PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
29746542-0	2018	Depletion of mRNA export regulator DBP5/DDX19, GLE1 or IPPK that is a key enzyme for the production of IP6, resulting in differentially altered cytoplasmic mRNA expression and specific cell defect.	Phytic Acid	103-106	DEAD-box helicase 19B	Homo sapiens	35-39	
29782832-2	2018	Dbp5 ATPase activity is regulated by several factors, including RNA, the nucleoporin proteins Nup159 and Gle1, and the endogenous small-molecule inositol hexakisphosphate (InsP6).	Phytic Acid	145-170	DEAD-box helicase 19B	Homo sapiens	0-4	
31344122-0	2019	Correction: Depletion of mRNA export regulator DBP5/DDX19, GLE1 or IPPK that is a key enzyme for the production of IP6, resulting in differentially altered cytoplasmic mRNA expression and specific cell defect.	Phytic Acid	115-118	DEAD-box helicase 19B	Homo sapiens	47-51	
31344122-0	2019	Correction: Depletion of mRNA export regulator DBP5/DDX19, GLE1 or IPPK that is a key enzyme for the production of IP6, resulting in differentially altered cytoplasmic mRNA expression and specific cell defect.	Phytic Acid	115-118	DEAD-box helicase 19B	Homo sapiens	52-57	
29746542-0	2018	Depletion of mRNA export regulator DBP5/DDX19, GLE1 or IPPK that is a key enzyme for the production of IP6, resulting in differentially altered cytoplasmic mRNA expression and specific cell defect.	Phytic Acid	103-106	DEAD-box helicase 19B	Homo sapiens	40-45	
29746542-1	2018	DBP5, also known as DDX19, GLE1 and inositol hexakisphosphate (IP6) function in messenger RNA (mRNA) export at the cytoplasmic surface of the nuclear pore complex in eukaryotic cells.	Phytic Acid	36-61	DEAD-box helicase 19B	Homo sapiens	0-4	
29746542-1	2018	DBP5, also known as DDX19, GLE1 and inositol hexakisphosphate (IP6) function in messenger RNA (mRNA) export at the cytoplasmic surface of the nuclear pore complex in eukaryotic cells.	Phytic Acid	63-66	DEAD-box helicase 19B	Homo sapiens	0-4	
29746542-1	2018	DBP5, also known as DDX19, GLE1 and inositol hexakisphosphate (IP6) function in messenger RNA (mRNA) export at the cytoplasmic surface of the nuclear pore complex in eukaryotic cells.	Phytic Acid	63-66	DEAD-box helicase 19B	Homo sapiens	20-25	
29746542-2	2018	DBP5 is a DEAD-box RNA helicase, and its activity is stimulated by interactions with GLE1 and IP6.	Phytic Acid	94-97	DEAD-box helicase 19B	Homo sapiens	0-4	
29746542-5	2018	The expression of some cytoplasmic mRNA subsets (e.g. cell cycle, DNA replication) was commonly suppressed by the knock-down of DBP5, GLE1 and IPPK (IP6 synthetic enzyme).	Phytic Acid	149-152	DEAD-box helicase 19B	Homo sapiens	128-132	
28869701-0	2017	Nup42 and IP6 coordinate Gle1 stimulation of Dbp5/DDX19B for mRNA export in yeast and human cells.	Phytic Acid	10-13	DEAD-box helicase 19B	Homo sapiens	50-56	
28869701-8	2017	In vitro, Nup42-CTD and IP6 stimulate Gle1/hGle1B activation of Dbp5 and DDX19B recombinant proteins in similar, nonadditive manners, demonstrating complete functional conservation between humans and S. cerevisiae.	Phytic Acid	24-27	DEAD-box helicase 19B	Homo sapiens	64-68	
28869701-8	2017	In vitro, Nup42-CTD and IP6 stimulate Gle1/hGle1B activation of Dbp5 and DDX19B recombinant proteins in similar, nonadditive manners, demonstrating complete functional conservation between humans and S. cerevisiae.	Phytic Acid	24-27	DEAD-box helicase 19B	Homo sapiens	73-79	
28869701-6	2017	A nup42-CTD/gle1-CTD/Dbp5 trimeric complex forms in the presence of IP6 .	Phytic Acid	68-71	DEAD-box helicase 19B	Homo sapiens	21-25	
21949122-2	2011	During messenger (m)RNA export, Gle1 bound to inositol hexakisphosphate (IP(6)) acts via Dbp5 to facilitate remodeling of mRNA-protein complexes.	Phytic Acid	46-71	DEAD-box helicase 19B	Homo sapiens	89-93	
23128325-3	2013	For the regulation of its RNA-dependent ATPase activity during late steps of nuclear transport, Dbp5 requires the nucleoporin Nup159 and its cofactors Gle1 and IP6.	Phytic Acid	160-163	DEAD-box helicase 19B	Homo sapiens	96-100	
24275432-2	2014	During export, Gle1 in conjunction with inositol hexakisphosphate (IP6) spatially regulates the activity of the DEAD-box protein Dbp5 at the NPC cytoplasmic face.	Phytic Acid	40-65	DEAD-box helicase 19B	Homo sapiens	129-133	
24275432-2	2014	During export, Gle1 in conjunction with inositol hexakisphosphate (IP6) spatially regulates the activity of the DEAD-box protein Dbp5 at the NPC cytoplasmic face.	Phytic Acid	67-70	DEAD-box helicase 19B	Homo sapiens	129-133	
22064466-4	2011	An important step during this maturation process occurs at the cytoplasmic face of the nuclear pore complex (NPC) where the export protein Gle1 bound to inositol hexakisphosphate (IP 6) spatially activates the ATP-hydrolysis and mRNP-remodeling activity of the DEAD-box protein Dbp5.	Phytic Acid	153-178	DEAD-box helicase 19B	Homo sapiens	278-282	
20023400-5	2010	Biochemical studies show that Gle1 and inositol hexaphosphate (IP6) activate Dbp5"s ATPase activity at the cytoplasmic face of NPC, therefore providing critical spatial regulation of mRNP remodeling during directional transport.	Phytic Acid	39-61	DEAD-box helicase 19B	Homo sapiens	77-81	
21576266-2	2011	At cytoplasmic NPC filaments, the ATPase activity of DEAD-box protein Dbp5 is activated by inositol hexakisphosphate (IP(6))-bound Gle1 to mediate remodeling of mRNA-protein (mRNP) complexes.	Phytic Acid	91-116	DEAD-box helicase 19B	Homo sapiens	70-74	
21081843-6	2010	Further, the Dbp5 interacting protein Gle1 and its co-factor inositol hexakisphosphate (IP 6) have been shown to participate in the termination process.	Phytic Acid	61-86	DEAD-box helicase 19B	Homo sapiens	13-17	
21081843-6	2010	Further, the Dbp5 interacting protein Gle1 and its co-factor inositol hexakisphosphate (IP 6) have been shown to participate in the termination process.	Phytic Acid	88-92	DEAD-box helicase 19B	Homo sapiens	13-17	
20023400-5	2010	Biochemical studies show that Gle1 and inositol hexaphosphate (IP6) activate Dbp5"s ATPase activity at the cytoplasmic face of NPC, therefore providing critical spatial regulation of mRNP remodeling during directional transport.	Phytic Acid	63-66	DEAD-box helicase 19B	Homo sapiens	77-81	
16783364-5	2006	Interestingly, Gle1 binds directly to inositol hexakisphosphate (InsP6) and InsP6 potentiates the Gle1-mediated stimulation of Dbp5.	Phytic Acid	38-63	DEAD-box helicase 19B	Homo sapiens	127-131