Examples of 'microfibrils' in a sentence
Meaning of "microfibrils"
Microfibrils are small fibers that are often found in plant cells, providing structural support and strength. They are important in various biological processes, including cell wall formation and tissue development
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- plural of microfibril
How to use "microfibrils" in a sentence
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microfibrils
Microfibrils are embedded in a hydrated network of other polysaccharides.
Purification of the microfibrils follows a conventional scheme.
Descaling and cleaning compositions containing cellulose microfibrils.
The said microfibrils are in the form of filaments.
It was found to be a key component of microfibrils and elastic fibers in skin.
These microfibrils can be obtained by extraction via standard routes.
Developing techniques to determine the average orientation angle of microfibrils.
Use of cellulose microfibrils in dry form in food formulations.
Enzymic digestion treatment suggests that these microfibrils are chitin.
Cellulose microfibrils are particularly preferred.
Among the new applications are highlighted to nanocellulose such as nanocrystals and microfibrils.
The sources of microfibrils are diverse.
The microfibrils are bound together with an amorphous keratin matrix.
The fibrils are made of five microfibrils placed in a staggered arrangement.
Microfibrils are nanofibres and much research aims to use them in nanocomposites.
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The suspensions of cellulose microfibrils also have remarkable rheological properties.
Microfibrils frequently exist in the form of small bundles known as macrofibrils.
The margo is composed of bundles of microfibrils that radiate from the torus.
Cellulose microfibrils are usually associated to a high degree in walls or fibers.
The food formulations in which the combined microfibrils are added are conventionally dispersions.
The microfibrils are not microfibrillated.
Attempts have been made to propose solutions to the problem of drying cellulose microfibrils.
An aqueous dispersion of microfibrils is used in order to prepare a reinforced latex.
The cellulose polymers are aggregated laterally to form threadlike structures called microfibrils.
The cellulose microfibrils are aligned in a parallel fashion with microtubules.
Expansins appear to disrupt hydrogen bonding between cellulose microfibrils and hemicelluloses.
The microfibrils fulfill the role of a thickener in the aqueous dispersions.
These aligned elongated nodes are interconnected along their length by a myriad of microfibrils.
The dried microfibrils can thus not be considered as easily redispersible.
The amorphous keratin matrix and the microfibrils vary in function and composition.
The new microfibrils are indistinguishable from those of the original conidial cells.
The polymer electrolyte may be reinforced by addition of reinforcing fillers such as cellulose microfibrils.
The dried combined cellulose microfibrils similarly have noteworthy overrun properties.
The present invention relates to descaling and cleaning formulations based on cellulose microfibrils.
An aqueous suspension of microfibrils from soya was prepared in the manner described below.
This stress at the flow threshold increases greatly with the percentage of microfibrils.
Preferred modified microfibrils can be obtained by physical adsorption of at least one compound.
The treated samples were suspensions of separate microfibrils and had the appearance of a gel.
Suspensions of microfibrils from potato pulp obtained using the above protocol were stable.
The aim of this example is to show the different behaviour of microcrystalline cellulose microfibrils.
Cellulose microfibrils are generally considered to contain only a few faults along their axis.
The cell wall is mainly composed of cellulose microfibrils complexed with hemicellulose and lignin.
These microfibrils contain fibrillin molecules that can be identified periodically along its length.
Presence of both cellulose and chitin microfibrils apparently enhanced the mycoparasitic activity.
The microfibrils serve as scaffolding for deposition of elastin and the assembly of elastic fibers.
In microfibrillated cellulose the individual microfibrils have been partly or totally detached from each other.
These microfibrils form the structurally strong framework in the cell walls of plant materials.
It seems that amorphous periplasmic material is deposited initially and microfibrils later intermingle with it.
The cellulose microfibrils according to the invention are combined with at least one polyhydroxylated compound.
Birefringence analysis showed a highly crystalline array of microfibrils arranged parallel to the root surface.
