Membrane Channels & Pumps

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(New page: Diagram of an Ion Channel RNA Interference (RNAi) is a system in living cells that helps control the level of activity of genes. In RNAi, ...)
Current revision (15:14, 18 November 2019) (edit) (undo)
 
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[[Image:Ion channel.png|350px|right|thumb| Diagram of an Ion Channel]]
[[Image:Ion channel.png|350px|right|thumb| Diagram of an Ion Channel]]
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[[RNA Interference]] (RNAi) is a system in living cells that helps control the level of activity of genes. In RNAi, a long double stranded [[RNA]] is cleaved into shorter strands. One strand known as the guide strand is complimentary to the mRNA gene product of a gene of interest. This guide strand is incorporated into an RNA-induced silencing complex (RISC) and subsequently binds the mRNA of the gene of interest. After binding, the RNA/RISC complex subsequently silences the mRNA of interest via cleavage of the mRNA strand.
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[[Membrane Channels & Pumps]] are two families of biological membrane proteins which allow the passive and active transport respecitvely of various biological compounds across membrane barriers.
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Articles in Proteopedia concerning RNA Interference include:
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Articles in Proteopedia concerning [[Membrane Channels & Pumps]] include:
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*[[User:Wayne Decatur/Flock house virus B2 protein Suppression of RNA Silencing|Flock house virus B2 protein Suppression of RNA Silencing]]
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*[[5-hydroxytryptamine receptor#Structural highlights/Specific Function of 5-HT3|5-HT3 receptor]]
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*[[User:Wayne_Decatur/Plant_Viral_Protein_p19_Suppression_of_RNA_Silencing|Plant Viral Protein p19 Supression of RNA Silencing]]
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*[[Aquaporin]]
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*[[User:Wayne Decatur/Suppression of RNA Silencing by Viruses|Suppression of RNA Silencing by Viruses]]
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*[[Chloride Ion Channel]]
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*[[User:Wayne Decatur/Tomato aspermy virus protein 2b Suppression of RNA Silencing|Tomato aspermy virus protein 2b Suppression of RNA Silencing]]
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*[[User:Laura_Fountain/Chloride_Ion_Channel|Chloride Ion Channel Analysis]]
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*[[Sandbox123|Chloride Intracellular Channel Protein 2]]
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*[[Glutamate_receptor_%28GluA2%29|Glutamate Receptor]]
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*[[Gramicidin Channel in Lipid Bilayer]]
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*[[Pore forming toxin, α-hemolysin|Hemolysin]]
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*[[Ion_channels|Ion Channels]]
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*[[M2 Proton Channel]]
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*[[Mechanosensitive channels: opening and closing|Mechanosensitive Channels: Opening & Closing]]
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*[[Potassium Channel]]
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*[[Proton Channels]] (includes a morph of the channel opening and closing)
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*[[Sodium-Potassium ATPase|Sodium-Potassium ATPase (Sodium-Potassium Pump)]]
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*[[Voltage-gated calcium channels]]
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To view automatically seeded indices concerning [[Membrane Channels & Pumps]] See:
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*[[:Category:Ion channel|Ion Channel]]
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*[[:Category:Ion transport|Ion Transport]]
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*[[: Category:Ligand_channel|Ligand Channel]]
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*[[: Category:Mechanosensitive channel |Mechanosensitive Channel]]
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*[[:Category:Potassium_Channels|Potassium Channels]]
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*[[:Category:Proton pump|Proton Pump]]
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*[[:Category:Transport|Transport Proteins]]
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====Membrane Transport Proteins====
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[[Image:Lacpermmodel.jpg|350px|right|thumb| Model of Lactose Permease]]
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'''Membrane Transport Proteins''' are proteins involved in the movement of ions, small molecules, or macromolecules, across biological membranes.
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Articles in Proteopedia concerning [[Membrane Transport Proteins]] include:
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* [[A Physical Model of the β2-Adrenergic Receptor]]
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* [[Lactose Permease]]
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* [[Enzyme I of the Phosphoenolpyruvate:Sugar Phosphotransferase System]]
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* [[Urea transporter|Urea Transporter]]
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To view other Proteopedia pages about diseases & drug targets, See: [[Pharmaceutical_Drug_Targets|Pharmaceutical Drug Targets]] <br />
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To view automatically seeded pages concerning [[Membrane Transport Proteins]] See:
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*[[:Category:Transport protein|Transport Protein]]

Current revision

Diagram of an Ion Channel
Diagram of an Ion Channel

Membrane Channels & Pumps are two families of biological membrane proteins which allow the passive and active transport respecitvely of various biological compounds across membrane barriers.

Articles in Proteopedia concerning Membrane Channels & Pumps include:


To view automatically seeded indices concerning Membrane Channels & Pumps See:


Membrane Transport Proteins

Model of Lactose Permease
Model of Lactose Permease

Membrane Transport Proteins are proteins involved in the movement of ions, small molecules, or macromolecules, across biological membranes.

Articles in Proteopedia concerning Membrane Transport Proteins include:


To view automatically seeded pages concerning Membrane Transport Proteins See:

Proteopedia Page Contributors and Editors (what is this?)

David Canner, Alexander Berchansky, Eric Martz, Wayne Decatur, Jaime Prilusky

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