PMID-sentid	Pub_year	Sent_text	comp_official_name	comp_offset	protein_name	organism	prot_offset
20542116-5	2010	One of the cDNAs coding for a fatty acyl-CoA reductase (AmFAR1) involved in the synthesis of fatty alcohols was isolated and characterized.	Fatty Alcohols	93-107	fatty acyl-CoA reductase 1	Apis mellifera	56-62
20542116-7	2010	Heterologous expression of AmFAR1 in yeast revealed that AmFAR1 could convert a wide range of fatty acids (14:0-22:0) to their corresponding alcohols, with stearic acid 18:0 as the most preferred substrate.	Fatty Acids	94-105	fatty acyl-CoA reductase 1	Apis mellifera	27-33
20542116-7	2010	Heterologous expression of AmFAR1 in yeast revealed that AmFAR1 could convert a wide range of fatty acids (14:0-22:0) to their corresponding alcohols, with stearic acid 18:0 as the most preferred substrate.	Fatty Acids	94-105	fatty acyl-CoA reductase 1	Apis mellifera	57-63
20542116-7	2010	Heterologous expression of AmFAR1 in yeast revealed that AmFAR1 could convert a wide range of fatty acids (14:0-22:0) to their corresponding alcohols, with stearic acid 18:0 as the most preferred substrate.	Alcohols	141-149	fatty acyl-CoA reductase 1	Apis mellifera	27-33
20542116-7	2010	Heterologous expression of AmFAR1 in yeast revealed that AmFAR1 could convert a wide range of fatty acids (14:0-22:0) to their corresponding alcohols, with stearic acid 18:0 as the most preferred substrate.	Alcohols	141-149	fatty acyl-CoA reductase 1	Apis mellifera	57-63
20542116-7	2010	Heterologous expression of AmFAR1 in yeast revealed that AmFAR1 could convert a wide range of fatty acids (14:0-22:0) to their corresponding alcohols, with stearic acid 18:0 as the most preferred substrate.	stearic acid	156-168	fatty acyl-CoA reductase 1	Apis mellifera	27-33
20542116-7	2010	Heterologous expression of AmFAR1 in yeast revealed that AmFAR1 could convert a wide range of fatty acids (14:0-22:0) to their corresponding alcohols, with stearic acid 18:0 as the most preferred substrate.	stearic acid	156-168	fatty acyl-CoA reductase 1	Apis mellifera	57-63
20542116-8	2010	The substrate preference and the expression pattern of AmFAR1 were correlated with the level of total fatty alcohols in bees.	Fatty Alcohols	102-116	fatty acyl-CoA reductase 1	Apis mellifera	55-61
20542116-9	2010	Reconstitution of the wax biosynthetic pathway by heterologous expression of AmFAR1, together with Euglena wax synthase led to the high level production of medium to long chain wax monoesters in yeast.	Waxes	22-25	fatty acyl-CoA reductase 1	Apis mellifera	77-83