Genes Collection (#6)

Genetic research, conceptual image C014 / 1255
Genetic research. Conceptual image of a molecular model of a strand of DNA (deoxyribonucleic acid) being examined through a magnifying glass

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

Methyladenine glycosylase bound to DNA C014 / 0877
Methyladenine glycosylase bound to DNA. Computer model showing a molecule of human DNA-3-methyladenine glycosylase (purple) in complex with DNA (deoxyribonucleic acid, green and orange)

Methyladenine glycosylase bound to DNA. Computer model showing a molecule of human DNA-3-methyladenine glycosylase (purple) in complex with DNA (deoxyribonucleic acid, blue and orange)

Zinc finger bound to DNA C014 / 0864
Zinc finger bound to DNA. Molecular model showing a zinc finger molecule bound to a strand of DNA (deoxyribonucleic acid)

Nucleic acid isolation resin, SEM C014 / 4732
Nucleic acid isolation resin. Coloured scanning electron micrograph (SEM) showing the structure of a silica (silicon dioxide) resin from a spin column

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

Induced nerve stem cells, micrograph
Induced nerve stem cells. Fluorescence light micrograph of neural (nerve) stem cells that have been created (induced) from human adult skin fibroblast cells by gene manipulation

Glutaminyl-tRNA synthetase molecule
Glutaminyl-tRNA synthetase protein molecule. Molecular model showing bacterial glutaminyl-tRNA synthetase complexed with glutamine tRNA (transfer ribonucleic acid)

DNA molecule, artwork C016 / 8508
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8507
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8506
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8505
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8503
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8502
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8501
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8499
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8498
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8442
DNA molecule. Computer artwork showing the structure of a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8443
DNA molecule. Computer artwork showing the structure of a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8441
DNA molecule. Computer artwork showing the structure of a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8440
DNA molecule. Computer artwork showing the structure of a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

Chromosome of supercoiled DNA, concept C016 / 8434
Chromosome of supercoiled DNA, conceptual image. Computer artwork of a human chromosome, representing how DNA (deoxyribonucleic acid) is supercoiled (spirals) to be packaged within it

DNA molecule, artwork C016 / 8439
DNA molecule. Computer artwork showing the structure of a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8438
DNA molecule. Computer artwork showing the structure of a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C016 / 8437
DNA molecule. Computer artwork showing the structure of a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

Chromosome of supercoiled DNA, concept C016 / 8433
Chromosome of supercoiled DNA, conceptual image. Computer artwork of a human chromosome, representing how DNA (deoxyribonucleic acid) is supercoiled (spirals) to be packaged within it

Chromosome as a machine, conceptual image C016 / 8432
Chromosome as a machine, conceptual image. Computer artwork of a human chromosome made out of machine parts. Chromosomes are composed of deoxyribonucleic acid (DNA) strands that contain sections

DNA molecule, artwork C016 / 8273
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

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

Poly(A)-binding protein and RNA complex. Computer model showing the structure of a poly(A)-binding protein (PABP) molecule bound to the poly(A)

Z-DNA tetramer molecule C015 / 6558
Z-DNA (deoxyribonucleic acid) tetramer, molecular model. DNA is composed of two strands twisted into a double helix. This is a tetramer of the molecule, containing four strands

DNA MassARRAY analysis C015 / 6522
DNA MassARRAY analysis. Close-up of a Sequenom DNA MassARRAY machine. MassARRAY platforms are used for SNP (single-nucleotide polymorphism) genotyping

DNA MassARRAY analysis C015 / 6520
DNA MassARRAY analysis. Technician holding a chip from a Sequenom DNA MassARRAY machine. MassARRAY platforms are used for SNP (single-nucleotide polymorphism) genotyping

DNA MassARRAY analysis C015 / 6521
DNA MassARRAY analysis. Close-up of a Sequenom DNA MassARRAY machine. MassARRAY platforms are used for SNP (single-nucleotide polymorphism) genotyping

DNA MassARRAY analysis C015 / 6518
DNA MassARRAY analysis. Technician filling sample plates with resin in a molecular epidemiology lab before running it through a Sequenom DNA MassARRAY machine

DNA MassARRAY analysis C015 / 6519
DNA MassARRAY analysis. Technician holding chips from a Sequenom DNA MassARRAY machine. MassARRAY platforms are used for SNP (single-nucleotide polymorphism) genotyping

DNA MassARRAY analysis C015 / 6517
DNA MassARRAY analysis. Technician filling sample plates with resin in a molecular epidemiology lab before running it through a Sequenom DNA MassARRAY machine

DNA and methyltransferase complex C014 / 0011
DNA and methyltransferase complex. Molecular model showing a molecule of methyltransferase bound to a DNA (deoxyribonucleic acid) strand (red and yellow)

Damaged DNA, conceptual artwork C013 / 9999
Damaged DNA, conceptual computer artwork

Caduceus with DNA, artwork C013 / 9989
Caduceus with DNA. Computer artwork of the Caduceus symbol entwined by a strand of DNA (deoxyribonucleic acid). The caduceus is the traditional symbol of the Greek god Hermes

DNA molecule, artwork C013 / 9977
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C013 / 9976
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

Chromosome, artwork C013 / 9967
Chromosome. Computer artwork of a human chromosome. Chromosomes are composed of deoxyribonucleic acid (DNA) that contain sections, called genes, which encode the bodys genetic information

DNA molecule, artwork C013 / 9975
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C013 / 9974
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C013 / 9972
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

DNA molecule, artwork C013 / 9973
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

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"Unlocking the Secrets: Exploring the Fascinating World of Genes" The X and Y chromosomes: Unraveling the Blueprint of Life. A mesmerizing sight: Leopard's black panther showcases melanistic phase, a result of its genes. DNA molecule: Nature's intricate code for life captured in stunning computer models. Abstract artwork reveals the beauty hidden within the DNA molecule. Gregor Mendel - Pioneering Austrian botanist who laid the foundation for understanding genetic inheritance. Peering into our origins: DNA Double Helix with Autoradiograph offers a glimpse into our genetic makeup. Guinea pigs showcase Mendel's Law through a vibrant poster, highlighting genetic patterns in action. Z-DNA tetramer molecule C015/6557 - Unveiling unique structures within our chromosomes. Chromosomes - The carriers of hereditary information that shape who we are. Delving deep into genetics, this captivating journey takes us from unraveling the mysteries held by X and Y chromosomes to witnessing nature's marvels like a leopard donning its striking black panther coat due to specific genes at play. The awe-inspiring complexity of life is encapsulated in DNA molecules, whether portrayed as computer models or abstract artworks that depict their elegance and intricacy. We pay homage to Gregor Mendel, an Austrian botanist whose groundbreaking work paved the way for understanding how traits are passed down through generations. Through images like DNA Double Helix with Autoradiograph or posters demonstrating Mendel's Laws using guinea pigs as examples, we gain insight into our own origins and witness firsthand how genetics shape every living being on this planet. Zooming further into microscopic wonders, we encounter Z-DNA tetramer molecules and explore fascinating structures found within our very own chromosomes – repositories of invaluable hereditary information.