PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
34049969-6	2021	Importantly, plasma IL-6 and C-reactive protein (CRP) levels positively correlated with mitochondrial mass and negatively correlated with fatty acid uptake in T cells from COVID-19 patients.	Fatty Acids	138-148	C-reactive protein	Homo sapiens	29-47	
7338519-5	1981	Agglutination of liposomes caused by CRP was dependent on the fatty acid composition of phosphatidylcholine, cholesterol content and temperature.	Fatty Acids	62-72	C-reactive protein	Homo sapiens	37-40	
34049969-6	2021	Importantly, plasma IL-6 and C-reactive protein (CRP) levels positively correlated with mitochondrial mass and negatively correlated with fatty acid uptake in T cells from COVID-19 patients.	Fatty Acids	138-148	C-reactive protein	Homo sapiens	49-52	
32559180-5	2020	Interestingly, metabolite levels in these pathways correlated with clinical laboratory markers of inflammation (i.e., IL-6 and C-reactive protein) and renal function (i.e., blood urea nitrogen).CONCLUSIONIn conclusion, this initial observational study identified amino acid and fatty acid metabolism as correlates of COVID-19, providing mechanistic insights, potential markers of clinical severity, and potential therapeutic targets.FUNDINGBoettcher Foundation Webb-Waring Biomedical Research Award; National Institute of General and Medical Sciences, NIH; and National Heart, Lung, and Blood Institute, NIH.	Fatty Acids	278-288	C-reactive protein	Homo sapiens	127-145	
29107850-6	2018	Regression models found several significant fatty acids at which the strength of the parameter beta for each fatty acid on selected markers of C-reactive protein, malondialdehyde, interleukin-6 and serum amyloid A was estimated.	Fatty Acids	44-54	C-reactive protein	Homo sapiens	143-161	
29736227-4	2017	The intake of these fatty acids is related to decrease concentration of C-reactive protein (CRP), proinflammatory eicosanoids, cytokines, chemokines and other inflammation biomarkers.	Fatty Acids	20-31	C-reactive protein	Homo sapiens	72-90	
29736227-4	2017	The intake of these fatty acids is related to decrease concentration of C-reactive protein (CRP), proinflammatory eicosanoids, cytokines, chemokines and other inflammation biomarkers.	Fatty Acids	20-31	C-reactive protein	Homo sapiens	92-95	
28207502-0	2017	Impact of the dietary fatty acid intake on C-reactive protein levels in US adults.	Fatty Acids	22-32	C-reactive protein	Homo sapiens	43-61	
28207502-2	2017	We assessed whether reported dietary fatty acid intake correlates with a serum high-sensitivity C-reactive protein (hs-CRP) concentration in a population-based sample of US men and women.In this cross-sectional analysis, participants were selected from the US National Health and Nutrition Examination Survey (NHANES) and restricted to those with available data on dietary intake, biochemical and anthropometric measurements from 2001 to 2010.	Fatty Acids	37-47	C-reactive protein	Homo sapiens	96-114	
26923510-2	2016	We hypothesized that inflammatory markers interleukin (IL)-6 and C-reactive protein (CRP) mediate the associations between antioxidant and fatty acid intakes, and depression.	Fatty Acids	139-149	C-reactive protein	Homo sapiens	65-83	
26923510-2	2016	We hypothesized that inflammatory markers interleukin (IL)-6 and C-reactive protein (CRP) mediate the associations between antioxidant and fatty acid intakes, and depression.	Fatty Acids	139-149	C-reactive protein	Homo sapiens	85-88	
26923510-12	2016	CRP significantly mediated the relationship between total fat, saturated fat, and monounsaturated fat intakes and depression in women, and saturated fat intake and depression in men.	Fatty Acids	63-76	C-reactive protein	Homo sapiens	0-3	
26923510-12	2016	CRP significantly mediated the relationship between total fat, saturated fat, and monounsaturated fat intakes and depression in women, and saturated fat intake and depression in men.	Fatty Acids	88-101	C-reactive protein	Homo sapiens	0-3	
26728928-2	2016	Associations of serum CRP with FAs in different populations have not been established.	Fatty Acids	31-34	C-reactive protein	Homo sapiens	22-25	
26728928-9	2016	Japanese Americans had CRP associations with n-3 FAs, n-6 FAs, and TFAs similar to but weaker than Whites.	Fatty Acids	49-52	C-reactive protein	Homo sapiens	23-26	
26728928-9	2016	Japanese Americans had CRP associations with n-3 FAs, n-6 FAs, and TFAs similar to but weaker than Whites.	Fatty Acids	58-61	C-reactive protein	Homo sapiens	23-26	
26728928-10	2016	CONCLUSIONS: With the exception of consistent inverse association of CRP with total n-6 FAs, there are considerable variations across the three populations in the associations of CRP with different FAs.	Fatty Acids	88-91	C-reactive protein	Homo sapiens	69-72	
26456189-0	2016	Interaction of SNP in the CRP gene and plasma fatty acid profile in inflammatory pattern: A cross-sectional population-based study.	Fatty Acids	46-56	C-reactive protein	Homo sapiens	26-29	
26456189-10	2016	CONCLUSIONS: The INF group exhibited changes in metabolic parameters that predispose this group to chronic disease, where polymorphisms in the CRP gene modulated the risk of being in the INF group depending on individual plasma fatty acid and lipid profile.	Fatty Acids	228-238	C-reactive protein	Homo sapiens	143-146	
25393688-6	2014	Lipid intake modulated the pro-inflammatory effects of some SNPs, i.e., an increase in both saturated fatty acid and monounsaturated fatty acid intake in those homozygous for the polymorphic allele at rs2808630 was associated with a larger increase in CRP.	Fatty Acids	92-112	C-reactive protein	Homo sapiens	252-255	
26161268-8	2015	Plasma saturated fatty acids (SFA) were positively associated with CRP (beta = 0.24; 95% CI: 0.08 to 0.40, p = 0.003) and triglycerides (beta = 0.08; 95% CI: 0.03 to 0.12, p < 0.01).	Fatty Acids	7-28	C-reactive protein	Homo sapiens	67-70	
26161268-8	2015	Plasma saturated fatty acids (SFA) were positively associated with CRP (beta = 0.24; 95% CI: 0.08 to 0.40, p = 0.003) and triglycerides (beta = 0.08; 95% CI: 0.03 to 0.12, p < 0.01).	Fatty Acids	30-33	C-reactive protein	Homo sapiens	67-70	
25087591-0	2014	Associations of erythrocyte membrane fatty acids with the concentrations of C-reactive protein, interleukin 1 receptor antagonist and adiponectin in 1373 men.	Fatty Acids	37-48	C-reactive protein	Homo sapiens	76-118	
25221751-3	2014	This study was conducted to examine the association between dietary fatty acid intakes and inflammatory markers, interleukin 6 (IL-6) and high sensitivity C-reactive protein (hs-CRP), in CAD patients among Iranian population.	Fatty Acids	68-78	C-reactive protein	Homo sapiens	155-173	
25228402-0	2014	The relationship between specific Fatty acids of serum lipids and serum high sensitivity C- reactive protein levels in morbidly obese women.	Fatty Acids	34-45	C-reactive protein	Homo sapiens	89-108	
24561973-9	2014	On the other hand, dietary intake of saturated fatty acids showed a negative correlation with serum C-reactive protein levels (p=0.001) in males.	Fatty Acids	37-58	C-reactive protein	Homo sapiens	100-118	
25228402-1	2014	BACKGROUND/AIMS: The fatty acid profile in plasma lipids contributes to the increase of plasma high sensitivity C-reactive protein (hsCRP), a marker of inflammation and predictor of cardiovascular risk.	Fatty Acids	21-31	C-reactive protein	Homo sapiens	112-130	
23234408-5	2013	The switch from SAFA diet to PUFA diet produced a significant change of CRP (C-reactive protein) concentration (p<0.01) whereas similar trend of IL-18 did not reach statistical significance.	Fatty Acids	16-20	C-reactive protein	Homo sapiens	72-75	
23594583-0	2013	Saturated fatty acids intake in relation to C-reactive protein, adiponectin, and leptin: a population-based study.	Fatty Acids	0-21	C-reactive protein	Homo sapiens	44-62	
23234408-5	2013	The switch from SAFA diet to PUFA diet produced a significant change of CRP (C-reactive protein) concentration (p<0.01) whereas similar trend of IL-18 did not reach statistical significance.	Fatty Acids	16-20	C-reactive protein	Homo sapiens	77-95	
22153152-0	2012	Relationship of serum fatty acid composition and desaturase activity to C-reactive protein in Japanese men and women.	Fatty Acids	22-32	C-reactive protein	Homo sapiens	72-90	
22891522-6	2012	C-reactive protein level had a significant association with body mass index (r = 0.18), adiposity (r = 0.23), smoking (r = 0.20), carbohydrate intake (r = 0.19) and saturated fatty acid (r = 0.20).	Fatty Acids	165-185	C-reactive protein	Homo sapiens	0-18	
22153152-1	2012	BACKGROUND: Although fatty acid composition in serum and desaturase activity, which alters serum fatty acid composition, has been associated with C-reactive protein (CRP) concentration in Western populations, no study has been carried out in non-Western populations.	Fatty Acids	21-31	C-reactive protein	Homo sapiens	146-164	
22153152-1	2012	BACKGROUND: Although fatty acid composition in serum and desaturase activity, which alters serum fatty acid composition, has been associated with C-reactive protein (CRP) concentration in Western populations, no study has been carried out in non-Western populations.	Fatty Acids	21-31	C-reactive protein	Homo sapiens	166-169	
22153152-1	2012	BACKGROUND: Although fatty acid composition in serum and desaturase activity, which alters serum fatty acid composition, has been associated with C-reactive protein (CRP) concentration in Western populations, no study has been carried out in non-Western populations.	Fatty Acids	97-107	C-reactive protein	Homo sapiens	146-164	
22153152-1	2012	BACKGROUND: Although fatty acid composition in serum and desaturase activity, which alters serum fatty acid composition, has been associated with C-reactive protein (CRP) concentration in Western populations, no study has been carried out in non-Western populations.	Fatty Acids	97-107	C-reactive protein	Homo sapiens	166-169	
22153152-2	2012	We examined the association of serum fatty acids and estimated desaturase activity with CRP concentrations in Japanese men and women.	Fatty Acids	37-48	C-reactive protein	Homo sapiens	88-91	
20891039-1	2010	Laser correlation spectroscopy has indicated that plasma C-reactive protein (CRP) is present as a monomer and a pentamer (pentraxin); the latter is similar in physicochemical properties to apolipoproteins, the proteins that transfer fatty acids as nonpolar triglycerides to the cells in the intercellular medium.	Fatty Acids	233-244	C-reactive protein	Homo sapiens	57-75	
20891039-1	2010	Laser correlation spectroscopy has indicated that plasma C-reactive protein (CRP) is present as a monomer and a pentamer (pentraxin); the latter is similar in physicochemical properties to apolipoproteins, the proteins that transfer fatty acids as nonpolar triglycerides to the cells in the intercellular medium.	Fatty Acids	233-244	C-reactive protein	Homo sapiens	77-80	
19803417-3	2009	Epidemiological studies have revealed demographic and socioeconomic factors that associate with CRP concentration; these include age, sex, birth weight, ethnicity, socioeconomic status, body mass index (BMI), fiber consumption, alcohol intake, and dietary fatty acids.	Fatty Acids	256-267	C-reactive protein	Homo sapiens	96-99	
18687433-1	2009	BACKGROUND: Fatty acid (FA) composition in serum has been associated with C-reactive protein (CRP), but associations with other markers of inflammation and endothelial function, e.g. adhesion molecules are unknown.	Fatty Acids	12-22	C-reactive protein	Homo sapiens	74-92	
18687433-1	2009	BACKGROUND: Fatty acid (FA) composition in serum has been associated with C-reactive protein (CRP), but associations with other markers of inflammation and endothelial function, e.g. adhesion molecules are unknown.	Fatty Acids	12-22	C-reactive protein	Homo sapiens	94-97	
20204259-0	2010	[Effect of a high saturated fatty acids load on serum concentrations of C-reactive protein, alpha1-antitrypsin, fibrinogen and alpha1-acid glycoprotein in obese women].	Fatty Acids	18-39	C-reactive protein	Homo sapiens	72-90	
18810827-0	2008	[Apo-E, C-reactive protein, and apolipoprotein (A) are vector proteins for transfer of fatty acids to loose connective tissue cells at the stages of inflammation syndrome and in mutations].	Fatty Acids	87-98	C-reactive protein	Homo sapiens	8-26	
18724426-0	2008	[C-reactive protein is a vector of fatty acid transfer to the cells that directly realize the systemic inflammatory response syndrome].	Fatty Acids	35-45	C-reactive protein	Homo sapiens	1-19	
18763328-0	2008	[C-reactive protein: effect of hormones, physical activity, and dietary fatty acids.	Fatty Acids	72-83	C-reactive protein	Homo sapiens	1-19	
12370214-0	2002	Supplementation with conjugated linoleic acid causes isomer-dependent oxidative stress and elevated C-reactive protein: a potential link to fatty acid-induced insulin resistance.	Fatty Acids	140-150	C-reactive protein	Homo sapiens	100-118