Cristae hi-res stock photography and images

RF2T9E348–Artwork of mitochondria

A close-up, hyper-realistic 3D rendering of a mitochondrion with an out-of-focus background Stock Photo

RF2T3W1HD–A close-up, hyper-realistic 3D rendering of a mitochondrion with an out-of-focus background

Mitochondrial fission, illustration Stock Photo

RF2G81R55–Mitochondrial fission, illustration

RF2G41B8A–Section of mitochondria

Mitochondria structure. Anatomy of motochondrion. Cross section of motochondrion. Close-up of Ribosomes, ATP synthase, Cristae, Granule Stock Vector

RF2XBH2YP–Mitochondria structure. Anatomy of motochondrion. Cross section of motochondrion. Close-up of Ribosomes, ATP synthase, Cristae, Granule

USA, Arizona, Organ Pipe Cactus National Monument. A close up of a genetic mutation in an Organ Pipe cactus forming a cristae, (Stenocereus thuberi) Stock Photo

RMJ2FW3W–USA, Arizona, Organ Pipe Cactus National Monument. A close up of a genetic mutation in an Organ Pipe cactus forming a cristae, (Stenocereus thuberi)

The membranous labyrinth of the vestibular system, which contains the organs of balance: the cristae and the maculae. Stock Photo

RMBCE6EB–The membranous labyrinth of the vestibular system, which contains the organs of balance: the cristae and the maculae.

Mitochondria are the organelles responsible for producing the energy needed for the cell to grow and reproduce. 3d rendering Stock Photo

RF2WMPYW8–Mitochondria are the organelles responsible for producing the energy needed for the cell to grow and reproduce. 3d rendering

$digital fractal Stock Photo$

RFFETKPN–digital fractal

RF2WMWT71–Mitochondria are the organelles responsible for producing the energy needed for the cell to grow and reproduce. 3d rendering

lattice animalcule clathrulina Stock Photo

RFBC22HA–lattice animalcule clathrulina

3D Rendering of a Mitochondrial Powerhouse Stock Photo

RF2WY0HEE–3D Rendering of a Mitochondrial Powerhouse

RF2JP16E1–Mitochondrial Anatomy

Mitochondria are essentially universal in the eukaryotes.Vector illustration. Stock Vector

RF2TCRBJ9–Mitochondria are essentially universal in the eukaryotes.Vector illustration.

RF2PNWCG4–Mitochondria diagram

Interior view of a cell showing a mitochondrion. Stock Photo

RMD0N0JH–Interior view of a cell showing a mitochondrion.

Membrane Ultrastructure in Nerve Cells, EM Stock Photo

RMHRF8R1–Membrane Ultrastructure in Nerve Cells, EM

An American text-book of physiology . thought to have the duty of vibrating in response to any agitationimparted to the perilymph, without regard to its periodic character; they THE SENSE OF HEARING. 833 might thus be termed sense organs for the perception of noises. Evidencewill be adduced later (p. 848) lor the belief that they are peripheral organsfor the preservation of static equilibrium. The hair-cells on the cristae of the ampullse of the semicircular canals seemto have a special function in giving rise to sensations caused by changing theposition of the head ; they thus are organs conc Stock Photo

RM2AJD7G3–An American text-book of physiology . thought to have the duty of vibrating in response to any agitationimparted to the perilymph, without regard to its periodic character; they THE SENSE OF HEARING. 833 might thus be termed sense organs for the perception of noises. Evidencewill be adduced later (p. 848) lor the belief that they are peripheral organsfor the preservation of static equilibrium. The hair-cells on the cristae of the ampullse of the semicircular canals seemto have a special function in giving rise to sensations caused by changing theposition of the head ; they thus are organs conc

RFCX2T42–Mitochondrion

Mitochondria, membrane-enclosed cellular organelles producing energy, computer illustration. Stock Photo

RF2R767JA–Mitochondria, membrane-enclosed cellular organelles producing energy, computer illustration.

RF2T3W1FJ–A close-up, hyper-realistic 3D rendering of a mitochondrion with an out-of-focus background

RF2G81R4W–Mitochondrial fission, illustration

The mitochondrion is a double-membrane-bound organelle found in most eukaryotic organisms Stock Photo

RF2G41BCN–The mitochondrion is a double-membrane-bound organelle found in most eukaryotic organisms

full and half cut Mitochondria in the white background 3d rendering Stock Photo

RF2T3W1H9–full and half cut Mitochondria in the white background 3d rendering

RF2G41BD1–Section of mitochondria

The two sensory organs of balance: the cristae of the semicircular ducts and the maculae of the utricle and saccule. Stock Photo

RMBCE6FD–The two sensory organs of balance: the cristae of the semicircular ducts and the maculae of the utricle and saccule.

The basic types and forms of the fine structure of mitochondrial cristae. Types of mitochondria Stock Photo

RF2G3M58D–The basic types and forms of the fine structure of mitochondrial cristae. Types of mitochondria

Mitochondria close-up structure detailed illustrated diagram on a white background. Stock Vector

RF2JRB6B0–Mitochondria close-up structure detailed illustrated diagram on a white background.

Mitochondria are dynamic organelles that constantly fuse and divide Stock Photo

RF2HJFWDM–Mitochondria are dynamic organelles that constantly fuse and divide

RF2JM8C3K–Anatomy of mitochondrion

Components of a typical mitochondrion Stock Photo

RF2PP108A–Components of a typical mitochondrion

Structure of Mitochondria. Mitochondrial Membrane Structure. Colorful Symbols. Vector Illustration. Stock Vector

RF2K30C0K–Structure of Mitochondria. Mitochondrial Membrane Structure. Colorful Symbols. Vector Illustration.

. Cytology. Cytology. chondriales, which generally extend into the interior or matrix of the organelle perpendicular to its long axis (Figure 3-3). Whether the cristae are invaginations of the inner membrane or separate structures is still debatable. The matrix into which the cristae extend is a homogeneous, amorphous material. Electron-dense granules, the function of which is by no means clear, are sometimes encountered apparently embedded in the matrix. A number of three-dimensional models of the mitochondrion have been proposed. One such model is shown in Figure 3-4. Mitochondria outer limi Stock Photo

RMPFK9JN–. Cytology. Cytology. chondriales, which generally extend into the interior or matrix of the organelle perpendicular to its long axis (Figure 3-3). Whether the cristae are invaginations of the inner membrane or separate structures is still debatable. The matrix into which the cristae extend is a homogeneous, amorphous material. Electron-dense granules, the function of which is by no means clear, are sometimes encountered apparently embedded in the matrix. A number of three-dimensional models of the mitochondrion have been proposed. One such model is shown in Figure 3-4. Mitochondria outer limi

Archive image from page 51 of Cytology (1961). Cytology cytology00wils Year: 1961 derived spermatocytes they are more nearly spherical, their cristae are irregularly oriented, and the average number per cell is greater. The mitochondria in spermatids appear empty owing to the fact that the cristae are folded over and flattened against the inner limiting mem- brane. In mature spermatids of the opossum, the large spherical mito- chondria are filled with many layers of concentrically arranged cristae (Figure 3-8). During the same developmental sequence, not only does Figure 3-8. Electron Micr Stock Photo

RMW1RC4P–Archive image from page 51 of Cytology (1961). Cytology cytology00wils Year: 1961 derived spermatocytes they are more nearly spherical, their cristae are irregularly oriented, and the average number per cell is greater. The mitochondria in spermatids appear empty owing to the fact that the cristae are folded over and flattened against the inner limiting mem- brane. In mature spermatids of the opossum, the large spherical mito- chondria are filled with many layers of concentrically arranged cristae (Figure 3-8). During the same developmental sequence, not only does Figure 3-8. Electron Micr

RMD0MX4G–Interior view of a cell showing a mitochondrion.

RMHRJHW1–Membrane Ultrastructure in Nerve Cells, EM

A manual of otology for students and practitioners . influenced by movements ofthe endolymph contained in the membranous labyrinth.The nerve fibers from these cristae are connected withthe vestibular nuclei in the medulla and mainly throughthem with the cerebellum, a spinal nucleus and with themotor oculi nucleus situated in the floor of the aque- FUNCTIONAL TESTS OF STATIC LABYRINTH 301 duct of Silvius. Impulses arising in the cristae producemovement of the eyes through the latter connection.The motor oculi nucleus enervates the eye muscles, andthe connection is so formed that muscles which m Stock Photo

RM2ANG3JK–A manual of otology for students and practitioners . influenced by movements ofthe endolymph contained in the membranous labyrinth.The nerve fibers from these cristae are connected withthe vestibular nuclei in the medulla and mainly throughthem with the cerebellum, a spinal nucleus and with themotor oculi nucleus situated in the floor of the aque- FUNCTIONAL TESTS OF STATIC LABYRINTH 301 duct of Silvius. Impulses arising in the cristae producemovement of the eyes through the latter connection.The motor oculi nucleus enervates the eye muscles, andthe connection is so formed that muscles which m

. Electron microscopy; proceedings of the Stockholm Conference, September, 1956 . Fig. 2. The mitochondrion (A) contains both cristae and vesicles. The body (B) contains intensely osmiophile vesicles and is intermediate in appearance between the mitochondrion (A) and the lipid droplet (L). Note vesicular components in lipid droplet (see fig. 4). Magnification 47,000. Fig. 3. The mitochondrion shown is freely open to lipid drops along the line A-A and at B. Magnification 47,000. Stock Photo

RMMA7A97–. Electron microscopy; proceedings of the Stockholm Conference, September, 1956 . Fig. 2. The mitochondrion (A) contains both cristae and vesicles. The body (B) contains intensely osmiophile vesicles and is intermediate in appearance between the mitochondrion (A) and the lipid droplet (L). Note vesicular components in lipid droplet (see fig. 4). Magnification 47,000. Fig. 3. The mitochondrion shown is freely open to lipid drops along the line A-A and at B. Magnification 47,000.

Mitochondrion, membrane-enclosed cellular organelles producing energy, computer illustration. Stock Photo

RF2R767J9–Mitochondrion, membrane-enclosed cellular organelles producing energy, computer illustration.

RF2G81R5B–Mitochondrial fission, illustration

Structure of mitochondria, illustration Stock Photo

RF2NMMBMK–Structure of mitochondria, illustration

RF2T3W1H7–full and half cut Mitochondria in the white background 3d rendering

Computer illustration showing a mitochondrion. Seen are the outer membrane, inner membrane and cristae (folds). Stock Photo

RF2C9JEBT–Computer illustration showing a mitochondrion. Seen are the outer membrane, inner membrane and cristae (folds).

RF2JD4594–Mitochondria, illustration

The internal structure of mitochondria Stock Photo

RF2PNP3AB–The internal structure of mitochondria

. Cytology. Cytology. been observed in mitochondria of the grasshopper kidney, in certain protozoa, and in hepatic cells (Figure 3-7). Even more complex arrange- ments have been described. ^ â o-fvr,. Figure 3-7. Electron Micrograph Showing Portion of Two Mitochondria in the Cortex of Paramecium multimicronucieatum. The envelope delimiting the mitochondrion is double, consisting of an outer (omm) and inner (imm) mitochondrial membrane. Structures corresponding to the cristae mito- chondriales in mammahan somatic cells are present as extensive finger-like projections or microvilU (mv) protrudin Stock Photo

RMPFK9JB–. Cytology. Cytology. been observed in mitochondria of the grasshopper kidney, in certain protozoa, and in hepatic cells (Figure 3-7). Even more complex arrange- ments have been described. ^ â o-fvr,. Figure 3-7. Electron Micrograph Showing Portion of Two Mitochondria in the Cortex of Paramecium multimicronucieatum. The envelope delimiting the mitochondrion is double, consisting of an outer (omm) and inner (imm) mitochondrial membrane. Structures corresponding to the cristae mito- chondriales in mammahan somatic cells are present as extensive finger-like projections or microvilU (mv) protrudin

Electron microscopy; proceedings of the Electron microscopy; proceedings of the Stockholm Conference, September, 1956 electronmicrosco00euro Year: 1957 Alveolar Cells from Mammals 245 are often met with the pictures of cristae. More frequently, however, the boundaries of these cristae are not parallel but have narrow passages. Osmiopliilic bodies (tig. 2), first described under the name of ''Plasmasome'' by Kisch (5) and by various authors, are permanent structures pertaining to the large alveolar cells. They have two aspects depending on their state of completeness. When entire they are oval Stock Photo

RMRWTA8G–Electron microscopy; proceedings of the Electron microscopy; proceedings of the Stockholm Conference, September, 1956 electronmicrosco00euro Year: 1957 Alveolar Cells from Mammals 245 are often met with the pictures of cristae. More frequently, however, the boundaries of these cristae are not parallel but have narrow passages. Osmiopliilic bodies (tig. 2), first described under the name of ''Plasmasome'' by Kisch (5) and by various authors, are permanent structures pertaining to the large alveolar cells. They have two aspects depending on their state of completeness. When entire they are oval

RMD0MYKM–Interior view of a cell showing a mitochondrion.

RMHRJHTY–Membrane Ultrastructure in Nerve Cells, EM

$. The American journal of anatomy. —hence the followingdigression. ^ CHANGES IN THE PECTORAL WALL CORRELATED WITH THE LATERDEVELOPMENT OF FILAMENTS AND OPERCULUM During the latter part of the sixth day and the beginning ofthe seventh, four different sets of structures make their appear-ance in the pectoral wall, all of which are represented in figure 1:a pair of pectoral grooves {sulci peciorales); 2) a pair of pectoralridges (cristae pectorales); 3) a pair of mesothelial ridges (cris-iae mesoiheliales) and 4) a median epitrichial ridge {cristaepitrichialis). GILL-FILAMENTS IN SAUROPSIDA 211 T Stock Photo$

RM2AFXP2T–. The American journal of anatomy. —hence the followingdigression. ^ CHANGES IN THE PECTORAL WALL CORRELATED WITH THE LATERDEVELOPMENT OF FILAMENTS AND OPERCULUM During the latter part of the sixth day and the beginning ofthe seventh, four different sets of structures make their appear-ance in the pectoral wall, all of which are represented in figure 1:a pair of pectoral grooves {sulci peciorales); 2) a pair of pectoralridges (cristae pectorales); 3) a pair of mesothelial ridges (cris-iae mesoiheliales) and 4) a median epitrichial ridge {cristaepitrichialis). GILL-FILAMENTS IN SAUROPSIDA 211 T

. Electron microscopy; proceedings of the Stockholm Conference, September, 1956 . b Fig. 1. Part of a normal brown fat cell. Mitochondria mostly have regular cristac some ot" which are beaded (B). Inter- cristal sections account for the appearance of such bodies as (A). Some mitochondria have vesicular internal membranes at one pole (V) and tiny vesicles are sometimes seen between the cristae (C). Lipid droplets lie freely in the cytoplasm and often interconnect. Endoplasmic reticular elements include a saccular component (S): the granular component (G) occurs independently, and in associ Stock Photo

RMMA7A96–. Electron microscopy; proceedings of the Stockholm Conference, September, 1956 . b Fig. 1. Part of a normal brown fat cell. Mitochondria mostly have regular cristac some ot" which are beaded (B). Inter- cristal sections account for the appearance of such bodies as (A). Some mitochondria have vesicular internal membranes at one pole (V) and tiny vesicles are sometimes seen between the cristae (C). Lipid droplets lie freely in the cytoplasm and often interconnect. Endoplasmic reticular elements include a saccular component (S): the granular component (G) occurs independently, and in associ

RF2JD4596–Mitochondria, illustration

. Cytology. Cytology. derived spermatocytes they are more nearly spherical, their cristae are irregularly oriented, and the average number per cell is greater. The mitochondria in spermatids appear empty owing to the fact that the cristae are folded over and flattened against the inner limiting mem- brane. In mature spermatids of the opossum, the large spherical mito- chondria are filled with many layers of concentrically arranged cristae (Figure 3-8). During the same developmental sequence, not only does. Figure 3-8. Electron Micrograph of Mitochondria trom Opossum Sper- matid, showing the co Stock Photo

RMPFK9J8–. Cytology. Cytology. derived spermatocytes they are more nearly spherical, their cristae are irregularly oriented, and the average number per cell is greater. The mitochondria in spermatids appear empty owing to the fact that the cristae are folded over and flattened against the inner limiting mem- brane. In mature spermatids of the opossum, the large spherical mito- chondria are filled with many layers of concentrically arranged cristae (Figure 3-8). During the same developmental sequence, not only does. Figure 3-8. Electron Micrograph of Mitochondria trom Opossum Sper- matid, showing the co

Electron microscopy; proceedings of the Stockholm Conference, September, 1956 . electronmicrosco00euro Year: 1957 Alveolar Cells from Mammals 245 are often met with the pictures of cristae. More frequently, however, the boundaries of these cristae are not parallel but have narrow passages. Osmiopliilic bodies (tig. 2), first described under the name of ''Plasmasome'' by Kisch (5) and by various authors, are permanent structures pertaining to the large alveolar cells. They have two aspects depending on their state of completeness. When entire they are oval, with a size of 0.9 micron along the Stock Photo

RMT03RGG–Electron microscopy; proceedings of the Stockholm Conference, September, 1956 . electronmicrosco00euro Year: 1957 Alveolar Cells from Mammals 245 are often met with the pictures of cristae. More frequently, however, the boundaries of these cristae are not parallel but have narrow passages. Osmiopliilic bodies (tig. 2), first described under the name of ''Plasmasome'' by Kisch (5) and by various authors, are permanent structures pertaining to the large alveolar cells. They have two aspects depending on their state of completeness. When entire they are oval, with a size of 0.9 micron along the

RMD0N09R–Interior view of a cell showing a mitochondrion.

Die männlichen Geschlechtsorgane . Glatte Muskulatur Rhahdosphincter itrethrae? ProstatadrüsenBhidegeiiebe Pars mcntbranacea- Fig. 2r)7. Die vordere Wand der Blase, der Pars intramuralis, prostaticaund memhraiiaceiv ist abgetragen. Samenhügel mit den Mündungen des Utriculus,den Mündungen der Ductus ejaculatorii zu beiden Seiten und den Öffnungen einigerl)rostalischen Drüsen. Proximal von dem Colliculus seminalis die Cristae urethralesund distal die Prenula cristae. Nach einem Formolpräparat eines Erwachsenen, umdas Doppelte vergrößert. Entwicklung der CTPsehleclitsovaane. ao3 Diese Anlagen zer Stock Photo

RM2AJFP9A–Die männlichen Geschlechtsorgane . Glatte Muskulatur Rhahdosphincter itrethrae? ProstatadrüsenBhidegeiiebe Pars mcntbranacea- Fig. 2r)7. Die vordere Wand der Blase, der Pars intramuralis, prostaticaund memhraiiaceiv ist abgetragen. Samenhügel mit den Mündungen des Utriculus,den Mündungen der Ductus ejaculatorii zu beiden Seiten und den Öffnungen einigerl)rostalischen Drüsen. Proximal von dem Colliculus seminalis die Cristae urethralesund distal die Prenula cristae. Nach einem Formolpräparat eines Erwachsenen, umdas Doppelte vergrößert. Entwicklung der CTPsehleclitsovaane. ao3 Diese Anlagen zer

. Die elektrischen Fische : nach neuen Untersuchungen anatomisch-zoologisch dargestellt . Sagittaler Schnitt durcli die Schnauze einer jugendlichen F. ocellata. Transversaler Schnitt durch die Schnauze einer jugendlichen Baja mirrdetus. und Cristae acusticae des Gehörs gestalten. Das gelegentliche Auftreten verwandter Bildungen auf frei zugäng- lichen Sinneshügeln ebenfalls im Wasser lebender Thiere, Avie der Amphibienlarven, zeigt, dass dies Moment allerdings nicht der einzige Grund ist, welcher die Bildung hervorruft; immerhüi wird die Retention fördernd einwirken können. An gewissen Nervenk Stock Photo

RMMEHE2D–. Die elektrischen Fische : nach neuen Untersuchungen anatomisch-zoologisch dargestellt . Sagittaler Schnitt durcli die Schnauze einer jugendlichen F. ocellata. Transversaler Schnitt durch die Schnauze einer jugendlichen Baja mirrdetus. und Cristae acusticae des Gehörs gestalten. Das gelegentliche Auftreten verwandter Bildungen auf frei zugäng- lichen Sinneshügeln ebenfalls im Wasser lebender Thiere, Avie der Amphibienlarven, zeigt, dass dies Moment allerdings nicht der einzige Grund ist, welcher die Bildung hervorruft; immerhüi wird die Retention fördernd einwirken können. An gewissen Nervenk

RF2JD459E–Mitochondria, illustration

. Cytology. Cytology. â Â« (a). Figure 3-3. (a) Electron Micrograph of a Single Mitochondrion in a Cell from the Proximal Convoluted Tubule of Mouse Kidney, showing numerous regularly spaced cristae. Electron-dense granules are visible near opposite ends of the mitochondrion; (b) Enlargement of the Mid-portion of the Mitochondrion in (a), showing the continuity between the cristae and the inner of the two limiting membranes (arrows). (From Dalton, A. J. and Felix, M. D., 1957. "Electron Microscopy of Mitochondria and the Golgi Complex," Symp. Soc. Expt'l. Biol, 10, Figs. 4A and 4B, P Stock Photo

RMPFK9K1–. Cytology. Cytology. â Â« (a). Figure 3-3. (a) Electron Micrograph of a Single Mitochondrion in a Cell from the Proximal Convoluted Tubule of Mouse Kidney, showing numerous regularly spaced cristae. Electron-dense granules are visible near opposite ends of the mitochondrion; (b) Enlargement of the Mid-portion of the Mitochondrion in (a), showing the continuity between the cristae and the inner of the two limiting membranes (arrows). (From Dalton, A. J. and Felix, M. D., 1957. "Electron Microscopy of Mitochondria and the Golgi Complex," Symp. Soc. Expt'l. Biol, 10, Figs. 4A and 4B, P

Cross section of a mitochondrion. Stock Photo

RMD0MWPR–Cross section of a mitochondrion.

Die männlichen Geschlechtsorgane . gen die Pars membranacea und bulbosa hin in ein(mitunter auch mehrere) Schleimhautfältchen sich fortsetzt, die jtroximalwie distal in die Crista urethralis auslaufen. Die proximale Leisteendet nach oben in die Uvula vesicae, die distale verliert sich inden Schleimhautfalten der Pars membranacea und bulbosa urethraeöfters mit gabhger Teilung, Frenula cristae urethralis. Handbuch der Anatomie. VU. U, 2. 10 14; I4r) K. EBERTH. Seine größte Ausdehnung erreicht der Collicuhis in Höhe undBreite etwa in der Mitte der Pars prostatica, mitunter auch etwas höheroder ti Stock Photo

RM2AJGTC6–Die männlichen Geschlechtsorgane . gen die Pars membranacea und bulbosa hin in ein(mitunter auch mehrere) Schleimhautfältchen sich fortsetzt, die jtroximalwie distal in die Crista urethralis auslaufen. Die proximale Leisteendet nach oben in die Uvula vesicae, die distale verliert sich inden Schleimhautfalten der Pars membranacea und bulbosa urethraeöfters mit gabhger Teilung, Frenula cristae urethralis. Handbuch der Anatomie. VU. U, 2. 10 14; I4r) K. EBERTH. Seine größte Ausdehnung erreicht der Collicuhis in Höhe undBreite etwa in der Mitte der Pars prostatica, mitunter auch etwas höheroder ti

. Die descriptive und topographische Anatomie des Menschen . Cornu sacraU Hiatus saeralis 8(5. Das Kreuzbein, Os saerum, von hinten. Hinter der Basis ist der dreieckige Eingang zu dem das Kreuzbein durchbohrenden Canalis sacralis, eine Fortsetzung des Canalis vertehralis; zu beiden Seiten desselben ragen die oberen, nach hinten gerichteten Gelenk- fortsätze des ersten Kreuzwirbels empor. Die hintere Fläche ist convex; an derselben verläuft die mittlere Kreuzbeinleiste, Crista sacralis media; zu beiden Seiten sind die Cristae sacrales laterales. Am unteren Ende der Crista sacralis media befinde Stock Photo

RMMEE6J8–. Die descriptive und topographische Anatomie des Menschen . Cornu sacraU Hiatus saeralis 8(5. Das Kreuzbein, Os saerum, von hinten. Hinter der Basis ist der dreieckige Eingang zu dem das Kreuzbein durchbohrenden Canalis sacralis, eine Fortsetzung des Canalis vertehralis; zu beiden Seiten desselben ragen die oberen, nach hinten gerichteten Gelenk- fortsätze des ersten Kreuzwirbels empor. Die hintere Fläche ist convex; an derselben verläuft die mittlere Kreuzbeinleiste, Crista sacralis media; zu beiden Seiten sind die Cristae sacrales laterales. Am unteren Ende der Crista sacralis media befinde

RF2JD459D–Mitochondria, illustration

. Cytology. Cytology. Figure 3-5, Electron Micrograph of Mitochondria in Human Spermato- gonium, showing cristae arranged in parallel and completely transversing the organelle. (From Selby, C. C, 1959. "Electron Microscopy: Techniques and Applications in Cytology," in "Analytical Cytology," R. C. Mellors (Ed.), 2nd ed., McGraw-Hill Book Co., Inc., New York,^N. Y., Fig. 4-lOC, p. 300. Electron micrograph by Dr. D. W. Fawcett, Harvard Medical School.) Figure 3-6. Electron Micrograph of Mitochondria in Interstitial Cell of the Opossum Testis. The cristae are short, irregularly Stock Photo

RMPFK9JC–. Cytology. Cytology. Figure 3-5, Electron Micrograph of Mitochondria in Human Spermato- gonium, showing cristae arranged in parallel and completely transversing the organelle. (From Selby, C. C, 1959. "Electron Microscopy: Techniques and Applications in Cytology," in "Analytical Cytology," R. C. Mellors (Ed.), 2nd ed., McGraw-Hill Book Co., Inc., New York,^N. Y., Fig. 4-lOC, p. 300. Electron micrograph by Dr. D. W. Fawcett, Harvard Medical School.) Figure 3-6. Electron Micrograph of Mitochondria in Interstitial Cell of the Opossum Testis. The cristae are short, irregularly

RMD0MX3H–Cross section of a mitochondrion.

. Anatomy, descriptive and applied. Anatomy. THE APPEND A GES OF THE SKIN 11.-,7 upon the surface of the true skin, as the epidermis is in other parts. The part of the cutis beneath the body and root of the nail is called the matrix (matrix unguis), because it is the part from which the nail is produced. Correspondint; to the body of the nail, the matrix is thick, and raised into a series of longitudinal ridges (cristae viatricis unguis), which are very vascular, and the color is seen through the transparent tissue. Behind this, near the root of the nail, the papilla? are small, less vascular, Stock Photo

RMRN5KD7–. Anatomy, descriptive and applied. Anatomy. THE APPEND A GES OF THE SKIN 11.-,7 upon the surface of the true skin, as the epidermis is in other parts. The part of the cutis beneath the body and root of the nail is called the matrix (matrix unguis), because it is the part from which the nail is produced. Correspondint; to the body of the nail, the matrix is thick, and raised into a series of longitudinal ridges (cristae viatricis unguis), which are very vascular, and the color is seen through the transparent tissue. Behind this, near the root of the nail, the papilla? are small, less vascular,

RF2JD459G–Mitochondria, illustration

Mitochondrial fusion, illustration Stock Photo

RF2G57F0K–Mitochondrial fusion, illustration

RMD0MY15–Interior view of a cell showing a mitochondrion.

. Biology of the vertebrates : a comparative study of man and his animal allies. Vertebrates; Vertebrates -- Anatomy; Anatomy, Comparative. Ports of Entry 797 ampullaris in the ampulla of each semicircular canal, as already described; the macula utriculi in the wall of the utriculus; the macula sacculi, in that part of the sacculus that is not drawn out to form the cochlear duct; and the organ of Corti in the cochlear duct (Fig. G96). The cristae and maculae are innervated by the vestibular branch of the acoustic (VHIth) nerve while the organ of Corti is supplied by the cochlear branch of the Stock Photo

RMRHJHTY–. Biology of the vertebrates : a comparative study of man and his animal allies. Vertebrates; Vertebrates -- Anatomy; Anatomy, Comparative. Ports of Entry 797 ampullaris in the ampulla of each semicircular canal, as already described; the macula utriculi in the wall of the utriculus; the macula sacculi, in that part of the sacculus that is not drawn out to form the cochlear duct; and the organ of Corti in the cochlear duct (Fig. G96). The cristae and maculae are innervated by the vestibular branch of the acoustic (VHIth) nerve while the organ of Corti is supplied by the cochlear branch of the

RF2G57EY6–Mitochondrial fusion, illustration

RF2JD459N–Mitochondria, illustration

RMD0MRMP–Cross section of a mitochondrion.

. Anatomy, descriptive and applied. Anatomy. 60 SPECIAL ANATOMY OF THE SKELETON External to the articular processes are the four posterior sacral foramina {foram- ina sacralia posteriora); they are smaller in size and less regular in form than the anterior, and transmit the posterior branches of the sacral nerves. On the outer side of the posterior sacral foramina is a series of tubercles, the rudimentary transverse processes of the sacral vertebrse (cristae sacrales laterales). The first pair of transverse tubercles are large, very distinct, and correspond with each superior angle of the bone Stock Photo

RMRN78PC–. Anatomy, descriptive and applied. Anatomy. 60 SPECIAL ANATOMY OF THE SKELETON External to the articular processes are the four posterior sacral foramina {foram- ina sacralia posteriora); they are smaller in size and less regular in form than the anterior, and transmit the posterior branches of the sacral nerves. On the outer side of the posterior sacral foramina is a series of tubercles, the rudimentary transverse processes of the sacral vertebrse (cristae sacrales laterales). The first pair of transverse tubercles are large, very distinct, and correspond with each superior angle of the bone

RF2JD459F–Mitochondrion, illustration

RMD0MTTC–Interior view of a cell showing a mitochondrion.

. Chordate anatomy. Chordata; Anatomy, Comparative. THE SENSE ORGANS 421 Proof of the static function of utriculus, sacculus, and semicircular canals has been obtained by extirpation experiments upon lower animals. An animal without these parts of the ear is unable to orient its body in space. The action of the endolymph upon the hairs of the cristae and maculae is intensified by the presence of small calcareous crystals or otoconia in the endolymph. The Organ of Hearing. The organ of hearing is the cochlear duct, otherwise known as the scala media, which is attached to the outer side of the s Stock Photo

RMRJ5K4A–. Chordate anatomy. Chordata; Anatomy, Comparative. THE SENSE ORGANS 421 Proof of the static function of utriculus, sacculus, and semicircular canals has been obtained by extirpation experiments upon lower animals. An animal without these parts of the ear is unable to orient its body in space. The action of the endolymph upon the hairs of the cristae and maculae is intensified by the presence of small calcareous crystals or otoconia in the endolymph. The Organ of Hearing. The organ of hearing is the cochlear duct, otherwise known as the scala media, which is attached to the outer side of the s

RF2JD459A–Mitochondrion, illustration

. Cell heredity. Cytogenetics. '"^'-m-. '-. PLATE XIV. Mitochondria of a pancreatic cell (guinea pig) showing the continuous outer membrane, the inner membrane to which the cristae are attached, and the matrix which is much denser than the surrounding cytoplasm. Mitochondria which appear to be dividing may be caught in a twisted configuration (arrows). 53,000 X- (Courtesy of G. E. Palade.). Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble Stock Photo

RMRJD4J9–. Cell heredity. Cytogenetics. '"^'-m-. '-. PLATE XIV. Mitochondria of a pancreatic cell (guinea pig) showing the continuous outer membrane, the inner membrane to which the cristae are attached, and the matrix which is much denser than the surrounding cytoplasm. Mitochondria which appear to be dividing may be caught in a twisted configuration (arrows). 53,000 X- (Courtesy of G. E. Palade.). Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble

RF2JD4591–Mitochondria, illustration

RF2H2KTRH–Mitochondrion, illustration

Mitochondria cross-section, illustration Stock Photo

RF2G57EY9–Mitochondria cross-section, illustration

. Electron microscopy; proceedings of the Stockholm Conference, September, 1956. Electron microscopy. Alveolar Cells from Mammals 245 are often met with the pictures of cristae. More frequently, however, the boundaries of these cristae are not parallel but have narrow passages. Osmiopliilic bodies (tig. 2), first described under the name of ""Plasmasome'" by Kisch (5) and by various authors, are permanent structures pertaining to the large alveolar cells. They have two aspects depending on their state of completeness. When entire they are oval, with a size of 0.9 micron along th Stock Photo

RMRD6DBH–. Electron microscopy; proceedings of the Stockholm Conference, September, 1956. Electron microscopy. Alveolar Cells from Mammals 245 are often met with the pictures of cristae. More frequently, however, the boundaries of these cristae are not parallel but have narrow passages. Osmiopliilic bodies (tig. 2), first described under the name of ""Plasmasome'" by Kisch (5) and by various authors, are permanent structures pertaining to the large alveolar cells. They have two aspects depending on their state of completeness. When entire they are oval, with a size of 0.9 micron along th

RF2G57EXK–Mitochondrial fusion, illustration

RMRD3HRK–. Cytology. Cytology. chondriales, which generally extend into the interior or matrix of the organelle perpendicular to its long axis (Figure 3-3). Whether the cristae are invaginations of the inner membrane or separate structures is still debatable. The matrix into which the cristae extend is a homogeneous, amorphous material. Electron-dense granules, the function of which is by no means clear, are sometimes encountered apparently embedded in the matrix. A number of three-dimensional models of the mitochondrion have been proposed. One such model is shown in Figure 3-4. Mitochondria outer limi

RF2K1WE3W–Mitochondrion, illustration

. The biosynthesis of proteins. Proteins -- Synthesis. ir-: Fig. 20. A. Section through a guinea pig pancreatic cell showing a few mitochondria with their inner cristae, and the endoplasmic reticulum lined with ribosomes. Free ribosomes can be seen between the cisternae. The large intracisternal granules are the secretory products. Magnifica- tion: X 22,000 (courtesy Dr G. E. Palade).. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the origin Stock Photo

RMRHK25C–. The biosynthesis of proteins. Proteins -- Synthesis. ir-: Fig. 20. A. Section through a guinea pig pancreatic cell showing a few mitochondria with their inner cristae, and the endoplasmic reticulum lined with ribosomes. Free ribosomes can be seen between the cisternae. The large intracisternal granules are the secretory products. Magnifica- tion: X 22,000 (courtesy Dr G. E. Palade).. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the origin

RF2K1WE4B–Mitochondrion, illustration

. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. CHORIO-ALLAXTOIC GRAFTS. 3OI are surrounded by mesenchyme only, as in the control. The parts within the cartilaginous capsule show a high degree of differentiation also. In the region of the vascular foramen refer- red to above, the epithelium has the characteristics of the normal utrirulu- of the ei.^ht day chick embryo. This determination i- further confirmed by the appearance in the epithelium of three thickened which represent the cristae acusticae of theampul- lae of • raicircular canals. No ganglion cells ai ociated wi Stock Photo

RMRHPAHW–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. CHORIO-ALLAXTOIC GRAFTS. 3OI are surrounded by mesenchyme only, as in the control. The parts within the cartilaginous capsule show a high degree of differentiation also. In the region of the vascular foramen refer- red to above, the epithelium has the characteristics of the normal utrirulu- of the ei.^ht day chick embryo. This determination i- further confirmed by the appearance in the epithelium of three thickened which represent the cristae acusticae of theampul- lae of • raicircular canals. No ganglion cells ai ociated wi

. Electron microscopy; proceedings of the Stockholm Conference, September, 1956. Electron microscopy. b Fig. 1. Part of a normal brown fat cell. Mitochondria mostly have regular cristac some ot" which are beaded (B). Inter- cristal sections account for the appearance of such bodies as (A). Some mitochondria have vesicular internal membranes at one pole (V) and tiny vesicles are sometimes seen between the cristae (C). Lipid droplets lie freely in the cytoplasm and often interconnect. Endoplasmic reticular elements include a saccular component (S): the granular component (G) occurs independ Stock Photo

RMRD5WC1–. Electron microscopy; proceedings of the Stockholm Conference, September, 1956. Electron microscopy. b Fig. 1. Part of a normal brown fat cell. Mitochondria mostly have regular cristac some ot" which are beaded (B). Inter- cristal sections account for the appearance of such bodies as (A). Some mitochondria have vesicular internal membranes at one pole (V) and tiny vesicles are sometimes seen between the cristae (C). Lipid droplets lie freely in the cytoplasm and often interconnect. Endoplasmic reticular elements include a saccular component (S): the granular component (G) occurs independ

. Biological structure and function; proceedings. Biochemistry; Cytology. 128 BRITTON CHANCE The succinate-linked mitochondrial pyridine nucleotide is postulated to be separated from the remainder of the DPN by a compartment—possibly the cristae and matrices of the mitochondria are involved. This com- partmentation implies that electrons donated by a DPN-linked substrate cannot readily enter the succinate-linked pyridine-nucleotide pool while those from succinate can. Succinate -^ Fumarate. Malate -^ 3XP+3I 3ATP+ 3X dbc Fig. 12. Schematic diagram of electron-transfer pathways in respiratory c Stock Photo

RMRHM1B9–. Biological structure and function; proceedings. Biochemistry; Cytology. 128 BRITTON CHANCE The succinate-linked mitochondrial pyridine nucleotide is postulated to be separated from the remainder of the DPN by a compartment—possibly the cristae and matrices of the mitochondria are involved. This com- partmentation implies that electrons donated by a DPN-linked substrate cannot readily enter the succinate-linked pyridine-nucleotide pool while those from succinate can. Succinate -^ Fumarate. Malate -^ 3XP+3I 3ATP+ 3X dbc Fig. 12. Schematic diagram of electron-transfer pathways in respiratory c

RMRD3HPY–. Cytology. Cytology. been observed in mitochondria of the grasshopper kidney, in certain protozoa, and in hepatic cells (Figure 3-7). Even more complex arrange- ments have been described. ^ â o-fvr,. Figure 3-7. Electron Micrograph Showing Portion of Two Mitochondria in the Cortex of Paramecium multimicronucieatum. The envelope delimiting the mitochondrion is double, consisting of an outer (omm) and inner (imm) mitochondrial membrane. Structures corresponding to the cristae mito- chondriales in mammahan somatic cells are present as extensive finger-like projections or microvilU (mv) protrudin

RMRD3HPM–. Cytology. Cytology. derived spermatocytes they are more nearly spherical, their cristae are irregularly oriented, and the average number per cell is greater. The mitochondria in spermatids appear empty owing to the fact that the cristae are folded over and flattened against the inner limiting mem- brane. In mature spermatids of the opossum, the large spherical mito- chondria are filled with many layers of concentrically arranged cristae (Figure 3-8). During the same developmental sequence, not only does. Figure 3-8. Electron Micrograph of Mitochondria trom Opossum Sper- matid, showing the co

. The chordates. Chordata. Integrative Systems 211 auditory mechanisms which serve for more direct and effective trans- mission of external vibrations into the internal ear. The equilibratory mechanism of the ear shows little change in structure throughout the. Fig. 182. Diagram of the membranous labyrinth of a vertebrate, the sensory areas dotted, (ac) Anterior semicircular canal; (ap) ampullae; (ca) cristae acus- ticae in the ampullae; (de) ductus endo- lymphaticus; (he) horizontal (external) canal; (/) lagena; (ml, mn, ms, mil) respec- tively macula lagenae, m. neglecta, m. sacculi, and m. Stock Photo

RMRJ4MFJ–. The chordates. Chordata. Integrative Systems 211 auditory mechanisms which serve for more direct and effective trans- mission of external vibrations into the internal ear. The equilibratory mechanism of the ear shows little change in structure throughout the. Fig. 182. Diagram of the membranous labyrinth of a vertebrate, the sensory areas dotted, (ac) Anterior semicircular canal; (ap) ampullae; (ca) cristae acus- ticae in the ampullae; (de) ductus endo- lymphaticus; (he) horizontal (external) canal; (/) lagena; (ml, mn, ms, mil) respec- tively macula lagenae, m. neglecta, m. sacculi, and m.

. Comparative anatomy. Anatomy, Comparative. HISTOLOGY 137 97C). Epithelial sensory cells may be grouped in small clusters forming specialized sense organs. Such are the sense organs of the lateral-Hne system of fishes and amphibians (Fig. 98) and the "taste buds" in the mouth of higher vertebrates (Fig. 99). The essential layer of the internal ear is derived from embryonic ectoderm. This auditory epithehum produces sensory cells in localized groups which become the special sensory organs of the ear, the maculae and cristae acusticae (Fig. gjA). The organ of Corti in the spiral cochl Stock Photo

RMREFCT9–. Comparative anatomy. Anatomy, Comparative. HISTOLOGY 137 97C). Epithelial sensory cells may be grouped in small clusters forming specialized sense organs. Such are the sense organs of the lateral-Hne system of fishes and amphibians (Fig. 98) and the "taste buds" in the mouth of higher vertebrates (Fig. 99). The essential layer of the internal ear is derived from embryonic ectoderm. This auditory epithehum produces sensory cells in localized groups which become the special sensory organs of the ear, the maculae and cristae acusticae (Fig. gjA). The organ of Corti in the spiral cochl

. Cirripeden-Studien; zur Kenntnis der Biologie, Anatomie und Systematik dieser Gruppe ... Cirripedia. 300 c. A. Nir-SSON - CANTET.T. Koiiipleiticreude lifschreilmiij;,': Darwins Figuren der Opercularplatteu können hier durch deutlichere ersetzt werden. Scutimi mit scharf bervortretenden Zuwachsliuieu an der Aufieu- seite, ziemlich breit. Addiiktorkiel feblt. Articularkiel uubedeutend ber- vorstebend. Margo basalis gebogen. Tergum ebeufalls mit Zuwacbslinieu an der Aufienseite. Sporn nicbt abgesetzt. Articularkiel stark entwickelt. Cristae fiir den Museulus depressor unterbalb des Margo basali Stock Photo

RMREKC2P–. Cirripeden-Studien; zur Kenntnis der Biologie, Anatomie und Systematik dieser Gruppe ... Cirripedia. 300 c. A. Nir-SSON - CANTET.T. Koiiipleiticreude lifschreilmiij;,': Darwins Figuren der Opercularplatteu können hier durch deutlichere ersetzt werden. Scutimi mit scharf bervortretenden Zuwachsliuieu an der Aufieu- seite, ziemlich breit. Addiiktorkiel feblt. Articularkiel uubedeutend ber- vorstebend. Margo basalis gebogen. Tergum ebeufalls mit Zuwacbslinieu an der Aufienseite. Sporn nicbt abgesetzt. Articularkiel stark entwickelt. Cristae fiir den Museulus depressor unterbalb des Margo basali

. Electron microscopy; proceedings of the Stockholm Conference, September, 1956. Electron microscopy. Brown Adipose Tissue in f/ic Rai 183. b Fig. 1. Part of a normal brown fat cell. Mitochondria mostly have regular cristac some ot" which are beaded (B). Inter- cristal sections account for the appearance of such bodies as (A). Some mitochondria have vesicular internal membranes at one pole (V) and tiny vesicles are sometimes seen between the cristae (C). Lipid droplets lie freely in the cytoplasm and often interconnect. Endoplasmic reticular elements include a saccular component (S): the Stock Photo

RMRD5WC2–. Electron microscopy; proceedings of the Stockholm Conference, September, 1956. Electron microscopy. Brown Adipose Tissue in f/ic Rai 183. b Fig. 1. Part of a normal brown fat cell. Mitochondria mostly have regular cristac some ot" which are beaded (B). Inter- cristal sections account for the appearance of such bodies as (A). Some mitochondria have vesicular internal membranes at one pole (V) and tiny vesicles are sometimes seen between the cristae (C). Lipid droplets lie freely in the cytoplasm and often interconnect. Endoplasmic reticular elements include a saccular component (S): the

. The Australian zoologist. Zoology; Zoology; Zoology. WHITLEY. 415 The median ventral crista is present. Operculum without keel. In- ferior and superior cristae of trunk continuous with those of tail; median Sr-^1 TlTirTTTTTTTTTTTTTTlTTTT^) Fig. 23. Pipefish, Ichthyocampus galei. Lectotype. ones obsolescent below dorsal fin. No spines on posterior tail-rings. Standard length, 47 mm. Locality.—Freycinet's estuary, Shark's Bay, 7 to 11 metres; W. Michaelsen, Hamburg Mus., No. 11521. Since visiting Europe I have dredged in Shark's Bay, Western Australia, and obtained further specimens. Genus Fes Stock Photo

RMRJPG1Y–. The Australian zoologist. Zoology; Zoology; Zoology. WHITLEY. 415 The median ventral crista is present. Operculum without keel. In- ferior and superior cristae of trunk continuous with those of tail; median Sr-^1 TlTirTTTTTTTTTTTTTTlTTTT^) Fig. 23. Pipefish, Ichthyocampus galei. Lectotype. ones obsolescent below dorsal fin. No spines on posterior tail-rings. Standard length, 47 mm. Locality.—Freycinet's estuary, Shark's Bay, 7 to 11 metres; W. Michaelsen, Hamburg Mus., No. 11521. Since visiting Europe I have dredged in Shark's Bay, Western Australia, and obtained further specimens. Genus Fes

. Anatomische Hefte. 424 A. JÜR1SCH, niedrige Cristae, in Form und Grösse stark variierend und zwischen denselben kurze ovale Cryptae, die eine kleine Strecke schräg nach unten, ungeteilt oder in 2—3 Röhrchen ver- zweigt, verlaufen. Auch hier finden sich wohlausgesprochene Luschka sehe Gänge, welche die Muscularis perforieren. Fig. 12.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. München [etc. ] J. F. Bergmann Stock Photo

RMRN9NNJ–. Anatomische Hefte. 424 A. JÜR1SCH, niedrige Cristae, in Form und Grösse stark variierend und zwischen denselben kurze ovale Cryptae, die eine kleine Strecke schräg nach unten, ungeteilt oder in 2—3 Röhrchen ver- zweigt, verlaufen. Auch hier finden sich wohlausgesprochene Luschka sehe Gänge, welche die Muscularis perforieren. Fig. 12.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.. München [etc. ] J. F. Bergmann

. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. - ' „•• • *i£^/"« '. Figure 13. A. Binucleated mastigote with tubules, probably derived from rhizoplast transverse micro- tubules that extend subcortically (see Fig. 16). B. Mastigote with four [9(2) + 0] kinetosomes showing approach of connecting rhizoplast to the nucleus. Mitochondria (M) interpreted to be in division. A,B. Bar scale = 1.0 ^m. somes (Fig. 10B). Densely staining mitochondria with tubular cristae are often surrounded by ribosome-stud- dedendoplasmicreticulum(Fig. 10A, B, D). Large vacu- oles containing Stock Photo

RMRHN1HF–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. - ' „•• • *i£^/"« '. Figure 13. A. Binucleated mastigote with tubules, probably derived from rhizoplast transverse micro- tubules that extend subcortically (see Fig. 16). B. Mastigote with four [9(2) + 0] kinetosomes showing approach of connecting rhizoplast to the nucleus. Mitochondria (M) interpreted to be in division. A,B. Bar scale = 1.0 ^m. somes (Fig. 10B). Densely staining mitochondria with tubular cristae are often surrounded by ribosome-stud- dedendoplasmicreticulum(Fig. 10A, B, D). Large vacu- oles containing

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