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Membrane Collection

The intricate anatomy of the human ear is beautifully depicted in this lithograph, published in 1876

Background imageMembrane Collection: Anatomy of the human ear, lithograph, published in 1876

Anatomy of the human ear, lithograph, published in 1876
Anatomy of the human ear. Lithograph, published in 1876

Background imageMembrane Collection: Rough endoplasmic reticulum, TEM

Rough endoplasmic reticulum, TEM
Rough endoplasmic reticulum, coloured transmission electron micrograph (TEM). This section shows the rough endoplasmic reticulum (ER, folds, centre), a membranous structure that occurs in cells

Background imageMembrane Collection: Cell membrane, artwork C013 / 7467

Cell membrane, artwork C013 / 7467
Computer artwork of a cutaway view of the human cell membrane. The cell Membrane is a complex part of the cell that controls what can get in and out of the cell

Background imageMembrane Collection: Cell types, artwork

Cell types, artwork
Cell types. Cutaway artwork with a scale bar (upper right, in micrometres) showing the relative sizes of eukaryotic cells (those containing a nucleus) and prokaryotic cells (those lacking a nucleus)

Background imageMembrane Collection: Bacterial meningitis, MRI scan

Bacterial meningitis, MRI scan
Bacterial meningitis. Coloured magnetic resonance imaging (MRI) scan of an axial section through the brain of a 16-year-old patient

Background imageMembrane Collection: Chloroplast structure, artwork

Chloroplast structure, artwork
Chloroplast structure. Artwork showing the internal structure of chloroplasts, the organelles in plant cells responsible for photosynthesis

Background imageMembrane Collection: Damp-proofing in a house

Damp-proofing in a house. Impermeable layer of tar-like material (diagonal black line) inserted in the bedding joint between two courses of brickwork in the wall of a house

Background imageMembrane Collection: Intestinal microvilli, TEM

Intestinal microvilli, TEM
Intestinal microvilli, coloured transmission electron micrograph (TEM). The microvilli are finger-like projections (seen here in circular cross-section)

Background imageMembrane Collection: Plecotus sp. long-eared bat

Plecotus sp. long-eared bat
A long-eared bat in flight (a microbat belonging to the Vespertilionidae family of vesper or evening bats). Photograph published in Bats by Phil Richardson, a Natural History Museum publication, 2002

Background imageMembrane Collection: Mitochondrion, TEM

Mitochondrion, TEM
Mitochondrion. Coloured transmission electron micrograph (TEM) of mitochondria (green/blue) in heart muscle. Mitochondria are organelles found in the cytoplasm of eukaryotic cells

Background imageMembrane Collection: Eye muscle, TEM C014 / 1468

Eye muscle, TEM C014 / 1468
Eye muscle. Transmission electron micrograph (TEM) of a section through a striated muscle cell from the ciliary muscle of a human eye

Background imageMembrane Collection: Boudet's microphone, 1882

Boudet's microphone, 1882
3479289 Boudet's microphone, 1882; (add.info.: Boudet's microphone: this consisted of a glass tube 3ins long and 0.4 ins in diameter)

Background imageMembrane Collection: Bell's Phonautograph, 1878

Bell's Phonautograph, 1878
3479235 Bell's Phonautograph, 1878; (add.info.: Bell's Phonautograph: sounds directed to the mouthpiece caused a membrane, modelled on the action of the human ear, to vibrate)

Background imageMembrane Collection: Bell's Phonautograph, 1878

Bell's Phonautograph, 1878
3479485 Bell's Phonautograph, 1878; (add.info.: Bell's Phonautograph: sounds directed to the mouthpiece caused a membrane, modelled on the action of the human ear, to vibrate)

Background imageMembrane Collection: Specimen VI

Specimen VI
Amy Louise Baker

Background imageMembrane Collection: Specimen V

Specimen V
Amy Louise Baker

Background imageMembrane Collection: Desiccated leaf skeleton isolated against black background - North Carolina, USA

Desiccated leaf skeleton isolated against black background - North Carolina, USA

Background imageMembrane Collection: Human ear anatomy, artwork

Human ear anatomy, artwork
Human ear anatomy, computer artwork

Background imageMembrane Collection: A male Lady Amhersts Pheasant, standing on grass, London Zoo, 1928 (b / w photo)

A male Lady Amhersts Pheasant, standing on grass, London Zoo, 1928 (b / w photo)
3703986 A male Lady Amhersts Pheasant, standing on grass, London Zoo, 1928 (b/w photo) by Bond, Frederick William (1887-1942); Zoological Society of London; (add.info)

Background imageMembrane Collection: Illustration of yoke sac and amniotic membrane surrounding chicken embryo

Illustration of yoke sac and amniotic membrane surrounding chicken embryo

Background imageMembrane Collection: Anatomy of the cochlear duct in the human ear

Anatomy of the cochlear duct in the human ear

Background imageMembrane Collection: Anatomy of human ear

Anatomy of human ear

Background imageMembrane Collection: External auditory canal of human ear (with labels)

External auditory canal of human ear (with labels)

Background imageMembrane Collection: Microscopic view of animal cell

Microscopic view of animal cell

Background imageMembrane Collection: Pipistrellus sturdeei, Sturdees pipistrelle

Pipistrellus sturdeei, Sturdees pipistrelle
A rare specimen of a Bonin pipistrelle, a slightly immature female, preserved in spirit and held by the Natural History Museum

Background imageMembrane Collection: Chloroplast, SEM

Chloroplast, SEM
Chloroplast. Coloured scanning electron micrograph (SEM) of a section through a plant cell, showing a fractured chloroplast (green)

Background imageMembrane Collection: Cluster of HIV virus

Cluster of HIV virus. HIV is the human immunodeficiency virus that can lead to acquired immune deficiency syndrom, or AIDS

Background imageMembrane Collection: Cutaway diagram of human ear

Cutaway diagram of human ear

Background imageMembrane Collection: Conceptual image of mitochondria

Conceptual image of mitochondria

Background imageMembrane Collection: Phonautograph (c. 1860) by Scott and KAonig, published in 1880

Phonautograph (c. 1860) by Scott and KAonig, published in 1880
Phonautograph (c. 1860) by Edouard-Leon Scott de Martinville (French printer and bookseller, 1817 - 1879) and Rudolph Koenig (German acoustician, 1832 - 1901)

Background imageMembrane Collection: Nasal lining, SEM

Nasal lining, SEM
Nasal lining. Coloured scanning electron micrograph (SEM) of the olfactory epithelium that lines the nasal cavity, showing olfactory cells (red) surrounded by numerous cilia (hair-like projections)

Background imageMembrane Collection: Cell membrane lipid bilayer, artwork F007 / 1477

Cell membrane lipid bilayer, artwork F007 / 1477
Phospholipid bilayer. Computer artwork of the phospholipid bilayer that forms the membrane around all living cells. The cell membrane is made of phospholipid molecules

Background imageMembrane Collection: Cell membrane ion channels, artwork C016 / 7689

Cell membrane ion channels, artwork C016 / 7689
Cell membrane ion channels. Computer artwork of a section through the membrane of an animal cell, showing transmembrane ion channel proteins (yellow)

Background imageMembrane Collection: Cicada noise mechanism, diagram C018 / 0296

Cicada noise mechanism, diagram C018 / 0296
Cicada noise mechanism, diagram. Cicadas are insects forming the family Cicadidae. Male cicadas produce a rhythmic mating calls, a loud clicking sound from stridulatory organs on their abdomen

Background imageMembrane Collection: Chloroplast, TEM C017 / 8233

Chloroplast, TEM C017 / 8233
Chloroplast. Coloured transmission electron micrograph (TEM) of chloroplast from the leaf of a Coleus blumei plant. Chloroplasts are the sites of photosynthesis

Background imageMembrane Collection: Brain meninges

Brain meninges, historical anatomical artwork. This cranial (top) view of the brain (with front at the top) and its surrounding protective meninges, which have been partially dissected away

Background imageMembrane Collection: Mitochondria, TEM

Mitochondria, TEM
Mitochondria. Coloured transmission electron micrograph (TEM) of mitochondria (red) in heart muscle. Mitochondria are organelles found in the cytoplasm of eukaryotic cells

Background imageMembrane Collection: Immune system, artwork

Immune system, artwork
Immune system. Computer artwork showing how T-cells (right), antibodies (Y-shaped) and antigen-presenting cells (APC, left) interact during an immune response

Background imageMembrane Collection: Perforated eardrum, artwork

Perforated eardrum, artwork
Perforated eardrum. Artwork of a perforated (torn) eardrum (right), or tympanic membrane, and a normal eardrum (left), as seen from the outer ear

Background imageMembrane Collection: Bacterial cell structure, artwork

Bacterial cell structure, artwork
Bacterial cell structure. Computer artwork showing the cell structure and components (organelles) of a typical rod-shaped bacteria (bacillus). Not all bacteria have a flagellum (long, tail-like)

Background imageMembrane Collection: Desmosome cell junction, artwork

Desmosome cell junction, artwork
Desmosome cell junction. Computer artwork showing the structure of an adhesion junction, or desmosome. Desmosomes form the most common type of junction between epithelial cells

Background imageMembrane Collection: Various fetal skeletons displayed

Various fetal skeletons displayed
Anatomical display. Scene depicts various fetal skeletons, one holding a necklace of pearls, another holding a miniature scythe, another cries into a membrane

Background imageMembrane Collection: Phonautograph by Koenig

Phonautograph by Koenig
Antique illustration of a Phonautograph by Koenig

Background imageMembrane Collection: Illustration showing cholesterol molecules passing from blood cells into body cell membrane to

Illustration showing cholesterol molecules passing from blood cells into body cell membrane to regulate blood cholesterol level

Background imageMembrane Collection: Cross section illustration of human olfactory system

Cross section illustration of human olfactory system

Background imageMembrane Collection: Digital illustration of nerve signal moving along membrane as wave of depolarization

Digital illustration of nerve signal moving along membrane as wave of depolarization and repolarization

Background imageMembrane Collection: Illustration of blue Amoeba

Illustration of blue Amoeba

Background imageMembrane Collection: Picture No. 11772276

Picture No. 11772276
Bald Eagle close up of head and eye showing third eyelid Nictitating Membrane Date:

Background imageMembrane Collection: Medical illustration of endolymph in the membranous labyrinth of the inner ear

Medical illustration of endolymph in the membranous labyrinth of the inner ear
Medical ilustration showing endolymph in the membranous labyrinth of the inner ear

Background imageMembrane Collection: Conceptual image of cell surface receptors

Conceptual image of cell surface receptors. Cell surface receptors are specialized integral membrane proteins that take part in communication between the cell and the outside world

Background imageMembrane Collection: Microscopic view of white blood cells inside blood vessel

Microscopic view of white blood cells inside blood vessel

Background imageMembrane Collection: Sperm traveling towards egg with cellia

Sperm traveling towards egg with cellia

Background imageMembrane Collection: Electron micrograph of negative-stained Prochlorococcus

Electron micrograph of negative-stained Prochlorococcus. A cyanophage is a virus that infects cyanobacteria

Background imageMembrane Collection: Conceptual image of paramecium

Conceptual image of paramecium

Background imageMembrane Collection: Conceptual image of chloroplast

Conceptual image of chloroplast

Background imageMembrane Collection: Microscopic view of plant tissues

Microscopic view of plant tissues

Background imageMembrane Collection: Anatomy of the organ of Corti, part of the cochlea of the inner ear

Anatomy of the organ of Corti, part of the cochlea of the inner ear

Background imageMembrane Collection: Interior detail of the cochlea

Interior detail of the cochlea

Background imageMembrane Collection: Cell nucleus with chromosome

Cell nucleus with chromosome. The cell nucleus helps control eating, movement, and reproduction

Background imageMembrane Collection: Conceptual image of a plant cell and its components

Conceptual image of a plant cell and its components

Background imageMembrane Collection: Microscopic view of sperm traveling towards embryo

Microscopic view of sperm traveling towards embryo

Background imageMembrane Collection: Heart with pericadium pulled back exposing heart muscle

Heart with pericadium pulled back exposing heart muscle

Background imageMembrane Collection: Red blood cells with leukocytes

Red blood cells with leukocytes

Background imageMembrane Collection: Microscopic view of paramecium

Microscopic view of paramecium

Background imageMembrane Collection: Microscopic view of ovules

Microscopic view of ovules

Background imageMembrane Collection: Cluster of blastomeres forming a developing morula

Cluster of blastomeres forming a developing morula (early stage of embryonic development)

Background imageMembrane Collection: Conceptual image of human cell

Conceptual image of human cell

Background imageMembrane Collection: Microscopic view of Ebola virus

Microscopic view of Ebola virus (EBOV). EBOV causes extremely severe disease in humans and in non-human primates in the form of viral hemorrhagic fever

Background imageMembrane Collection: Human cell anatomy

Human cell anatomy

Background imageMembrane Collection: Human heart covered with pericardium

Human heart covered with pericardium

Background imageMembrane Collection: Conceptual image of lipid

Conceptual image of lipid

Background imageMembrane Collection: Red blood cell flow inside the artery

Red blood cell flow inside the artery

Background imageMembrane Collection: Conceptual image of human cytomegalovirus

Conceptual image of human cytomegalovirus. Cytomegalovirus is a genus of the viral family Herpesviridae

Background imageMembrane Collection: Microscopic view of H5N1 virus with red blood cells and white blood cells

Microscopic view of H5N1 virus with red blood cells and white blood cells

Background imageMembrane Collection: Conceptual image of fertilization

Conceptual image of fertilization

Background imageMembrane Collection: Microscopic view of Mitochondria

Microscopic view of Mitochondria. Mitochondria are the cells power producers. They convert energy into forms that are usable by the cell. Located in the cytoplasmcells activities

Background imageMembrane Collection: Medical illustration of sperm and ovum

Medical illustration of sperm and ovum

Background imageMembrane Collection: Conceptual image of cytoskeleton

Conceptual image of cytoskeleton. The cytoskeleton is a cellular scaffolding or skeleton contained within a cells cytoplasm, and is present in all cells

Background imageMembrane Collection: Microscopic view of samllpox

Microscopic view of samllpox

Background imageMembrane Collection: Microscopic view of human cell

Microscopic view of human cell

Background imageMembrane Collection: Conceptual image of common fertilization

Conceptual image of common fertilization

Background imageMembrane Collection: The interior of an eukaryotic cell

The interior of an eukaryotic cell. This is the most common generic type of cell and its present in all mammals. In the center is the nucleus (the perforated sphere)

Background imageMembrane Collection: Microscopic view of HIV virus, cross section

Microscopic view of HIV virus, cross section



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The intricate anatomy of the human ear is beautifully depicted in this lithograph, published in 1876. One notable feature highlighted here is the membrane, which plays a crucial role in transmitting sound waves to our auditory system. Moving on to cellular structures, the rough endoplasmic reticulum (ER) takes center stage under a transmission electron microscope (TEM). This network of membranes within cells is responsible for protein synthesis and transport. Artwork showcasing different cell types also emphasizes the significance of membranes. From the delicate cell membrane itself, represented by artwork C013 / 7467, to mitochondria seen through TEM imaging - these organelles possess their own unique membranes that regulate various cellular functions. Intriguingly, even chloroplasts have their own distinct membrane structure as revealed by artwork dedicated to studying photosynthesis. These specialized organelles found in plants are responsible for converting sunlight into energy. Beyond biology, membranes find relevance elsewhere too. Think about damp-proofing measures taken in houses – membranes act as barriers against moisture infiltration and protect our living spaces from potential damage. However, not all mentions of they are positive. Bacterial meningitis can be detected through MRI scans where inflammation affects the protective brain meninges' integrity. Understanding how pathogens breach these defensive layers helps diagnose and treat such infections effectively. Nature's wonders also exhibit fascinating adaptations involving membranes; take Plecotus sp. , commonly known as long-eared bats with their remarkable hearing abilities thanks to specialized ear membrane structures aiding echolocation skills. Zooming into finer details under TEM again reveals eye muscles' intricate arrangement (TEM C014 / 1468), highlighting how well-organized muscle fibers rely on precise membranous connections for coordinated movement and vision control. Lastly, let's not forget intestinal microvilli observed through TEM – finger-like projections covered by plasma membrane lining our intestines play a vital role in nutrient absorption during digestion processes. From ancient lithographs to modern imaging techniques, the significance of membranes spans across various fields.

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