PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
33671544-3	2021	In this work, two kinds of basic pyridine-based organo-catalysts were used to efficiently catalyze phospha-Michael addition reactions, the 4-N,N-dimethylaminopyridinium saccharinate (DMAP Hsac) salt and a fluorous long-chained pyridine (4-Rf-CH2OCH2-py, where Rf = C11F23).	pyridine	33-41	adenylate cyclase 10	Homo sapiens	188-192	
33671544-3	2021	In this work, two kinds of basic pyridine-based organo-catalysts were used to efficiently catalyze phospha-Michael addition reactions, the 4-N,N-dimethylaminopyridinium saccharinate (DMAP Hsac) salt and a fluorous long-chained pyridine (4-Rf-CH2OCH2-py, where Rf = C11F23).	pyridine	227-235	adenylate cyclase 10	Homo sapiens	188-192	
33671544-9	2021	To our knowledge, these are good examples of the application of recoverable organo-catalysts to the DMAP Hsac adduct by using non-polar solvent and a fluorous long-chained pyridine under the thermomorphic mode in phospha-Michael addition reactions.	pyridine	172-180	adenylate cyclase 10	Homo sapiens	105-109