Examples of 'transmembrane domains' in a sentence
Meaning of "transmembrane domains"
transmembrane domains: In biology or biochemistry, this phrase refers to the regions of a protein that pass through a cell membrane, playing a crucial role in various cellular processes
How to use "transmembrane domains" in a sentence
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transmembrane domains
The seven putative transmembrane domains are boxed.
Transmembrane domains have distinct and conserved characteristics.
The seven putative transmembrane domains are shown.
There is no presence of a signal peptide or any transmembrane domains.
Putative transmembrane domains are indicated in bold or are boxed.
Roman numerals depict the transmembrane domains.
Other transmembrane domains can also be used.
The locations of the predicted transmembrane domains are underlined.
Transmembrane domains are indicated in boldface.
Agreement with four transmembrane domains.
Transmembrane domains on the sequence are highlited in bold and underlined.
There are three predicted transmembrane domains.
Leader and transmembrane domains are underlined.
More recent evidence shows it to contain eight transmembrane domains.
The putative transmembrane domains are underlined.
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In a preferred embodiment the secretory form lacks transmembrane domains.
Prediction of transmembrane domains was performed using the TMpred program.
The ion transport domain can include transmembrane domains.
The putative transmembrane domains are represented by the black box.
However the sequence homology is higher in the putative transmembrane domains.
The two putative hydrophobic transmembrane domains are labelled with boxes.
Secondary structure predictions revealed at least four possible transmembrane domains.
Additional transmembrane domains will be apparent to those of skill in the art.
It contains several transmembrane domains.
Preferred transmembrane domains are those taken from bacterial transmembrane proteins.
The integral membrane proteins used preferably have a plurality of transmembrane domains.
Methods for predicting transmembrane domains are well known in the art.
The protein contains six hydrophobic regions that were identified as transmembrane domains.
The signal sequence and transmembrane domains are indicated by dark shading.
Transmembrane domains may be hydrophobic alpha helix that spans the cell membrane.
The hydrophobic region of the structure is abnormally long compared to other transmembrane domains.
The protein contains two transmembrane domains but does not contain a signal peptide.
The complete protein sequences of these proteins were analyzed for potential transmembrane domains.
Each channel has two transmembrane domains and two nucleotide binding domains.
Topology analysis suggests a highly hydrophobic protein with at least two transmembrane domains.
The transmembrane domains are readily ascertained by the application of computer models to known sequences.
The protein does not appear to be post translationally modified and has four transmembrane domains.
The seven putative transmembrane domains are indicated by horizontal lines above or below the sequences.
They are a large superfamily of cell surface membrane proteins characterised by their four transmembrane domains.
Other preferred transmembrane domains are those taken from the same protein as the antigenic domain.
The regions of greatest amino acid identity are clustered within the putative transmembrane domains.
The short region between the second and third transmembrane domains of the polypeptide is intracellular.
The shaded portions represent the sequences which encode the signal peptide and the transmembrane domains.
The putative transmembrane domains are indicated by brackets labeled by Roman numerals.
The human pituitary receptor contains seven putative transmembrane domains and lacks a signal sequence.
Transmembrane domains are rich in hydrophobic residues, and typically have an a-helical structure.
CTKs do not contain extracellular and transmembrane domains.
Secondary structure and transmembrane domains prediction for PSCA protein variants.
GPCRs are proteins that have seven transmembrane domains.
The 3 rd and 4 th potential transmembrane domains appear to be important for oligomer formation.
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The transmembrane domain is represented as a helicoidal line
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