Recombining Collection

Evolution of the Universe, artwork
Evolution of the Universe. Computer artwork showing the evolution of the Universe from the Big Bang (far left) 12-15 billion years ago to the present day (far right)

E. coli Holliday junction complex C014 / 0878
E. coli Holliday junction complex. Molecular model of a RuvA protein (dark pink) in complex with a Holliday junction between homologous strands of DNA (deoxyribonucleic acid)

DNA 6-way junction, artwork C014 / 2587
DNA 6-way junction. Computer artwork of a synthetic assemblage of nucleic acids which are useful in the design of nanostructures

Bacteriophage DNA recombination F006 / 9554
Bacteriophage DNA recombination. Molecular model showing DNA manipulation and recombination taking place at a Holliday junction with a bacteriophage enzyme

Enzyme catalysing DNA recombination F006 / 9395
Enzyme catalysing DNA recombination. Molecular model of the enzyme CRE (cyclization recombination) recombinase (green and purple) mediating the recombination of strands of DNA (deoxyribonucleic acid)

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)

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)

DNA Holliday junction, molecular model F006 / 9285
DNA Holliday junction. Molecular model of a Holliday junction (centre) between homologous strands of DNA (deoxyribonucleic acid)

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

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)

DNA 6-way junction, artwork C014 / 2586
DNA 6-way junction. Computer artwork of a synthetic assemblage of nucleic acids which are useful in the design of nanostructures

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

DNA 6-way junction, artwork C014 / 2588
DNA 6-way junction. Computer artwork of a synthetic assemblage of nucleic acids which are useful in the design of nanostructures. The background depicts a space star nebula

DNA Holliday junction, molecular model C014 / 3090
DNA Holliday junction. Molecular model of a Holliday junction (centre) between homologous strands of DNA (deoxyribonucleic acid)

Enzyme catalysing DNA recombination C016 / 0725
Enzyme catalysing DNA recombination. Molecular model of the enzyme CRE (cyclization recombination) recombinase (blue and green) mediating the recombination of strands of DNA (deoxyribonucleic acid)

Enzyme catalysing DNA recombination C016 / 0724
Enzyme catalysing DNA recombination. Molecular model of the enzyme CRE (cyclization recombination) recombinase (blue and purple) mediating the recombination of strands of DNA (deoxyribonucleic acid)

Resolvase enzyme complexed with DNA, molecular model. The area at centre is a gamma-delta resolvase enzyme forming a complex with two cleaved helices of DNA (deoxyribonucleic acid)

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)

Enzyme catalysing DNA recombination C013 / 7915
Enzyme catalysing DNA recombination. Computer model showing the molecular structure of the enzyme CRE (cyclization recombination) recombinase (orange and blue)

DNA recombination, molecular model
DNA recombination. Molecular model of a Holliday Junction, a moving point of contact between two DNA (deoxyribonucleic acid)

DNA Holliday junction. Computer model of a Holliday junction (centre) between homologous strands of DNA (deoxyribonucleic acid)

Crossing over, artwork
Crossing over. Artwork of two chromosomes swapping genetic material prior to meiosis (production of gametes). This is a natural genetic process, known as crossing over

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"Recombining: Unveiling the Intricate Evolution of the Universe through Artwork and Molecular Models" Step into a world where science meets art, as we explore the fascinating concept of recombination. From the evolution of the universe to intricate molecular structures, this captivating process has left its mark on various aspects of life. Delving deep into DNA, we encounter E. Coli Holliday junction complexes like C014 / 0878 and F006 / 9261. These microscopic marvels showcase how genetic material intertwines and rearranges itself, paving the way for new possibilities. Artwork comes alive with DNA 6-way junctions depicted in stunning visuals such as C014 / 2587 and F006 / 9285. These masterpieces capture the complexity and beauty of recombination at a molecular level, highlighting its significance in shaping life's blueprint. Bacteriophage DNA recombination takes center stage with F006 / 9554, showcasing how viruses utilize this process to adapt and survive in their ever-changing environments. Enzymes catalyzing DNA recombination (F006 /9395) act as nature's architects, orchestrating precise rearrangements that drive evolution forward. The mesmerizing Cre-Lox recombination steals our attention with its elegant molecular models (F006/9322). This revolutionary technique allows scientists to manipulate genes effortlessly – opening doors to groundbreaking discoveries in medicine and biotechnology. As we journey further into understanding recombination's intricacies, we encounter yet another masterpiece - a DNA Holliday junction complex (F006/9334). Its symmetrical structure symbolizes harmony amidst chaos – reminding us that even within complexity lies order waiting to be discovered.