PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
1379443-8	1992	Carbohydrate constitutes about 20% of the molecular mass of CD59.	Carbohydrates	0-12	CD59 molecule (CD59 blood group)	Homo sapiens	60-64	
8848343-9	1996	The rate of carbohydrate absorption was greater from the glucose polymers than from the lactose solution (0.40 +/- 0.10 mg.min-1.cm-1 versus 0.22 +/- 0.06, respectively).	Carbohydrates	12-24	CD59 molecule (CD59 blood group)	Homo sapiens	123-128	
28230742-1	2017	Peak exogenous carbohydrate oxidation rates typically reach ~1 g min-1 during exercise when ample glucose or glucose polymers are ingested.	Carbohydrates	15-27	CD59 molecule (CD59 blood group)	Homo sapiens	65-70	
2165407-2	1990	The initial rate of peroxidase"s oxidation is directly proportional to the periodate concentration; the oxidation rate constant of peroxidase carbohydrate moiety is 1.23 x 10(-3) M-1 min-1.	Carbohydrates	142-154	CD59 molecule (CD59 blood group)	Homo sapiens	183-188	
2851193-2	1988	When rt-PA was treated with sodium periodate to oxidize carbohydrate residues, the rate of clearance was decreased from 9.6 +/- 1.9 ml min-1 kg-1 to 3.5 +/- 0.6 ml min-1 kg-1 (mean +/- SD, n = 5).	Carbohydrates	56-68	CD59 molecule (CD59 blood group)	Homo sapiens	135-145	
2851193-2	1988	When rt-PA was treated with sodium periodate to oxidize carbohydrate residues, the rate of clearance was decreased from 9.6 +/- 1.9 ml min-1 kg-1 to 3.5 +/- 0.6 ml min-1 kg-1 (mean +/- SD, n = 5).	Carbohydrates	56-68	CD59 molecule (CD59 blood group)	Homo sapiens	164-174	
6361440-6	1983	As a result of the GP feedings the rate of carbohydrate utilization during the GP trial was 0.53 g X min-1 greater than during the C trial.	Carbohydrates	43-55	CD59 molecule (CD59 blood group)	Homo sapiens	101-106	
31655603-8	2019	RESULTS: Exogenous carbohydrate oxidation contributed 27.6 +- 6.6% to the total energy yield with CHO-HG and the peak exogenous carbohydrate oxidation rate reached 1.33 +- 0.27 g min- 1.	Carbohydrates	19-31	CD59 molecule (CD59 blood group)	Homo sapiens	179-185	
31655603-8	2019	RESULTS: Exogenous carbohydrate oxidation contributed 27.6 +- 6.6% to the total energy yield with CHO-HG and the peak exogenous carbohydrate oxidation rate reached 1.33 +- 0.27 g min- 1.	Carbohydrates	128-140	CD59 molecule (CD59 blood group)	Homo sapiens	179-185	
1951684-4	1991	The increase in carbohydrate (CHO) oxidation (which is proportional to glycolysis) during the clamp after the 10-h fast (to 13.8 +/- 1.5 mumol.kg fat free mass-1.min-1) was completely abolished during the clamp after the 72-h fast (1.7 +/- 0.6; P less than or equal to 0.001).	Carbohydrates	16-28	CD59 molecule (CD59 blood group)	Homo sapiens	162-167	
1875801-1	1991	There is now substantive evidence that the provision of exogenous carbohydrate at high rates (1-2 g. min-1) can enhance performance during prolonged exercise.	Carbohydrates	66-78	CD59 molecule (CD59 blood group)	Homo sapiens	101-106	
31870935-5	2020	Participants consumed both a carbohydrate (1.2g min-1 glucose) and a placebo beverage after breakfast consumption and omission.	Carbohydrates	29-41	CD59 molecule (CD59 blood group)	Homo sapiens	48-53	
30249353-9	2018	Total carbohydrate and fat oxidation during running decreased (0.76 vs. 1.82 g min-1; delta=-3.9) and increased (0.91 vs. 0.54 g min-1; delta=3.7), respectively, more profoundly on RP as the MSUM progressed.	Carbohydrates	6-18	CD59 molecule (CD59 blood group)	Homo sapiens	79-84	
29228713-2	2017	The LTQ Orbitrap LC-MS/MS mass spectrometry analysis of cell surface TF-Ag proteome of metastatic prostate cancer cells reveals that several cell surface glycoproteins expressing this carbohydrate antigen in prostate cancer (CD44, alpha2 integrin, beta1 integrin, CD49f, CD133, CD59, EphA2, CD138, transferrin receptor, profilin) are either known as stem cell markers or control important cancer stem-like cell functions.	Carbohydrates	184-196	CD59 molecule (CD59 blood group)	Homo sapiens	278-282	
27875282-7	2017	Mean carbohydrate utilization was 0.19 +- 0.1 g min-1 when patients were on mechanical ventilation compared with 0.15 +- 0.09 g min-1 upon liberation ( P < .05).	Carbohydrates	5-17	CD59 molecule (CD59 blood group)	Homo sapiens	48-53	
28230742-6	2017	In line, exogenous carbohydrate oxidation rates during the latter 120 min of exercise were 46% +- 8% higher in GLU + FRU or GLU + SUC compared with GLU (1.19 +- 0.12, 1.13 +- 0.21, and 0.82 +- 0.16 g min-1, respectively, p < 0.05).	Carbohydrates	19-31	CD59 molecule (CD59 blood group)	Homo sapiens	200-205	
28230742-7	2017	We conclude that fructose co-ingestion (0.6 g min-1) with glucose (1.2 g min-1) provided either as a monosaccharide or as sucrose strongly increases exogenous carbohydrate oxidation rates during prolonged exercise in trained cyclists.	Carbohydrates	159-171	CD59 molecule (CD59 blood group)	Homo sapiens	46-51	
28230742-7	2017	We conclude that fructose co-ingestion (0.6 g min-1) with glucose (1.2 g min-1) provided either as a monosaccharide or as sucrose strongly increases exogenous carbohydrate oxidation rates during prolonged exercise in trained cyclists.	Carbohydrates	159-171	CD59 molecule (CD59 blood group)	Homo sapiens	73-78	
28230742-4	2017	Ten trained male cyclists (VO2peak: 65 +- 2 mL kg-1 min-1) cycled on four different occasions for 180 min at 50% Wmax during which they consumed a carbohydrate solution providing 1.8 g min-1 of glucose (GLU), 1.2 g min-1 glucose + 0.6 g min-1 fructose (GLU + FRU), 0.6 g min-1 glucose + 1.2 g min-1 sucrose (GLU + SUC), or water (WAT).	Carbohydrates	147-159	CD59 molecule (CD59 blood group)	Homo sapiens	185-190	
28230742-4	2017	Ten trained male cyclists (VO2peak: 65 +- 2 mL kg-1 min-1) cycled on four different occasions for 180 min at 50% Wmax during which they consumed a carbohydrate solution providing 1.8 g min-1 of glucose (GLU), 1.2 g min-1 glucose + 0.6 g min-1 fructose (GLU + FRU), 0.6 g min-1 glucose + 1.2 g min-1 sucrose (GLU + SUC), or water (WAT).	Carbohydrates	147-159	CD59 molecule (CD59 blood group)	Homo sapiens	185-190	
28230742-4	2017	Ten trained male cyclists (VO2peak: 65 +- 2 mL kg-1 min-1) cycled on four different occasions for 180 min at 50% Wmax during which they consumed a carbohydrate solution providing 1.8 g min-1 of glucose (GLU), 1.2 g min-1 glucose + 0.6 g min-1 fructose (GLU + FRU), 0.6 g min-1 glucose + 1.2 g min-1 sucrose (GLU + SUC), or water (WAT).	Carbohydrates	147-159	CD59 molecule (CD59 blood group)	Homo sapiens	185-190	
28230742-4	2017	Ten trained male cyclists (VO2peak: 65 +- 2 mL kg-1 min-1) cycled on four different occasions for 180 min at 50% Wmax during which they consumed a carbohydrate solution providing 1.8 g min-1 of glucose (GLU), 1.2 g min-1 glucose + 0.6 g min-1 fructose (GLU + FRU), 0.6 g min-1 glucose + 1.2 g min-1 sucrose (GLU + SUC), or water (WAT).	Carbohydrates	147-159	CD59 molecule (CD59 blood group)	Homo sapiens	185-190	
28230742-4	2017	Ten trained male cyclists (VO2peak: 65 +- 2 mL kg-1 min-1) cycled on four different occasions for 180 min at 50% Wmax during which they consumed a carbohydrate solution providing 1.8 g min-1 of glucose (GLU), 1.2 g min-1 glucose + 0.6 g min-1 fructose (GLU + FRU), 0.6 g min-1 glucose + 1.2 g min-1 sucrose (GLU + SUC), or water (WAT).	Carbohydrates	147-159	CD59 molecule (CD59 blood group)	Homo sapiens	185-190	
28082428-6	2017	Peak exogenous carbohydrate oxidation was lower at altitude (1.13 +- 0.2 g min-1) than sea level (1.42 +- 0.16 g min-1, P = 0.034, ES = 1.33).	Carbohydrates	15-27	CD59 molecule (CD59 blood group)	Homo sapiens	75-80	
28082428-6	2017	Peak exogenous carbohydrate oxidation was lower at altitude (1.13 +- 0.2 g min-1) than sea level (1.42 +- 0.16 g min-1, P = 0.034, ES = 1.33).	Carbohydrates	15-27	CD59 molecule (CD59 blood group)	Homo sapiens	113-118	
26839613-8	2015	Carbohydrate oxidation decreased from baseline (1.59 +- 0.4 g min(-1)) to 12 h after CON and ECC (1.36 +- 0.4 g min(-1); p = 0.03).	Carbohydrates	0-12	CD59 molecule (CD59 blood group)	Homo sapiens	62-68	
26839613-8	2015	Carbohydrate oxidation decreased from baseline (1.59 +- 0.4 g min(-1)) to 12 h after CON and ECC (1.36 +- 0.4 g min(-1); p = 0.03).	Carbohydrates	0-12	CD59 molecule (CD59 blood group)	Homo sapiens	112-118	
24404861-5	2014	A beneficial effect on the contribution of lipid (0.06 g   min(-1), +-0.06) and carbohydrate (-0.23 g   min(-1), +-0.14) oxidation was observed during sub-maximal exercise, but not for the maximal rate of fat oxidation (0.04 g   min(-1), +-0.08).	Carbohydrates	80-92	CD59 molecule (CD59 blood group)	Homo sapiens	104-110	
25559901-8	2015	In addition, the majority of the studies fed carbohydrate at >=1.2 g min-1, which may have inflated levels of GI distress and exaggerated performance decrements with single-saccharide feedings.	Carbohydrates	45-57	CD59 molecule (CD59 blood group)	Homo sapiens	72-77	
25918842-6	2015	Carbohydrates oxidation rate decreased significantly with time (from 0.84 +- 0.31 to 0.53 +- 0.24 g   min(-1), respectively; p < 0.001), being estimated well enough by the algorithm (p = NS).	Carbohydrates	0-13	CD59 molecule (CD59 blood group)	Homo sapiens	102-108	
24404861-5	2014	A beneficial effect on the contribution of lipid (0.06 g   min(-1), +-0.06) and carbohydrate (-0.23 g   min(-1), +-0.14) oxidation was observed during sub-maximal exercise, but not for the maximal rate of fat oxidation (0.04 g   min(-1), +-0.08).	Carbohydrates	80-92	CD59 molecule (CD59 blood group)	Homo sapiens	104-110	
22468766-1	2012	When ingested at high rates (1.8-2.4 g min(-1)) in concentrated solutions, carbohydrates absorbed by multiple (e.g., fructose and glucose) vs. single intestinal transporters can increase exogenous carbohydrate oxidation and endurance performance, but their effect when ingested at lower, more realistic, rates during intermittent high-intensity endurance competition and trials is unknown.	Carbohydrates	75-88	CD59 molecule (CD59 blood group)	Homo sapiens	39-46	
23846824-7	2013	Currently, for prolonged exercise lasting 2-3 h, athletes are advised to ingest carbohydrates at a rate of 60 g h-1 (~1.0-1.1 g min-1) to allow for maximal exogenous glucose oxidation rates.	Carbohydrates	80-93	CD59 molecule (CD59 blood group)	Homo sapiens	128-133	
23846824-8	2013	However, well-trained endurance athletes competing longer than 2.5 h can metabolize carbohydrate up to 90 g h-1 (~1.5-1.8 g min-1) provided that multiple transportable carbohydrates are ingested (e.g. 1.2 g min-1 glucose plus 0.6 g min-1 of fructose).	Carbohydrates	84-96	CD59 molecule (CD59 blood group)	Homo sapiens	124-129	
22468766-1	2012	When ingested at high rates (1.8-2.4 g min(-1)) in concentrated solutions, carbohydrates absorbed by multiple (e.g., fructose and glucose) vs. single intestinal transporters can increase exogenous carbohydrate oxidation and endurance performance, but their effect when ingested at lower, more realistic, rates during intermittent high-intensity endurance competition and trials is unknown.	Carbohydrates	75-87	CD59 molecule (CD59 blood group)	Homo sapiens	39-46	
14748459-7	2003	Maximal fat oxidation rates decreased from 0.46 +/- 0.06 to 0.33 +/- 0.06 g min(-1) when carbohydrate was ingested before the start of exercise (P < 0.01).	Carbohydrates	89-101	CD59 molecule (CD59 blood group)	Homo sapiens	76-82	
21304220-8	2011	Carbohydrate oxidation was increased by DCA, 0.037 +- 0.017 g min(-1) (p < 0.05) at 3 h with no change observed in CON.	Carbohydrates	0-12	CD59 molecule (CD59 blood group)	Homo sapiens	62-68	
15354037-1	2004	UNLABELLED: Studies that have investigated oxidation of a single carbohydrate (CHO) during exercise have reported oxidation rates of up to 1 g x min(-1).	Carbohydrates	65-77	CD59 molecule (CD59 blood group)	Homo sapiens	145-151	
21609293-6	2011	The endogenous carbohydrate oxidation rate with glucose (1.04 g min(-1); CV 68%) was not clearly different from GP (15%; 90% confidence limits: +-24%) and total carbohydrate oxidation rate was not affected.	Carbohydrates	15-27	CD59 molecule (CD59 blood group)	Homo sapiens	64-70	
11604107-4	2001	We now describe a MAb (rat hybridoma MIN/3/60) raised to 3"-sulpho-Le(x), a carbohydrate sequence which, in vitro, is bound not only by the E-, L-, and P-selectins, but also by the cysteine-rich domain of the macrophage endocytosis receptor.	Carbohydrates	76-88	CD59 molecule (CD59 blood group)	Homo sapiens	37-45	
11429627-5	2001	The rate of carbohydrate oxidation was higher (micromol kg-1 min-1: CHO, 243 +/- 39 and CHO + CAF, 239 +/- 30 vs.	Carbohydrates	12-24	CD59 molecule (CD59 blood group)	Homo sapiens	61-66	
12392499-1	2002	Carbohydrate (CHO) and fat oxidation during exercise at SL were 2.0 +/- 0.2 and 0.3 +/- 0.0 g min(-1), respectively.	Carbohydrates	0-12	CD59 molecule (CD59 blood group)	Homo sapiens	94-100