Gene Therapy Collection

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

FKBP52 immunoregulation enzyme C013 / 7182
FKBP52 immunoregulation enzyme, molecular model showing secondary structure. This protein, encoded by the human FKBP4 gene, is a type of enzyme called a prolyl isomerase

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

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

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

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

Genetic switch, conceptual artwork
Genetic switch, conceptual computer artwork

DNA transcription factor, molecular model
DNA transcription factor. Molecular model of the Max transcription factor

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

Viral gene therapy, artwork
Viral gene therapy. Computer artwork of a strand of DNA (deoxyribonucleic acid, green) being carried by a virus (pink), illustrating the concept of gene therapy using viruses

Computer artwork of DNA being manipulated
DNA manipulation. Computer artwork of a needle being inserted into a dividing cell against a background showing deoxyribonucleic acid (DNA)

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

Stem cells, conceptual artwork
Stem cells, conceptual computer artwork

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

Artificial virus, artwork
Artificial virus, computer artwork. Artificial viruses could be used to deliver genes and other cellular materials to human cells to treat a variety of diseases

Gene switches, conceptual artwork
Gene switches, conceptual computer artwork. Switches on the arm of a chromosome, representing the process of switching specific genes on or off

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"Unlocking the Potential: Exploring the Revolutionary World of Gene Therapy" In a world where medical advancements continue to push boundaries, gene therapy stands at the forefront as a beacon of hope. Stem cell research and its potential for groundbreaking treatments have paved the way for this innovative approach. Through conceptual artwork, we catch glimpses of this transformative field. One captivating image showcases gene therapy's power, depicting a mesmerizing dance between science and artistry. A DNA molecule takes center stage, symbolizing the intricate genetic code that holds immense potential within our cells. This artwork serves as a reminder that within our very essence lies the key to unlocking new possibilities. Another striking piece highlights gene switching, an essential mechanism in manipulating genes to combat diseases. Here, an immunoregulation enzyme called FKBP52 emerges as a crucial player in regulating gene expression. The artwork captures both scientific precision and artistic interpretation seamlessly merged into one thought-provoking image. Conceptual images further immerse us into the realm of gene therapy's promise. One such visual portrays a futuristic scene where researchers harness their knowledge to alter genetic sequences with precision and finesse - an awe-inspiring testament to human ingenuity. Delving deeper into stem cell research through additional conceptual artworks reveals its symbiotic relationship with gene therapy. These visuals depict scientists meticulously cultivating these remarkable cells in controlled environments - nurturing them towards their full therapeutic potential. As we gaze upon these captivating illustrations, it becomes evident that gene therapy is not merely confined within laboratory walls; it transcends disciplines by merging science with artistry. It ignites curiosity while reminding us of humanity's relentless pursuit of understanding and healing. With each brushstroke or digital rendering capturing moments from this cutting-edge field, we are reminded that behind every concept lies countless hours of dedicated research and unwavering determination from brilliant minds worldwide. Gene therapy represents more than just hope; it embodies resilience against diseases once deemed incurable.