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Gene Collection (#8)

"Unlocking the Secrets of Life: Exploring the Fascinating World of Gene" Genes, those tiny but mighty units of heredity encoded in our DNA

Background imageGene Collection: Chromosome, SEM

Chromosome, SEM
Chromosome. Coloured scanning electron micrograph (SEM) of a condensed chromosome showing chromomeres. Chromosomes, which consist of two identical chromatids joined at a centromere

Background imageGene Collection: Genetic switch, conceptual artwork

Genetic switch, conceptual artwork
Genetic switch, conceptual computer artwork

Background imageGene Collection: DNA transcription factor, molecular model

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

Background imageGene Collection: DNA construction, artwork

DNA construction, artwork
Conceptional computer artwork of a DNA being constructed or repaired

Background imageGene Collection: Genetic screening

Genetic screening
Conceptual image of genetic screening, showing a DNA molecule and genetic code with a cursor tracking one of the DNA spheres

Background imageGene Collection: DNA structure

DNA structure
Computer artwork depicting the Bases of a DNA structure: Adenine (blue), Guanine (red), Cytosine (green) and Thymine (yellow)

Background imageGene Collection: Gene therapy, artwork

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

Background imageGene Collection: Mendelian inheritance

Mendelian inheritance in fowls, as a result of parental genes. P = parents, F & F2 = 1st and 2nd generation, D = dominant, R = recessive

Background imageGene Collection: DNA molecules and Petri dishes

DNA molecules and Petri dishes
DNA molecules. Computer artwork of three molecules of DNA (deoxyribonucleic acid) emerging from three Petri dishes. DNA contains sections called genes that encode an organisms genetic information

Background imageGene Collection: Genetic sequence, conceptual artwork

Genetic sequence, conceptual artwork
Genetic sequence, conceptual computer artwork. These letters represent the four nucleotide bases of DNA (deoxyribonucleic acid): adenine (A), thymine (T), guanine (G) and cytosine (C)

Background imageGene Collection: Genetic universe

Genetic universe. Computer artwork of a molecule of DNA (deoxyribonucleic acid) in space surrounded by galaxies. DNA encodes sections called genes that encode the bodys genetic information

Background imageGene Collection: Stem cell gene expression

Stem cell gene expression. Gene expression colormap for blood and neural stem cells. All cells contain a complete copy of an organisms genetic information in the form of DNA (deoxyribonucleic acid)

Background imageGene Collection: DNA molecule and eggshell

DNA molecule and eggshell
DNA molecule. Computer artwork of a molecule of DNA (deoxyribonucleic acid) emerging from a cracked eggshell in a shaft of light

Background imageGene Collection: Viral gene therapy, artwork

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

Background imageGene Collection: Genetic individuality, computer artwork

Genetic individuality, computer artwork
Genetic individuality. Conceptual computer artwork showing the ability of human genetic information to be translated into digital binary code for biometric purposes




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"Unlocking the Secrets of Life: Exploring the Fascinating World of Gene" Genes, those tiny but mighty units of heredity encoded in our DNA, hold the key to understanding life's intricate mysteries. Like X and Y chromosomes that determine our gender, genes shape who we are at a fundamental level. Just like the majestic Leopard donning its melanistic phase as a black panther resting on a log, genes dictate our physical traits and characteristics. They orchestrate every aspect of our being, from eye color to height. The DNA molecule stands as an elegant blueprint for life itself. Its complex structure reveals the code that makes us unique individuals. A computer model visualizes this intricate dance within our cells, showcasing how genes interact with one another to create a symphony of existence. In abstract images and artwork inspired by the DNA molecule, we witness its beauty and complexity intertwined. Just like Gene Tunney going down for the famous long count in his championship bout with Dempsey, they can sometimes surprise us with their unpredictable nature. Gene Tierney's timeless elegance reminds us that genes not only shape our physical appearance but also influence aspects such as talent and charisma. They play a role behind every star's success story. Gregor Mendel, an Austrian botanist known as "the father of genetics, " laid the foundation for understanding how traits are inherited through his groundbreaking experiments with pea plants. His work paved the way for unraveling gene inheritance patterns across species. Much like a King cheetah coat displaying rare genetic variations due to specific gene combinations, nature constantly surprises us with its diversity driven by these incredible building blocks called genes. Scenes from Madame Sans-Gene starring Gloria Swanson remind us that while some aspects may be predetermined by our genetic makeup, it is ultimately up to each individual to define their own destiny beyond what lies within their genes' reach. From ancient times till now - whether it be in the form of a Panthera pardus or an American boxer.