PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
32542680-7	2020	Genetic interaction analyses with CER1 (ECERIFERUM 1), CER3 (ECERIFERUM 3) and MAH1 (Mid-chain Alkane Hydroxylase 1) in wax biosynthesis and stomatal OCL formation showed that OSP1 may act upstream of CER3 in wax biosynthesis, and implicate that wax composition percentage changes and keeping ketones in a lower level play roles, at least partially, in forming stomatal ledges.	Ketones	293-300	Fatty acid hydroxylase superfamily	Arabidopsis thaliana	34-38	
23117394-4	2013	Arabidopsis                 eceriferum1 (cer1) and cer22 mutants show dramatic reductions in alkane, secondary alcohol, and ketone content, and concomitant increases in aldehyde content, suggesting that one or both of these genes encode an alkane-forming enzyme.	Ketones	124-130	Fatty acid hydroxylase superfamily	Arabidopsis thaliana	41-45	
23117394-4	2013	Arabidopsis                 eceriferum1 (cer1) and cer22 mutants show dramatic reductions in alkane, secondary alcohol, and ketone content, and concomitant increases in aldehyde content, suggesting that one or both of these genes encode an alkane-forming enzyme.	Ketones	124-130	Fatty acid hydroxylase superfamily	Arabidopsis thaliana	51-56