Poster Print : E. coli Holliday junction complex
Poster Prints from Science Photo Library
E. coli Holliday junction complex
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. coli (Escherichia coli) bacterium. A Holliday junction forms during crossing over, a natural genetic process that occurs between homologous chromosomes and leads to the switching of genetic material between the chromosomes. This recombination increases the genetic variation in a population. RuvA is part of the RuvABC complex of three proteins that mediate branch migration and resolve the Holliday junction created during homologous recombination in bacteria
Science Photo Library features Science and Medical images including photos and illustrations
Media ID 9227461
© LAGUNA DESIGN/SCIENCE PHOTO LIBRARY
Bacteria Bacterial Bacteriology Bacterium Chain Chains Chromosomal Chromosome Chromosomes Combining Complex Complexed Crossing Over Crossover Double Helix Escherichia Coli Four Way Gene Genes Genetic Genetic Engineering Holliday Junction Interacting Interaction Manipulated Manipulating Manipulation Mediating Mediator Microbiology Molecules Nucleic Acid Proteomics Recombination Recombining Strand Strands Biochemical Biochemistry Cutouts Deoxyribonucleic Acid Genetics Mediation Microbiological Molecular Model
A2 (59.4 x 42cm) Poster Print
Bring the intricacies of molecular biology into your space with Media Storehouse's Poster Prints. This captivating image showcases the E. coli Holliday junction complex, a critical site for genetic recombination. Witness the RuvA protein (in red) interacting with the Holliday junction, a unique structure formed by the intersection of two homologous strands of DNA (brown and orange). Ignite curiosity and inspire scientific exploration with this visually stunning representation of the wonders of genetics. Order your Media Storehouse Poster Print today.
A2 Poster (59.4 x 42cm, 23.4" x 16.5" inches) printed on 170gsm Satin Poster Paper. Securely packaged, rolled and inserted into a strong mailing tube and shipped tracked. Poster Prints are of comparable archival quality to our Photographic prints, they are simply printed on thinner Poster Paper. Whilst we only use Photographic Prints in our frames, you can frame Poster Prints if they are carefully supported to prevent sagging over time.
Poster prints are budget friendly enlarged prints in standard poster paper sizes (A0, A1, A2, A3 etc). Whilst poster paper is sometimes thinner and less durable than our other paper types, they are still ok for framing and should last many years. Our Archival Quality Photo Prints and Fine Art Paper Prints are printed on higher quality paper and the choice of which largely depends on your budget.
Estimated Image Size (if not cropped) is 42cm x 42cm (16.5" x 16.5")
Estimated Product Size is 42cm x 59.4cm (16.5" x 23.4")
These are individually made so all sizes are approximate
Artwork printed orientated as per the preview above, with landscape (horizontal) or portrait (vertical) orientation to match the source image.
EDITORS COMMENTS
This print showcases the intricate E. coli Holliday junction complex, a molecular model that represents the fascinating process of genetic recombination. In this image, we see a RuvA protein (depicted in red) interacting with a Holliday junction formed between homologous strands of DNA (colored in brown and orange). The DNA strands belong to an Escherichia coli bacterium, commonly known as E. coli. Crossing over is a natural genetic phenomenon that occurs between homologous chromosomes during reproduction, allowing for the exchange of genetic material between them. This crucial process leads to increased genetic variation within populations. RuvA plays a vital role as part of the RuvABC complex, which consists of three proteins responsible for mediating branch migration and resolving the Holliday junctions created during homologous recombination in bacteria. Its presence ensures proper manipulation and mediation of chromosomal interactions. The black background enhances the visual impact of this molecular structure, highlighting its complexity and significance in biology and genetics. The image also emphasizes scientific advancements through technology by showcasing how DNA can be manipulated and combined to study various biological processes. Overall, this print from Science Photo Library provides an intriguing glimpse into the world of microbiology and genetic engineering while shedding light on essential concepts such as crossover, recombination, genes, chromosomes, and their interplay within bacterial organisms like E. coli.
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