「LIPID」の共起表現一覧(1語右で並び替え)
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mmune system, fragments of membrane containing | lipid A are released into the circulation, causing f |
Lipid A structure and effects on eukaryotic cells ha | |
Lipid A deacylase (PagL) is an outer membrane protei | |
sists of aluminum hydroxide and monophosphoryl | lipid A (MPL). |
Chemical structure of | lipid A as found in E. Coli |
Antimicrobial peptide resistance and | lipid A acylation protein PagP is a family of severa |
Lipid A with a reduced number of acyl chains (for ex | |
Lipid A (and LPS) has been demonstrated to activate | |
The | lipid A domain is responsible for much of the toxici |
Lipid A is, in normal circumstances, a phosphorylate | |
Consequently, | lipid A analogs like eritoran can act as TLR4 antago |
Lipid A consists of two glucosamine (carbohydrate/su | |
The biosynthetic pathway for | Lipid A in E. coli has been determined by the work o |
The enzyme removes from | lipid A the secondary acyl chains that are needed fo |
If | lipid A, part of the LPS, enters the circulatory sys |
sfers a palmitate chain from a phospholipid to | lipid A. In a number of pathogenic Gram-negative bac |
fy more than twice the number of patients with | lipid abnormalities than the standard lipid panel (c |
Their enlargement is due to glycogen and | lipid accumulation in the cytoplasm allowing these c |
been shown to be involved in differentiation, | lipid accumulation, directional sensing, polarizatio |
Synthetic ether | lipid analogs have cytostatic and cytotoxic properti |
A toxic ether | lipid analogue miltefosine has recently been introdu |
They are membrane-bound through a | lipid anchor at the N-terminus, and a polybasic doma |
An example of this can be seen in the | lipid anchoring of the Rho GTPase family of signalin |
The N-terminal region is thought to bind the | lipid and contains two helices and an eight-stranded |
scientist who was involved in the research of | lipid and flavors in food, including the development |
d in the cells do not pose much harm, elevated | lipid and cholesterol levels in the blood have been |
Rev-erbβ has been implicated in the control of | lipid and energy homoeostasis in skeletal muscle. |
low thorns in which to live, but also produces | lipid- and protein-rich food bodies, known as Beltian |
(Vertical Auto Profile) Test is a cholesterol, | lipid and lipoprotein test. |
ent types of biological membranes have diverse | lipid and protein compositions. |
proteins mediate the presentation of primarily | lipid and glycolipid antigens of self or microbial o |
ge caused by free radicals because of its high | lipid and iron contents. |
The importance of LXRs in physiological | lipid and cholesterol metabolism suggests that they |
aller and denser (since protein is denser than | lipid) and ultimately becomes low density lipoprotei |
rotein lie within the plane of the surrounding | lipid bilayer and which portions protrude into the w |
For bilayers in biology, see | lipid bilayer |
One of the most important properties of a | lipid bilayer is the relative mobility (fluidity) of |
Calculated hydrocarbon boundaries of the | lipid bilayer are indicated by red and blue lines. |
ese aggregate processes can also be studied on | lipid bilayer constructs. |
ows a molecule that cannot regularly cross the | lipid bilayer to enter the cell by way of a protein |
Herpesviruses have an envelope and an outer | lipid bilayer which contains twelve surface glycopro |
Being a phospholipid, it accumulates in the | lipid bilayer of the liposomes in the infusion. |
mbrane fluidity refers to the viscosity of the | lipid bilayer of a cell membrane. |
Broadly, at a given temperature a | lipid bilayer can exist in either a liquid or a soli |
de of the hydrophobic interior of the cellular | lipid bilayer to form a β-helix. |
y rhodopsin II (rainbow colored) embedded in a | lipid bilayer (heads red and tails blue) with Transd |
ns of ribitol phosphate and is anchored to the | lipid bilayer via a glyceride. |
ould provide a wide range of information about | lipid bilayer packing, phase transitions (gel phase, |
and the charged species can diffuse across the | lipid bilayer by passive diffusion and simultaneousl |
in lipopeptides to anchor in the cell membrane | lipid bilayer and target the GPCR/G protein interfac |
transport them through apolar phase (including | lipid bilayer membranes). |
g cation" for the ability to penetrate through | lipid bilayer) with antioxidant plastoquinone attach |
s may be part of alpha-helix spanning across a | lipid bilayer, which is composed of hydrophobic fatt |
most reliably based on the assumption that the | lipid bilayer-spanning portions of a transmembrane p |
with the transmembrane domains from within the | lipid bilayer. |
pherol and polyunstaturated fatty acids in the | lipid bilayer. |
xternal face allowing it to associate with the | lipid bilayer. |
hich interact directly with the surface of the | lipid bilayer. |
"trans" complexes likely bridges the opposing | lipid bilayers of membranes belonging to cell and se |
a distinctive tegument that is composed of two | lipid bilayers instead of a single bilayer. |
is the process by which two initially distinct | lipid bilayers merge their hydrophobic cores, result |
n used, for example, to study the formation of | lipid bilayers and their interaction with membrane p |
it is a nonphysiological amphiphile that makes | lipid bilayers less "stiff". |
s also studied problems concerning the flow of | lipid bilayers and monolayers, and has investigated |
Liposomes are | lipid bilayers with a hydrophobic external surface w |
is a powerful and versatile tool for studying | lipid bilayers, there are some practical limitations |
d for research purposes in studying liposomes, | lipid bilayers, and model biological membranes and i |
, is an ionophore that allows protons to cross | lipid bilayers. |
In humans, LPS binds to the | lipid binding protein (LBP) in the serum which trans |
25 protein has been identified as containing a | lipid binding CRAL-TRIO domain. |
Colonies held together by a | lipid biofilm matrix can be found in temperate or tr |
e proteins, but others such as rhamnolipid are | lipid biosurfactants. |
cyl-CoA esters, and thereby play a key role in | lipid biosynthesis and fatty acid degradation. |
nzyme in the nervous system that breaks down a | lipid called GM2 ganglioside. |
ded a molecular theory for the behavior of the | lipid chains of the membrane. |
Prenylation is the attachment of | lipid chains to proteins to facilitate their interac |
boundary condition on the configuration of the | lipid chains. |
molecular species of most major and many minor | lipid classes can be fingerprinted and quantitated d |
Pentostam, Liposomal and | lipid complex preparations of Amphotericin B, or par |
antibiotics that bind to a cell wall precursor | lipid component of target bacteria and disrupt cell |
be analyzed directly without separation of the | lipid component. |
The | lipid components of lipoproteins are not soluble in |
r membrane of mitochondria (IMM) is similar in | lipid composition to the membrane of bacteria. |
A prostaglandin is any member of a group of | lipid compounds that are derived enzymatically from |
Sphingomyelin is a | lipid constituent of cell membrane, and a dietary co |
In hemifusion, the | lipid constituents of the outer leaflet of the two b |
Sphingosyl phosphatide refers to a | lipid containing phosphorus and a long-chain base. |
the rare property of producing seeds of 25-40% | lipid content of which nearly half is oleic acid. |
Aside from a large | lipid content, lipofuscin is known to contain sugars |
sed diets found significant reduction in blood | lipid count and cholesterol count. |
years of TPN (Total Parenteral Nutrition) and | Lipid dependancy. |
Cephalin is a phospholipid, which is a | lipid derivative. |
al C1 domain similar to protein kinase C. When | lipid diacylglycerol (DAG) binds to the C1 domain, C |
In | lipid digestion, cholesterol is packed into Chylomic |
Mutations in either genes result in a | lipid disorder, sitosterolemia. |
It is the most common inherited | lipid disorder, occurring in approximately one in tw |
merged recently with the discovery of discrete | lipid domains, dubbed 'lipid rafts' in cellular memb |
r proteins ( nm), but not for micrometre-scale | lipid domains. |
Nile red stains intracellular | lipid droplets red. |
ycogen granules in the liver and muscle cells, | lipid droplets in fat cells, pigment granules in cer |
s have been published of the successful use of | lipid emulsion in this way (Rosenblatt 2006, Litz 20 |
t Intralipid, a commonly available intravenous | lipid emulsion, can be effective in treating severe |
a negative, single stranded RNA genome with a | lipid envelope and 5 structural proteins. |
he molecular ions can be used to determine the | lipid family and often structurally define the molec |
It is an important | lipid for biophysical experiment and has been used t |
monophosphate is an essential glycosyl carrier | lipid for C- and O-mannosylation and N-glycosylation |
n, a side effect which is less likely with the | lipid formulation. |
Caldarchaeol is a membrane-spanning | lipid found in hyperthermophilic archaea. |
embrane proteins, anchored to a membrane via a | lipid group covalently linked to an amino acid. |
Eventually, enough | lipid has been lost and additional apolipoproteins g |
nological free energy contributions describing | lipid head group repulsion and membrane solvent surf |
etween amid protons of protein to phosphate of | lipid headgroups, which is useful in studies of prot |
ntrolling transcriptional programs involved in | lipid homeostasis and inflammation. |
LXRs also regulate | lipid homeostasis in the brain. |
efined as chemicals that inappropriately alter | lipid homeostasis and fat storage, change metabolic |
pholipids transport, and may regulate cellular | lipid homeostasis in other cell types. |
haracterised cis-9,10-octadecenoamide, a novel | lipid hormone that induces sleep, and provided the f |
Lysochromes such as Sudan IV bind to the | lipid in a substrate and show up as colored regions. |
e group 20-39), the concentration was 9.7 pg/g | lipid in 2001-2002 (geometric mean). |
the protein, or induced and stabilized by the | lipid interaction. |
f synthesizing cross-linked peptidoglycan from | lipid intermediates and mediating the removal of D-a |
alling pathways, especially protein kinase and | lipid kinase pathways. |
tdIns(3,5)P2 in intracellular membranes by the | lipid kinase PIKfyve recruits a number of important |
lids) produce less oil (oil that makes up the | lipid layer of tear film which prevents the evaporat |
idemia have been reported, monitoring of blood | lipid level is recommended. |
d triglyceride levels, although overall plasma | lipid levels were similar at the beginning and the e |
Gemfibrozil, an oral drug used to lower | lipid levels |
duction is increased by dyslipidemia (abnormal | lipid levels in the blood). |
dications, are modestly effective in improving | lipid levels. |
ar localization and specificity for particular | lipid ligands. |
PIPES has been documented minimizing | lipid loss when buffering glutaraldehyde histology i |
al effects such as antioxidant activity, blood | lipid lowering, anticancer activity, and inhibition |
They are significant | lipid mediators of the arachidonic acid cascade conv |
The first system developed was the black | lipid membrane or “painted” bilayer, which allows si |
free-living cells would be the synthesis of a | lipid membrane that finally allows the organisms to |
e example is the use of deuterium NMR to study | lipid membrane phase behavior. |
The insertion of membrane proteins into a | lipid membrane has been monitored using LD, supplyin |
atidylethanolamine (PE) creates a more viscous | lipid membrane compared to phosphatidylcholine (PC). |
The mediation of | lipid membrane form and function by cholesterol affe |
isting of an envelope, a core, and an internal | lipid membrane associated with the inner particle. |
It is one of the few viruses to possess a | lipid membrane and a protective inner capsid in the |
anchor that is associated with the underlying | lipid membrane. |
The mediator crosses the outer cell | lipid membranes and bacterial outer membrane; then, |
on of the partitioning between the cytosol and | lipid membranes of living systems. |
d, pre-cells may have developed steriospecific | lipid membranes through frequent fission and fusion |
litates the movement of potassium ions through | lipid membranes "down" an electrochemical potential |
en shown to alter the shape and composition of | lipid membranes, to modify membrane-coat protein int |
rong fluorescence when it is intercalated into | lipid membranes. |
Sphingosine-1-phosphate (SPP) is a novel | lipid messenger with both intracellular and extracel |
tein kinases and phosphatases, and by inositol | lipid metabolic pathways. |
emia is a rare autosomal recessively inherited | lipid metabolic disorder characterized by hyperabsor |
, and (4) have a functional role in regulating | lipid metabolism in adipocytes. |
transcription factor and a major regulator of | lipid metabolism in the liver. |
Lipid metabolism refers to the processes that involv | |
This enzyme participates in ether | lipid metabolism as a step in glycerolipid biosynthe |
They are sometimes classified with the | lipid metabolism disorders, but in other contexts th |
6th International Symposium on Drugs Affecting | Lipid Metabolism (New York, Oct 4-7, 2007), Merck re |
es through identifying alterations in cellular | lipid metabolism, trafficking and homeostasis.The tw |
s in lipids and protein constituents mediating | lipid metabolism, trafficking, or biological functio |
d to muscle maintenance and protein synthesis, | lipid metabolism, and fatty acid metabolism) as well |
It can be a sign of disturbance in | lipid metabolism, an indicator of conditions such as |
ed in protein, nucleic acid, carbohydrate, and | lipid metabolism, as well as in the control of gene |
This enzyme participates in ether | lipid metabolism. |
participates in glycerophospholipid and ether | lipid metabolism. |
t pathologies associated with abnormalities in | lipid metabolism. |
ism, glycerophospholipid metabolism, and ether | lipid metabolism. |
and cholesterol esters, thus interfering with | lipid metabolism. |
leeding time, as well as changes in weight and | lipid metabolism. |
gulatory effects on protein, carbohydrate, and | lipid metabolism. |
transferase. This enzyme participates in ether | lipid metabolism. |
ts that indicate a potential for modulation of | lipid metabolism; consequently HCA is an ingredient |
ganelle biogenesis and molecular regulation of | lipid metabolism; she has published and lectured wid |
ther names in common use include PEMT, LMTase, | lipid methyl transferase, phosphatidylethanolamine m |
Lipid micelles represent a molecular assembly in whi | |
channelosome is frequently clustered within a | lipid microdomain or caveolae. |
It occurs in many | lipid mixtures combining cholesterol with a phosphol |
This implies that | lipid mobilisation by Akh can have a variety of uses |
f dedicated researchers elucidated the role of | lipid modification of proteins (protein prenylation) |
Furthermore distribution of many different | lipid molecular species often define anatomical regi |
nd quantification of the thousands of cellular | lipid molecular species and their interactions with |
nd quantification of the thousands of cellular | lipid molecular species and their interactions with |
) is the result of the bonding of a protein or | lipid molecule with a sugar molecule, such as fructo |
In contrast, during electroporation the | lipid molecules are not chemically altered but simpl |
me-controlled addition of sugars to protein or | lipid molecules is termed glycosylation; glycation i |
In both phases the | lipid molecules are constrained to the two dimension |
he similar fatty-acid tails of the surrounding | lipid molecules. |
ve had a membrane composed of mixed-enantiomer | lipid molecules. |
d each other, forming a structure resembling a | lipid multilayer . |
mal diseases, acromegaly, denervation atrophy, | lipid myopathy, chronic obstructive pulmonary diseas |
Curcuminoids as loaded solid | lipid nanoparticles (SLN) have been developed with g |
ns like phloroglucinol due to the phenolic and | lipid nature of the Casparian strips or the abundanc |
IFT Stephen S. Chang Award for | Lipid or Flavor Science - First awarded in 1993 |
Phenolic compounds slow down | lipid oxidation in meats. |
The | lipid palmitate builds to high concentration within |
blood test to measure the level of 7-DHC or a | lipid panel are the most common tests. |
re areas of risk to patients than the standard | lipid panel, specifically because it reports 15 sepa |
Unlike the standard | lipid panel, the VAP Test directly measures LDL. |
The | lipid part of the lipophosphoglycan is normally foun |
A lipophosphoglycan is made up of two parts; a | lipid part and a polysaccharide (also called glycan) |
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