PMID-sentid	Pub_year	Sent_text	comp_official_name	comp_offset	protein_name	organism	prot_offset
11675388-8	2002	The results demonstrate that LOX H1 is a specific isoform involved in the generation of volatile defense and signaling compounds through the HPL branch of the octadecanoid pathway.	octadecanoid	159-171	fatty acid hydroperoxide lyase	Solanum tuberosum	141-144
32464332-3	2020	The results of present work demonstrate that additional products (except the HPL products) of fatty acid hydroperoxides conversion by the recombinant StHPL (CYP74B3, Solanum tuberosum), MsHPL (CYP74B4v1, Medicago sativa), and CsHPL (CYP74B6, Cucumis sativus) are epoxyalcohols.	Lipid Peroxides	94-119	fatty acid hydroperoxide lyase	Solanum tuberosum	77-80
32464332-3	2020	The results of present work demonstrate that additional products (except the HPL products) of fatty acid hydroperoxides conversion by the recombinant StHPL (CYP74B3, Solanum tuberosum), MsHPL (CYP74B4v1, Medicago sativa), and CsHPL (CYP74B6, Cucumis sativus) are epoxyalcohols.	Lipid Peroxides	94-119	fatty acid hydroperoxide lyase	Solanum tuberosum	150-155
32464332-3	2020	The results of present work demonstrate that additional products (except the HPL products) of fatty acid hydroperoxides conversion by the recombinant StHPL (CYP74B3, Solanum tuberosum), MsHPL (CYP74B4v1, Medicago sativa), and CsHPL (CYP74B6, Cucumis sativus) are epoxyalcohols.	epoxyalcohols	263-276	fatty acid hydroperoxide lyase	Solanum tuberosum	150-155
32464332-4	2020	MsHPL, StHPL, and CsHPL converted the 13-hydroperoxides of linoleic (13-HPOD) and alpha-linolenic acids (13-HPOT) primarily to the chain cleavage products.	13-hydroperoxides	38-55	fatty acid hydroperoxide lyase	Solanum tuberosum	7-12
32464332-4	2020	MsHPL, StHPL, and CsHPL converted the 13-hydroperoxides of linoleic (13-HPOD) and alpha-linolenic acids (13-HPOT) primarily to the chain cleavage products.	Linoleic Acid	59-67	fatty acid hydroperoxide lyase	Solanum tuberosum	7-12
32464332-4	2020	MsHPL, StHPL, and CsHPL converted the 13-hydroperoxides of linoleic (13-HPOD) and alpha-linolenic acids (13-HPOT) primarily to the chain cleavage products.	13-hydroperoxy-9,11-octadecadienoic acid	69-76	fatty acid hydroperoxide lyase	Solanum tuberosum	7-12
32464332-4	2020	MsHPL, StHPL, and CsHPL converted the 13-hydroperoxides of linoleic (13-HPOD) and alpha-linolenic acids (13-HPOT) primarily to the chain cleavage products.	alpha-Linolenic Acid	82-103	fatty acid hydroperoxide lyase	Solanum tuberosum	7-12
32464332-4	2020	MsHPL, StHPL, and CsHPL converted the 13-hydroperoxides of linoleic (13-HPOD) and alpha-linolenic acids (13-HPOT) primarily to the chain cleavage products.	13-hydroperoxy-9,11,15-octadecatrienoic acid	105-112	fatty acid hydroperoxide lyase	Solanum tuberosum	7-12
11416166-4	2001	An HPL activity present in potato leaves has been characterized and shown to cleave specifically 13-hydroperoxides of both linoleic and linolenic acids to yield hexanal and 3-hexenal, respectively, and 12-oxo-dodecenoic acid.	13-hydroperoxides	97-114	fatty acid hydroperoxide lyase	Solanum tuberosum	3-6
11416166-4	2001	An HPL activity present in potato leaves has been characterized and shown to cleave specifically 13-hydroperoxides of both linoleic and linolenic acids to yield hexanal and 3-hexenal, respectively, and 12-oxo-dodecenoic acid.	linoleic and	123-135	fatty acid hydroperoxide lyase	Solanum tuberosum	3-6
11416166-4	2001	An HPL activity present in potato leaves has been characterized and shown to cleave specifically 13-hydroperoxides of both linoleic and linolenic acids to yield hexanal and 3-hexenal, respectively, and 12-oxo-dodecenoic acid.	Linolenic Acids	136-151	fatty acid hydroperoxide lyase	Solanum tuberosum	3-6
11416166-4	2001	An HPL activity present in potato leaves has been characterized and shown to cleave specifically 13-hydroperoxides of both linoleic and linolenic acids to yield hexanal and 3-hexenal, respectively, and 12-oxo-dodecenoic acid.	hexanal and 3-hexenal	161-182	fatty acid hydroperoxide lyase	Solanum tuberosum	3-6
11416166-4	2001	An HPL activity present in potato leaves has been characterized and shown to cleave specifically 13-hydroperoxides of both linoleic and linolenic acids to yield hexanal and 3-hexenal, respectively, and 12-oxo-dodecenoic acid.	12-oxo-dodecenoic acid	202-224	fatty acid hydroperoxide lyase	Solanum tuberosum	3-6
11416166-8	2001	Antisense-mediated HPL depletion in transgenic potato plants has identified this enzyme as a major route of 13-fatty acid hydroperoxide degradation in the leaves.	13-fatty acid hydroperoxide	108-135	fatty acid hydroperoxide lyase	Solanum tuberosum	19-22
11416166-11	2001	Thus, HPL-catalyzed production of C6 aldehydes may be a key step of a built-in resistance mechanism of plants against some sucking insect pests.	Aldehydes	37-46	fatty acid hydroperoxide lyase	Solanum tuberosum	6-9