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plantar interosseous muscle of pes
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UBERON_0006502 |
[Any of three muscles with origin from the third, fourth, and fifth metatarsal bones, with insertion to the proximal phalanx of the same toes, with nerve supply from the lateral plantar nerve, and whose action adducts the three lateral toes.] |
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lytic vacuole
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GO_0000323 |
[A vacuole that is maintained at an acidic pH and which contains degradative enzymes, including a wide variety of acid hydrolases.] |
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vacuole
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GO_0005773 |
[A closed structure, found only in eukaryotic cells, that is completely surrounded by unit membrane and contains liquid material. Cells contain one or several vacuoles, that may have different functions from each other. Vacuoles have a diverse array of functions. They can act as a storage organelle for nutrients or waste products, as a degradative compartment, as a cost-effective way of increasing cell size, and as a homeostatic regulator controlling both turgor pressure and pH of the cytosol.] |
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detection of electrical stimulus involved in regulation of muscle adaptation
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GO_0014879 |
[The series of events by which an electrical stimulus is received and converted into a molecular signal. This occurs as part of the regulation of muscle adaptation.] |
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detection of electrical stimulus
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GO_0050981 |
[The series of events by which an electrical stimulus is received and converted into a molecular signal.] |
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striated muscle adaptation
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GO_0014888 |
[Any process in which striated muscle adapts, with consequent modifications to structural and/or functional phenotypes, in response to a stimulus. Stimuli include contractile activity, loading conditions, substrate supply, and environmental factors. These adaptive events occur in both muscle fibers and associated structures (motoneurons and capillaries), and they involve alterations in regulatory mechanisms, contractile properties and metabolic capacities.] |
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muscle adaptation
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GO_0043500 |
[A process in which muscle adapts, with consequent modifications to structural and/or functional phenotypes, in response to a stimulus. Stimuli include contractile activity, loading conditions, substrate supply, and environmental factors. These adaptive events occur in both muscle fibers and associated structures (motoneurons and capillaries), and they involve alterations in regulatory mechanisms, contractile properties and metabolic capacities.] |
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cardiac muscle adaptation
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GO_0014887 |
[The process in which cardiac muscle adapts, with consequent modifications to structural and/or functional phenotypes, in response to a stimulus. Stimuli include contractile activity, loading conditions, substrate supply, and environmental factors.] |
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dorsal pallidum
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UBERON_0006516 |
[The predominant portion of the globus pallidus in the striatopallidal system, which is defined by connectivity and neurochemical staining. The dorsal pallidum is distinguished from the ventral pallidum by a boundary that is partially defined by the anterior commissure. The remainder of the boundary is indistinct in sections stained for Nissl substance ( Heimer-1995 ).] |
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kidney calyx
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UBERON_0006517 |
[Recesses of the kidney pelvis which divides into two wide, cup-shaped major renal calices, with each major calix subdivided into 7 to 14 minor calices. Urine empties into a minor calix from collecting tubules, then passes through the major calix, renal pelvis, and ureter to enter the urinary bladder. (From Moore, Clinically Oriented Anatomy, 3d ed, p211).] |
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organellar ribosome
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GO_0000313 |
[A ribosome contained within a subcellular membrane-bounded organelle.] |
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limb muscle
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UBERON_0003661 |
[Any muscle organ that is part of a limb [Automatically generated definition].] |
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epithelial cell of urethra
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CL_1000296 |
[An epithelial cell that is part of the urethra.] |
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urethra cell
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CL_1001320 |
[Any cell that is part of some urethra.] |
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mesothelial cell of dura mater
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CL_1000298 |
[A mesothelial cell that is part of the dura mater.] |
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striated muscle hypertrophy
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GO_0014897 |
[The enlargement or overgrowth of all or part of an organ due to an increase in size of muscle cells without cell division. In the case of striated muscle, this happens due to the additional synthesis of sarcomeric proteins and assembly of myofibrils.] |
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muscle hypertrophy
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GO_0014896 |
[The muscle system process that results in enlargement or overgrowth of all or part of a muscle organ due to an increase in the size of its muscle cells. Physiological hypertrophy is a normal process during development (it stops in cardiac muscle after adolescence) and can also be brought on in response to demand. In athletes cardiac and skeletal muscles undergo hypertrophy stimulated by increasing muscle activity on exercise. Smooth muscle cells in the uterus undergo hypertrophy during pregnancy.] |
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smooth muscle hypertrophy
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GO_0014895 |
[The enlargement or overgrowth of all or part of an organ due to an increase in size of its smooth muscle cells without cell division. Physiological hypertrophy is a normal process during development, and can also occur in mature structures on demand. In the uterus, smooth muscle cells undergo hypertrophy during pregnancy.] |
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smooth muscle adaptation
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GO_0014805 |
[Any process in which smooth muscle adapts, with consequent modifications to structural and/or functional phenotypes, in response to a stimulus. Stimuli include contractile activity, loading conditions, substrate supply, and environmental factors. These adaptive events occur in both muscle fibers and associated structures (motoneurons and capillaries), and they involve alterations in regulatory mechanisms, contractile properties and metabolic capacities.] |
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muscle system process
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GO_0003012 |
[An organ system process carried out at the level of a muscle. Muscle tissue is composed of contractile cells or fibers.] |
