Which of the following statements best explains the reason that lipids and proteins are free to move laterally in membranes?

What is Fast Endophilin-Mediated Endocytosis?Sruthi Jagannathan2018-01-04T15:48:16+08:30

FEME is a novel clathrin-independent endocytic pathway, regulated by the BAR domain protein endophilin, where tubulo-vesicular carriers form within seconds at the plasma membrane upon activation of specific G-protein coupled receptors (GPCRs) by their ligands, internalizing GPCRs and moving rapidly towards the perinucleolar area. Read more..

How does exocytosis affect cell mechanics?Sruthi Jagannathan2018-01-04T15:25:09+08:30

The recycling and delivery of membrane by exocytosis can be used by the cell to enlarge the membrane and surface area during cell shape changes.The interaction between membrane tension, unfolding and trafficking has been demonstrated by a number of studies. Read more..

What is exocytosis?Sruthi Jagannathan2018-01-04T15:18:47+08:30

Exocytosis is defined as the transport and fusion of secretory vesicles with the plasma membrane and the extracellular space. There are three exocytosis pathways that deliver vesicles to the plasma membrane. Read more..

How do clathrin-coated vesicles invaginate and mature?Sruthi Jagannathan2018-01-04T15:07:36+08:30

Clathrin-coated vesicle maturation incorporates the activities of a range of proteins. Actin, myosin and WASP all have important roles in the formation and stabilization of clathrin-coated pits (CCPs). Read more..

What causes the narrowing of clathrin-coated vesicle necks?Sruthi Jagannathan2018-01-04T13:24:09+08:30

In the final stages of clathrin-coated vesicle (CCV) formation, Phosphatidylinositol-4,5-bisphosphate (PIP2) undergoes a dephosphorylation by phosphatases such as synaptojanin 1 (Synj1). This promotes further membrane curvature at the vesicle bud, dissociation of the BAR domain proteins (BDPs) and closing of the membrane bud neck. Read more..

How do clathrin-coated pits form?Sruthi Jagannathan2018-01-04T13:10:24+08:30

Adaptor proteins such as AP-2, AP180 and CALM (Clathrin-assembly lymphoid myeloid leukaemia protein), which accumulate within the lipid bilayer, are responsible for the recruitment of the triskelion shaped Clathrin trimer. This trimer does not interact with the membrane directly but instead forms a reinforcing lattice structure that acts as a mold in which membrane vesicles may develop. Read more..

How does dynamin help in the scission of clathrin-coated vesicles?Sruthi Jagannathan2018-01-04T12:58:31+08:30

In mammalian CME the GTPase dynamin is believed to play important roles in invagination and clathrin-coated pit (CCP) maturation. Its binding partners endophilin and amphiphysin, can also induce tubulation of the vesicles and have been shown to copolymerize with dynamin. Read more..

How are clathrin-coated vesicles uncoated?Sruthi Jagannathan2018-01-04T12:51:56+08:30

Uncoating is the process by which clathrin is removed from clathrin-coated vesicles (CCVs). In mammals, this ATP dependent process is driven by the 70kDa molecular chaperone ‘Heat shock cognate protein’. Read more..

How are clathrin-coated vesicles targeted to endosomes for fusion?Sruthi Jagannathan2018-01-04T12:43:47+08:30

Different cytoskeletal networks have been implicated in the transport of clathrin-coated vesicles (CCVs). In yeast, the actin cytoskeleton traffics dissociated CCVs, whilst in mammals the microtubule network transports is involved in the sorting of CCVs to distinct populations of early endosomes. Read more..

What is clathrin-mediated endocytosis?Sruthi Jagannathan2018-01-04T12:25:09+08:30

Clathrin-mediated endocytosis (CME) is a vesicular transport event that facilitates the internalization and recycling of receptors engaged in a variety of processes, including signal transduction (G-protein and tyrosine kinase receptors), nutrient uptake and synaptic vesicle reformation. Two classical examples of CME are iron-bound transferrin recycling and the uptake of low-density lipoprotein (LDL). Read more..

How is caveolar endocytosis mechanically regulated?Sruthi Jagannathan2018-01-04T12:19:30+08:30

The cell cytoskeleton plays a role in caveolar organization and trafficking. Actin stress fibers influence the linear distribution of caveolae at the plasma membrane in many cell types. Read more..

What is caveolar endocytosis?Sruthi Jagannathan2018-01-04T12:09:13+08:30

Caveolar endocytosis is a clathrin-independent endocytic process which involves bulb-shaped, 50-60nm plasma membrane invaginations called caveolae (or ‘little caves’). Caveolae formation is driven by integral membrane proteins called caveolins as well as peripheral membrane proteins called cavins. Read more..

How do mechanical stresses regulate autophagy?Sruthi Jagannathan2018-01-04T11:36:05+08:30

When autophagy is acting as a pro-survival mechanism primarily induced by stress, it can be naturally regulated by mechanical stresses such as compression, stretching or shear stress due to fluid flow. Consistent with this, a number of studies have highlighted how cells respond to mechanical stresses by regulating autophagy levels and how this could have implications in both physiological as well as pathophysiological conditions. Read more..

What is the physiological relevance of autophagy?Sruthi Jagannathan2018-01-04T11:32:57+08:30

Autophagy is a both a stress-management system and a means of homeostatic control in cells, and is therefore regulated differently under varying cellular conditions. Read more..

What is autophagy?Sruthi Jagannathan2018-02-05T15:26:10+08:30

What is Arf6-associated endocytosis?Sruthi Jagannathan2018-01-04T11:21:45+08:30

How is membrane trafficking mediated by transport vesicles?Sruthi Jagannathan2017-12-21T12:12:03+08:30

Both endocytosis and exocytosis utilize small compartments of membrane to enclose their cargo. These transport vesicles bud off from one membrane and can dynamically fuse with other membranes, or split up into smaller vesicles by fission. Residing within the interior, or lumen, of the transport vesicles, the cargo is protected from the cytoplasm. Read more..

What is membrane trafficking?Sruthi Jagannathan2017-12-21T12:00:08+08:30

Membrane trafficking encompasses the wide variety of processes that go into the movement of cargo (typically proteins, pathogens and other macromolecules) using membrane bound transport vesicles. This transport can take place within different organelles in the same cell, or across the cell membrane to and from the extracellular environment. Read more..

How is membrane curvature generated?Sruthi Jagannathan2017-12-21T11:42:40+08:30

Several mechanisms have been proposed to be responsible for the generation of membrane curvature. One of the mechanisms is attributed to the specific shape of the lipid group that makes up the membrane and to any changes in their distribution or symmetry. Read more..

What is membrane curvature?Sruthi Jagannathan2017-12-21T11:37:14+08:30

Membrane curvature refers to the physical bending of membranes to accommodate various cell morphology changes as well as the formation of membrane-bound transport intermediates like spherical vesicles or tubules. Read more..

How do membrane reservoirs alter membrane tension during cell spreading?Sruthi Jagannathan2017-12-21T11:33:19+08:30

Membrane area is very closely linked to membrane tension, cytoskeletal attachment and membrane reservoirs. During cell spreading, the initial increase in membrane area requirements are met by depleting membrane reservoirs with the morphology of large folds such as microvilli, spikes, filopodia and ruffles. Once these reservoirs are depleted, membrane tension increases and activates exocytosis as well as myosin contraction. Read more..

How do components in a lipid bilayer move?Sruthi Jagannathan2017-12-21T11:00:14+08:30

One of the tenets of the Fluid-Mosaic membrane model is that the components of the bilayers are free to move. Using a phospholipid as an example, the first type of movement is rotational. Here the phospholipid rotates on its axis to interact with its immediate neighbours. Read more..

What is the role of membranes in mediating vesicular transport?Sruthi Jagannathan2017-12-20T12:33:08+08:30

Another major biological role of cell membranes is in mediating vesicular transport, either during the secretory pathway when proteins are transported from the endoplasmic reticulum to target locations such as lysosomes, endosomes, the plasma membrane and into the extracellular space or during the endocytic pathway, during which proteins and other macromolecules such as nutrients, fluids are internalized into the cell from the extracellular space. Read more..

What functions does the plasma membrane perform at the interface between the cell and its environment?Sruthi Jagannathan2017-12-20T12:29:53+08:30

Any communication or interactions between the intracellular and extracellular spaces occurs through the plasma membrane, which forms the boundary between these two regions. Read more..

What are the physiological functions of membranes?Sruthi Jagannathan2017-12-20T12:22:54+08:30

Eukaryotic cells and their organelles are enveloped by viscoelastic layers made of lipids and proteins. These layers are generally referred to as cell membranes and when they surround the entire cell, they are specifically known as the plasma membrane. Read more..

What are membrane reservoirs?steve2018-02-06T14:51:27+08:30

What are plasma membranes?steve2018-01-04T12:30:47+08:30