PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
11925208-6	2002	Substituents at the carbons adjacent to the allylic carbinol carbon (i.e., C-2 or C-6 in cyclohexenone-derived substrates) directed the stereochemical course of the rearrangement.	Methanol	52-60	complement C2	Homo sapiens	75-78	
11574725-1	2001	The structure of the title methanol complex (P1;, Z = 2) has been determined and compared with that of the title ethanol complex (C2/c, Z = 8) using published data.	Methanol	27-35	complement C2	Homo sapiens	130-141	
34741432-0	2021	In Situ Replacement Synthesis of Co@NCNT Encapsulated CoPt3 @Co2 P Heterojunction Boosting Methanol Oxidation and Hydrogen Evolution.	Methanol	91-99	complement C2	Homo sapiens	61-64	
8901910-3	1996	However, in pure water or methanol SN1 reaction occurs mainly at C-2.	Methanol	26-34	complement C2	Homo sapiens	65-68	
11667203-4	1996	Radical reduction with tri-n-butyltin hydride of the appropriate phenoxythiocarbonyl derivative afforded the desired deoxysugar 5 in 47% overall yield together with the secondary products 6 and 7 due to depivaloylation at C-2 and elimination of methanol.	Methanol	245-253	complement C2	Homo sapiens	222-225	
30869514-5	2019	NMR titration studies suggest that only 1:1 complexes of Ln(III) with C2-POPhen formed in CH3OH in the presence of a significant amount of nitrate, while both 1:1 and 2:1 complexes species could form between C2-POPhen and Ln(III) perchlorate in CH3OH without nitrate ions.	Methanol	90-95	complement C2	Homo sapiens	70-79	
33744543-0	2021	Stable CuO with variable valence states cooperated with active Co2+ as catalyst/co-catalyst for oxygen reduction/methanol oxidation reactions.	Methanol	113-121	complement C2	Homo sapiens	63-66	
33650598-5	2021	We show that water is unlikely to be important in this stage of the process, C-H bonds of C2 and C3 species can give an energetically favourable pathway and that the disproportionation of hydroxymethyl radicals to methanol and formaldehyde produces a very favourable route.	Methanol	214-222	complement C2	Homo sapiens	90-99	
31553114-2	2019	Herein, the first dinuclear cluster species, RhVO 3 - , has been designed to mediate the co-conversion of CH 4 and CO 2 to oxygenated products, CH 3 OH and CH 2 O, in the temperature range of 393-600 K. The resulting cluster ions RhVO 3 CO - after CH 3 OH formation can further desorb the [CO] unit to regenerate the RhVO 3 - cluster, leading to the successful establishment of a catalytic cycle for methanol production from CH 4 and CO 2 (CH 4 + CO 2 = CH 3 OH + CO).	Methanol	400-408	complement C2	Homo sapiens	115-119	
31348650-4	2019	This CuSAs/TCNFs membrane has excellent mechanical properties and can be directly used as cathode for CO2RR, which could generate nearly pure methanol with 44% Faradaic efficiency in liquid phase.	Methanol	142-150	complement C2	Homo sapiens	102-107	
30869514-6	2019	The stability constants for the complexation of Am(III) and Ln(III) with C2-POPhen in CH3OH were determined by spectrophotometric titrations and the Am(III) complexes are approximately 1 order of magnitude stronger than those of Ln(III), which is consistent with the extraction results.	Methanol	86-91	complement C2	Homo sapiens	73-82	
26923815-2	2016	Aiming at a better mechanistic understanding of methanol formation from CO2/H2 on highly selective supported Au/ZnO catalysts we have investigated the role of CO in the reaction process using isotope labelling experiments.	Methanol	48-56	complement C2	Homo sapiens	72-78	
25266135-1	2014	Microscopic interactions of an imidazolium-based ionic liquid, 1-ethyl-3-methylimidazolium bis(trifluoromethanesulfonyl)imide (C2mimTFSI), with dimethyl sulfoxide (DMSO), methanol (MeOH), and acetonitrile (AN) have been analyzed by means of Raman, attenuated total reflectance infrared (ATR-IR), (1)H and (13)C NMR spectroscopy techniques.	Methanol	171-179	complement C2	Homo sapiens	127-136	
27389220-1	2016	The reductive conversion of CO2 into industrial products (e.g., oxalic acid, formic acid, methanol) can occur via aqueous CO2 (-) as a transient intermediate.	Methanol	90-98	complement C2	Homo sapiens	28-31	
30154993-4	2015	A detailed mechanistic study using DFT calculations shows that a sequential series of hydride transfer and protonolysis steps can account for the transformation of CO2via formate/formic acid to hydroxymethanolate/formaldehyde and finally methanolate/methanol within the coordination sphere of a single Ru-Triphos-fragment.	Methanol	201-209	complement C2	Homo sapiens	164-167	
25266135-1	2014	Microscopic interactions of an imidazolium-based ionic liquid, 1-ethyl-3-methylimidazolium bis(trifluoromethanesulfonyl)imide (C2mimTFSI), with dimethyl sulfoxide (DMSO), methanol (MeOH), and acetonitrile (AN) have been analyzed by means of Raman, attenuated total reflectance infrared (ATR-IR), (1)H and (13)C NMR spectroscopy techniques.	Methanol	181-185	complement C2	Homo sapiens	127-136	
23511424-4	2013	The conversion of a MeOH-H2O mixture proceeds selectively to CO2/H2 gas formation under neutral conditions, thereby allowing the use of the entire hydrogen content (12% by weight).	Methanol	20-24	complement C2	Homo sapiens	61-67