PMID-sentid	Pub_year	Sent_text	comp_official_name	comp_offset	protein_name	organism	prot_offset
12177469-1	2002	To learn more about the role of the CER6 condensing enzyme in Arabidopsis surface wax production, we determined CER6 transcription domains and the timing of CER6 transcription in vegetative and reproductive structures from juvenile, mature, and senescing tissues.	Waxes	82-85	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	36-40
28407124-7	2017	The abundances of both branched wax constituents and accompanying unbranched compounds were reduced on the cer6, cer3 and cer1 mutants but not cer4, indicating that branched compounds are in part synthesized by the same machinery as unbranched compounds.	Waxes	32-35	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	107-111
23083315-9	2013	Inhibition of brassinosteroid (BR) biosynthesis with brassinazole (BZ) caused a loss of responsiveness to PSK in wild-type, tpst-1 (tyrosylprotein sulfotransferase-1), PSKR1ox12 and CER6:PSKR1-3-1 seedlings, as did the genetic knock-out of BR synthesis in det2-1 and of BR perception in bri1-9, suggesting that BR mediates PSK-dependent growth.	Brassinosteroids	14-29	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	182-186
23083315-9	2013	Inhibition of brassinosteroid (BR) biosynthesis with brassinazole (BZ) caused a loss of responsiveness to PSK in wild-type, tpst-1 (tyrosylprotein sulfotransferase-1), PSKR1ox12 and CER6:PSKR1-3-1 seedlings, as did the genetic knock-out of BR synthesis in det2-1 and of BR perception in bri1-9, suggesting that BR mediates PSK-dependent growth.	Brassinosteroids	31-33	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	182-186
23083315-9	2013	Inhibition of brassinosteroid (BR) biosynthesis with brassinazole (BZ) caused a loss of responsiveness to PSK in wild-type, tpst-1 (tyrosylprotein sulfotransferase-1), PSKR1ox12 and CER6:PSKR1-3-1 seedlings, as did the genetic knock-out of BR synthesis in det2-1 and of BR perception in bri1-9, suggesting that BR mediates PSK-dependent growth.	brassinazole	53-65	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	182-186
23083315-9	2013	Inhibition of brassinosteroid (BR) biosynthesis with brassinazole (BZ) caused a loss of responsiveness to PSK in wild-type, tpst-1 (tyrosylprotein sulfotransferase-1), PSKR1ox12 and CER6:PSKR1-3-1 seedlings, as did the genetic knock-out of BR synthesis in det2-1 and of BR perception in bri1-9, suggesting that BR mediates PSK-dependent growth.	brassinazole	67-69	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	182-186
19805815-8	2009	The gl4 gene is a homolog of the Arabidopsis CUT1 gene, which encodes a condensing enzyme involved in the synthesis of very-long-chain fatty acids, which are precursors of epicuticular waxes.	hexacosanoic acid	119-146	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	45-49
17376164-7	2007	The esterified alcohols of cer2, cer6 and cer9 had largely increased levels of C(26) alcohol, closely matching the patterns of the corresponding free alcohols and, therefore, differing drastically from the corresponding wild type.	Alcohols	15-23	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	33-37
17376164-7	2007	The esterified alcohols of cer2, cer6 and cer9 had largely increased levels of C(26) alcohol, closely matching the patterns of the corresponding free alcohols and, therefore, differing drastically from the corresponding wild type.	c(26) alcohol	79-92	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	33-37
17376164-7	2007	The esterified alcohols of cer2, cer6 and cer9 had largely increased levels of C(26) alcohol, closely matching the patterns of the corresponding free alcohols and, therefore, differing drastically from the corresponding wild type.	Alcohols	150-158	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	33-37
33749753-6	2021	PtCER2-likes differentially altered the accumulation of C28 and C30 fatty acids when expressed in the presence of the condensing enzyme AtCER6.	ptcer2	0-6	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	136-142
33749753-6	2021	PtCER2-likes differentially altered the accumulation of C28 and C30 fatty acids when expressed in the presence of the condensing enzyme AtCER6.	Fatty Acids	68-79	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	136-142
33302398-7	2020	Variations in SA composition were correlated to the differential expression of several Arabidopsis 3-ketoacyl-CoAsynthase (KCS) genes, including KCS1, KCS5, KCS6, KCS8, and KCS12, a lipid transfer protein (LTPG1) and a lipase (LIP1).	2-chloro-10-(4'(N-beta-hydroxyethyl)piperazinyl-1')acetylphenothiazine	14-16	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	157-161
32947048-3	2020	KCS6 has been shown to be responsible for elongation using C22 fatty acid as substrate and is considered essential for synthesis of VLCFA for cuticular waxes.	c22 fatty acid	59-73	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	0-4
27730411-2	2017	Wax composition shifts from fatty acid to alkane dominance, mediated by CER6 expression.	Alkanes	42-48	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	72-76
26036614-9	2015	Moreover, in rice lines in which the gene encoding a fatty acid elongase, CUT1-LIKE (CUT1L; a homolog of the gene encoding Arabidopsis CUT1, which is required for cuticular wax production), was silenced, both ACS1 expression and aerenchyma formation were reduced.	Fatty Acids	53-63	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	74-78
26036614-9	2015	Moreover, in rice lines in which the gene encoding a fatty acid elongase, CUT1-LIKE (CUT1L; a homolog of the gene encoding Arabidopsis CUT1, which is required for cuticular wax production), was silenced, both ACS1 expression and aerenchyma formation were reduced.	Fatty Acids	53-63	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	85-89
15578216-10	2005	We employed the mesophyll cell-specific molecular marker, chloroplastic carbonic anhydrase, and developed an epidermal cell-specific marker, the very-long-chain fatty acid-condensing enzyme, CUT1, to assess specificity of harvested Arabidopsis leaf cell types by reverse transcription polymerase chain reaction.	chain fatty acid	155-171	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	191-195
12177469-5	2002	Our results demonstrate that light is essential for CER6 transcription, and that osmotic stress and the presence of abscisic acid enhance CER6 transcript accumulation.	Abscisic Acid	116-129	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	138-142
11171158-1	2000	The Arabidopsis thaliana gene CUT1 encodes a very-long-chain fatty acid-condensing enzyme required for the production of epicuticular wax in bolting stems.	long-chain fatty acid	50-71	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	30-34
11041893-7	2000	The predicted CER6 amino acid sequence resembles that of fatty acid-condensing enzymes, consistent with its role in the production of epicuticular and pollen coat lipids &gt;28 carbons long.	Fatty Acids	57-67	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	14-18
11041893-7	2000	The predicted CER6 amino acid sequence resembles that of fatty acid-condensing enzymes, consistent with its role in the production of epicuticular and pollen coat lipids &gt;28 carbons long.	Carbon	177-184	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	14-18
10330468-0	1999	CUT1, an Arabidopsis gene required for cuticular wax biosynthesis and pollen fertility, encodes a very-long-chain fatty acid condensing enzyme.	long-chain fatty acid	103-124	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	0-4
10330468-9	1999	This result indicates that CUT1 is involved in the production of VLCFA precursors used for the synthesis of all stem wax components in Arabidopsis.	Waxes	117-120	3-ketoacyl-CoA synthase 6	Arabidopsis thaliana	27-31