computer artwork. Cartoon of a factory producing molecules on a conveyor belt. This may represent the use of bacteria to mass-produce molecules for disease prevention

Discoveries in the genome. Conceptual artwork of a ship about to journey through a double helix. This could represent new discoveries awaiting researchers working on the human genome project

DNA Biochip. Computer artwork of a DNA Biochip, a piece of biotechnology used for cheap and rapid simultaneous analyses, for example infectious organisms in samples of blood

Radiogram of DNA on hands

Fear of genetic research
Ethical concerns about genetic science. Conceptual artwork depicting a barren Garden of Eden with a serpent, apple core and Tree of Knowledge with a trunk transformed into a double helix

Technician using a pipettor during DNA sequencing
MODEL RELEASED. DNA sequencing. Male technician using a pipettor above an electrophoresis gel during DNA (Deoxyribonucleic Acid) sequencing

Researchers sequencing human DNA in a laboratory
Human genome research. Researchers carrying out DNA sequencing at the Joint Genome Institute (JGI). Computers sit between the large automated sequencers

Researcher holds DNA NutriChip for food tests
DNA NutriChip. Gloved hand holding a DNA NutriChip (a type of DNA BioChip). The NutriChip allows cheap and rapid simultaneous analyses for infectious organisms to be carried out on samples of food

Designing molecules, conceptual artwork
Designing molecules for protein binding. Conceptual artwork of a molecule design process, where the aim is to develop a molecule suited to the particular task of binding to proteins, peptides

Genetic engineering, conceptual artwork. DNA (deoxyribonucleic acid) molecule made of Lego representing scientists ability to alter and rearrange an organisms genetic material

Computer artwork depicting genetic screening

Artwork of DNA sequences and a human fingerprint

Autoradiogram showing a DNA fingerprint
DNA fingerprint. View of an autoradiogram (X-ray) sheet showing DNA (deoxyribonucleic acid) sequences forming a DNA fingerprint

Puree made from genetically-engineered tomatoes

Computer print-out of a DNA sequence
DNA sequencing. Computer print-out of the sequence of bases in a sample of DNA (deoxyribonucleic acid). The sequence, which makes up the genetic code

Technician with rows of DNA thermocyclers
DNA replication. Technician with rows of thermocyclers used in research into the human genome at Celera Genomics, Maryland, USA, a rival to the Human Genome Project

Robot arm picks tray of DNA-containing bacteria
DNA cloning trays. Robot arm picking a tray of bacterial colonies which clone human DNA fragments for use in the Human Genome Project

Genetic analysis
Genetic research. Hand holding a vial containing a sample of human DNA (deoxyribonucleic acid). The print-out is the result of an analysis of this DNA

Genetic manipulation, conceptual artwork
Genetic manipulation, conceptual computer artwork. Sections of a DNA (deoxyribonucleic acid) being cut by a pair of scissors and discarded into a recycling bin

Immunofluorescent LM of recombinant monkey cells

Genetic engineering. Computer artwork showing a DNA (deoxyribonucleic acid) double helix being cut by a pair of scissors, next to a model of DNAs molecular structure

Biotechnology research, conceptual image. Silhouette of a scientist looking through a microscope. The scientist is superimposed upon images of machinery and to his right are images of cells

Engineered bacteria, conceptual artwork
Engineered bacteria, conceptual computer artwork. Cutaway of a bacterium showing its underlying mechanics. This could represent the ability scientists have to alter

Genetic individuality. Conceptual computer artwork showing a womans head branded with a bar code, underneath which is the word DNA. DNA (deoxyribonucleic acid) carries genetic information

Computer graphic of deformity in a DNA molecule
Deformed DNA molecule. Computer-generated model of a segment of the molecule Deoxyribonucleic Acid (DNA), showing a deformity in its shape. DNA forms a natural double-helix shape

DNA autoradiogram on hand
DNA autoradiogram projected onto a hand. The bands (dark on light) of the autoradiogram show genetic sequences. The bands correspond to the nucleotide bases in a DNA (deoxyribonucleic acid) sample

Researcher holds DNA SeroChip for medical tests
DNA SeroChip. Researcher holding a DNA SeroChip, a type of DNA BioChip, used for cheap and rapid simultaneous analyses for infectious organisms in samples of blood

Artwork of an autoradiogram showing DNA sequences
DNA sequences. Computer artwork of an autoradiogram of DNA (deoxyribonucleic acid) sequences. A close up view of a sequence (also known as the DNA fingerprint) is superimposed in the foreground

DNA helix and autoradiogram. Conceptual computer artwork of a DNA (deoxyribonucleic acid) helix (red) surrounding a genetic autoradiogram (yellow with red bands)

DNA microarray and double helix

TEM of influenza vaccine of haemagglutinin
Transmission electron micrograph (TEM) of an experimental influenza vaccine comprising haema- gluttinin particles. The particles seen here are derived from the protein coats of many influenza

DNA autoradiogram and codons. Conceptual computer artwork of a DNA autoradiogram (yellow) with superimposed triplets of letters (white)

Immunofluorescent LM of recombinant culture cells
Recombinant cells. Immunofluorescent light micrograph of recombinant COS-9 culture cells expressing the viral gene Large T antigen. Vaults are green, mitochondria are red and cell nuclei are blue

Engineered bacteria, conceptual image. Bacteria (green) made out of Lego, representing the ability scientists have to alter and rearrange a bacteriums genetic material

Robot loading DNA in automated genome mapping
Human genome project. A robot arm loads DNA (deoxyribonucleic acid) into plastic plates in an automated laboratory dedicated to mapping the human genome

DNA helix on circuit board. Computer artwork representing the fusion of computers and humans to form cybernetic beings, or the use of computers in genetic engineering to design improved humans

Biological computing

Computers in genetic research. Conceptual computer artwork showing a computer monitor containing DNA double helices against a backdrop of cells (pink)

Artwork of DNA sequences and chromosomes
DNA sequences & chromosomes. Computer artwork of an autoradiogram of DNA (deoxyribonucleic acid) sequences. A close up view of a sequence is superimposed in the foreground

Computer screen display of DNA sequencing pattern
DNA sequencing. Computer display of a DNA (deoxyribonucleic acid) sequencing pattern showing in colour the four chemical bases in DNA

Lunar DNA library, conceptual computer artwork. The surface of the Moon is across bottom, with the Earth in the background

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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.