PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
28599082-1	2017	Fe(CO){CO(CH2 )5 CH2 -pyrene}(Cp)(PPh3 ) (Fp-pyrene) is soluble in DMSO and THF, but insoluble in water, methanol, and ethanol.	Methanol	105-113	caveolin 1	Homo sapiens	34-38	
33784101-1	2021	A mild condition via PPh3/I2/imidazole for the deoxygenation of substituted methanol derivatives has been identified.	Methanol	76-84	caveolin 1	Homo sapiens	21-25	
31367714-2	2019	Treatment of [Ru(OAc)2(CO)(PPh3)2] with NN ligands in methanol gives the cationic derivatives [Ru(OAc)(CO)(PPh3)(NN)]OAc (NN = en 4, ampy 5) in which one acetate acts as a bidentate ligand, whereas the other is not coordinated.	Methanol	54-62	caveolin 1	Homo sapiens	27-31	
31367714-2	2019	Treatment of [Ru(OAc)2(CO)(PPh3)2] with NN ligands in methanol gives the cationic derivatives [Ru(OAc)(CO)(PPh3)(NN)]OAc (NN = en 4, ampy 5) in which one acetate acts as a bidentate ligand, whereas the other is not coordinated.	Methanol	54-62	caveolin 1	Homo sapiens	107-111	
28088446-6	2017	We further characterized that these unique vesicles are soluble in organic solvents (e.g. chloroform-methanol mixture and ethanol) which can be prevented by a lipid-stabilizing fixative (e.g. OsO4) and that they are co-localized with, but do not monopolize, the major markers (e.g. caveolin-1 and GM1) for lipid rafts (a nano-sized detergent-resistant domains in the plasma membrane).	Methanol	101-109	caveolin 1	Homo sapiens	282-292	
25739535-1	2015	Aryl chalcones rearrange and add methanol to give substituted propane-1-ones upon UV-A irradiation in the presence of PPh3.	Methanol	33-41	caveolin 1	Homo sapiens	118-122	
26197032-1	2015	An unusual methylcyclopropanation from [2 + 1] cycloadditions of vinyl bromides to norbornenes catalyzed by Pd(OAc)2/PPh3 in the presence of CH3ONa and CH3OH has been established.	Methanol	152-157	caveolin 1	Homo sapiens	117-121	
25167462-8	2014	1b reacted with CO2 slowly in the methanol with a k2 of (1.46 +- 0.09) x 10(-3) M(-1) s(-1), yielding a formate complex [Ru(eta(1)-OC(H) O)(bpy)2(PPh3)]PF6 (2b).	Methanol	34-42	caveolin 1	Homo sapiens	146-150	
23843260-1	2013	Alkali-resistant osmabenzene [(SCN)2(PPh3)2Os{CHC(PPh3)CHCICH}] (2) can undergo nucleophilic aromatic substitution with MeOH or EtOH to give cine-substitution products [(SCN)2(PPh3)2Os{CHC(PPh3)CHCHCR}] (R=OMe (3), OEt(4)) in the presence of strong alkali.	Methanol	120-124	caveolin 1	Homo sapiens	37-41	
23843260-1	2013	Alkali-resistant osmabenzene [(SCN)2(PPh3)2Os{CHC(PPh3)CHCICH}] (2) can undergo nucleophilic aromatic substitution with MeOH or EtOH to give cine-substitution products [(SCN)2(PPh3)2Os{CHC(PPh3)CHCHCR}] (R=OMe (3), OEt(4)) in the presence of strong alkali.	Methanol	120-124	caveolin 1	Homo sapiens	50-54	
18293991-2	2008	Treatment of 1,7-diamino-5-bromohept-3-yne derivatives with catalytic Pd(PPh3)4 in the presence of NaH in MeOH gives the 2,7-diazabicyclo[4.3.0]non-5-enes in good yields.	Methanol	106-110	caveolin 1	Homo sapiens	73-77	
16075120-4	2005	In contrast, reaction of [Pt2(mu-S)2(PPh3)4] with CuCl2 and NH3 in methanol gave the intensely blue methoxy-bridged dicopper complex [{Pt(2)(mu-S)2(PPh3)4Cu(OMe)}2]2+, isolated as its hexafluorophosphate salt.	Methanol	67-75	caveolin 1	Homo sapiens	37-41	
16075120-4	2005	In contrast, reaction of [Pt2(mu-S)2(PPh3)4] with CuCl2 and NH3 in methanol gave the intensely blue methoxy-bridged dicopper complex [{Pt(2)(mu-S)2(PPh3)4Cu(OMe)}2]2+, isolated as its hexafluorophosphate salt.	Methanol	67-75	caveolin 1	Homo sapiens	148-152	
12240416-0	2001	Highly diastereoselective dihydride formation by activation of methanol with IrCl((S)-binap)(PPh3).	Methanol	63-71	caveolin 1	Homo sapiens	93-97