PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
18599958-1	2008	When maintained on a folate-deficient, iron-rich diet, transgenic mice lacking in apolipoprotein E (ApoE-/- mice) demonstrate impaired activity of glutathione S-transferase (GST), resulting in increased oxidative species within brain tissue despite abnormally high levels of glutathione.	Folic Acid	21-27	apolipoprotein E	Mus musculus	82-98	
17118406-0	2007	Folic acid supplementation delays atherosclerotic lesion development in apoE-deficient mice.	Folic Acid	0-10	apolipoprotein E	Mus musculus	72-76	
30480514-0	2019	Folate-Modified Liposomes Loaded with Telmisartan Enhance Anti-Atherosclerotic Potency for Advanced Atherosclerosis in ApoE-/- Mice.	Folic Acid	0-6	apolipoprotein E	Mus musculus	119-123	
16917148-2	2006	We demonstrate herein that dietary deprivation of folate and vitamin E, coupled with iron as a pro-oxidant, fosters an increase in nonphospho- and-phospho-tau within brain tissue of mice homozygously lacking apolipoprotein E as assayed by monoclonal antibodies Tau-1 and PHF-1, respectively.	Folic Acid	50-56	apolipoprotein E	Mus musculus	208-224	
16910166-1	2006	Folate deficiency increases neuronal oxidative damage and potentiates the deleterious effects of apolipoprotein E (ApoE) deficiency.	Folic Acid	0-6	apolipoprotein E	Mus musculus	97-113	
16910166-1	2006	Folate deficiency increases neuronal oxidative damage and potentiates the deleterious effects of apolipoprotein E (ApoE) deficiency.	Folic Acid	0-6	apolipoprotein E	Mus musculus	115-119	
16910166-2	2006	Mice lacking ApoE (ApoE -/- mice) upregulate the expression and activity of another enzyme, glutathione synthase (GS), when deprived of folate, in an apparent attempt to compensate for increased oxidative damage.	Folic Acid	136-142	apolipoprotein E	Mus musculus	13-17	
16910166-2	2006	Mice lacking ApoE (ApoE -/- mice) upregulate the expression and activity of another enzyme, glutathione synthase (GS), when deprived of folate, in an apparent attempt to compensate for increased oxidative damage.	Folic Acid	136-142	apolipoprotein E	Mus musculus	19-23	
16910166-4	2006	Expression and activity of methylene tetrahydrofolate reductase was increased in the order ApoE +/+ < ApoE +/- < ApoE -/- in response to folate deprivation.	Folic Acid	47-53	apolipoprotein E	Mus musculus	91-95	
16910166-4	2006	Expression and activity of methylene tetrahydrofolate reductase was increased in the order ApoE +/+ < ApoE +/- < ApoE -/- in response to folate deprivation.	Folic Acid	47-53	apolipoprotein E	Mus musculus	105-109	
16910166-4	2006	Expression and activity of methylene tetrahydrofolate reductase was increased in the order ApoE +/+ < ApoE +/- < ApoE -/- in response to folate deprivation.	Folic Acid	47-53	apolipoprotein E	Mus musculus	105-109	
16910166-6	2006	By contrast, expression and activity of methionine synthase decreased following folate deprivation in the order ApoE +/+ < ApoE +/- < ApoE -/-.	Folic Acid	80-86	apolipoprotein E	Mus musculus	112-116	
16910166-6	2006	By contrast, expression and activity of methionine synthase decreased following folate deprivation in the order ApoE +/+ < ApoE +/- < ApoE -/-.	Folic Acid	80-86	apolipoprotein E	Mus musculus	126-130	
16910166-6	2006	By contrast, expression and activity of methionine synthase decreased following folate deprivation in the order ApoE +/+ < ApoE +/- < ApoE -/-.	Folic Acid	80-86	apolipoprotein E	Mus musculus	126-130	
12590161-3	2003	As described previously, ApoE-deficient mice displayed increased levels of the endogenous antioxidant glutathione as compared to normal mice, and increased these levels further following folate deprivation.	Folic Acid	187-193	apolipoprotein E	Mus musculus	25-29	
17183144-6	2006	Herein, we demonstrate that dietary deficiency in folate and vitamin E increased PS-1 expression in juvenile and adult normal C57B1/6J and ApoE-/- mice and in aged normal mice.	Folic Acid	50-56	apolipoprotein E	Mus musculus	139-143	
17183426-2	2006	Apolipoprotein E-deficient mice undergo oxidative damage and cognitive impairment when deprived of folate.	Folic Acid	99-105	apolipoprotein E	Mus musculus	0-16	
15851851-3	2005	Mice deficient in apolipoprotein E, which provide a model for some aspects of AD, undergo increased oxidative damage to brain tissue and cognitive decline when maintained on a folate-free diet, despite a compensatory increase in glutathione synthase transcription and activity as well as increased levels of GSH.	Folic Acid	176-182	apolipoprotein E	Mus musculus	18-34	
15201481-0	2004	Differential susceptibity of transgenic mice lacking one or both apolipoprotein alleles to folate and vitamin E deprivation.	Folic Acid	91-97	apolipoprotein E	Mus musculus	65-79	
15201481-3	2004	Dietary deficiency in folate and vitamin E has previously been shown to potentiate the impact of ApoE deficiency; ApoE-/- mice deprived of folate and vitamin E for 1 month demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to ApoE+/+ mice.	Folic Acid	22-28	apolipoprotein E	Mus musculus	97-101	
15201481-3	2004	Dietary deficiency in folate and vitamin E has previously been shown to potentiate the impact of ApoE deficiency; ApoE-/- mice deprived of folate and vitamin E for 1 month demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to ApoE+/+ mice.	Folic Acid	22-28	apolipoprotein E	Mus musculus	114-118	
15201481-3	2004	Dietary deficiency in folate and vitamin E has previously been shown to potentiate the impact of ApoE deficiency; ApoE-/- mice deprived of folate and vitamin E for 1 month demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to ApoE+/+ mice.	Folic Acid	22-28	apolipoprotein E	Mus musculus	114-118	
15201481-3	2004	Dietary deficiency in folate and vitamin E has previously been shown to potentiate the impact of ApoE deficiency; ApoE-/- mice deprived of folate and vitamin E for 1 month demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to ApoE+/+ mice.	Folic Acid	139-145	apolipoprotein E	Mus musculus	97-101	
15201481-3	2004	Dietary deficiency in folate and vitamin E has previously been shown to potentiate the impact of ApoE deficiency; ApoE-/- mice deprived of folate and vitamin E for 1 month demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to ApoE+/+ mice.	Folic Acid	139-145	apolipoprotein E	Mus musculus	114-118	
15201481-3	2004	Dietary deficiency in folate and vitamin E has previously been shown to potentiate the impact of ApoE deficiency; ApoE-/- mice deprived of folate and vitamin E for 1 month demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to ApoE+/+ mice.	Folic Acid	139-145	apolipoprotein E	Mus musculus	114-118	
15201481-7	2004	ApoE-/- mice, but not +/- or +/+ mice, exhibited impaired cognitive performance in maze trials when deprived of folate and vitamin E.	Folic Acid	112-118	apolipoprotein E	Mus musculus	0-4	
14743434-5	2004	Both normal and ApoE-/- mice demonstrated increased GS activity when deprived of folate and vitamin E.	Folic Acid	81-87	apolipoprotein E	Mus musculus	16-20	
14743434-6	2004	However, transcription was increased only in ApoE-/- mice deprived of folate and vitamin E.	Folic Acid	70-76	apolipoprotein E	Mus musculus	45-49	
15075443-5	2004	Folate deficiency has previously been shown to potentiate the impact of apolipoprotein E (ApoE); ApoE-/- mice deprived of folate demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to normal mice or to ApoE-/- mice receiving folate.	Folic Acid	0-6	apolipoprotein E	Mus musculus	72-88	
15075443-5	2004	Folate deficiency has previously been shown to potentiate the impact of apolipoprotein E (ApoE); ApoE-/- mice deprived of folate demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to normal mice or to ApoE-/- mice receiving folate.	Folic Acid	0-6	apolipoprotein E	Mus musculus	90-94	
15075443-5	2004	Folate deficiency has previously been shown to potentiate the impact of apolipoprotein E (ApoE); ApoE-/- mice deprived of folate demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to normal mice or to ApoE-/- mice receiving folate.	Folic Acid	0-6	apolipoprotein E	Mus musculus	97-101	
15075443-5	2004	Folate deficiency has previously been shown to potentiate the impact of apolipoprotein E (ApoE); ApoE-/- mice deprived of folate demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to normal mice or to ApoE-/- mice receiving folate.	Folic Acid	0-6	apolipoprotein E	Mus musculus	97-101	
15075443-5	2004	Folate deficiency has previously been shown to potentiate the impact of apolipoprotein E (ApoE); ApoE-/- mice deprived of folate demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to normal mice or to ApoE-/- mice receiving folate.	Folic Acid	122-128	apolipoprotein E	Mus musculus	90-94	
15075443-5	2004	Folate deficiency has previously been shown to potentiate the impact of apolipoprotein E (ApoE); ApoE-/- mice deprived of folate demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to normal mice or to ApoE-/- mice receiving folate.	Folic Acid	122-128	apolipoprotein E	Mus musculus	97-101	
15075443-5	2004	Folate deficiency has previously been shown to potentiate the impact of apolipoprotein E (ApoE); ApoE-/- mice deprived of folate demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to normal mice or to ApoE-/- mice receiving folate.	Folic Acid	122-128	apolipoprotein E	Mus musculus	97-101	
15075443-5	2004	Folate deficiency has previously been shown to potentiate the impact of apolipoprotein E (ApoE); ApoE-/- mice deprived of folate demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to normal mice or to ApoE-/- mice receiving folate.	Folic Acid	276-282	apolipoprotein E	Mus musculus	72-88	
15075443-5	2004	Folate deficiency has previously been shown to potentiate the impact of apolipoprotein E (ApoE); ApoE-/- mice deprived of folate demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to normal mice or to ApoE-/- mice receiving folate.	Folic Acid	276-282	apolipoprotein E	Mus musculus	97-101	
15075443-5	2004	Folate deficiency has previously been shown to potentiate the impact of apolipoprotein E (ApoE); ApoE-/- mice deprived of folate demonstrated increased oxidative damage in brain tissue and impaired cognitive performance as compared to normal mice or to ApoE-/- mice receiving folate.	Folic Acid	276-282	apolipoprotein E	Mus musculus	97-101	
15075443-6	2004	Herein, we demonstrate that dietary supplementation with DZA prevented both the increase in oxidative damage and impaired cognition characteristic of ApoE-/- mice following folate deprivation.	Folic Acid	173-179	apolipoprotein E	Mus musculus	150-154	
14716026-0	2003	Folate and vitamin E deficiency impair cognitive performance in mice subjected to oxidative stress: differential impact on normal mice and mice lacking apolipoprotein E.	Folic Acid	0-6	apolipoprotein E	Mus musculus	152-168	
14716026-6	2003	Both normal and ApoE-/- mice displayed some cognitive impairment when deprived of folate and vitamin E and exposed to iron, but ApoE-/- mice were more severely affected.	Folic Acid	82-88	apolipoprotein E	Mus musculus	16-20	
12480173-5	2002	However, ApoE knockout mice accumulated significantly increased TBARs following iron challenge when folic acid was withheld, and accumulated even more TBARs when both folic acid and vitamin E were withheld.	Folic Acid	100-110	apolipoprotein E	Mus musculus	9-13	
12480173-5	2002	However, ApoE knockout mice accumulated significantly increased TBARs following iron challenge when folic acid was withheld, and accumulated even more TBARs when both folic acid and vitamin E were withheld.	Folic Acid	167-177	apolipoprotein E	Mus musculus	9-13	
12374623-6	2002	However, combined treatment with folate deprivation and dietary iron depleted antioxidant capacity and induced oxidative damage in ApoE-deficient brains despite increased glutathione, indicating an inability to compensate for the lack of ApoE under these conditions.	Folic Acid	33-39	apolipoprotein E	Mus musculus	131-135	
11254667-2	2001	Here we show that induction of HHcy in apoE-null mice by a diet enriched in methionine but depleted in folate and vitamins B6 and B12 increased atherosclerotic lesion area and complexity, and enhanced expression of receptor for advanced glycation end products (RAGE), VCAM-1, tissue factor, and MMP-9 in the vasculature.	Folic Acid	103-109	apolipoprotein E	Mus musculus	39-43	
35139535-9	2022	Finally, folic acid (FA) significantly attenuated aortic valve calcification in WD-fed Apoe-/- mice through increasing DHFR and salvaging BH4 biosynthesis.	Folic Acid	9-19	apolipoprotein E	Mus musculus	87-91	
24558445-0	2014	Recoupling of eNOS with folic acid prevents abdominal aortic aneurysm formation in angiotensin II-infused apolipoprotein E null mice.	Folic Acid	24-34	apolipoprotein E	Mus musculus	106-122	
30125807-4	2018	We aimed to investigate the effects of folic acid on injuries induced by oxidative stress that occur via an epigenetic gene silencing mechanism in ApoE knockout mice fed a high-fat diet and in human umbilical vein endothelial cells treated with oxidized low-density lipoprotein (ox-LDL).	Folic Acid	39-49	apolipoprotein E	Mus musculus	147-151	
30125807-7	2018	Our data showed that folic acid reduced 8-OHdG levels and decreased apoptosis in the aortic tissue of ApoE-/- mice.	Folic Acid	21-31	apolipoprotein E	Mus musculus	102-106	
28475147-6	2017	Folic acid reduced atherosclerotic lesion size in ApoE knockout mice.	Folic Acid	0-10	apolipoprotein E	Mus musculus	50-54	
24704411-0	2014	Divergent effects of folic acid administration on inflammatory status and cholesterol levels in apoE deficient mice.	Folic Acid	21-31	apolipoprotein E	Mus musculus	96-100	
19457069-3	2009	Previous studies demonstrate that deprivation of folate and vitamin E, coupled with dietary iron as a pro-oxidant, for 1 month displayed increased presenilin 1 (PS-1) expression, gamma-secretase, and Abeta generation in mice lacking ApoE (ApoE-/- mice).	Folic Acid	49-55	apolipoprotein E	Mus musculus	233-237	
19457069-3	2009	Previous studies demonstrate that deprivation of folate and vitamin E, coupled with dietary iron as a pro-oxidant, for 1 month displayed increased presenilin 1 (PS-1) expression, gamma-secretase, and Abeta generation in mice lacking ApoE (ApoE-/- mice).	Folic Acid	49-55	apolipoprotein E	Mus musculus	239-251	
19098360-0	2008	Folate and S-adenosylmethionine modulate synaptic activity in cultured cortical neurons: acute differential impact on normal and apolipoprotein-deficient mice.	Folic Acid	0-6	apolipoprotein E	Mus musculus	129-143	
19098360-1	2008	Folate deficiency is accompanied by a decline in the cognitive neurotransmitter acetylcholine and a decline in cognitive performance in mice lacking apolipoprotein E (ApoE-/- mice), a low-density lipoprotein that regulates aspects of lipid metabolism.	Folic Acid	0-6	apolipoprotein E	Mus musculus	149-165	
19098360-1	2008	Folate deficiency is accompanied by a decline in the cognitive neurotransmitter acetylcholine and a decline in cognitive performance in mice lacking apolipoprotein E (ApoE-/- mice), a low-density lipoprotein that regulates aspects of lipid metabolism.	Folic Acid	0-6	apolipoprotein E	Mus musculus	167-171	
19098360-8	2008	Folate deprivation reversibly reduced signal frequency in ApoE+/+ cultures; SAM supplementation maintained signal frequency despite folate deprivation.	Folic Acid	0-6	apolipoprotein E	Mus musculus	58-62	
18697859-6	2008	By genetically increasing serum and liver total cholesterol levels in APOE-deficient mice, we modestly but significantly improved folate retention during folate depletion, suggesting that homeostasis among the homocysteine, folate and cholesterol metabolic pathways contributes to the beneficial effects of dietary folate supplementation.	Folic Acid	130-136	apolipoprotein E	Mus musculus	70-74	
18697859-6	2008	By genetically increasing serum and liver total cholesterol levels in APOE-deficient mice, we modestly but significantly improved folate retention during folate depletion, suggesting that homeostasis among the homocysteine, folate and cholesterol metabolic pathways contributes to the beneficial effects of dietary folate supplementation.	Folic Acid	154-160	apolipoprotein E	Mus musculus	70-74	
18697859-6	2008	By genetically increasing serum and liver total cholesterol levels in APOE-deficient mice, we modestly but significantly improved folate retention during folate depletion, suggesting that homeostasis among the homocysteine, folate and cholesterol metabolic pathways contributes to the beneficial effects of dietary folate supplementation.	Folic Acid	154-160	apolipoprotein E	Mus musculus	70-74	
18697859-6	2008	By genetically increasing serum and liver total cholesterol levels in APOE-deficient mice, we modestly but significantly improved folate retention during folate depletion, suggesting that homeostasis among the homocysteine, folate and cholesterol metabolic pathways contributes to the beneficial effects of dietary folate supplementation.	Folic Acid	154-160	apolipoprotein E	Mus musculus	70-74