「fatty」の共起表現一覧(1語右で並び替え)
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Fatty, a white girl and Fudge, a black girl, partner | |
ves like a saturated and not a monounsaturated | fatty acid in its effect on LDL cholesterol. |
ounts by several pathways, primary amongst the | fatty acid synthesis, glycerolipid metabolism, and b |
n catalyzes the last step of the mitochondrial | fatty acid beta oxidation spiral. |
It allows the blending of up to 7% | fatty acid methyl ester with 'conventional' diesel - |
oleoyl-phosphatidylcholine, which contains the | fatty acid oleic acid at the sn-1 position. |
Jasmonic acid (JA) is derived from the | fatty acid linolenic acid. |
also called eicosanoic acid, is the saturated | fatty acid with a 20 carbon chain. |
acid, or DHA, an inflammation-lowering omega-3 | fatty acid commonly found in fatty fish, have two-an |
or tridecanoic acid, is a 13-carbon saturated | fatty acid with the chemical formula CH3(CH2)12COOH. |
The | fatty acid is firstly bound to CoA to cross the exte |
-cis 5,8,11,14-eicosatetraenoic acid is an ω-6 | fatty acid with the trivial name arachidonic acid. |
r-protein) reductase) is an enzyme involved in | fatty acid synthesis. |
stereoisomer, cis-vaccenic acid is an omega-7 | fatty acid found in Sea Buckthorn (Hippophae rhamnoi |
alcohols, for example using ethanol to produce | fatty acid ethyl esters, however these types of biod |
The growing | fatty acid chain is carried between these active sit |
enzyme participates in 10 metabolic pathways: | fatty acid metabolism, synthesis and degradation of |
Fatty acid amide hydrolase or FAAH is a member of th | |
of the inactive apo-Acyl carrier protein from | fatty acid or polyketide biosynthesis into the activ |
e), which is formed in the addition of a third | fatty acid to the diacylglycerol under the catalysis |
ontribution of dairy products to the saturated | fatty acid intake of the diet, there was no clear ev |
eveloped a new means of efficiently converting | fatty acid intermediates into petroleum replacement |
arachidonic acid or alternate polyunsaturated | fatty acid substrates, such as linoleic and eicosape |
e and protein synthesis, lipid metabolism, and | fatty acid metabolism) as well as cognitive issues r |
elling masses of bacteria, granular debris and | fatty acid crystals found in the sputum in fetid bro |
Ala8 and Ser11, and with variations of natural | fatty acid side chains to generate over seventy nove |
ng (due to inability to switch from glucose to | fatty acid oxidation), impaired ketogensis, vomiting |
A is thought to be a cis-acting regulator of a | fatty acid desaturase (desA2) while ASpks is found w |
m including the acyl carrier proteins (ACP) of | fatty acid synthases, ACPs of polyketide synthases, |
This enzyme participates in | fatty acid metabolism and ppar signaling pathway. |
neogenesis, ascorbate and aldarate metabolism, | fatty acid metabolism, bile acid biosynthesis, urea |
amethyl hexadecanoic acid) is a branched chain | fatty acid that humans can obtain through the consum |
enzymes involved in the condensation steps in | fatty acid biosynthesis, which Gram-positive bacteri |
re lipophillic than vancomycin, as it has more | fatty acid chains. |
The nine-carbon | fatty acid 9-hydroxy-nonanoic acid (9-HN) is derived |
2,4 Dienoyl-CoA reductase deficiency is a | fatty acid metabolism disorder. |
ren with cystic fibrosis suffer from essential | fatty acid (EFA) deficiency due to malabsorption, it |
ort to the cytosol to serve as a substrate for | fatty acid and isoprenoid biosynthesis. |
Linoelaidic acid is an omega-6 trans | fatty acid and is a geometric isomer of linoleic aci |
in the blood causes an increase in serum free | fatty acid concentration. |
. Grade D or U.S. Substandard possesses a free | fatty acid content greater than 3.0% and "fails to m |
yme, 3-ketoacyl-acyl carrier protein synthase, | fatty acid condensing enzyme, acyl-malonyl(acyl-carr |
Montanic acid is a saturated | fatty acid isolated and detected mainly in montan wa |
r oil reasonably good flavor and odor and free | fatty acid content of not more than 2g per 100g; |
The oil's | fatty acid composition is dominated by linoleic acid |
This enzyme participates in polyunsaturated | fatty acid biosynthesis and ppar signaling pathway. |
metabolites of arachidonic acid; see Essential | fatty acid interactions for detail. |
EPA is a polyunsaturated | fatty acid (PUFA) that acts as a precursor for prost |
of PPAR-alpha is dependent on the presence of | fatty acid synthase. |
Malvalic acid is a cyclopropenic | fatty acid found in cottonseed oil. |
ysophosphatidylcholines, where R is a variable | fatty acid chain |
phosphatidylcholines which removes one of the | fatty acid groups. |
eride storage disease with impaired long-chain | fatty acid oxidation. |
lipid-anchored proteins, a covalently attached | fatty acid such as palmitate or myristate serves to |
These hydrophobic | fatty acid chains anchor the LPS into the bacterial |
ith foods rich in unsaturated fats and omega-3 | fatty acid which contribute to HDL cholesterol and p |
ketoacyl-ACP synthase is an enzyme involved in | fatty acid synthesis. |
This enzyme participates in | fatty acid biosynthesis and insulin signaling pathwa |
To be oxidatively degraded, a | fatty acid must first be activated in a two-step rea |
Small molecule thioesterases, including | fatty acid synthase and the acyl-CoA thioesterases |
city to detect endogenous ligands, and certain | fatty acid amines that arise from changes in interna |
enin is an antifungal antibiotic that inhibits | fatty acid and steroid biosynthesis. |
Excessive free | fatty acid production by various tissues leads to in |
specificity for short-, medium-, or long-chain | fatty acid acyl-CoA substrates. |
f polyketides share striking similarities with | fatty acid biosynthesis. |
l protein deficiency is an autosomal recessive | fatty acid oxidation disorder that prevents the body |
higher the iodine number, the more unsaturated | fatty acid bonds are present in a fat. |
fatty acid synthesis) | |
Fatty acid metabolism | |
This cycle continues, as the new | fatty acid radical reacts in the same way. |
acetyl-CoA, is important in the regulation of | fatty acid metabolism. |
skeletal muscle cells have a low capacity for | fatty acid synthesis, ACC may act purely as a regula |
Fatty acid oxidation (β-oxidation) | |
-CoA to malonyl-CoA, the rate-limiting step in | fatty acid synthesis. |
roved insulin sensitivity and enhanced hepatic | fatty acid oxidation and whole body metabolism. |
the polysorbate part is related to the type of | fatty acid associated with the polyoxyethylene sorbi |
ncoded by this gene is the first enzyme of the | fatty acid beta-oxidation pathway, which catalyzes t |
LXRs regulate | fatty acid synthesis by modulating the expression of |
This enzyme participates in | fatty acid biosynthesis. |
The acetyl-CoA is then used for | fatty acid synthesis and cholesterol synthesis, two |
t also has the related activity of stimulating | fatty acid oxidation through the activation of CPT1, |
reported that cerulenin specifically inhibited | fatty acid biosynthesis in Saccharomyces cerevisiae |
This enzyme participates in | fatty acid metabolism. |
It is the trans-isomer of the | fatty acid ricinoleic acid. |
(PPARs), specifically PPARα, to decrease free | fatty acid production. |
hydrolysis of diacylglycerol, releasing a free | fatty acid and monoacylglycerol. |
Both polyketide synthases and | fatty acid synthases are excellent examples of multi |
orters involved with glucose, cholesterol, and | fatty acid transport and metabolism. |
An ester of a | fatty acid and a long-chain alcohol. |
Tuberculostearic acid is a saturated | fatty acid produced by Actinomycetales bacteria. |
Oleic acid is the most abundant | fatty acid in human adipose tissue. |
Oleic acid is a monounsaturated omega-9 | fatty acid found in various animal and vegetable fat |
Fatty acid desaturase 2 is a member of the fatty aci | |
ne-bound mixed-function oxidase and harbours a | fatty acid hydroxylase motif. |
In plants, de novo | fatty acid synthesis occurs in the plastids. |
Other names in common use include | fatty acid methyltransferase, and fatty acid O-methy |
the VLDLR might play an important role in the | fatty acid metabolism of non-hepatic tissues. |
It is the main trans | fatty acid isomer present in milk fat. |
Malvalic acid is a toxic cyclopropene | fatty acid that occurs in cottonseed oil. |
echanism and regulation of the cholesterol and | fatty acid metabolism. |
These | fatty acid derivatives may be considered as complex |
DHA is an omega-3 | fatty acid important to cardiovascular health and th |
Other names in common use include D-2-hydroxy | fatty acid dehydrogenase, and 2-hydroxy fatty acid o |
ulture suggested that CLA can induce essential | fatty acid redistribution in mice. |
It is believed that the | fatty acid chain inserts and assumes a place in the |
This enzyme participates in | fatty acid elongation in mitochondria and polyunsatu |
and SCAD deficiency, is an autosomal recessive | fatty acid oxidation disorder which affects enzymes |
Fatty acid synthesis is the creation of fatty acids | |
There are two principal classes of | fatty acid synthases. |
"Dietary essential | fatty acid supply and visual acuity development." |
In | fatty acid synthesis, it has been reported to bind i |
This enzyme is also called long chain | fatty acid peroxidase. |
arnitine and H2O, whereas its two products are | fatty acid and L-carnitine. |
-7,10,13,16,19-docosapentaenoic acid is an ω-3 | fatty acid with the trivial name clupanodonic acid, |
wo-dimensional representation of the saturated | fatty acid myristic acid |
roduced from these types of oil using methanol | fatty acid methyl esters (FAME) are produced. |
n many different parts of the world, the oil's | fatty acid profile is not greatly influenced by envi |
e distinctly different from those of mammalian | fatty acid biosynthesis enzymes. |
ated when the hydroxyl group of a sterol and a | fatty acid undergo an esterification reaction. |
This enzyme participates in polyunsaturated | fatty acid biosynthesis. |
A Type I | fatty acid synthase system is also found in the CMN |
lipids (consisting of a phosphate head and two | fatty acid tails) arranged into a double-layer, the |
Oleamide is an amide of the | fatty acid oleic acid. |
ucted with acetate in the canonical fashion of | fatty acid synthesis. |
This enzyme participates in | fatty acid elongation in mitochondria. |
This is caused by the precipitation of natural | fatty acid esters which are less soluble at low temp |
sion ignition (diesel) engines that is made of | fatty acid monoalkyl esters derived from biologicall |
This enzyme participates in | fatty acid metabolism and lysine degradation. |
Metabolism and homeostasis of | fatty acid synthase is transcriptionally regulated b |
This enzyme is also called yeast | fatty acid synthase. |
Calcium sorbate is a polyunsaturated | fatty acid salt. |
supplements are bought for their healthful n-3 | fatty acid content, it is therefore vital for manufa |
This enzyme participates in | fatty acid metabolism and butanoate metabolism. |
rug has been created by the association of the | fatty acid docosahexaenoic acid (DHA) with clozapine |
d by carnitine palmitoyltransferase II and the | fatty acid rebinds to CoA. |
amide or ester compound with another amine or | fatty acid to produce a new amide or peptide. |
Oleoyl-estrone (OE) is a | fatty acid ester of estrone. |
d is formed between the carboxylate group of a | fatty acid and the hydroxyl group of cholesterol. |
This reaction is important in | fatty acid metabolism. |
"Trans | Fatty Acid (Kruder & Dorfmeister Session mix)" - 9:0 |
oxystearate, lithium hydroxide hydrate and the | fatty acid are combined in an aqueous medium. |
aP2 is also called | fatty acid binding protein 4 (FABP4). |
ducing power to biosynthetic processes such as | fatty acid biosynthesis. |
is the ester formed by the condensation of the | fatty acid oleic acid and ethanol. |
is a defect in one of the enzymes involved in | fatty acid metabolism. |
hromic acid, yielded a red powdery solid and a | fatty acid fusing at 62 °C, and exhibiting all the c |
Free | fatty acid receptor 2 (FFA2) is a G-protein coupled |
is a combination of a sugar (saccharide) and a | fatty acid that is found in cell membranes. |
H (a reducing agent for several reactions like | fatty acid synthesis and glutathione reduction in er |
s enzyme participates in 3 metabolic pathways: | fatty acid metabolism, polyunsaturated fatty acid bi |
A very long chain | fatty acid (VLCFA) is a fatty acid with aliphatic ta |
Calendic acid is the | fatty acid responsible for the reduction in feed int |
s enzyme participates in 3 metabolic pathways: | fatty acid metabolism, valine, leucine and isoleucin |
s enzyme participates in 3 metabolic pathways: | fatty acid metabolism, arachidonic acid metabolism, |
idized by the citric acid cycle or be used for | fatty acid synthesis. |
yl-CoA desaturase, Delta6-acyl CoA desaturase, | fatty acid Delta6-desaturase, fatty acid 6-desaturas |
clude alkane 1-hydroxylase, omega-hydroxylase, | fatty acid omega-hydroxylase, alkane monooxygenase, |
It is a | fatty acid found naturally in various animal fats an |
nclude Delta9-desaturase, acyl-CoA desaturase, | fatty acid desaturase, and stearoyl-CoA, hydrogen-do |
e terminal and subterminal carbons, yielding a | fatty acid that is one carbon shorter than the paren |
ansferase, cyclopropane synthase, cyclopropane | fatty acid synthase, cyclopropane fatty acid synthet |
by this enzyme become potential substrates for | fatty acid amide hydrolase (FAAH), which hydrolyzes |
nzYme) is database of enzymes constituting the | fatty acid synthesis and polyketide synthesis cycles |
Uvaricin is a bis(tetrahydrofuranoid) | fatty acid lactone that was first isolated in 1982 f |
s enzyme participates in 7 metabolic pathways: | fatty acid metabolism, androgen and estrogen metabol |
he mechanism and regulation of cholesterol and | fatty acid metabolism. |
Fatty acid desaturase 2 (FADS2) also known as delta( | |
ctually announced the creation of a high oleic | fatty acid soybean, with levels of oleic acid greate |
Other names in common use include hydroxy | fatty acid phosphatase, dihydroxy fatty acid phospha |
The term | fatty acid oxidation disorder (FAOD) is sometimes us |
the common name for the eight-carbon saturated | fatty acid known by the systematic name octanoic aci |
ed with toxic-oil-specific components, such as | fatty acid anilides and esters of PAP, have provided |
The | fatty acid radical is not a very stable molecule, so |
ivity of CPT1, causing an ultimate decrease in | fatty acid oxidation. |
erties and may be considered a polyunsaturated | fatty acid analog. |
red by the FDA to list how many grams of trans | fatty acid (trans fat) are contained within one serv |
genation produces a product of about 40% trans | fatty acid by weight, compared to about 17% using th |
Fatty acid oxidation also occurs in peroxisomes, whe | |
enzyme A dehydrogenase deficiency (MCADD) is a | fatty acid oxidation disorder associated with inborn |
ause unchecked ketone body production (through | fatty acid metabolism) potentially leading to danger |
esel produced using ethanol is properly called | fatty acid ethyl ester, whereas biodiesel from metha |
ides (MCTs) are medium-chain (6 to 12 carbons) | fatty acid esters of glycerol. |
s-4,7,10,13,16-docosapentaenoic acid is an ω-6 | fatty acid with the trivial name Osbond acid. |
ses, including the anandamide-degrading enzyme | fatty acid amide hydrolase (FAAH), thereby making it |
Long-chain | fatty acid transport protein 1 is a protein that in |
In enzymology, a polyenoic | fatty acid isomerase (EC 5.3.3.13) is an enzyme that |
is a key enzyme of the type II | fatty acid synthesis (FAS) system. |
a docosanoid derived from the polyunsaturated | fatty acid (PUFA) docosahexaenoic acid (DHA), which |
e concentration in cells diminishes, affecting | fatty acid metabolism in various tissues. |
Long-chain | fatty acid transport protein 3 is a protein that in |
s enzyme participates in 4 metabolic pathways: | fatty acid metabolism, pyruvate metabolism, propanoa |
effects, scientists believe that their Omega 3 | fatty acid profile is at least in part responsible f |
These amides conceptually can be formed from a | fatty acid and ethanolamine with the release of a mo |
(nM) in most tissues and is inactivated by the | fatty acid amide hydrolase. |
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