Chromosome Collection (page 3)

E. coli Holliday junction complex C014 / 0878
E. coli Holliday junction complex. Molecular model of a RuvA protein (dark pink) in complex with a Holliday junction between homologous strands of DNA (deoxyribonucleic acid)

Meiosis, artwork F006 / 2399
Meiosis. Computer artwork of the first meiotic division

Meiosis, artwork F006 / 2252
Meiosis. Computer artwork of the first meiotic division

Gene expression, artwork
Gene expression. Computer artwork showing the process of transcription, the first stage or gene expression. Here, a chromosome (distance)

DNA repair, artwork
DNA repair. Computer artwork of a DNA (deoxyribonucleic acid) ligase enzyme (yellow) repairing damaged DNA (spiral) in a chromosome (upper left)

DNA Holliday junction complex F006 / 9334
DNA Holliday junction complex. Molecular model of the enzyme FLP recombinase in complex with a Holliday junction between homologous strands of DNA (deoxyribonucleic acid)

E coli Holliday junction complex F006 / 9261
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, blue) from an E

DNA packaging, artwork C016 / 7517
DNA packaging. Computer artwork showing how DNA (deoxyribonucleic acid) is packaged within cells. Two DNA strands, consisting of a sugar-phosphate backbone attached to nucleotide bases

Roundworm germ cells, light micrograph C016 / 9538
Roundworm germ cells. Light micrograph of germ cells from a roundworm (Ascaris sp.), undergoing mitosis (nuclear division)

Genetic fingerprints, conceptual artwork C016 / 7521
Genetic fingerprints, conceptual computer artwork

Male XY chromosomes, artwork. The Y chromosome (right) is found in males and is shorter than the X chromosome (upper left)

Dividing cell, TEM
Dividing cell. Transmission electron micrograph (TEM) of a section through a cell dividing through the process of mitosis

Drug effect on viruses, conceptual image C016 / 6253
Drug effect on viruses, conceptual image. Computer artwork showing a single strand of DNA (deoxyribonucleic acid, spiral, centre), red blood cells (pink), virus particles (virions, green, small)

Chromosomes, light micrograph C016 / 6354
Chromosomes, light micrograph. This micrograph was obtained in 1934 during studies of chromosome structure in the salivary glands of Sciara (a genus of fungus gnats)

Meiosis, illustration C018 / 0803
Meiosis. Illustration of a cell during metaphase (I) of meiosis (gamete formation). During meiosis four daughter nuclei are formed from one parent nucleus after two stages of nuclear division

Gene expression, conceptual illustration C018 / 0746
Gene expression, conceptual illustration. Every cell in an organism contains every single gene that makes up the organisms genome. However, they are not all active (expressed) in each cell

Telomeres, illustration C018 / 0911
Telomeres. Illustration of a chromosome highlighting the telomeres (white), short repeated sequences at the ends of a chromosome

DNA packaging, illustration C018 / 0747
DNA packaging. Illustration showing how DNA (deoxyribonucleic acid) is packaged within cells. Two DNA strands, consisting of a sugar-phosphate backbone attached to nucleotide bases

Genetic karyotype analysis C019 / 0270
MODEL RELEASED. Genetic karyotype analysis. Analyst in a genetics laboratory studying the results after DNA (deoxyribonucleic acid) was isolated from a sample

Genetic karyotype analysis C019 / 0271
Genetic karyotype analysis. Analyst in a genetics laboratory studying the results after DNA (deoxyribonucleic acid) was isolated from a sample

Genetic karyotype analysis C019 / 0268
MODEL RELEASED. Genetic karyotype analysis. Analyst in a genetics laboratory studying the results after DNA (deoxyribonucleic acid) was isolated from a sample

Genetic karyotype analysis C019 / 0269
MODEL RELEASED. Genetic karyotype analysis. Analyst in a genetics laboratory studying the results after DNA (deoxyribonucleic acid) was isolated from a sample

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

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

DNA quadruplex, molecular model. This dimeric quadruplex of DNA (deoxyribonucleic acid) is thought to form as part of telomeres

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

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

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

Damaged chromosome, conceptual artwork C013 / 9970
Damaged chromosome, conceptual computer artwork. Chromosomes are composed of deoxyribonucleic acid (DNA) that contain sections, called genes, which encode the bodys genetic information

Chromosomes, artwork C013 / 9968
Chromosomes. Computer artwork of human chromosomes. Chromosomes are composed of deoxyribonucleic acid (DNA) that contain sections, called genes, which encode the bodys genetic information

DNA Holliday junction complex C013 / 8888
DNA Holliday junction complex. Molecular model of the enzyme FLP recombinase in complex with a Holliday junction between homologous strands of DNA (deoxyribonucleic acid)

Full Set of Male Chromosomes SEM C013 / 7201
Set of human chromosomes, coloured scanning election micrograph (SEM). Chromosomes are a packaged form of the genetic material DNA (deoxyribonucleic acid)

Human chromosome, SEM C013 / 4999
Human chromosome. Coloured scanning electron micrograph (SEM) of a human chromosome. Chromosomes are a packaged form of a cells genetic material DNA (deoxyribonucleic acid)

Chromosomes, artwork C013 / 4619
Chromosomes. Computer artwork of human chromosomes. Chromosomes are composed of deoxyribonucleic acid (DNA) that contain sections, called genes, which encode the bodys genetic information

Chromosomes, artwork C013 / 4620
Chromosomes. Computer artwork of human chromosomes. Chromosomes are composed of deoxyribonucleic acid (DNA) that contain sections, called genes, which encode the bodys genetic information

Male Human Sex Chromosomes X and Y SEM C013 / 5127
Male Human Sex Chromosomes X and Y (Pair 23), scanning electron micrograph (SEM). There are 23 pairs of chromosomes in most normal human cells

Human chromosomes Pair No. 3 SEM
Human chromosomes pair No. 3, scanning electron micrograph (SEM). There are 23 pairs of chromosomes in most normal human cells

Human Chromosomes pair No. 1, SEM
Human chromosomes pair No. 1, scanning electron micrograph (SEM). There are 23 pairs of chromosomes in most normal human cells

Set of human chromosomes, SEM
Set of human chromosomes, coloured scanning election micrograph (SEM). Chromosomes are a packaged form of the genetic material deoxyribonucleic acid (DNA)

Human chromosomes and nucleus, SEM
Human chromosomes and nucleus, coloured scanning electron micrograph (SEM). Chromosomes are a packaged form of the genetic material DNA (deoxyribonucleic acid)

Human chromosomes, SEM C013 / 5005
Human chromosomes. Coloured scanning electron micrograph (SEM) of human chromosomes prepared with the harlequin staining technique

Human chromosome, SEM C013 / 4998
Human chromosome. Coloured scanning electron micrograph (SEM) of a human chromosome. Chromosomes are a packaged form of a cells genetic material DNA (deoxyribonucleic acid)

Human chromosomes, SEMs
Human chromosomes. Collage of coloured scanning electron micrographs (SEMs) of human chromosomes. Chromosomes are a packaged form of a cells genetic material DNA (deoxyribonucleic acid)

Human chromosomes, SEMs C013 / 4989
Human chromosomes. Collage of coloured scanning electron micrographs (SEMs) of human chromosomes. Chromosomes are a packaged form of a cells genetic material DNA (deoxyribonucleic acid)

Chromosome and DNA molecules. Computer artwork of a condensed chromosome with molecules of DNA (deoxyribonucleic acid) behind it

Female sex chromosomes. Computer artwork of human X chromosomes (pink). In the background are female gender symbols. The X chromosome is one of two sex chromosomes

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"Unlocking the Mysteries of Life: Exploring the World of Chromosomes" Witness the intricate dance of life as cells divide through mitosis, captured in a stunning light micrograph. Dive into the mesmerizing realm of cell division with a fluorescent micrograph, revealing the vibrant beauty hidden within. Behold a full set of male chromosomes under an SEM, offering a glimpse into our genetic blueprint and diversity. Marvel at the captivating sight of dividing cells, where new life emerges and growth takes place before your eyes. Delve deeper into cell division's enchantment with another fluorescent micrograph that showcases its breathtaking complexity. Unravel the secrets held within chromosome structure through an illuminating illustration that unveils their unique composition. Embark on a journey through DNA replication as bases attach to strands, forming two identical double DNA strands in this biomedical illustration. Explore protein synthesis and ribosome function in cross-section biomedical artwork that reveals how they contribute to cellular processes. Discover the essence of life encapsulated in each chromosome—a testament to our individuality and shared humanity. Traverse across nerve cells like astrocytes while contemplating their integral role in transmitting information throughout our complex nervous system. Immerse yourself in these captivating images—such as human chromosomes observed under an SEM—and let them ignite your curiosity about the wonders concealed within every living organism's DNA structure.