34. Organ of balance and hearing
... Dynamic equilibrium: needed to maintain balance when the head or body is rotated or suddenly moved; able to detect changes in direction and rate at which movement occurs (Figure 15-15) Depends on the functioning of the cristae ampullaris, located in the ampulla of each semicircular duct Cupula ...
... Dynamic equilibrium: needed to maintain balance when the head or body is rotated or suddenly moved; able to detect changes in direction and rate at which movement occurs (Figure 15-15) Depends on the functioning of the cristae ampullaris, located in the ampulla of each semicircular duct Cupula ...
CHARLES UNIVERSITY
... and pathophysiolgy of central nervous system (CNS), with the intention of epileptiform activity in the nervous tissue. Our research was realized on rat hippocampal slices in vitro and it compares the experimental biochemical models (low-Mg2+, high-K+, Carbachol, Bicuculline and 4-Aminopyridine model ...
... and pathophysiolgy of central nervous system (CNS), with the intention of epileptiform activity in the nervous tissue. Our research was realized on rat hippocampal slices in vitro and it compares the experimental biochemical models (low-Mg2+, high-K+, Carbachol, Bicuculline and 4-Aminopyridine model ...
Papazian Lab Homepage Electrical excitability in the brain
... channels. K+ channels are tetramers with a central K+-selective pore and 4 voltage sensor domains, one per subunit. Upon membrane depolarization, the voltage sensor domains undergo conformational changes that result in pore opening. Our current goals are to identify experimental constraints that mak ...
... channels. K+ channels are tetramers with a central K+-selective pore and 4 voltage sensor domains, one per subunit. Upon membrane depolarization, the voltage sensor domains undergo conformational changes that result in pore opening. Our current goals are to identify experimental constraints that mak ...
Biological membranes - Essays in Biochemistry
... The inner and outer leaflets of bilayers differ in their lipid composition. In mammalian cells, the outer leaflet of the plasma membrane contains predominantly PC and sphingomyelin, whereas PS and PE are found on the inner leaflet. During programmed cell death (apoptosis), PS is no longer restricted ...
... The inner and outer leaflets of bilayers differ in their lipid composition. In mammalian cells, the outer leaflet of the plasma membrane contains predominantly PC and sphingomyelin, whereas PS and PE are found on the inner leaflet. During programmed cell death (apoptosis), PS is no longer restricted ...
ch_12_lecture_presentation
... An Introduction to the Nervous System • Organs of the Nervous System • Brain and spinal cord • Sensory receptors of sense organs (eyes, ears, etc.) • Nerves connect nervous system with other systems ...
... An Introduction to the Nervous System • Organs of the Nervous System • Brain and spinal cord • Sensory receptors of sense organs (eyes, ears, etc.) • Nerves connect nervous system with other systems ...
Electrical Activity of a Membrane Resting Potential
... • Voltage-Sensitive Ion Channels – Gated protein channel that opens or closes only at specific membrane voltages – Sodium (Na+) and potassium (K+) – Closed at membrane’s resting potential – Na+ channels are more sensitive than K+ channels and therefore open sooner ...
... • Voltage-Sensitive Ion Channels – Gated protein channel that opens or closes only at specific membrane voltages – Sodium (Na+) and potassium (K+) – Closed at membrane’s resting potential – Na+ channels are more sensitive than K+ channels and therefore open sooner ...
Effect of dopamine receptor stimulation on voltage
... prefrontal cortex (mPFC) neurons by dopamine. The purpose of this study was to test the effects of a D1/5-type dopamine receptor agonist (SKF 38393, 10 µM) on the membrane potential and on voltage-dependent fast-inactivating Na+ currents in mPFC pyramidal neurons obtained from adult (9-week-old) rat ...
... prefrontal cortex (mPFC) neurons by dopamine. The purpose of this study was to test the effects of a D1/5-type dopamine receptor agonist (SKF 38393, 10 µM) on the membrane potential and on voltage-dependent fast-inactivating Na+ currents in mPFC pyramidal neurons obtained from adult (9-week-old) rat ...
Calcium channel dynamics limit synaptic release in response to prosthetic... sinusoidal waveforms
... in which ganglion cells encode visual information under normal physiological conditions is thought to be complex (Field and Chichilnisky 2007, Gollisch and Meister 2010), suggesting that sophisticated stimulation methods may be needed to replicate such spiking patterns. Using electric stimulation, s ...
... in which ganglion cells encode visual information under normal physiological conditions is thought to be complex (Field and Chichilnisky 2007, Gollisch and Meister 2010), suggesting that sophisticated stimulation methods may be needed to replicate such spiking patterns. Using electric stimulation, s ...
Smooth Muscle
... • Unlike skeletal muscle fibers, smooth muscle cells do not have a specialized motor end-plate region. They have swollen regions known as varicosities . • Each varicosity contains many vesicles filled with neurotransmitter, some of which are released when an action potential passes the varicosity. • ...
... • Unlike skeletal muscle fibers, smooth muscle cells do not have a specialized motor end-plate region. They have swollen regions known as varicosities . • Each varicosity contains many vesicles filled with neurotransmitter, some of which are released when an action potential passes the varicosity. • ...
ion exchange chromatography
... It is a non-denaturing technique. It can be used at all stages and scales of purification An IEX separation can be controlled by changing pH, salt concentration and/or the ion exchange media It can serve as a concentrating step. A large volume of dilute sample can be applied to a media, and the a ...
... It is a non-denaturing technique. It can be used at all stages and scales of purification An IEX separation can be controlled by changing pH, salt concentration and/or the ion exchange media It can serve as a concentrating step. A large volume of dilute sample can be applied to a media, and the a ...
Plant Nutrition: Root Transporters on the Move
... pits by the recruitment of the heterotetrameric adaptor protein2 complex and the hexameric clathrin complex (Chen et al., 2011a; Baisa et al., 2013). Along with the formation of the clathrin cage, clathrin-coated pits mature into clathrin-coated vesicles that will be released from the plasma membran ...
... pits by the recruitment of the heterotetrameric adaptor protein2 complex and the hexameric clathrin complex (Chen et al., 2011a; Baisa et al., 2013). Along with the formation of the clathrin cage, clathrin-coated pits mature into clathrin-coated vesicles that will be released from the plasma membran ...
Lecture Notes - Pitt Honors Human Physiology
... they will open. In addition, phosphorylation of a regulatory protein, phospholamban, enhances Ca++—ATPase activity in the sarcoplasmic reticulum, so that more Ca++ is sequestered in the sarcoplasmic reticulum, and thus more Ca++ can be released during the calcium-induced calcium release. As a result ...
... they will open. In addition, phosphorylation of a regulatory protein, phospholamban, enhances Ca++—ATPase activity in the sarcoplasmic reticulum, so that more Ca++ is sequestered in the sarcoplasmic reticulum, and thus more Ca++ can be released during the calcium-induced calcium release. As a result ...
Mass spectrometry and iccd analysis of coupled and uncoupled mode in a gatling-gun like plasma source
... seven plasma jets arranged adjacent to one another, similar in shape to a Gatling machine gun, was recently developed to take advantage of the jet-to-jet coupling phenomenon and to generate atmospheric pressure cold plasmas with higher intensity and energy with respect to singular plasma jets [1]. T ...
... seven plasma jets arranged adjacent to one another, similar in shape to a Gatling machine gun, was recently developed to take advantage of the jet-to-jet coupling phenomenon and to generate atmospheric pressure cold plasmas with higher intensity and energy with respect to singular plasma jets [1]. T ...
PDF Document
... yields R2 = 0.33, p = 0.006 for difference of slope from zero (F(1, 19) = 9.447). (f) Example Champ responses to a 15 s light pulse in standard (25 mM HEPES, black trace) and weakly buffered (0.1 mM HEPES, grey trace) extracellular solution. (g) Peak inward currents in 25 and 0.1 mM HEPES for 1 s ...
... yields R2 = 0.33, p = 0.006 for difference of slope from zero (F(1, 19) = 9.447). (f) Example Champ responses to a 15 s light pulse in standard (25 mM HEPES, black trace) and weakly buffered (0.1 mM HEPES, grey trace) extracellular solution. (g) Peak inward currents in 25 and 0.1 mM HEPES for 1 s ...
PHY 112 Master Syllabus
... Imagine that this Quiz sheet of paper is placed on your desk in an Electric Field of 15 î N/C. There are three locations, A, B and C, designated below now in the field. The locations in the field are separated a distance of 4 cm, 5 cm and 5 cm as indicated in the figure. An angle of 30 is also giv ...
... Imagine that this Quiz sheet of paper is placed on your desk in an Electric Field of 15 î N/C. There are three locations, A, B and C, designated below now in the field. The locations in the field are separated a distance of 4 cm, 5 cm and 5 cm as indicated in the figure. An angle of 30 is also giv ...
PHY 114 Master Syllabus
... Imagine that this Quiz sheet of paper is placed on your desk in an Electric Field of 15 î N/C. There are three locations, A, B and C, designated below now in the field. The locations in the field are separated a distance of 4 cm, 5 cm and 5 cm as indicated in the figure. An angle of 30 is also giv ...
... Imagine that this Quiz sheet of paper is placed on your desk in an Electric Field of 15 î N/C. There are three locations, A, B and C, designated below now in the field. The locations in the field are separated a distance of 4 cm, 5 cm and 5 cm as indicated in the figure. An angle of 30 is also giv ...
Chapter 05 Membranes
... phospholipids in a bilayer. The other components of the membrane are embedded within the bilayer, which provides a flexible matrix and, at the same time, imposes a barrier to permeability. Animal cell membranes also contain cholesterol, a steroid with a polar hydroxyl group (–OH). Plant cells have o ...
... phospholipids in a bilayer. The other components of the membrane are embedded within the bilayer, which provides a flexible matrix and, at the same time, imposes a barrier to permeability. Animal cell membranes also contain cholesterol, a steroid with a polar hydroxyl group (–OH). Plant cells have o ...
Cellular mechanisms of potassium transport in plants
... downhill flux of H1; charge balance is achieved by the outward pumping of two H1 by the plasma membrane proton ATPase. In the LATS mechanism, by contrast, an electrogenic uniport of K1 is electrically balanced by the ATP-driven efflux of one H1. ...
... downhill flux of H1; charge balance is achieved by the outward pumping of two H1 by the plasma membrane proton ATPase. In the LATS mechanism, by contrast, an electrogenic uniport of K1 is electrically balanced by the ATP-driven efflux of one H1. ...
Fractionation of Membranes from Metschnikowi`a
... higher than 0-5 mM retarded lysis of the protoplasts and led to aggregation of the membranes. EDTA concentrations above 5 mn caused the viscosity ofthe lysate to increase. Optimum lysis was achieved by a 5 min incubation in a medium consisting of 0.4 nr-sorbitol, 0.2 rnla-MgCl, and 1 m - E D T A at ...
... higher than 0-5 mM retarded lysis of the protoplasts and led to aggregation of the membranes. EDTA concentrations above 5 mn caused the viscosity ofthe lysate to increase. Optimum lysis was achieved by a 5 min incubation in a medium consisting of 0.4 nr-sorbitol, 0.2 rnla-MgCl, and 1 m - E D T A at ...
Mass spectrometry - 123seminarsonly.com
... Scientists are very interested in proteomics because it gives a much better understanding of an organism than genomics. This is because of several reasons; 1. The level of transcription of a gene gives only a rough estimate of its level of expression into a protein. An mRNA produced in abundance may ...
... Scientists are very interested in proteomics because it gives a much better understanding of an organism than genomics. This is because of several reasons; 1. The level of transcription of a gene gives only a rough estimate of its level of expression into a protein. An mRNA produced in abundance may ...
Membrane potential
Membrane potential (also transmembrane potential or membrane voltage) is the difference in electric potential between the interior and the exterior of a biological cell. With respect to the exterior of the cell, typical values of membrane potential range from –40 mV to –80 mV.All animal cells are surrounded by a membrane composed of a lipid bilayer with proteins embedded in it. The membrane serves as both an insulator and a diffusion barrier to the movement of ions. Ion transporter/pump proteins actively push ions across the membrane and establish concentration gradients across the membrane, and ion channels allow ions to move across the membrane down those concentration gradients. Ion pumps and ion channels are electrically equivalent to a set of batteries and resistors inserted in the membrane, and therefore create a voltage difference between the two sides of the membrane.Virtually all eukaryotic cells (including cells from animals, plants, and fungi) maintain a non-zero transmembrane potential, usually with a negative voltage in the cell interior as compared to the cell exterior ranging from –40 mV to –80 mV. The membrane potential has two basic functions. First, it allows a cell to function as a battery, providing power to operate a variety of ""molecular devices"" embedded in the membrane. Second, in electrically excitable cells such as neurons and muscle cells, it is used for transmitting signals between different parts of a cell. Signals are generated by opening or closing of ion channels at one point in the membrane, producing a local change in the membrane potential. This change in the electric field can be quickly affected by either adjacent or more distant ion channels in the membrane. Those ion channels can then open or close as a result of the potential change, reproducing the signal.In non-excitable cells, and in excitable cells in their baseline states, the membrane potential is held at a relatively stable value, called the resting potential. For neurons, typical values of the resting potential range from –70 to –80 millivolts; that is, the interior of a cell has a negative baseline voltage of a bit less than one-tenth of a volt. The opening and closing of ion channels can induce a departure from the resting potential. This is called a depolarization if the interior voltage becomes less negative (say from –70 mV to –60 mV), or a hyperpolarization if the interior voltage becomes more negative (say from –70 mV to –80 mV). In excitable cells, a sufficiently large depolarization can evoke an action potential, in which the membrane potential changes rapidly and significantly for a short time (on the order of 1 to 100 milliseconds), often reversing its polarity. Action potentials are generated by the activation of certain voltage-gated ion channels.In neurons, the factors that influence the membrane potential are diverse. They include numerous types of ion channels, some of which are chemically gated and some of which are voltage-gated. Because voltage-gated ion channels are controlled by the membrane potential, while the membrane potential itself is influenced by these same ion channels, feedback loops that allow for complex temporal dynamics arise, including oscillations and regenerative events such as action potentials.