PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
3376145-5	1988	In contrast, both acrylamide and 2,5-hexanedione caused a perinuclear redistribution of vimentin filaments with sparing of microtubules.	Acrylamide	18-28	vimentin	Homo sapiens	88-96	
3376145-7	1988	Selective action of both acrylamide and 2,5-hexanedione on vimentin filaments and the similarity of effects suggest that a common mechanism of damage may occur whereby these compounds act directly on both vimentin and neurofilaments.	Acrylamide	25-35	vimentin	Homo sapiens	59-67	
3376145-7	1988	Selective action of both acrylamide and 2,5-hexanedione on vimentin filaments and the similarity of effects suggest that a common mechanism of damage may occur whereby these compounds act directly on both vimentin and neurofilaments.	Acrylamide	25-35	vimentin	Homo sapiens	205-213	
2411559-2	1985	An optimum treatment, 5 mM acrylamide in culture medium for 4 h, resulted in formation of a juxtanuclear aggregate containing both keratin and vimentin intermediate filaments.	Acrylamide	27-37	vimentin	Homo sapiens	143-151	
2411559-4	1985	Cells recovered when acrylamide was washed out of the cultures, and normal keratin and vimentin networks reappeared.	Acrylamide	21-31	vimentin	Homo sapiens	87-95	
16876394-7	2006	Vimentin intermediate filaments were disrupted in high-density monolayer articular chondrocyte cultures using acrylamide for 7 days.	Acrylamide	110-120	vimentin	Homo sapiens	0-8	
33792166-0	2021	Acrylamide Inhibits Vaccinia Virus Through Vimentin-independent Anti-Viral Granule Formation.	Acrylamide	0-10	vimentin	Homo sapiens	43-51	
33792166-4	2021	The collapse of vimentin filaments, using acrylamide, was found to inhibit VACV infection at the level of genome replication, intermediate- and late- gene expression.	Acrylamide	42-52	vimentin	Homo sapiens	16-24	
32493819-8	2020	However, chemical disruption of the vimentin network by acrylamide resulted in a significant decrease in viral yield, suggesting that an intact vimentin network is needed for FMDV replication.	Acrylamide	56-66	vimentin	Homo sapiens	36-44	
31569795-5	2019	Treatments with withaferin A or acrylamide show that cell motility can be modulated by regulating vimentin assembly.	Acrylamide	32-42	vimentin	Homo sapiens	98-106	
20602472-5	2011	Chondrocytes were embedded in alginate and vimentin networks disrupted with acrylamide.	Acrylamide	76-86	vimentin	Homo sapiens	43-51	
20427712-12	2010	Knocking-down HSP27 destroys the vimentin filamentous network, and disrupting vimentin filaments with acrylamide increases endothelial permeability.	Acrylamide	102-112	vimentin	Homo sapiens	78-86	
19403668-4	2009	Chemical disruption of the vimentin network with acrylamide, intermediate filament bundling in cells from a patient with giant axonal neuropathy, and absence of vimentin in fibroblasts from vimentin(-/-) mice severely reduced entry of either strain.	Acrylamide	49-59	vimentin	Homo sapiens	27-35	
10898730-4	2000	Similar results were obtained from measurements on wild-type fibroblasts and endothelial cells after vimentin IFs were disrupted by acrylamide.	Acrylamide	132-142	vimentin	Homo sapiens	101-109	
35381387-7	2022	Acrylamide, a reagent that disrupts vimentin intermediate filaments, prevented histamine/OS-induced SNAP23 translocation, as well as VWF secretion.	Acrylamide	0-10	vimentin	Homo sapiens	36-44	
2464860-0	1989	Cytoskeletal effects of acrylamide and 2,5-hexanedione: selective aggregation of vimentin filaments.	Acrylamide	24-34	vimentin	Homo sapiens	81-89	
2464860-6	1989	Both acrylamide and 2,5-HD caused aggregation of vimentin filaments in a concentration-dependent fashion; these effects occurred at a lower concentration than alterations in other cytoskeletal filaments.	Acrylamide	5-15	vimentin	Homo sapiens	49-57	
2464860-11	1989	These results suggest that both acrylamide and 2,5-HD cause a primary collapse of vimentin intermediate filaments in cultured cells.	Acrylamide	32-42	vimentin	Homo sapiens	82-90