PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
31398058-0	2019	High-mannose intercellular adhesion molecule-1 (ICAM-1) enhances CD16+ monocyte adhesion to the endothelium.	Mannose	5-12	intercellular adhesion molecule 1	Homo sapiens	13-46	
32171755-4	2020	Previous data from our lab has shown that endothelial inflammation produces multiple N-glycoforms of ICAM-1, and that a hypoglycosylated, or high-mannose (HM), form of ICAM-1 enhances adhesion of pro-inflammatory monocytes associated with more severe atherosclerosis and adverse cardiac events.	Mannose	146-153	intercellular adhesion molecule 1	Homo sapiens	168-174	
32208424-3	2020	However, our recent studies suggest that hypoglycosylated or high mannose (HM)-ICAM-1 N-glycoforms are also expressed on the cell surface during endothelial dysfunction, and have higher affinity for monocyte adhesion and regulate outside-in endothelial signaling by different mechanisms.	Mannose	66-73	intercellular adhesion molecule 1	Homo sapiens	79-85	
31398058-0	2019	High-mannose intercellular adhesion molecule-1 (ICAM-1) enhances CD16+ monocyte adhesion to the endothelium.	Mannose	5-12	intercellular adhesion molecule 1	Homo sapiens	48-54	
31398058-4	2019	Here, we tested the hypothesis that a high mannose (HM) N-glycoform of intercellular adhesion molecule-1 (ICAM-1) on the endothelium mediates the selective recruitment of CD16+ monocytes.	Mannose	43-50	intercellular adhesion molecule 1	Homo sapiens	71-104	
31398058-4	2019	Here, we tested the hypothesis that a high mannose (HM) N-glycoform of intercellular adhesion molecule-1 (ICAM-1) on the endothelium mediates the selective recruitment of CD16+ monocytes.	Mannose	43-50	intercellular adhesion molecule 1	Homo sapiens	106-112	
22271390-0	2012	Efficient suppression of murine intracellular adhesion molecule-1 using ultrasound-responsive and mannose-modified lipoplexes inhibits acute hepatic inflammation.	Mannose	98-105	intercellular adhesion molecule 1	Homo sapiens	32-65	
23703526-0	2013	Identification of a high-mannose ICAM-1 glycoform: effects of ICAM-1 hypoglycosylation on monocyte adhesion and outside in signaling.	Mannose	25-32	intercellular adhesion molecule 1	Homo sapiens	33-39	
23703526-5	2013	Production of exclusively HM-ICAM-1 in cells by alpha-mannosidase inhibition increased monocyte rolling and adhesion compared with mature ICAM-1 consistent with high-mannose epitopes providing leukocyte ligands.	Mannose	166-173	intercellular adhesion molecule 1	Homo sapiens	29-35	
24649404-0	2014	Ursolic acid, a natural pentacyclic triterpenoid, inhibits intracellular trafficking of proteins and induces accumulation of intercellular adhesion molecule-1 linked to high-mannose-type glycans in the endoplasmic reticulum.	Mannose	174-181	intercellular adhesion molecule 1	Homo sapiens	125-158	
24649404-7	2014	Ursolic acid induced the accumulation of ICAM-1 in the endoplasmic reticulum, which was linked mainly to high-mannose-type glycans.	Mannose	110-117	intercellular adhesion molecule 1	Homo sapiens	41-47	
24649404-9	2014	Thus, our results reveal that ursolic acid inhibits intracellular trafficking of proteins and induces the accumulation of ICAM-1 linked to high-mannose-type glycans in the endoplasmic reticulum.	Mannose	144-151	intercellular adhesion molecule 1	Homo sapiens	122-128	
22271390-4	2012	Here, we developed an ICAM-1 small interfering RNA (siRNA) transfer method using ultrasound (US)-responsive and mannose-modified liposome/ICAM-1 siRNA complexes (Man-PEG(2000) bubble lipoplexes [Man-PEG(2000) BLs]), and achieved efficient HEC-selective ICAM-1 siRNA delivery in combination with US exposure.	Mannose	112-119	intercellular adhesion molecule 1	Homo sapiens	22-28	
22271390-4	2012	Here, we developed an ICAM-1 small interfering RNA (siRNA) transfer method using ultrasound (US)-responsive and mannose-modified liposome/ICAM-1 siRNA complexes (Man-PEG(2000) bubble lipoplexes [Man-PEG(2000) BLs]), and achieved efficient HEC-selective ICAM-1 siRNA delivery in combination with US exposure.	Mannose	112-119	intercellular adhesion molecule 1	Homo sapiens	138-144	
22271390-4	2012	Here, we developed an ICAM-1 small interfering RNA (siRNA) transfer method using ultrasound (US)-responsive and mannose-modified liposome/ICAM-1 siRNA complexes (Man-PEG(2000) bubble lipoplexes [Man-PEG(2000) BLs]), and achieved efficient HEC-selective ICAM-1 siRNA delivery in combination with US exposure.	Mannose	112-119	intercellular adhesion molecule 1	Homo sapiens	138-144	
19733219-7	2009	In contrast, high-mannose-type N-glycans and Lewis X were more commonly found in rat brain ICAM-5 than in human ICAM-1 expressed in CHO cells, HEK cells, or mouse myeloma cells and ICAM-3 isolated from human T-cells.	Mannose	18-25	intercellular adhesion molecule 1	Homo sapiens	112-118	
22496445-6	2012	Mannose supplementation of phosphomannose isomerase-deficient CDG-Ib (MPI-CDG) cells and complementation with PMM2 in PMM2-deficient CDG-Ia (PMM2-CDG) cells partially corrected hypoglycosylation based on increased ICAM-1 presence on the plasma membrane.	Mannose	0-7	intercellular adhesion molecule 1	Homo sapiens	214-220	
15545280-7	2005	High mannose glycans were absent in ICAM-1, which did not bind to the lectin, but they appeared in ICAM-1 mutants with additional N-linked glycosylation and lectin binding activity.	Mannose	5-12	intercellular adhesion molecule 1	Homo sapiens	36-42	
15545280-7	2005	High mannose glycans were absent in ICAM-1, which did not bind to the lectin, but they appeared in ICAM-1 mutants with additional N-linked glycosylation and lectin binding activity.	Mannose	5-12	intercellular adhesion molecule 1	Homo sapiens	99-105