Artificial Life Collection

Genetic circuit diagram. Genetic circuits are used by synthetic biologists to design genetically modified bacteria cells. Synthetic biology uses standard DNA fragments known as BioBricks to program

Sitting Robot 5
Bilge Paksoylu

Sitting Robot 3
Bilge Paksoylu

Sitting Robot 2
Bilge Paksoylu

Creation of oil using designer microbes. Conceptual computer artwork depicting an oil well pump in a petri dish, representing the use of artificially created micro-organisms to produce oil

Creation of artificial life, artwork
Creation of artificial life. Conceptual computer artwork depicting the creation of a new life-form in a petri dish. Geneticists are working on methods for combining artificially replicated genes into

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

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

Making money from designer microbes. Conceptual computer artwork depicting US dollar signs in petri dishes, representing the economic benefits of creating artificial micro-organisms

xDNA molecule. Computer artwork of a molecule of expanded deoxyribonucleic acid (xDNA). Normal DNA is composed of two strands twisted into a double helix

Parasite detection, conceptual artwork
Parasite detection, conceptual computer artwork. These bacteria have been genetically engineered to detect the presence of Schistosoma parasites (pink)

Synthetic cell creation, computer artwork
Computer artwork depicting the creation of synthetic cells. From top: the chromosome of an existing bacterial cell is decoded, fragments copied and assembled forming a new synthetic DNA

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"Exploring the Boundaries of Existence: Unveiling the Wonders of Artificial Life" In a world where science and creativity intertwine, artificial life emerges as a captivating concept that pushes the boundaries of our understanding. Through genetic circuit diagrams, we witness the intricate web of life's building blocks, unraveling the secrets hidden within. With designer microbes at our disposal, scientists embark on a groundbreaking journey to create oil from scratch. This remarkable feat not only revolutionizes energy production but also showcases humanity's ability to manipulate nature for its benefit. Artists join this scientific exploration by capturing the essence in their creations. The artwork F006/8968 depicts an awe-inspiring vision where synthetic organisms come alive with vibrant colors and intricate patterns, blurring the line between imagination and reality. In contrast, F006/8967 portrays a more enigmatic representation, leaving viewers pondering over the mysteries surrounding this newfound form of existence. As these artistic expressions unfold before us, we delve deeper into how financial opportunities arise from harnessing designer microbes. Making money becomes intertwined with ethical considerations as society grapples with balancing economic prosperity and responsible innovation. The xDNA molecule takes center stage as it symbolizes both our fascination and trepidation towards manipulating life at its core. It serves as a reminder that while artificial life presents immense potential for progress, it also demands careful reflection on its implications for humanity's future. Conceptual artwork depicting parasite detection offers another glimpse into how they are be harnessed to safeguard human health. These thought-provoking visuals challenge us to contemplate whether synthetic cells could become powerful tools in combating diseases yet unknown. Through computer-generated imagery showcasing synthetic cell creation, we are transported into an ethereal realm where science merges seamlessly with artistry. This mesmerizing portrayal invites contemplation about what lies ahead – will these man-made entities eventually surpass their natural counterparts.