Bio Chemistry Collection (page 9)

Cloned woman, conceptual image
MODEL RELEASED. Cloned woman. Conceptual image of a cloned woman represented by identical half faces side by side. Cloning is a process by which a genetically identical copy of an organism is made

Potassium channel molecular model
Potassium channel research. Molecular model of the molecular structure of a KcsA potassium ion (K+) channel (brown spirals, centre) from a mouse (mus musculus)

Protein crystallography research
Proteomics. Hand holding a magnetic base used to hold protein crystals prior to their selection for X-ray crystallography study. The base holds crystals on the tips of the thin rods

Algae growing in a photobioreactor with a researchers shadow. Algae are photosynthesising micro-organisms that can convert carbon dioxide into commercially valuable lipids

Genetically modified food

Protein research device, SEM
Lab on a chip. Coloured scanning electron micrograph (SEM) of a section through a " lab on a chip", a microfluidic device used for analysing proteins

Proteomics research. Computer illustration of the spots of protein produced on a 2-D gel in proteomics research. This is the study of the structure and function of all the proteins in an organism

Antibiotic cell membrane effect, artwork
Antibiotic cell membrane effect. Artwork of the natural antibiotic peptide defensin (orange) disrupting the cell membrane of a bacterium (top right)

Algae growing on petri dishes, Solazyme Inc. USA. Algae are photosynthesising micro-organisms. They convert carbon dioxide (CO2) into sugars, that are then metabolised into lipids

Lipid bilayer membrane, molecular model
Lipid bilayer membrane. Molecular model simulation of a lipid bilayer membrane consisting of POPC lipids (green), surrounded by water molecules (red and white)

Laboratory equipment. Plastic sample vials held in a rack. This type of equipment is used in a wide range of laboratory work, from forensic analysis to medical research

Algae research. Researcher from Solazyme Inc. USA, examining a petri dish from an incubation room containing different algae strains. Algae are photosynthesising micro-organisms

Transgenic mouse, conceptual artwork
Transgenic mouse, conceptual computer artwork. The mouse is standing next to a model of a strand of DNA (deoxyribonucleic acid)

Yeast proteome. Researchers hand holding a tray containing part of the yeast (Saccharomyces cerevisiae) proteome. This is the complete set of proteins that makes up an organism

HaCaT culture cell, light micrograph
HaCaT cell. Immunofluorescence light micrograph of a HaCaT cell dividing into two. The nucleus, which contains the cells genetic information, is purple

Molecule in space, conceptual computer artwork. The theory of panspermia states that the molecules that form the building blocks of life are found throughout the universe

Protein crystal growth plate
Proteomics researcher holding a multi-well plate for growing protein crystals for X-ray crystallog- raphy studies. This is part of an automated system that can grow crystals faster than conventional

Proteomics research equipment. Close-up of a tubing entering the harvesting box of a whole gel eluter. This is a machine designed to recover proteins separated by polyacrylamide gel electrophoresis

Antibody, artwork

Flu virus, artwork

Mitochondrial RNA binding proteins. Molecular model of mitochondrial RNA (ribonucleic acid) binding protein 1 (MRP1) and MRP2 complexed together

Biochemistry research

AZT antiretroviral drug molecule
AZT antiretroviral drug, molecular model. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), oxygen (red) and nitrogen (blue)

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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.