 The kinesin dimer attaches to, and moves along, microtubules.
 Kinesins (the one shown is from PDB code 3kin) and dyneins walk along microtubules dragging their cargo along with them (red: ATP) (bottom: domain that links to the cargos) ( more details...) Kinesin is the name given to a class of motor protein dimer found in biological cells. Image File history File links Circle-question-red. ...
Image File history File links Download high-resolution version (877x534, 159 KB) I created this image myself (using POVray 3D imaging software), and hereby license it under the GFDL. It is a simple cartoon of a kinesin dimer attached to a microtubule. ...
Image File history File links Download high-resolution version (877x534, 159 KB) I created this image myself (using POVray 3D imaging software), and hereby license it under the GFDL. It is a simple cartoon of a kinesin dimer attached to a microtubule. ...
Image File history File links Download high-resolution version (231x800, 24 KB) File links The following pages on the English Wikipedia link to this file (pages on other projects are not listed): Kinesin ...
Image File history File links Download high-resolution version (231x800, 24 KB) File links The following pages on the English Wikipedia link to this file (pages on other projects are not listed): Kinesin ...
A representation of the 3D structure of myoglobin, showing coloured alpha helices. ...
Sucrose, or common table sugar, is composed of glucose and fructose. ...
Cells in culture, stained for keratin The cell is the structural and functional unit of all living organisms. ...
Function Kinesins are a class of motor protein that transport cargo about the cell by walking unidirectionally along microtubule tracks. The cargo may be large molecules synthesised in the cell body, intracellular components such as vesicles, or organelles like mitochondria. Kinesins use the energy liberated by ATP hydrolysis to power their motion along the microtubule. Microtubules are protein structures found within cells, one of the components of the cytoskeleton. ...
In cell biology, a vesicle is a relatively small and enclosed compartment, separated from the cytosol by at least one lipid bilayer. ...
In cell biology, a mitochondrion is an organelle found in the cells of most eukaryotes. ...
ATP may refer to: Chemistry/Biochemistry Adenosine triphosphate, the universal energy currency of all living organisms Companies Alberta Theatre Projects, a major Canadian theatre company. ...
Structure The typical kinesin is a protein dimer consisting of two heavy chains and two light chains. The heavy chains consist of a globular head (the motor domain) connected via a short, flexible neck linker to the stalk - a long, central coiled-coil region - that ends in a tail region formed with a light-chain. The stalks intertwine to form the kinesin dimer. The cargo binds to the tail while the twin heads alternately bind the microtubule as the kinesin pulls the cargo along.
Polarity Motor proteins travel in a specific direction along a microtubule. This is because the microtubule is polar, the heads only bind to the microtubule in one orientation, and ATP hydrolysis drives the molecule in one direction.
Most kinesins walk towards the plus end of a microtubule which, in most cells, entails transporting cargo from the centre of the cell towards the periphery. This form of transport is known as anterograde transport.
Some kinesins, and a different type of motor protein known as dyneins, move towards the minus end of the microtubule. Thus they transport cargo from the periphery of the cell towards the centre. This is known as retrograde transport. These motors have a different morphology: their structure is such that they move in the opposite direction but the directional principle is the same as for the rest of the family.
Proposed mechanisms Kinesin accomplishes transport by essentially "walking" along a microtubule. Two mechanisms were proposed to explain how this movement occurs. - In the "hand-over-hand" mechanism, the kinesin heads step over one another, alternating the lead position.
- In the "inchworm" mechanism, one kinesin head always leads, moving forward a step before the trailing head catches up.
Despite some remaining controversy, mounting evidence points towards the hand-over-hand mechanism as being more likely.
Asters and assembly In recent years, it has been found that microtubule-based molecular motors (including a number of kinesins) have a role in mitosis (cell division). The mechanism by which the cytoskeleton of the daughter cell separates from that of the mother cell was unclear. It seems that motors organize the two separate microtubule asters into a metastable structure independent of any external positional cues. This self-organization is in turn dependent on the directionality of the motors as well as their processivity (ability to walk). Thus motors are necessary for the formation of the mitotic spindle assemblies that perform chromosome separation. Specifically, proteins from the Kinesin 13 family act as regulators of microtubule dynamics. The prototypical member of this family is MCAK (formerly Kif2C, XKCM1, Gene KIF2C) which acts at the ends of microtubule polymers to depolymerize them. The function of MCAK in cells and its mechanism in vitro is currently being investigated by numerous labs. Mitosis divides genetic information during cell division. ...
The eukaryotic cytoskeleton. ...
Micrograph showing condensed chromosomes in blue and the mitotic spindle in green during prometaphase of mitosis The mitotic spindle (a. ...
Additional images Motility of kinesin Image File history File links Download high-resolution version (1239x936, 73 KB) File links The following pages on the English Wikipedia link to this file (pages on other projects are not listed): Kinesin ...
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See also Molecular motors are biological nanomachines and are the essential agents of movement in living organisms. ...
Axoplasmic transport, also called axonal transport, is responsible for movement of mitochondria, lipids, synaptic vesicles, proteins, and other cell parts to and from a neurons cell body through the cytoplasm of its axon, which is called axoplasm. ...
External links Microfilaments: Actins - Myosins - Actin-binding proteins A representation of the 3D structure of myoglobin, showing coloured alpha helices. ...
The eukaryotic cytoskeleton. ...
This article or section should be merged with actin Microfilaments or actin filaments are made up of two twisted monomeric actin subunits. ...
G-Actin (PDB code: 1j6z). ...
Myosin is a motor protein filament found in muscle tissue. ...
Actin-binding proteins // A Actin-Binding Proteins (and Drugs) Abl Actinfilin Actup Angiogenin AbLIM Actin-Interacting MAPKKK Ssk2p Adducin Anillin Abp1p Actin-regulating kinases Adseverin (scinderin) Annexins ABP50 (EF-1a) Actin-Related Proteins Afadin Aplyronine ABP120 Actobindin AFAP-110 Archvillin ABP140 Actopaxin Affixin Arginine Kinase ABP280 (Filamin) Actophorin a-actinin...
Intermediate filaments: type 1 and 2 Cytokeratin (type I, type II)
type 3 Desmin, GFAP, Peripherin, Vimentin
type 4 Internexin, Nestin, Neurofilament
type 5 Lamin // Intermediate filaments (IFs) are important structural proteins which are located both in the cytoplasm and the nucleus. ...
Categories: Cell biology stubs | Keratins ...
Type I cytokeratin is a type of cytokeratin, a keratin. ...
Type II cytokeratins consist of basic or neutral proteins which are arranged in pairs of heterotypic keratin chains coexpressed during differentiation of simple and stratified epithelial tissues. ...
Intermediate filaments are one component of the cytoskeleton - important structural components of living cells. ...
Intermediate filaments are one component of the cytoskeleton - important structural components of living cells. ...
Intermediate filaments are one component of the cytoskeleton - important structural components of living cells. ...
Introduction Vimentin is part of the intermediate filament family. ...
Intermediate filaments are one component of the cytoskeleton - important structural components of living cells. ...
Nestin is a type IV intermediate filament (IF) protein. ...
Intermediate filaments are one component of the cytoskeleton - important structural components of living cells. ...
A lamin is a fibrous protein that gives the cell nucleus its shape. ...
Microtubules: Dyneins - Kinesins - MAPs (Tau protein) - Tubulins Microtubules are protein structures found within cells, one of the components of the cytoskeleton. ...
Dynein is a motor protein (also called molecular motor or motor molecule) in cells which converts the chemical energy contained in ATP into the mechanical energy of movement. ...
In cell biology, microtubule-associated proteins (MAPs) are proteins that interact with the microtubules of the cellular cytoskeleton. ...
Tau proteins are normal proteins found within the brain. ...
Tubulin is the protein which makes up microtubules. ...
Prokaryotic cytoskeleton: Crescentin - FtsZ - MreB The eukaryotic cytoskeleton. ...
The crescentin protein is a bacterial relative of the intermediate filaments found in eukaryotic cells. ...
FtsZ is a protein encoded by the ftsZ gene that assembles into a ring at the future site of the septum of bacterial cell division. ...
MreB is a protein found in bacteria that has been identified as a homologue of actin. ...
Other: Major Sperm Proteins The Major Sperm Protein, commonly abbrieviated to MSP, is the most abundant protein in nematode sperm, making up about 15% of the total protein in the sperm cell. ...
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