Bio Chemistry Collection (page 23)

Algae fermentation bioreactor, Solazyme Inc. USA. Algae are photosynthesising micro- organisms that can convert carbon dioxide into sugars

Brain and DNA. Computer artwork of a DNA molecule wrapped around a human brain. The brain is seen from the side, and the front of the brain is at right

Circular DNA molecule, artwork
Circular DNA (deoxyribonucleic acid) molecule, computer artwork. Circular DNA has no ends, but consists of a ring structure

Mouse chromatin protein, molecular model
Mouse chromatin protein. Molecular model of the structure of chromatin proteins found in mice. This is similar, but not identical, to the same proteins found in humans

DNA autoradiograms and numbers. Conceptual computer artwork of DNA autoradiograms (orange) superimposed over random numbers (white)

Genetic information storage. Conceptual computer artwork representing the storage in digital form of data derived from genetic research

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

Unzipped DNA molecule, artwork
Unzipped DNA molecule, conceptual computer artwork

Researcher with algae fermenter
Researcher with algae fermentation bioreactor, Solazyme Inc. USA. Algae are photosynthesising micro-organisms that can convert carbon dioxide (CO2) into sugars

Gene activator protein. Computer artwork of catabolite gene activator protein (CAP, blue and red) bound to a molecule of deoxyribonucleic acid (DNA)

Genetic code
MODEL RELEASED. Genetic code. Conceptual computer artwork of a DNA double helix (white) with nucleotide base sequences (letters, down centre), a womans face and binary code (zeros and ones)

Energised protocell, artwork
Energised protocell. Image 4 of 5. Artwork showing light photons energising a protocell (artificial cell). This protocell was formed from a synthetic primeval soup containing PNA

RNA polymerase II molecule
RNA polymerase II. Computer model showing the secondary structure of the enzyme RNA polymerase II. The molecule comprises 12 subunits

Computer artwork depicting embryo paternity test
Embryo paternity testing. Computer artwork of a paternity test of an embryo (at upper right). A sample of DNA, deoxyribonucleic acid (orange & red strand), is taken from the embryo and its parents

Conceptual artwork of human genetic analysis
Human genetic analysis. Conceptual computer artwork of a human passing through a scanning device, representing human genetic analysis for health and medical purposes

DNA helices. Models showing the double helix and nucleotide base structure of DNA (deoxyribonucleic acid) molecules. The double helix is formed by two spiralling strands of sugar phosphates

Molecular graphic of LAC repressor binding to DNA
LAC repressor binding to DNA. Computer graphic of a lac repressor molecule (pink) interacting with genes on DNA that control lactose metabolism in Escherichia coli bacteria

DNA artwork
DNA. Computer illustration of part of a molecule of beta DNA (deoxyribonucleic acid), the genetic material found in all living cells. Beta DNA spirals clockwise when viewed from above

Viagra drug molecule
Viagra. Molecular model of the drug sildenafil citrate, marketed under the brands Viagra and Revatio. Atoms are represented as spheres and are colour-coded: carbon (black), hydrogen (silver)

Protein structure, artwork
Protein structure. Computer artwork of alpha helices (coils) and beta sheets (ribbons) of the secondary structure of a protein

Researcher holding an autoradiogram
MODEL RELEASED. Researcher holding an autoradiogram

Researcher pipetting liquid
MODEL RELEASED. Researcher pipetting liquid

Virus, conceptual artwork
Virus, conceptual computer artwork

Researcher holding a medium tray
MODEL RELEASED. Researcher holding a medium tray

DNA cube, conceptual artwork

All Professionally Made to Order for Quick Shipping

Biochemistry is the captivating realm where science and life intertwine, revealing the intricate secrets of our existence. As I gaze at the computer screen displaying a mesmerizing human genetic sequence, I am reminded of the boundless potential encoded within each double-stranded RNA molecule. The elegant dance of DNA transcription unfolds before my eyes, its molecular model illuminating the blueprint of life itself. In another corner, caffeine crystals come to life under a light micrograph, reminding us that even in our daily rituals lies an underlying biochemical symphony. The iconic DNA molecule stands tall as a symbol of discovery and progress, thanks to the pioneering work of Watson and Crick who unraveled its mysteries. Isaac Asimov's brilliance shines through as we acknowledge his contributions not only as a renowned US author but also as a biochemist who bridged literature with scientific exploration. Artistic renditions capture the beauty and complexity of metabolic enzymes and secondary structures of proteins, showcasing nature's ingenuity at every turn. The quest for knowledge extends into brain protein research; unlocking these enigmatic molecules could hold answers to understanding neurological disorders that plague humanity. A stunning computer artwork reveals beta DNA segments intertwined with spheres like celestial bodies orbiting their own gravitational pull - an awe-inspiring representation of interconnectedness on both macroscopic and microscopic scales. Amidst it all lies the nucleotide base matrix - an intricate web connecting all living beings across time and space. Biochemistry beckons us to explore this matrix further; deciphering its language holds profound implications for medicine, agriculture, biotechnology, and beyond. In this captivating world where science meets life's building blocks, biochemistry invites us to unravel nature's deepest secrets while inspiring wonderment at every step along this remarkable journey.