「EXTRACELLULAR」の共起表現一覧(1語右で並び替え)
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Furthermore, generation of | extracellular adenosine not only abrogates nucleotide-me |
ition leads to further increased levels of | extracellular adenosine. |
Extracellular adenylate cyclase is an adenylate cyclase | |
also demonstrates that glucose can inhibit | extracellular agarase secretion (but not transcription), |
known to stimulate macrophages to degrade | extracellular albumen, allowing faster resorption of ede |
s activated by proteolytic cleavage of its | extracellular amino terminus. |
ers have certain conserved motifs in their | extracellular amino-acid domain. |
, consisting of 4 transmembrane domains, 2 | extracellular and 1 intracellular loop, along with intra |
[alpha]-dystroglycan is | extracellular and binds to merosin [alpha]-2 laminin in |
Extracellular ATP - ATP located outside of biological ce | |
whose members share a cysteine-rich common | extracellular binding domain, and includes several other |
Extracellular buffers include bicarbonate and ammonia, w | |
ing in a dose-dependent decrease in evoked | extracellular Ca+ ions in striatal nerve endings. |
ell adhesion glycoprotein composed of five | extracellular cadherin repeats, a transmembrane region a |
this gene consists of a signal peptide, 11 | extracellular calcium-binding domains, a transmembrane d |
is carried out in the bacterium by a large | extracellular cellulase system called a cellulosome, whi |
ysiological chemistry dealt primarily with | extracellular chemistry, such as the chemistry of digest |
Movement of calcium ions from the | extracellular compartment to the intracellular compartme |
n genes, the most abundant non-collagenous | extracellular component in dentin, and on synthesizing p |
ed tissue further allows for evaluation of | extracellular concentration gradients due to transporter |
can be more than 1000-fold higher than its | extracellular concentration. |
r the differences in the intracellular and | extracellular concentrations of these ions. |
This in turn leads to increased | extracellular concentrations of both norepinephrine and |
euptake of adenosine, resulting in greater | extracellular concentrations of adenosine. |
which helps to couple the sarcomere to the | extracellular connective tissue. |
The crystal structure of the | extracellular cysteine-rich domain of a similar mouse pr |
Extracellular digestion is a form of digestion found in | |
eolytic cleavage of plasminogen, involving | extracellular disulfide bond reduction by phosphoglycera |
The | extracellular domain of an Eph receptor interacts with e |
neprilysin ectodomain is released into the | extracellular domain after it has been transported from |
tacept is a fusion protein composed of the | extracellular domain of CTLA-4 with the hinge, CH2, and |
The | extracellular domain adopts an immunoglobulin-like beta- |
ids with amino acids 23-727 comprising the | extracellular domain and amino acids 793-904 spanning th |
s found in exon 13 which forms part of the | extracellular domain of the protein. |
kD transmembrane glycoprotein with a large | extracellular domain (ECD) containing two CUB domains, a |
ane proteins, composed of a ligand-binding | extracellular domain with cysteine-rich region, a transm |
B is a 904 amino acid protein that has an | extracellular domain which is composed of amino acids 31 |
rved amino acids apart near the N-terminal | extracellular domain of the alpha subunit. |
U.S. Patent 6,015,567 - HER2 | extracellular domain |
It is an | extracellular domain found in many receptors. |
vage by alpha secretases, APP releases its | extracellular domain - a fragment known as APPsα - into |
dergoes post-translational cleavage in the | extracellular domain to yield disulfide-linked light and |
a dimeric fusion protein consisting of the | extracellular domain of human interleukin-1 receptor and |
for each subunit is a conserved N-terminal | extracellular domain followed by three conserved transme |
comprising a signal peptide, an N-terminal | extracellular domain, a single transmembrane domain and |
racteristic cys-cys pair in the N-terminal | extracellular domain, this is shown to be essential for |
n of their receptor rate constants-via its | extracellular domain-once it is there. |
ions within the 4 kb region coding for the | extracellular domain. |
um discoideum protein discoidin I in their | extracellular domain. |
e presence of histidine side chains in the | extracellular domain. |
terminus as well as the C-type lectin-like | extracellular domain. |
ing a putative transmembrane domain and an | extracellular domain. |
e of the antigen-presenting cell using its | extracellular domain. |
d at the interface between subunits in the | extracellular domain. |
Mutations of erythroid AE1 affecting the | extracellular domains of the molecule may cause alterati |
Currently no complete structure of the | extracellular domains of a type II cytokine receptor is |
surface receptor, each subunit contains 2 | extracellular domains, a membrane spanning domain and a |
ader peptide, exons 2 and 3 encode the two | extracellular domains, exon 4 encodes the transmembrane |
its inhibition of DAT and the increase in | extracellular dopamine. |
ne by DAT, which results in an increase in | extracellular dopamine. |
ly of transmembrane proteins with repeated | extracellular EGF domains and the notch (or DSL) domains |
rs" use nanowires to transfer electrons to | extracellular electrical acceptors (such as Fe(III) oxid |
LC39A7, to enter the cytosol from both the | extracellular environment and from intracellular storage |
bringing antibodies into the cell from the | extracellular environment, this typically requires the e |
riggers secretion of enterobactin into the | extracellular environment, causing formation of an coord |
rization of the cell by releasing K to the | extracellular environment. |
or studying cellular interactions with the | extracellular environment. |
During the fermentation of natto soybean, | extracellular enzymes produced by Bacillus natto react w |
, they are found both as intracellular and | extracellular enzymes that are largely involved in nutri |
The mycelium secretes | extracellular enzymes and acids that break down lignin a |
production of virulence determinants, such | extracellular enzymes. |
have a unique hybrid structure in which an | extracellular epidermal growth factor (EGF)-like domain |
also been identified as alpha secretases; | extracellular expression of mutant ADAM9 (also known as |
Korf, neuroendocrinology; T. Pihlajaniemi, | extracellular Extracellular matrix; D. Furst, muscle; Jo |
Bottom: view of the receptor from the | extracellular face of the membrane. |
Many proteins are tethered to the | extracellular face of eukaryotic plasma membranes by a g |
In these experiments the | extracellular field potential will be detected as an ele |
The | extracellular field potential is the electrical potentia |
nt of glucose from the intestinal lumen to | extracellular fluid by epithelial cells. |
Pulling in additional phosphate from | extracellular fluid would help to increase the amount of |
ively non-invasive way to obtain cells and | extracellular fluid (plasma) from the body for analysis. |
dorant binding proteins which exist in the | extracellular fluid surrounding the odorant receptors. |
bursting of the cell due to the inflow of | extracellular fluid through the channels. |
y the exchange of electrolytes between the | extracellular fluid and the cytosol. |
ich lead to movement of potassium from the | extracellular fluid into the muscle cells. |
ater normally follows sodium back into the | extracellular fluid (ECF). |
is kept relatively low with respect to the | extracellular fluid, by an approximate magnitude of 12,0 |
itating removal of potassium ions from the | extracellular fluid. |
wise includes both intracellular fluid and | extracellular fluid. |
meaning they are secreted from cells into | extracellular fluid. |
he cell during progressive freezing of the | extracellular fluid. |
hyroid gland monitor calcium levels in the | extracellular fluid. |
ds to raise potassium concentration in the | extracellular fluid. |
extracellular fluid: inulin | |
ipid messenger with both intracellular and | extracellular functions. |
It induces robust increases in | extracellular GABA levels in the frontal cortex, hippoca |
This selenoprotein is an | extracellular glycoprotein, and is unusual in that it co |
When | extracellular Hh is present (Figure 3), it binds to and |
lizes sucrose as a substrate to synthesize | extracellular homopolysaccharide. |
The | extracellular IgV-like domain of CD8-α interacts with to |
acellularly, where they are protected from | extracellular immune system factors such as the compleme |
The protein contains five, N-terminus, | extracellular immunoglobulin domains, a single transmemb |
R proteins are classified by the number of | extracellular immunoglobulin domains (2D or 3D) and by w |
of LIR receptors which contain two or four | extracellular immunoglobulin domains, a transmembrane do |
It is composed of two | extracellular immunoglobulin-like domains, a membrane-sp |
CD155 is a transmembrane protein with 3 | extracellular immunoglobulin-like domains, D1-D3, where |
When ionic gradients are altered ( | extracellular K+ increases or extracellular Na+ or Cl- d |
All subunits consist of a conserved | extracellular large N-terminal domain; three highly cons |
Once a threshold | extracellular level is achieved, ComX is detected by a t |
cond messenger, it was discovered to be an | extracellular ligand for G protein-coupled receptor S1PR |
membrane receptor, where the binding of an | extracellular ligand causes enzymatic activity on the in |
recombinant fusion protein built with the | extracellular ligand binding portion of TACI. |
The receptor has an | extracellular ligand-binding domain, a single transmembr |
or tyrosine-kinases, ERBB3 is activated by | extracellular ligand. |
ltage, while others are activated by Ca2+, | extracellular ligands, and pH among other modulators. |
Extracellular lipases, including pancreatic lipase, hepa | |
The first | extracellular loop consists on average of 53 amino acids |
ATP binds to the | extracellular loop of the P2X receptor, whereupon it evo |
Between the S5 and S6 helices there is an | extracellular loop (known as 'the turret') and 'the pore |
th the ligand binding pocket of the second | extracellular loop of the FPR. |
ophobic transmembrane regions, and a large | extracellular loop, which has many cysteine residues wit |
randed beta-barrel with five highly mobile | extracellular loops that protrude above the surface of t |
Conformational changes in the | extracellular loops modulate the surface of OpcA, which |
These | extracellular loops combine to form a crevice in the ext |
end both located in the cytoplasm, and two | extracellular loops which show the highest degree of con |
d residues, forming three intra- and three | extra-cellular loops, with an extracellular N-terminus an |
hereafter it was shown that mutation of an | extracellular lysine residue resulted in 6-fold increase |
also characterized a biophysical effect in | extracellular matrices populated with cells or nonliving |
tributed on the surfaces of many cells and | extracellular matrices. |
-to-cell recognition, and the formation of | extracellular matrices." |
The non-collagenous components of | extracellular matrix will vary depending on the tissue w |
a term for the non-cellular components of | extracellular matrix which contain the fibers. |
lobulin superfamily and a receptor for the | extracellular matrix protein, laminin. |
Thus, matrix vesicles convey to the | extracellular matrix calcium, phosphate, lipids and the |
butions from contractile, hemodynamic, and | extracellular matrix interactions. |
ndent cells detaching from the surrounding | extracellular matrix (ECM). |
and commercializing products targeting the | extracellular matrix for the endocrinology, oncology, de |
nal domain mediates cell attachment to the | extracellular matrix molecule vitronectin, while its int |
that are rich in actin and extend into the | extracellular matrix (ECM). |
r polyanions such as glycosaminoglycans of | extracellular matrix or acidic glycoproteins in many typ |
s may come from its ability to bind to the | extracellular matrix glycoprotein fibronectin and block |
the dystroglycan complex, which links the | extracellular matrix to the intracellular actin cables, |
ycan (SLRP) which is found in a variety of | extracellular matrix tissues, including bone, cartilage |
or Genome Research, Macromolecular Design, | Extracellular Matrix Biology, Crop Biotechnology, Animal |
n skin fibroblasts, such as stimulation of | extracellular matrix production, chemotaxis, proliferati |
actions of the enzyme lysyl oxidase in the | extracellular matrix and is essential in the crosslink f |
ncer progression, since degradation of the | extracellular matrix is an essential step in the cascade |
is also one of the receptors of reelin, an | extracellular matrix protein which regulates the process |
proteases are capable of degrading various | extracellular matrix components, which can lead to tissu |
Basigin (BSG) also known as | extracellular matrix metalloproteinase inducer (EMMPRIN) |
involved in the destruction of the villous | extracellular matrix and target the destruction of intes |
Osteonectin is an acidic, secreted | extracellular matrix glycoprotein that plays a vital rol |
l-matrix interactions via its receptor for | extracellular matrix proteins. |
P) family are involved in the breakdown of | extracellular matrix in normal physiological processes, |
ese gradients are naturally present in the | extracellular matrix (ECM) of the body during processes |
where cells are left in their surrounding | extracellular matrix to more accurately mimic the in viv |
CTGF has been implicated in | extracellular matrix remodelling in wound healing, scler |
Surface chemistries can include | extracellular matrix proteins, recombinant proteins, pep |
database, is a database of non-collagenous | extracellular matrix proteins. |
n encoded by this gene is a noncollagenous | extracellular matrix (ECM) protein. |
e of structural features characteristic of | extracellular matrix proteins and transmembrane proteins |
yofibers to structural proteins within the | extracellular matrix (such as collagen and laminin). |
gy suggest that changes in cell mechanics, | extracellular matrix structure, or mechanotransduction m |
atrix metalloproteinase family that cleave | extracellular matrix constituents. |
Tenascin-R (TNR) is an | extracellular matrix protein expressed primarily in the |
Cells are surrounded by | extracellular matrix in tissues, which acts as a support |
d chondrocyte proliferation, angiogenesis, | extracellular matrix production and turnover leads to ab |
x metalloproteinases (MMP), which catalyse | extracellular matrix degradation, have N-terminal domain |
OPN is a highly negatively charged, | extracellular matrix protein that lacks an extensive sec |
in the attachment of adherent cells to the | extracellular matrix and of lymphocytes to other cells. |
c tissue showed a serious misregulation of | extracellular matrix components including perlecan with |
rks as a transmembrane linkage between the | extracellular matrix and the cytoskeleton. |
scle fiber to the underlying basal lamina ( | extracellular matrix) through a protein complex containi |
membrane through which cells attach to the | extracellular matrix). |
forms along the collagen fibres within the | extracellular matrix, BSP could then help direct, redire |
he lecticans are a major part of the brain | extracellular matrix, where the chondroitin sugar chains |
in motors, cytoskeletal filaments, nuclei, | extracellular matrix, and numerous other molecular struc |
cesses including mitogenesis, synthesis of | extracellular matrix, glucose metabolism and synthesis o |
ntration that occurs upon cell adhesion to | extracellular matrix. |
weakly degrades structural proteins of the | extracellular matrix. |
play a role in cell interactions with the | extracellular matrix. |
tions, such as those between cells and the | extracellular matrix. |
in the interactions between actin and the | extracellular matrix. |
elated to remodeling or degradation of the | extracellular matrix. |
domain, and via the other end binds to the | extracellular matrix. |
and the induction of enzymes that degrade | extracellular matrix. |
rotein may have important functions in the | extracellular matrix. |
ation, migration, and invasion through the | extracellular matrix. |
both the synthesis and degradation of the | extracellular matrix. |
ivision and secrete fibronectin onto their | extracellular matrix. |
membrane at sites of interaction with the | extracellular matrix. |
thesis (NADP) itself is very sparse in the | extracellular medium, a purse diffusion based mechanism |
studies investigate these potentials using | extracellular microelectrodes. |
protein that captures its ligands from the | extracellular milieu and transports them inside the cell |
cal core of C5a and acidic residues in the | extracellular N-terminal domain allows the C-terminus of |
) domain resulted in two subunits (a large | extracellular N-terminal cell adhesion subunit and a sub |
Alterations in | extracellular nucleotide levels can increase or decrease |
e was the first to describe the effects of | extracellular pH on cardiac and vascular tissues. |
to ATP is strongly modulated by changes in | extracellular pH and by the presence of heavy metals (e. |
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