mylopharyngeal muscle - traducción al árabe
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mylopharyngeal muscle - traducción al árabe

TYPE OF HIGH-PERFORMANCE CAR
Muscle Cars; Muscle cars; Muscle Car; The Muscle Car Wars; American muscle cars; Muscle-car
  • 1966 & 1968 [[Pontiac GTO]]
  • AMC Rebel "The Machine"]]
  • Plymouth GTX 440]]
  • Ford Thunderbolt]]
  • Juan Manuel Fangio Museum]]

mylopharyngeal muscle      
‎ العَضَلَةُ الضِّرْسِيَّةُ البُلْعومِيَّة,الجُزْءُ الضِّرْسِيُّ البُلْعومِيُّ لِلعَضَلَةِ البُلْعُومِيَّةِ المُضَيِّقَةِ العُلْوِيَّة‎
muscular         
  • When a sarcomere contracts, the Z lines move closer together, and the I band becomes smaller. The A band stays the same width. At full contraction, the thin and thick filaments overlap.
  • (a) Some ATP is stored in a resting muscle. As contraction starts, it is used up in seconds. More ATP is generated from creatine phosphate for about 15 seconds. (b) Each glucose molecule produces two ATP and two molecules of pyruvic acid, which can be used in aerobic respiration or converted to [[lactic acid]]. If oxygen is not available, pyruvic acid is converted to lactic acid, which may contribute to [[muscle fatigue]]. This occurs during strenuous exercise when high amounts of energy are needed but oxygen cannot be sufficiently delivered to muscle. (c) Aerobic respiration is the breakdown of glucose in the presence of oxygen (O2) to produce carbon dioxide, water, and ATP. Approximately 95 percent of the ATP required for resting or moderately active muscles is provided by aerobic respiration, which takes place in mitochondria.
  • ATPase staining of a muscle cross section. Type II fibers are dark, due to the alkaline pH of the preparation. In this example, the size of the type II fibers is considerably less than the type I fibers due to denervation atrophy.
  • Types of [[pennate muscle]]. A – [[unipennate]];  B – [[bipennate]]; 
C – [[multipennate]]
  • [[Human embryo]] showing [[somite]]s labelled as ''primitive segments''.
  • polypeptide]] tail (only one tail of each pair is shown). The pairs of histones, H2A, H2B, H3 and H4, each have [[lysine]]s (K) in their tails, some of which are subject to post-translational modifications consisting, usually, of acetylations [Ac] and methylations {me}. The lysines (K) are designated with a number showing their position as, for instance, (K4), indicating lysine as the 4th amino acid from the amino (N) end of the tail in the histone protein. The particular acetylations [Ac] and methylations {Me} shown are those that occur on nucleosomes close to, or at, some DNA regions undergoing transcriptional activation of the DNA wrapped around the nucleosome.
  • Prisoner of war exhibiting muscle loss as a result of [[malnutrition]].
  • [[Jogging]] is one form of aerobic exercise.
  • Muscle types by fiber arrangement
  • Exercise-induced signaling pathways in skeletal muscle that determine specialized characteristics of slow- and fast-twitch muscle fibers
  • In [[muscular dystrophy]], the affected tissues become disorganized and the concentration of [[dystrophin]] (green) is greatly reduced.
  •  
'''Regulation of transcription in mammals.'''  An active enhancer regulatory region is enabled to interact with the promoter region of its target gene by formation of a chromosome loop. This can allow initiation of messenger RNA (mRNA) synthesis by RNA polymerase II (RNAP II) bound to the promoter at the transcription start site of the gene. The loop is stabilized by one architectural protein anchored to the enhancer and one anchored to the promoter, and these proteins are joined together to form a dimer (red zigzags). Specific regulatory transcription factors bind to DNA sequence motifs on the enhancer. General transcription factors bind to the promoter. When a transcription factor is activated by a signal (here indicated as phosphorylation shown by a small red star on a transcription factor on the enhancer) the enhancer is activated and can now activate its target promoter. The active enhancer is transcribed on each strand of DNA in opposite directions by bound RNAP IIs. Mediator (a complex consisting of about 26 proteins in an interacting structure) communicates regulatory signals from the enhancer DNA-bound transcription factors to the promoter.
  • Structure of muscle fibre showing a sarcomere under [[electron microscope]] with schematic explanation.
ONE OF THREE MAJOR MUSCLE TYPES
Skeletal muscles; Voluntary muscle; Musculo; Red skeletal muscle cell; White skeletal muscle cell; Muscle protein; Fast twitch muscle; Slow twitch muscles; Skeletal Muscle; Strongest muscle in human body; Muscle loss; Musculature; Muscle mass; Muscle, skeletal; Muscular branches; Muscle fibers, slow-twitch; Muscular diseases; Myoblasts, skeletal; Control of Muscles; Voluntary muscles; Characteristics of muscle; Muscular fiber; Skeletal muscular; Lean muscle; Muscles; Slow-twitch muscle; Panniculus carnosis; Neoplasms, muscle tissue; Excitation-contraction; Muscle proteins; Muscle strength; Muscle; Myoid cells; Branchialis; Connective tissue in skeletal muscle; Connective tissue of skeletal muscle; Muscle types; Convergent muscles; Human muscle; Fast-twitching; Textus muscularis striatus skeletalis; Skeletal muscle cells; Muscular; Gross anatomy of muscles; Muscular force; Myo-; Skeletal striated muscles; Fast twitch fibre; Slow twitch fibre; Slow twitch fiber; Fast twitch fiber; Skeletal striated muscle; Muscular fibers; Myonuclei; Evolution of muscles; Skeletal muscle fibers; Myotendinous junction; Muscle group; Groups of muscles; Msucle; Musculotendinous junction; Skeletal muscle cell
صِفَة : عَضَلِيّ . قويّ
MUSCULAR         
  • When a sarcomere contracts, the Z lines move closer together, and the I band becomes smaller. The A band stays the same width. At full contraction, the thin and thick filaments overlap.
  • (a) Some ATP is stored in a resting muscle. As contraction starts, it is used up in seconds. More ATP is generated from creatine phosphate for about 15 seconds. (b) Each glucose molecule produces two ATP and two molecules of pyruvic acid, which can be used in aerobic respiration or converted to [[lactic acid]]. If oxygen is not available, pyruvic acid is converted to lactic acid, which may contribute to [[muscle fatigue]]. This occurs during strenuous exercise when high amounts of energy are needed but oxygen cannot be sufficiently delivered to muscle. (c) Aerobic respiration is the breakdown of glucose in the presence of oxygen (O2) to produce carbon dioxide, water, and ATP. Approximately 95 percent of the ATP required for resting or moderately active muscles is provided by aerobic respiration, which takes place in mitochondria.
  • ATPase staining of a muscle cross section. Type II fibers are dark, due to the alkaline pH of the preparation. In this example, the size of the type II fibers is considerably less than the type I fibers due to denervation atrophy.
  • Types of [[pennate muscle]]. A – [[unipennate]];  B – [[bipennate]]; 
C – [[multipennate]]
  • [[Human embryo]] showing [[somite]]s labelled as ''primitive segments''.
  • polypeptide]] tail (only one tail of each pair is shown). The pairs of histones, H2A, H2B, H3 and H4, each have [[lysine]]s (K) in their tails, some of which are subject to post-translational modifications consisting, usually, of acetylations [Ac] and methylations {me}. The lysines (K) are designated with a number showing their position as, for instance, (K4), indicating lysine as the 4th amino acid from the amino (N) end of the tail in the histone protein. The particular acetylations [Ac] and methylations {Me} shown are those that occur on nucleosomes close to, or at, some DNA regions undergoing transcriptional activation of the DNA wrapped around the nucleosome.
  • Prisoner of war exhibiting muscle loss as a result of [[malnutrition]].
  • [[Jogging]] is one form of aerobic exercise.
  • Muscle types by fiber arrangement
  • Exercise-induced signaling pathways in skeletal muscle that determine specialized characteristics of slow- and fast-twitch muscle fibers
  • In [[muscular dystrophy]], the affected tissues become disorganized and the concentration of [[dystrophin]] (green) is greatly reduced.
  •  
'''Regulation of transcription in mammals.'''  An active enhancer regulatory region is enabled to interact with the promoter region of its target gene by formation of a chromosome loop. This can allow initiation of messenger RNA (mRNA) synthesis by RNA polymerase II (RNAP II) bound to the promoter at the transcription start site of the gene. The loop is stabilized by one architectural protein anchored to the enhancer and one anchored to the promoter, and these proteins are joined together to form a dimer (red zigzags). Specific regulatory transcription factors bind to DNA sequence motifs on the enhancer. General transcription factors bind to the promoter. When a transcription factor is activated by a signal (here indicated as phosphorylation shown by a small red star on a transcription factor on the enhancer) the enhancer is activated and can now activate its target promoter. The active enhancer is transcribed on each strand of DNA in opposite directions by bound RNAP IIs. Mediator (a complex consisting of about 26 proteins in an interacting structure) communicates regulatory signals from the enhancer DNA-bound transcription factors to the promoter.
  • Structure of muscle fibre showing a sarcomere under [[electron microscope]] with schematic explanation.
ONE OF THREE MAJOR MUSCLE TYPES
Skeletal muscles; Voluntary muscle; Musculo; Red skeletal muscle cell; White skeletal muscle cell; Muscle protein; Fast twitch muscle; Slow twitch muscles; Skeletal Muscle; Strongest muscle in human body; Muscle loss; Musculature; Muscle mass; Muscle, skeletal; Muscular branches; Muscle fibers, slow-twitch; Muscular diseases; Myoblasts, skeletal; Control of Muscles; Voluntary muscles; Characteristics of muscle; Muscular fiber; Skeletal muscular; Lean muscle; Muscles; Slow-twitch muscle; Panniculus carnosis; Neoplasms, muscle tissue; Excitation-contraction; Muscle proteins; Muscle strength; Muscle; Myoid cells; Branchialis; Connective tissue in skeletal muscle; Connective tissue of skeletal muscle; Muscle types; Convergent muscles; Human muscle; Fast-twitching; Textus muscularis striatus skeletalis; Skeletal muscle cells; Muscular; Gross anatomy of muscles; Muscular force; Myo-; Skeletal striated muscles; Fast twitch fibre; Slow twitch fibre; Slow twitch fiber; Fast twitch fiber; Skeletal striated muscle; Muscular fibers; Myonuclei; Evolution of muscles; Skeletal muscle fibers; Myotendinous junction; Muscle group; Groups of muscles; Msucle; Musculotendinous junction; Skeletal muscle cell

الصفة

عَضِل ; مَفْتُولُ السَّاعِدِ أو العَضَل

Definición

smooth muscle
¦ noun Physiology muscle tissue in which the contractile fibrils are not highly ordered, occurring in the gut and other internal organs and not under voluntary control. Often contrasted with striated muscle.

Wikipedia

Muscle car

Muscle car is a description according to Merriam-Webster Dictionary that came to use in 1966 for "a group of American-made two-door sports coupes with powerful engines designed for high-performance driving." The Britannica Dictionary describes these as "an American-made two-door sports car with a powerful engine."

Although the term was unknown for another fifteen-plus years, General Motors is credited by some as introducing the first "intentional" muscle car in 1949, when it put its 303-cubic-inch (5 L) Rocket V8 from its full-sized luxury car 98 model into the considerably smaller and lighter Oldsmobile 88. The competition between American manufacturers started when Chrysler installed the 331 cu in (5.4 L) Chrysler Hemi engine in the mid-range Chrysler Saratoga in 1951 that was normally installed in the full-sized luxury sedan Chrysler New Yorker. In 1952 Ford's luxury brand Lincoln introduced the 317 cu in (5.2 L) Lincoln Y-Block V8 and the rivalry began, where the Lincoln Capri was entered in the Pan American Road Race in both 1952 and 1953, and taking first and second place in 1954. This was followed by both the Oldsmobile 88 and Chrysler Saratoga being raced in stock form at NASCAR races across the country.

By some accounts, the "muscle car" term proper was originally applied to mid-1960s and early 1970s special editions of mass-production cars which were designed for drag racing, though it shortly entered the general vocabulary through car magazines and automobile marketing and became used generically for "performance"-oriented street cars.

By some period definitions and perceptions, the term muscle car came to connote high performance at budget prices, where extremely powerful engines were put into relatively bare-bones intermediate cars at extremely affordable prices. This wave, exemplified by the 1968 Plymouth Road Runner and companion Dodge Super Bee, were meant to undercut more expensive, more stylish, and better-appointed cars by General Motors and Ford that had come to define the market, such as the Pontiac GTO (1964), 396 Chevrolet Chevelle (1965), 400 Buick Gran Sport (1965), 400 Oldsmobile 442 (1965), as well as 427 Mercury Comet Cyclone (1964) and 390 Mercury Cyclone (1966). The Dodge and Plymouth cars also continued the performance tradition started at Chrysler with the full-sized Chrysler 300L when production ended in 1965.

By some definitions – including those used by Car and Driver and Road and Track magazines cited below, pony cars such as the Ford Mustang, Chevrolet Camaro and the Plymouth Barracuda and their luxury companions Mercury Cougar, Pontiac Firebird and the Dodge Challenger in that large, influential, and lucrative 1960s-70s niche, could also qualify as "muscle cars" if outfitted with suitable high-performance equipment.