PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
34873283-6	2021	Moreover, we define key biogenesis steps of phosphatidic acid-enriched MDVs starting with the MIRO1/2-dependent formation of thin membrane protrusions pulled along microtubule filaments, followed by MID49/MID51/MFF-dependent recruitment of the dynamin family GTPase DRP1 and finally DRP1-dependent scission.	Phosphatidic Acids	44-61	dynamin 1 like	Homo sapiens	266-270	
34873283-6	2021	Moreover, we define key biogenesis steps of phosphatidic acid-enriched MDVs starting with the MIRO1/2-dependent formation of thin membrane protrusions pulled along microtubule filaments, followed by MID49/MID51/MFF-dependent recruitment of the dynamin family GTPase DRP1 and finally DRP1-dependent scission.	Phosphatidic Acids	44-61	dynamin 1 like	Homo sapiens	283-287	
28644713-0	2018	An unstructured loop that is critical for interactions of the stalk domain of Drp1 with saturated phosphatidic acid.	Phosphatidic Acids	98-115	dynamin 1 like	Homo sapiens	78-82	
28644713-3	2018	We previously showed that Drp1 interacts with phosphatidic acid (PA) and saturated phospholipids in the mitochondrial membrane, and this interaction restrains Drp1 in initiating the constriction of mitochondria.	Phosphatidic Acids	46-63	dynamin 1 like	Homo sapiens	26-30	
28644713-3	2018	We previously showed that Drp1 interacts with phosphatidic acid (PA) and saturated phospholipids in the mitochondrial membrane, and this interaction restrains Drp1 in initiating the constriction of mitochondria.	Phosphatidic Acids	46-63	dynamin 1 like	Homo sapiens	159-163	
28644713-3	2018	We previously showed that Drp1 interacts with phosphatidic acid (PA) and saturated phospholipids in the mitochondrial membrane, and this interaction restrains Drp1 in initiating the constriction of mitochondria.	Phosphatidic Acids	65-67	dynamin 1 like	Homo sapiens	26-30	
28644713-3	2018	We previously showed that Drp1 interacts with phosphatidic acid (PA) and saturated phospholipids in the mitochondrial membrane, and this interaction restrains Drp1 in initiating the constriction of mitochondria.	Phosphatidic Acids	65-67	dynamin 1 like	Homo sapiens	159-163	
28644713-5	2018	We further show that an unstructured loop in the stalk domain of Drp1 is critical for interaction with unsaturated PA.	Phosphatidic Acids	115-117	dynamin 1 like	Homo sapiens	65-69	
28835909-4	2017	Mitochondrial membrane lipids such as phosphatidic acid and cardiolipin bind Drp1, and Drp1-phospholipid interactions provide key regulatory mechanisms for mitochondrial division (Montessuit et al., 2010; Bustillo-Zabalbeitia et al., 2014; Macdonald et al., 2014; Stepanyants et al., 2015; Adachi et al., 2016).	Phosphatidic Acids	38-55	dynamin 1 like	Homo sapiens	77-81	
27635761-0	2016	Coincident Phosphatidic Acid Interaction Restrains Drp1 in Mitochondrial Division.	Phosphatidic Acids	11-28	dynamin 1 like	Homo sapiens	51-55	
27635761-5	2016	Drp1 recognizes the head group of phosphatidic acid (PA) and two saturated acyl chains of another phospholipid by penetrating into the hydrophobic core of the membrane.	Phosphatidic Acids	34-51	dynamin 1 like	Homo sapiens	0-4	
27635761-5	2016	Drp1 recognizes the head group of phosphatidic acid (PA) and two saturated acyl chains of another phospholipid by penetrating into the hydrophobic core of the membrane.	Phosphatidic Acids	53-55	dynamin 1 like	Homo sapiens	0-4	
27635761-7	2016	Moreover, a PA-producing phospholipase, MitoPLD, binds Drp1, creating a PA-rich microenvironment in the vicinity of a division apparatus.	Phosphatidic Acids	12-14	dynamin 1 like	Homo sapiens	55-59	
27635761-7	2016	Moreover, a PA-producing phospholipase, MitoPLD, binds Drp1, creating a PA-rich microenvironment in the vicinity of a division apparatus.	Phosphatidic Acids	72-74	dynamin 1 like	Homo sapiens	55-59	
27635761-8	2016	Thus, PA controls the activation of Drp1 after the formation of the division apparatus.	Phosphatidic Acids	6-8	dynamin 1 like	Homo sapiens	36-40