Synaptic in a sentence

(1) Enhance the motoneuron's synaptic connections.

(2) Weaken the motoneuron's synaptic transmission.

(3) The neuropile is a site of synaptic plasticity.

(4) Strengthen the motoneuron's synaptic transmission.

(5) Dendrites are the primary site for synaptic input.

(6) Synaptic transmission is a rapid and precise process.

(7) The neuromodulator can influence synaptic plasticity.

(8) The postsynaptic cell can undergo synaptic plasticity.

(9) Synaptic transmission can be excitatory or inhibitory.

(10) Neurotransmitters are released into the synaptic cleft.

Synaptic sentence

(11) The synaptic cleft is the small gap between two neurons.

(12) Microglia can modulate synaptic plasticity in the brain.

(13) Macroglia play a role in modulating synaptic plasticity.

(14) Astrocytic signaling is involved in synaptic plasticity.

(15) The presence of asynapses can affect synaptic plasticity.

(16) Synaptic transmission can be modulated by various factors.

(17) Synapsis is a key mechanism underlying synaptic plasticity.

(18) Presynaptic facilitation can enhance synaptic transmission.

(19) The synaptic vesicle undergoes exocytosis upon stimulation.

(20) Kephalin is involved in the process of synaptic plasticity.

Synaptic make sentence

(21) Synaptic cleft is the gap between two neurons at a synapse.

(22) Neurotransmitters play a crucial role in synaptic signaling.

(23) Neuropeptide signaling is important for synaptic plasticity.

(24) The cyton is involved in the process of synaptic plasticity.

(25) The synaptic vesicle recycles its membrane after exocytosis.

(26) The neurotransmitter translocates across the synaptic cleft.

(27) Neural cell adhesion molecules mediate synaptic connections.

(28) Synaptic transmission can be either excitatory or inhibitory.

(29) Hyperpolarize the dendrites to inhibit synaptic transmission.

(30) The endplate region is densely packed with synaptic vesicles.

Sentence of synaptic

(31) Synaptic vesicles are found in the axon terminals of neurons.

(32) The synaptosomal fraction was enriched with synaptic vesicles.

(33) The synaptic vesicle is a target for various drugs and toxins.

(34) ATPase is involved in the regulation of synaptic transmission.

(35) Synaptic vesicles are small sacs that store neurotransmitters.

(36) Synaptic vesicles can be visualized using electron microscopy.

(37) The vesicle participated in the formation of synaptic vesicles.

(38) Synaptic connections can be altered by experience and learning.

(39) Serotonergic neurons release serotonin into the synaptic cleft.

(40) Synaptic plasticity is thought to underlie learning and memory.

Synaptic meaningful sentence

(41) The synaptic vesicle is a small organelle found in nerve cells.

(42) Clathrin is a key player in the formation of synaptic vesicles.

(43) ATPase is a key player in the process of synaptic transmission.

(44) The axolemmas of neurons are involved in synaptic transmission.

(45) The axolemma is involved in the process of synaptic plasticity.

(46) Synaptosomal proteins play a key role in synaptic transmission.

(47) Glutamate is a key player in the process of synaptic plasticity.

(48) The synaptic vesicle is recycled after neurotransmitter release.

(49) Dendrons are essential for the process of synaptic transmission.

(50) Synaptosomes are involved in the process of synaptic plasticity.

Synaptic sentence examples

(51) Synaptic pruning helps refine neural circuits during development.

(52) Hyperpolarize the synaptic cleft to reduce the spread of signals.

(53) Serotoninergic neurons release serotonin into the synaptic cleft.

(54) Glial cells are involved in synaptic transmission and plasticity.

(55) Synaptic strength can be enhanced through long-term potentiation.

(56) Synaptic pruning helps eliminate unnecessary or weak connections.

(57) The prion protein is thought to play a role in synaptic function.

(58) The synaptic vesicle is a key component of the synaptic terminal.

(59) The end-plate of the neuron was responsible for synaptic pruning.

(60) The axolemma is involved in the process of synaptic transmission.

Sentence with synaptic

(61) Synaptosomal preparations were used to study synaptic plasticity.

(62) Dendrites are essential for the process of synaptic transmission.

(63) The action potential is a key mechanism for synaptic transmission.

(64) Glutamate is a key player in the process of synaptic transmission.

(65) Synaptic transmission can be disrupted by certain drugs or toxins.

(66) Neurotransmitters play a role in facilitating synaptic plasticity.

(67) The synaptic vesicle undergoes exocytosis to release its contents.

(68) Kephalin is essential for the maintenance of synaptic connections.

(69) The vesicle played a role in the formation of synaptic connections.

(70) Synaptic connections can be affected by neurodegenerative diseases.

Use synaptic in a sentence

(71) Presynaptic inhibition can prevent excessive synaptic transmission.

(72) Synaptic pruning is a process that helps refine neural connections.

(73) Synaptic cleft is the small gap between two neurons at the synapse.

(74) Astrocytes can release molecules that modulate synaptic plasticity.

(75) The synaptic vesicle plays a crucial role in synaptic transmission.

(76) Synaptic transmission can be disrupted by certain drugs or diseases.

(77) Synaptic transmission can be enhanced or inhibited by certain drugs.

(78) Synaptic plasticity is a key mechanism underlying brain development.

(79) Microglia are involved in synaptic pruning during brain development.

(80) The postsynaptic neuron can have different types of synaptic clefts.

Sentence using synaptic

(81) The Golgi complex is involved in the formation of synaptic vesicles.

(82) Synaptic depression can occur when synapses become weaker over time.

(83) Synaptic fatigue can result from excessive neurotransmitter release.

(84) The synaptic vesicle plays a crucial role in neuronal communication.

(85) The synaptic vesicle is a key component of the presynaptic terminal.

(86) Learning new skills can facilitate synaptic plasticity in the brain.

(87) The synaptic vesicle is a storage compartment for neurotransmitters.

(88) The end-plate of the neuron was responsible for synaptic plasticity.

(89) Athrocytes are important for the maintenance of synaptic plasticity.

(90) Certain drugs can facilitate synaptic plasticity and improve memory.

Synaptic example sentence

(91) Neurotransmitter release plays a crucial role in synaptic plasticity.

(92) The axolemma is a key player in the process of synaptic transmission.

(93) Synaptic plasticity is the ability of synapses to change in strength.

(94) The contents of synaptic vesicles can be altered by drugs or disease.

(95) The dimeric neurotransmitter receptor mediated synaptic transmission.

(96) Synaptic connections can be strengthened through repeated stimulation.

(97) The postsynaptic neuron can have different types of synaptic vesicles.

(98) The postsynaptic neuron can have different types of synaptic proteins.

(99) Presynaptic terminals can undergo synaptic pruning during development.

(100) The dendrite's structure undergoes changes during synaptic plasticity.

Sentence with word synaptic

(101) Synaptic delay is the time it takes for a signal to cross the synapse.

(102) Neurites can undergo arborization to increase their synaptic contacts.

(103) The synaptic vesicle is a subject of intense research in neuroscience.

(104) Neurotrophic factors are involved in facilitating synaptic plasticity.

(105) Neurotransmitters can be broken down by enzymes in the synaptic cleft.

(106) The axonal transport disruption led to impaired synaptic transmission.

(107) The contents of the synaptic vesicle are released upon depolarization.

(108) Axoplasms play a crucial role in the process of synaptic transmission.

(109) Synaptic vesicles play a key role in synaptic plasticity and learning.

(110) Synaptic fatigue can occur when neurotransmitter supplies are depleted.

Sentence of synaptic

(111) Synaptic transmission is a fundamental process in neural communication.

(112) Synaptic plasticity allows the brain to adapt to changing environments.

(113) Synaptosomal preparations were used to investigate synaptic plasticity.

(114) Neurotrophic factors can modulate synaptic transmission and plasticity.

(115) The neuropil is rich in proteins that facilitate synaptic transmission.

(116) Synaptic integration refers to the summation of signals at the synapse.

(117) The synaptic vesicle is essential for synaptic plasticity and learning.

(118) Astrocytes can remove excess neurotransmitters from the synaptic cleft.

(119) Neurofeedback training has been used to facilitate synaptic plasticity.

(120) Dynein is responsible for the movement of synaptic vesicles in neurons.

Synaptic used in a sentence

(121) Neuroglia can play a role in synaptic pruning during brain development.

(122) The end-plate of the nerve cell was crucial for synaptic communication.

(123) The action-potential is a necessary precursor to synaptic transmission.

(124) Exercise has been shown to facilitate synaptic plasticity in the brain.

(125) Synaptic connections can be strengthened through repetitive stimulation.

(126) Neuronal firing patterns can be altered by changes in synaptic strength.

(127) The isolation of synaptosomes is crucial for studying synaptic function.

(128) The synaptosomal membrane is crucial for maintaining synaptic integrity.

(129) Postganglionic fibers release neurotransmitters into the synaptic cleft.

(130) Synaptic vesicles store neurotransmitters before release at the synapse.

Synaptic sentence in English

(131) Synaptic plasticity allows the brain to adapt and learn throughout life.

(132) The release of neurotransmitters is facilitated by the synaptic vesicle.

(133) The synaptic vesicle contains a high concentration of neurotransmitters.

(134) The synaptic vesicle is involved in the regulation of synaptic strength.

(135) Neurotransmitter release can be altered by changes in synaptic strength.

(136) Research has shown that macroglia are involved in synaptic transmission.

(137) The brain's ability to facilitate synaptic plasticity declines with age.

(138) The synaptic vesicle releases neurotransmitters into the synaptic cleft.

(139) The synaptic vesicle is filled with neurotransmitters ready for release.

(140) Athrocytes are also involved in the regulation of synaptic transmission.

(141) Synaptic pruning is a developmental process that refines neural circuits.

(142) Synaptic plasticity is thought to underlie learning and memory processes.

(143) The postsynaptic neuron can have different types of synaptic connections.

(144) The term asynapses refers to a lack of synaptic connections in the brain.

(145) Environmental enrichment can facilitate synaptic plasticity in the brain.

(146) Engrams are thought to be formed through changes in synaptic connections.

(147) Microgliacytes are involved in synaptic pruning during brain development.

(148) Antidromic firing patterns can be altered by changes in synaptic strength.

(149) Antidromic signals can be amplified or attenuated by synaptic connections.

(150) Synaptic dysfunction has been implicated in various psychiatric disorders.

(151) Synaptic plasticity refers to the ability of synapses to change and adapt.

(152) Synaptic integration occurs when multiple inputs are combined in a neuron.

(153) Synaptosomes can be used as a model system to study synaptic transmission.

(154) Engrams are believed to be formed through changes in synaptic connections.

(155) The presynaptic neuron releases neurotransmitters into the synaptic cleft.

(156) Presynaptic inhibition can modulate the strength of synaptic transmission.

(157) Synaptic transmission can be modulated by changes in ion channel activity.

(158) The contents of the synaptic vesicle are released into the synaptic cleft.

(159) The synaptic vesicle is highly dynamic and constantly undergoes recycling.

(160) Astrocyte calcium signaling is involved in regulating synaptic plasticity.

(161) The synaptic vesicle is a small membrane-bound organelle found in neurons.

(162) The synaptic vesicle is involved in the regulation of synaptic plasticity.

(163) The presynaptic neuron can modulate the strength of synaptic transmission.

(164) Synaptic vesicles are recycled after they release their neurotransmitters.

(165) Synaptic transmission is crucial for the functioning of the nervous system.

(166) The study of neurogliacytes has revealed their role in synaptic plasticity.

(167) Synaptic dysfunction has been implicated in various neurological disorders.

(168) The synaptic vesicle is formed through a process called vesicle biogenesis.

(169) The release of a neuromodulator can lead to changes in synaptic plasticity.

(170) Gangliosides can enhance synaptic plasticity if incorporated into the diet.

(171) The argyrophilic fibers in the brain are involved in synaptic transmission.

(172) Astrocytes are involved in regulating synaptic transmission and plasticity.

(173) Depolarization is a necessary step in the process of synaptic transmission.

(174) The argyrophilic stain allows for the visualization of synaptic connections.

(175) The dendrite's synaptic connections allow for communication between neurons.

(176) The reuptake of glutamate is important for synaptic plasticity and learning.

(177) Music therapy has been shown to facilitate synaptic plasticity in the brain.

(178) The synaptic vesicle docks at the presynaptic membrane before fusion occurs.

(179) Synaptic delay is the time it takes for a signal to travel across a synapse.

(180) Acetylcholinesterase is involved in the termination of synaptic transmission.

(181) Phosphatidylethanolamine is important for the formation of synaptic vesicles.

(182) The electrotonic properties of a neuron can be influenced by synaptic inputs.

(183) The synaptic vesicle is regulated by various proteins and signaling pathways.

(184) The idiotype of a neurotransmitter receptor can affect synaptic transmission.

(185) Certain drugs have been found to facilitate synaptic plasticity in the brain.

(186) The re-uptake of glutamate is important for synaptic plasticity and learning.

(187) The receptor was expressed in neurons, and it mediated synaptic transmission.

(188) Synaptic pruning is the process by which unnecessary synapses are eliminated.

(189) Synaptosomes are often used as a model system to study synaptic transmission.

(190) Infolding of the synaptic membrane is necessary for neurotransmitter release.

(191) Synaptic connections can be strengthened or weakened based on neural activity.

(192) The synaptic connection between neurons allows for communication in the brain.

(193) Synaptic vesicles store and release neurotransmitters into the synaptic cleft.

(194) Astrocytes have been shown to play a role in synaptic plasticity and learning.

(195) Synaptosomal proteins were found to be involved in synaptic vesicle recycling.

(196) The dendrite's role in synaptic plasticity contributes to learning and memory.

(197) The synaptic vesicle contains proteins involved in neurotransmitter packaging.

(198) Certain neurotransmitters play a key role in modulating synaptic transmission.

(199) The synaptic vesicle contains neurotransmitters such as dopamine or serotonin.

(200) The synaptic protein was ubiquitinated by the neuron to regulate its turnover.

(201) Sleep is essential to facilitate synaptic plasticity and consolidate memories.

(202) The release of synaptic vesicles is crucial for communication between neurons.

(203) The isolation of synaptosomes is a crucial step in studying synaptic function.

(204) Synaptic plasticity refers to the ability of synapses to change their strength.

(205) Synaptosomes are enriched in proteins that are essential for synaptic function.

(206) Researchers examined the synaptic transmission using synaptosomal preparations.

(207) Researchers examined the synaptic connectivity using synaptosomal preparations.

(208) The binding of calcium to the NMDA receptor is involved in synaptic plasticity.

(209) The synaptic vesicle is replenished with neurotransmitters through endocytosis.

(210) Sherrington's work laid the foundation for understanding synaptic transmission.

(211) Neuroplasticity exercises can help facilitate synaptic plasticity in the brain.

(212) Oligodendrocytes play a role in synaptic plasticity and neuronal communication.

(213) The axonal loss was accompanied by synaptic dysfunction in the affected region.

(214) The synaptic vesicle is loaded with neurotransmitters by specific transporters.

(215) Presynaptically, the neuron releases neurotransmitters into the synaptic cleft.

(216) The number of synaptic vesicles in a neuron can vary depending on its function.

(217) Synaptic transmission can be modulated by drugs and neurotransmitter imbalances.

(218) The postsynaptic neuron can have different types of synaptic adhesion molecules.

(219) The postsynaptic neuron can have different types of synaptic signaling pathways.

(220) Synaptic connections can be strengthened or weakened based on activity patterns.

(221) Dysfunction in the neurofibril can lead to disruptions in synaptic transmission.

(222) The synaptic vesicle is involved in the transmission of signals between neurons.

(223) The clathrin-coated vesicles are involved in the recycling of synaptic vesicles.

(224) Neuroplasticity refers to the brain's ability to facilitate synaptic plasticity.

(225) Brain injuries can impair the brain's ability to facilitate synaptic plasticity.

(226) Chronic stress can hinder the brain's ability to facilitate synaptic plasticity.

(227) Neuroglial cells play a role in modulating synaptic transmission and plasticity.

(228) Excitatory synapses can be strengthened or weakened through synaptic plasticity.

(229) The neuromechanism of learning and memory involves changes in synaptic strength.

(230) The synaptic vesicle is responsible for storing and releasing neurotransmitters.

(231) Polysynaptic pathways can be affected by drugs that alter synaptic transmission.

(232) Synaptic connections can be strengthened or weakened through synaptic plasticity.

(233) The translocation of the protein is crucial for synaptic transmission in neurons.

(234) Presynaptic plasticity refers to changes in the strength of synaptic connections.

(235) Synaptic vesicle exocytosis is the release of neurotransmitters into the synapse.

(236) The interaction between neurons and neuroglia is vital for synaptic transmission.

(237) The hyperpolarized state of the cell is crucial for proper synaptic transmission.

(238) Hyperpolarized cells are less likely to generate spontaneous synaptic potentials.

(239) Certain drugs can modulate synaptic transmission by targeting specific receptors.

(240) The synaptic vesicle is crucial for the proper functioning of the nervous system.

(241) The size of synaptic vesicles can affect the strength of the synaptic connection.

(242) The depolarization of a neuron's membrane is a key event in synaptic transmission.

(243) Synaptic transmission is a highly coordinated process involving multiple proteins.

(244) The postsynaptic neuron can have different types of synaptic scaffolding proteins.

(245) Synaptosomes can be used to investigate the effects of drugs on synaptic function.

(246) Dysfunction in the ability to modulate synaptic transmission can lead to seizures.

(247) The role of neuroglial cells in synaptic plasticity is an active area of research.

(248) ATPase is involved in the transport of neurotransmitters across synaptic vesicles.

(249) The neuromechanism of learning involves the strengthening of synaptic connections.

(250) The recycling of synaptic vesicles is essential for maintaining synaptic function.

(251) The activity of apyrases is important for the regulation of synaptic transmission.

(252) Synaptic transmission is essential for the transfer of information between neurons.

(253) Synaptic pruning is a process that eliminates unnecessary connections in the brain.

(254) Synaptic delay refers to the time it takes for a signal to travel across a synapse.

(255) The dysfunction of microglia has been associated with impaired synaptic plasticity.

(256) The postsynaptic neuron can have different types of synaptic plasticity mechanisms.

(257) Synaptic transmission is a highly coordinated process involving multiple molecules.

(258) The synaptic vesicle is transported along microtubules to the presynaptic terminal.

(259) Sleep is important for facilitating synaptic plasticity and consolidating memories.

(260) Anterograde synaptic transmission is crucial for the communication between neurons.

(261) The synaptic vesicle is a crucial component of the synaptic transmission machinery.

(262) The synaptic vesicle is released from the presynaptic terminal upon calcium influx.

(263) Synaptic plasticity allows for learning and the formation of new neural connections.

(264) The synaptic vesicle is a complex structure composed of lipid bilayers and proteins.

(265) The synaptic vesicle is capable of storing and releasing multiple neurotransmitters.

(266) The synaptic vesicle is a critical component of the synaptic transmission machinery.

(267) Learning and memory formation rely on the ability to modulate synaptic transmission.

(268) The synaptic vesicle is tightly regulated to ensure proper neurotransmitter release.

(269) The synaptic vesicle is recycled through endocytosis after neurotransmitter release.

(270) The study found that exercise can modulate synaptic transmission in the hippocampus.

(271) The axoplasmic transport of neurotransmitters is crucial for synaptic communication.

(272) The formation of synaptic vesicles is a complex process involving multiple proteins.

(273) The tritiated neurotransmitter was used to study synaptic transmission in the brain.

(274) The strength of a synaptic connection can be modified through long-term potentiation.

(275) Sensitisation can be a result of altered neural connectivity and synaptic plasticity.

(276) The quantal properties of synaptic plasticity underlie learning and memory processes.

(277) Synaptic vesicle recycling is an important process for maintaining synaptic function.

(278) The neurofibril is involved in the formation and maintenance of synaptic connections.

(279) The arborisation of the dendritic spines in neurons facilitates synaptic connections.

(280) The synaptic vesicle is responsible for the storage and release of neurotransmitters.

(281) The synaptic vesicle is tightly regulated to ensure precise neurotransmitter release.

(282) Macroglia are involved in the clearance of neurotransmitters from the synaptic cleft.

(283) Cognitive therapies aim to facilitate synaptic plasticity and improve brain function.

(284) The ability to modulate synaptic transmission is essential for proper brain function.

(285) The interactions between neuroglia and neurons are crucial for synaptic transmission.

(286) Synaptic efficacy is the strength of the connection between two neurons at a synapse.

(287) The synaptosomal fraction was used to study the effects of aging on synaptic function.

(288) The synaptic vesicle is a site of potential dysfunction in neurodegenerative diseases.

(289) Macroglia are involved in the regulation of synaptic pruning during brain development.

(290) Modulating synaptic transmission can have a profound impact on overall brain activity.

(291) The separate glycoprotein is involved in neuronal development and synaptic plasticity.

(292) Neuropharmacology research investigates the effects of drugs on synaptic transmission.

(293) The depolarisation of the synaptic terminal triggers the release of neurotransmitters.

(294) The depolarization of the synaptic terminal triggers the release of neurotransmitters.

(295) Synaptosomal proteins were found to be involved in synaptic pruning during development.

(296) The synaptic vesicle is recycled through a process called synaptic vesicle endocytosis.

(297) Meditation has been found to facilitate synaptic plasticity and improve brain function.

(298) Astrocyte calcium signaling can modulate synaptic plasticity and neuronal excitability.

(299) Re-uptake pumps are responsible for removing neurotransmitters from the synaptic cleft.

(300) Learning a new skill can facilitate synaptic plasticity and improve cognitive function.

(301) Meditation has been found to facilitate synaptic plasticity and improve mental clarity.

(302) The depolarization of the neuron is a key step in the process of synaptic transmission.

(303) The cisternae of the Golgi apparatus are involved in the formation of synaptic vesicles.

(304) Microglia can modulate synaptic transmission through the release of signaling molecules.

(305) Engrams are thought to be the result of changes in synaptic connections between neurons.

(306) Astrocyte processes extend to synapses, where they play a role in synaptic transmission.

(307) The synaptic vesicle is filled with neurotransmitters through a process called reuptake.

(308) The synaptic vesicle is responsible for the release of glutamate in excitatory synapses.

(309) Reelin has been shown to regulate synaptic plasticity and learning and memory processes.

(310) Synaptic integration is the process by which multiple signals are combined at a synapse.

(311) Synaptic transmission can occur at specialized structures called neuromuscular junctions.

(312) Astrocytes are responsible for clearing excess neurotransmitters from the synaptic cleft.

(313) The synapsis between neurons can be strengthened or weakened through synaptic plasticity.

(314) The electrotonic properties of a neuron can be modulated by changes in synaptic strength.

(315) Synaptic vesicle endocytosis is the retrieval of vesicles after neurotransmitter release.

(316) The synaptic vesicle fuses with the presynaptic membrane during neurotransmitter release.

(317) The synaptic vesicle is a target for therapeutic interventions in neurological disorders.

(318) Cortexiphan has been found to enhance synaptic plasticity in certain experimental models.

(319) The brain's ability to facilitate synaptic plasticity is crucial for learning and memory.

(320) Exercise has been shown to facilitate synaptic plasticity and improve cognitive function.

(321) The brain's ability to facilitate synaptic plasticity is essential for brain development.

(322) Neurological disorders can disrupt the brain's ability to facilitate synaptic plasticity.

(323) The brain uses various mechanisms to modulate synaptic transmission and maintain balance.

(324) The firing rate of a neurocyte can be influenced by the strength of synaptic connections.

(325) The synaptic vesicle is responsible for the packaging and transport of neurotransmitters.

(326) The synaptic vesicle is a dynamic structure that undergoes constant fusion and recycling.

(327) Schwann cells are involved in the clearance of neurotransmitters from the synaptic cleft.

(328) Synaptic fatigue is the temporary decrease in synaptic transmission due to excessive use.

(329) The presynaptic terminal can undergo structural changes in response to synaptic activity.

(330) Some researchers believe that engrams are formed through changes in synaptic connections.

(331) Researchers are exploring the fundamental mechanism of synaptic transmission in the brain.

(332) Synaptic transmission can be modulated by the balance of excitatory and inhibitory inputs.

(333) Adenosine diphosphate is involved in the regulation of synaptic transmission in the brain.

(334) The analysis of synaptosomes can provide valuable information about synaptic connectivity.

(335) The study of synaptosomes has revealed the importance of glial cells in synaptic function.

(336) The communication between neurogliacytes and neurons is crucial for synaptic transmission.

(337) The generation of action potentials is a key step in the process of synaptic transmission.

(338) The synaptic vesicle is essential for the transmission of electrical signals in the brain.

(339) The synaptic vesicle is a target for various drugs that modulate neurotransmitter release.

(340) The neurons in the brain accrete with respect to neural connections and synaptic strength.

(341) Athrocytes are responsible for the clearance of neurotransmitters from the synaptic cleft.

(342) Environmental enrichment can facilitate synaptic plasticity and improve brain development.

(343) The researchers were able to modulate synaptic transmission in the brain using a new drug.

(344) The dendritical spines on the neuron's surface play a crucial role in synaptic plasticity.

(345) The release of calcium from the synaptic vesicles is involved in neurotransmitter release.

(346) The study of synaptosomes has provided insights into the mechanisms of synaptic plasticity.

(347) Synaptosomal preparations were used to study the effects of drugs on synaptic transmission.

(348) Cephalin is a critical component of synaptic vesicles involved in neurotransmitter release.

(349) The release of neurotransmitters through exocytosis is essential for synaptic transmission.

(350) The synaptic vesicle is a fascinating organelle that enables communication between neurons.

(351) Astrocytic cells play a role in the clearance of neurotransmitters from the synaptic cleft.

(352) Certain medications can modulate synaptic transmission to alleviate symptoms of depression.

(353) Modulating synaptic transmission is a fundamental mechanism underlying learning and memory.

(354) Microglial cells can modulate synaptic activity through the release of signaling molecules.

(355) The fundamental mechanism of memory formation is the strengthening of synaptic connections.

(356) Re-uptake pumps help regulate the concentration of neurotransmitters in the synaptic cleft.

(357) The inhibition of acetylcholinesterase can lead to increased synaptic acetylcholine levels.

(358) The synaptic vesicle is a specialized compartment that ensures efficient neurotransmission.

(359) The experiment showed how gemination at the synaptic level can affect neural communication.

(360) The presynaptic facilitation of neurotransmitter release can enhance synaptic transmission.

(361) The neuroscience class explored how neurons propagate under different synaptic connections.

(362) Synaptic vesicle recycling ensures the availability of neurotransmitters for future release.

(363) Synaptosomes can be used to study the effects of genetic mutations on synaptic transmission.

(364) The quantal analysis of synaptic currents can reveal changes in synaptic strength over time.

(365) Neuroglial cells are involved in the clearance of neurotransmitters from the synaptic cleft.

(366) The study of asynapses requires advanced imaging techniques to observe synaptic connections.

(367) Certain genetic factors can influence the brain's ability to facilitate synaptic plasticity.

(368) Certain dietary factors can influence the brain's ability to facilitate synaptic plasticity.

(369) Physical activity has been shown to facilitate synaptic plasticity and improve brain health.

(370) Researchers are exploring the role of specific proteins in modulating synaptic transmission.

(371) Modulating synaptic transmission is a finely tuned process that requires precise regulation.

(372) The release of neuromodulators can affect the strength and duration of synaptic connections.

(373) The concentration of the neurotransmitter in the synaptic cleft was in the micromolar range.

(374) The depolarization of the neuron is a critical step in the process of synaptic transmission.

(375) Picrotoxin is often used in studies examining the effects of epilepsy on synaptic plasticity.

(376) The synaptic vesicle is involved in the formation of synaptic connections during development.

(377) The brain's ability to facilitate synaptic plasticity is influenced by environmental factors.

(378) The brain's ability to facilitate synaptic plasticity is crucial for recovery after a stroke.

(379) The brain's ability to facilitate synaptic plasticity can be impaired by certain medications.

(380) Modulate synaptic transmission is a crucial process in the functioning of the nervous system.

(381) Synaptic transmission is the process by which nerve impulses are transmitted between neurons.

(382) The depolarization of a neuron's membrane is essential for the integration of synaptic inputs.

(383) The communication between neuroglial cells and neurons is essential for synaptic transmission.

(384) Understanding how to modulate synaptic transmission can lead to new therapeutic interventions.

(385) Researchers are investigating the role of genetic factors in modulating synaptic transmission.

(386) Re-uptake transporters are responsible for removing neurotransmitters from the synaptic cleft.

(387) The release of adenosine diphosphate from synaptic vesicles mediates neurotransmitter release.

(388) The drug was able to modulate synaptic transmission in the thalamus, reducing pain perception.

(389) The release of aminobutyric acid from presynaptic neurons helps regulate synaptic transmission.

(390) Researchers are studying ways to enhance the brain's ability to facilitate synaptic plasticity.

(391) Dysfunction in the ability to modulate synaptic transmission can lead to cognitive impairments.

(392) Re-uptake inhibitors can increase the concentration of neurotransmitters in the synaptic cleft.

(393) The synaptic vesicle is involved in the release of acetylcholine at the neuromuscular junction.

(394) RSTED microscopy has enabled researchers to study the dynamics of synaptic vesicles in neurons.

(395) The movement of neurotransmitters across the synaptic cleft is facilitated by active transport.

(396) Synaptosomal preparations were used to study the molecular mechanisms of synaptic transmission.

(397) Synaptic transmission is a highly coordinated process involving multiple proteins and molecules.

(398) The quantal release of glutamate is essential for excitatory synaptic transmission in the brain.

(399) Modulating synaptic transmission is a complex process that involves multiple signaling pathways.

(400) Modulating synaptic transmission is a dynamic process that can be influenced by various factors.

(401) Modulating synaptic transmission is a critical process for maintaining homeostasis in the brain.

(402) Acetylcholinesterase is involved in the degradation of acetylcholine after synaptic transmission.

(403) The dorsal horn is a site of synaptic connections between sensory neurons and projection neurons.

(404) The quantal analysis of synaptic transmission allows for the study of individual synaptic events.

(405) The brain's ability to facilitate synaptic plasticity can be enhanced through cognitive training.

(406) The brain's ability to facilitate synaptic plasticity is a key component of brain rehabilitation.

(407) Alterations in synaptic transmission modulation have been linked to neurodevelopmental disorders.

(408) Drugs that can modulate synaptic transmission are being developed to treat neurological diseases.

(409) Researchers are exploring novel techniques to modulate synaptic transmission with high precision.

(410) The fusion of the synaptic vesicle with the presynaptic membrane allows neurotransmitter release.

(411) Synaptosomal preparations were used to investigate the effects of drugs on synaptic transmission.

(412) Dendrites are constantly changing and adapting, and this process is known as synaptic plasticity.

(413) Synaptic transmission is a complex process involving the release and binding of neurotransmitters.

(414) Adenosine can be involved in the regulation of neurotransmitter release and synaptic transmission.

(415) Modulating synaptic transmission is a complex interplay between excitatory and inhibitory signals.

(416) The role of microglial cells in synaptic pruning during development is an active area of research.

(417) The neuromechanism of learning involves the strengthening of synaptic connections between neurons.

(418) The transfer glycoprotein is highly expressed in the brain and is involved in synaptic plasticity.

(419) The presynaptically located axon terminal contains synaptic vesicles filled with neurotransmitters.

(420) Synaptosomal preparations were used to study the effects of neuroinflammation on synaptic function.

(421) Scientists are investigating new techniques to modulate synaptic transmission in a targeted manner.

(422) The fundamental mechanism of synaptic transmission is the release and binding of neurotransmitters.

(423) The electrotonic properties of dendrites play a crucial role in the integration of synaptic inputs.

(424) Dysfunction of neurogliacytes can lead to impaired neuronal communication and synaptic transmission.

(425) The quantal hypothesis proposes that synaptic transmission occurs in discrete packets called quanta.

(426) The quantal content of synaptic transmission can be altered by long-term potentiation or depression.

(427) The role of microglial cells in synaptic plasticity and learning is an area of active investigation.

(428) The synaptosomal fraction was used to study the effects of oxidative stress on synaptic transmission.

(429) The quantal properties of synaptic transmission can be studied using electrophysiological techniques.

(430) Dysfunction in the ability to modulate synaptic transmission can contribute to psychiatric disorders.

(431) Dysfunction in the ability to modulate synaptic transmission can lead to motor coordination problems.

(432) The ankyrin protein is involved in the regulation of neuronal excitability and synaptic transmission.

(433) Gangliosides, which are involved in synaptic plasticity, contribute to learning and memory processes.

(434) Synaptic transmission is a complex process involving neurotransmitter release and receptor activation.

(435) Researchers are investigating the fundamental mechanism of synaptic plasticity in learning and memory.

(436) The study showed that meditation can modulate synaptic transmission in the amygdala, reducing anxiety.

(437) The quantal size of synaptic currents can vary depending on the neurotransmitter and receptor involved.

(438) Researchers are studying ways to modulate synaptic transmission for potential therapeutic applications.

(439) Modulating synaptic transmission is a key mechanism by which the brain adapts to changing environments.

(440) Neurones can undergo changes in their connections and strength, a process known as synaptic plasticity.

(441) Prolyl hydroxylase domain-containing protein 11 is implicated in the regulation of synaptic plasticity.

(442) The consolidation of memories into long-term memory involves the strengthening of synaptic connections.

(443) The isolation of synaptosomes allows for the study of synaptic transmission in a controlled environment.

(444) Researchers are exploring potential interventions to promote synaptic connections in cases of asynapses.

(445) Understanding how to modulate synaptic transmission can help in the treatment of neurological disorders.

(446) The quantal analysis of synaptic transmission has revealed important insights into neural communication.

(447) Synaptosomal preparations were used to investigate the effects of genetic mutations on synaptic function.

(448) Prolyl hydroxylase domain-containing protein 14 is associated with the regulation of synaptic plasticity.

(449) Prolyl hydroxylase domain-containing protein 16 is implicated in the regulation of synaptic transmission.

(450) A healthy diet rich in omega-3 fatty acids can facilitate synaptic plasticity and improve brain function.

(451) Carbachol has been used as a tool to study the mechanisms of synaptic transmission in the nervous system.

(452) Dysfunction in the ability to modulate synaptic transmission can contribute to neurodegenerative diseases.

(453) Modulating synaptic transmission is a highly regulated process that can be influenced by external stimuli.

(454) Biophysically, the process of synaptic transmission involves the release and binding of neurotransmitters.

(455) Prolyl hydroxylase domain-containing protein 20 is associated with the regulation of synaptic homeostasis.

(456) The team of scientists discovered a new protein that can modulate synaptic transmission in the spinal cord.

(457) Osmiophilic particles were detected in the synaptic cleft, suggesting their involvement in neurotransmission.

(458) The frequency and timing of action potentials play a role in determining the strength of synaptic connections.

(459) Ankyrin is highly expressed in the brain, where it plays a role in neuronal development and synaptic function.

(460) Prolyl hydroxylase domain-containing protein 18 is involved in the regulation of synaptic vesicle trafficking.

(461) Neurofeedback training can facilitate synaptic plasticity and improve brain function in individuals with ADHD.

(462) The researchers used optogenetics to modulate synaptic transmission in the visual cortex, altering perception.

(463) The drug was designed to modulate synaptic transmission in the prefrontal cortex, improving cognitive function.

(464) The study demonstrated that music can modulate synaptic transmission in the auditory cortex, improving hearing.

(465) The researchers investigated the role of the yield glycoprotein in neuronal development and synaptic plasticity.

(466) Gangliosides are involved in synaptic transmission, and they regulate the release and uptake of neurotransmitters.

(467) Gangliosides play a crucial role in maintaining synaptic transmission if they are present in optimal concentrations.

(468) Gangliosides, which are highly expressed in neuronal membranes, are crucial for synaptic transmission and plasticity.

(469) The team found that a specific type of neuron can modulate synaptic transmission in the striatum, affecting movement.

(470) The researchers used electrical stimulation to modulate synaptic transmission in the motor cortex, enhancing movement.

(471) The quantal distribution of synaptic vesicles in nerve terminals is critical for maintaining neurotransmitter release.

(472) The formation of a synaptic vesicle involves the budding of a membrane-forming structure from the presynaptic membrane.

(473) Picrotoxin is often used in experiments to investigate the effects of neurodegenerative diseases on synaptic transmission.

(474) Music therapy has been shown to facilitate synaptic plasticity and improve cognitive function in individuals with dementia.

(475) Motoneurons can undergo changes in excitability and synaptic strength, allowing for long-term modifications in motor output.

(476) Ankyrin is required for the proper localization and function of neurotransmitter receptors, influencing synaptic transmission.

(477) The intussusceptive process of synaptic pruning helps in refining neural connections, and it plays a crucial role in brain development.

(478) Active transport is used to transport neurotransmitters across the synaptic cleft, and this process is essential for neuronal communication.

(479) If the cell needs to maintain its synaptic connections, active transport may be used to move neurotransmitters or other signaling molecules in or out of the cell.

(480) Although endosomes are typically associated with the endocytic pathway, they can also be involved in exocytosis, such as the release of neurotransmitters from synaptic vesicles.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Synaptic. They do not represent the opinions of TranslateEN.com.