permease

Potassium channel in membrane - Ion channels: functional expression in cancer youtu.be This short video shows the molecular dynamics of a voltage-gated potassium channel (kv1.2) embedded in a lipid bilayer. The Kv1.2 structure is shown as pink cartoon; the lipid bilayer is represented as cyan sticks (lipid phase) and the phosphate moieties are in orange. The green sphere represents K+ ions bound to the selectivity filter. Only a tiny fraction of the total number of water molecules are represented here. Living cells consist of ions, charged molecules, membranes and organelles, which are responsive to electrical fields and currents and sometimes even generate electrical activity. When a non-uniform electric field is generated near living cells, polar molecules will move towards the higher field intensity. When an altering current is generated the molecules stay in place, their reaction being only vibration. However, in dividing cells the altering field causes the molecules to move towards the furrow, which is the narrow place between the two daughter cells. Using this principle the scientists had a way to tell apart normal cells from dividing cells, which are normally cancerous cells. Biologically Closed Electric Circuits, Björn EW Nordenström, MD, (Nordic Medical Publications, Arsenalsgatan 4, S-1ll 47 Stockholm, Sweden), Facilitated diffusion (also known as facilitated transport or passive-mediated transport) is a process of passive transport, facilitated by integral proteins. Facilitated diffusion is the spontaneous passage of molecules or ions ...

Lec 14 | MIT 7.012 Introduction to Biology, Fall 2004 Protein Localization (Dr. Claudette Gardel) View the complete course: ocw.mit.edu License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu

Bite-Sized Biochemistry #49 - Translation III / Gene Expression I Lecture by Kevin Ahern of Oregon State University discussing Biochemistry Basics in BB 451. See the full course at oregonstate.edu This course can be taken for credit (wherever you live) via OSU's ecampus. For details, see ecampus.oregonstate.edu Download Metabolic Melodies at Related courses include BB 350 - oregonstate.edu BB 450 - oregonstate.edu BB 100 - oregonstate.edu Highlights Translation (continued) 1. Eukaryotic translation is mechanistically similar to prokaryotic translation. Differences include ribosomes (40S vs 30S and 60S vs 50S), rRNAs (28S, 18S, 5.8S, and 5S), mRNAs (cap at 5' end and polyA at 3' end, both involved in translation), and lack of formyl group on initiator tRNA's methionine. 2. Other translational differences in eukaryotes relate to the structure of eukaryotic cells. Proteins destined to leave the cytoplasm have a signal sequence, consisting of a stretch of hydrophobic amino acids near their amino terminus. 3. When the signal sequence emerges from the ribosome during translation, it is recognized by the signal recognition particle (SRP), which takes the entire ribosome/mRNA/polypeptide complex to the endoplasmic reticulum. There it interacts with the SRP receptor and in the process it links the ribosome with the emerging polypeptide sequence to the translocon. 4. The polypeptide passes through the translocon channel as it is being made and when the signal sequence completely exits the translocon, a signal peptidase clips ...

Facilitated Diffusion - A Biology Project (skit) Facilitated Diffusion Facilitated diffusion (or facilitated transport) is a process of diffusion, a form of passive transport facilitated by transport proteins. The facilitated diffusion may occur either across biological membranes or through aqueous compartments of an organism. Polar molecules and charged ions are dissolved in water but they can not diffuse freely across cell membranes due to the hydrophobic nature of the lipids that make up the lipid bilayers. Only small nonpolar molecules, such as oxygen can diffuse easily across the membrane. All polar molecules should be transported across membranes by proteins that form transmembrane channels. These channels are gated so they can open and close, thus regulating the flow of ions or small polar molecules. Larger molecules are transported by transmembrane carrier proteins, such as permeases that change their conformation as the molecules are carried through, for example glucose or amino acids. Non-polar molecules, such as retinol or fatty acids are poorly soluble in water. They are transported through aqueous compartments of cells or through extracellular space by water-soluble carriers as retinol binding protein. The metabolites are not changed because no energy is required for facilitated diffusion. Only permease changes its shape in order to transport the metabolites. The form of transport through cell membrane which modifies its metabolites is the group translocation transportation. -source-wikipedia

#34 Biochemistry Oxidative Phosphorylation/Respiratory Control Lecture for BB 451/551 Winter 2012 A lecture by Kevin Ahern of Oregon State University to his BB 451/551 class. See the full course at oregonstate.edu This course can be taken for credit (wherever you live) via OSU's ecampus. For details, see ecampus.oregonstate.edu Download Metabolic Melodies at ...

Biological Physics : Fluid Mosaic Model - Facilitated Diffusion : Biological Membranes Research : By (Me) - Nicholas Ellis @ youtu.be youtu.be youtu.be Living cells consist of ions, charged molecules, membranes and organelles, which are responsive to electrical fields and currents and sometimes even generate electrical activity. When a non-uniform electric field is generated near living cells, polar molecules will move towards the higher field intensity. When an altering current is generated the molecules stay in place, their reaction being only vibration. However, in dividing cells the altering field causes the molecules to move towards the furrow, which is the narrow place between the two daughter cells. Ion channels: functional expression and therapeutic potential in cancer Colloquium on Ion Channels and Cancer There was also a strong emphasis on linking the function of the ion channels to cellular behaviours that are important during cancer development and progression (Fig 1). The first day focused on ion-channel involvement in cell proliferation, transformation and apoptosis, whereas the second day dealt with cellular behaviours crucial to metastatic cell spread, such as motility and invasion. In addition to the discussions about the ion channels directly implicated in cancer, other talks covered related topics—for example, autoimmune disease, cell activation and vascular permeability—which highlighted mechanisms and pathways potentially relevant to oncology. Facilitated diffusion (also known as facilitated transport or passive-mediated ...

Lec 13 | MIT 7.012 Introduction to Biology, Fall 2004 Gene Regulation (Prof. Eric Lander) View the complete course: ocw.mit.edu License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu

Bite-Sized Biochemistry #31 - Membrane Transport II (01/12/11) Lecture by Kevin Ahern of Oregon State University discussing Biochemistry Basics in BB 451. See the full course at oregonstate.edu This course can be taken for credit (wherever you live) via OSU's ecampus. For details, see ecampus.oregonstate.edu Download Metabolic Melodies at Related courses include BB 350 - oregonstate.edu BB 450 - oregonstate.edu BB 100 - oregonstate.edu Highlights of Membrane Transport Lecture 1. The Na/K pump is a P-Type ATPase that transports three sodiums out and two potassiums in for each cycle. Movement of Na and K is essential for the cell being able to maintain osmotic balance. 2. The Na/K pump is important not only for osmotic balanace, but also for creating the sodium and potassium gradients necessary for nerve transmission. 3. Transport proteins that move molecules in opposite directions across a membrane are called antiports. Those that move molecules in the same direction across a membrane are called symports. Transport systems that change the charge as a result of their movement of ions are called electrogenic. 4. An interesting transporter is the Na+/Ca++ exchange pump (not shown in a figure in class, but described). It uses movement of Na+ in to cells to be a driving force for pumping Ca++ out. Remember than Ca++ stimulates muscular contraction. If Ca+ is not pumped OUT, its concentration in muscle cells remains high, stimulating contraction. Digitoxigenin is a compound from foxglove that binds the Na+/K+ ...

Gene Regulation I This course is part of a series taught by Kevin Ahern at Oregon State University on General Biochemistry. For more information about online courses go to ecampus.oregonstate.edu 1. Gene expression refers to the processes that result in the production of functional protein. Gene expression can be controlled at the levels of transcription, processing (splicing in eukaryotes), translation, mRNA stability, and protein stability. Tissue-specific gene expression is essential for multcellular, differentiated organisms. 2. Transcription factors, as noted previously, are proteins that bind to DNA and affect the transcription of genes located near where they bind. Common DNA-binding structures are found in the diverse set of transcription factors that are know. They include motifs (motifs - structural features) for helix-turn-helix, homeodomains, leucine zippers, and zinc fingers. 3. Leucine zipper structures are found in adjacent alpha helices and contain regions with leucine residues appearing about every 7 amino acids. The leucine interact with each other to hold the strands together and in doing so allow other portions of the helix to bind DNA properly. 4. Zinc fingers are structures with cysteine residues that hold zinc ions and create a finger-like structure that can stick into the DNA helix. 5. Proteins that bind to specific DNA sequences must "read" the sequence of bases inside the helix, usually by inserting a region into the major groove of the DNA and "checking" the ...

Ion Channels and Cancer : Simulation of Protein Embedded within Lipid Bilayer Membrane youtu.be youtu.be Coarse-grained model for a protein inclusions within a lipid bilayer membrane. The simulations include long-range hydrodynamic coupling and thermal fluctuations. Simulations were performed using the Stochastic Eulerian Lagrangian Method (SELM). This work is in collaboration with the Brown Group, Chemistry, UCSB. Living cells consist of ions, charged molecules, membranes and organelles, which are responsive to electrical fields and currents and sometimes even generate electrical activity. When a non-uniform electric field is generated near living cells, polar molecules will move towards the higher field intensity. When an altering current is generated the molecules stay in place, their reaction being only vibration. However, in dividing cells the altering field causes the molecules to move towards the furrow, which is the narrow place between the two daughter cells. Using this principle the scientists had a way to tell apart normal cells from dividing cells, which are normally cancerous cells. Biologically Closed Electric Circuits, Björn EW Nordenström, MD, (Nordic Medical Publications, Arsenalsgatan 4, S-1ll 47 Stockholm, Sweden), Facilitated diffusion (also known as facilitated transport or passive-mediated transport) is a process of passive transport, facilitated by integral proteins. Facilitated diffusion is the spontaneous passage of molecules or ions across a biological membrane passing through specific transmembrane integral proteins. The ...

Biochemistry Review Session #1 for BB 450/550 Fall 2011 A review session for Exam 1 in BB 450/550 at Oregon State University given by Kevin Ahern. See the full course at oregonstate.edu This course can be taken for credit (wherever you live) via OSU's ecampus. For details, see ecampus.oregonstate.edu Download Metabolic Melodies at Related courses include BB 350 - oregonstate.edu BB 451 - oregonstate.edu BB 100 - oregonstate.edu

Lac Operon This video provides a basic description of the control of lactose metabolism in prokaryotic cells. The Lac operon is characteristic of inducible operon activity throughout the prokaryotic genome and provides an explanation for situational changes in gene expression.

Biological Physics : Cell Biology - The Plasma Membrane and Facilitated Diffusion Research : By (Me) - Nicholas Ellis @ Living cells consist of ions, charged molecules, membranes and organelles, which are responsive to electrical fields and currents and sometimes even generate electrical activity. When a non-uniform electric field is generated near living cells, polar molecules will move towards the higher field intensity. When an altering current is generated the molecules stay in place, their reaction being only vibration. However, in dividing cells the altering field causes the molecules to move towards the furrow, which is the narrow place between the two daughter cells. Ion channels: functional expression and therapeutic potential in cancer Colloquium on Ion Channels and Cancer There was also a strong emphasis on linking the function of the ion channels to cellular behaviours that are important during cancer development and progression (Fig 1). The first day focused on ion-channel involvement in cell proliferation, transformation and apoptosis, whereas the second day dealt with cellular behaviours crucial to metastatic cell spread, such as motility and invasion. In addition to the discussions about the ion channels directly implicated in cancer, other talks covered related topics—for example, autoimmune disease, cell activation and vascular permeability—which highlighted mechanisms and pathways potentially relevant to oncology. Facilitated diffusion (also known as facilitated transport or passive-mediated transport) is a process of ...

The Lac Operon This is an animation explaining the Structure and Function of the Lac Operon. There is a lot of complicated text available explain the way this operon works. I tried to keep it as simple as possible. We have our "Lac Z Lac Y and Lac A" structural Genes, which need to be transcribed by RNA polymerase in order to produce the necessary Proteins Required for the Breakdown of Lactose. We also have the Lac I gene, which is responsible for the production of the repressor. The operator is where the repressor binds when there is no Lactose available to be broken down and utilised as a source of energy. The promoter facilitates the transcription of the structural genes, and is the green shaped figure you see. Then we have the RNA Polymerase. The RNA polymerase binds to the Promoter and it is responsible for the transcription of the Structural genes. The regulatory gene..... is the CAP protein binding site. This will only work when substantial amounts of cAMP are present. High levels of cAMP are present when very little glucose is available, which explains why when glucose and lactose are present, the glucose is utilised. When there is glucose present or little lactose, the repressor produced by the lac I gene binds to the Operator, preventing the RNA polymerase from transcribing the structural genes. When Lactose is present and no Glucose is, the RNA Polymerase will now be able to transcribe the structural genes; Lac Z Lac Y and Lac A When the repressor wants to bind to the ...

#32 Biochemistry Nerve Transmission/Mitochondria Lecture for BB 451/551 Winter 2012 A lecture by Kevin Ahern of Oregon State University to his BB 451/551 class. See the full course at oregonstate.edu This course can be taken for credit (wherever you live) via OSU's ecampus. For details, see ecampus.oregonstate.edu Download Metabolic Melodies at Related courses include BB 350 - oregonstate.edu BB 450 - oregonstate.edu BB 100 - oregonstate.edu Topics covered include symports, synports, antiports, neurotransmission, nerve cells, sodium gradient lactose permease, proton gradient, energy, active transport, electrochemical gradient, potential, potassium, neurotransmitter, acetyl-choline, drug addiction, cocaine, mitochondria, oxidation, electron transport, oxidative phosphorylation, ATP, ATP synthesis, electrons, oxygen, terminal electron acceptor, metabolism, metabolic control, miracle diet drug, 2,4-DNP, dinitrophenol, weight loss

Genie in a Bottle - Adding Enzymes (2) Adding permease to the test tube full of detergent