PMID-sentid	Pub_year	Sent_text	comp_official_name	comp_offset	protein_name	organism	prot_offset
25048220-1	2015	Transgenic soybean plants overexpressing the Arabidopsis purple acid phosphatase gene AtPAP15 (OXp) or the soybean expansin gene GmEXPB2 (OXe) can improve phosphorous (P) efficiency in pure culture by increasing Apase secretion or changing root morphology.	Phosphorus	155-166	purple acid phosphatase 15	Arabidopsis thaliana	86-93
19633233-2	2009	Among the 29 PAP-like proteins in Arabidopsis (Arabidopsis thaliana), AtPAP15 (At3g07130) displays a greater degree of amino acid identity with soybean (Glycine max; GmPHY) and tobacco (Nicotiana tabacum) PAP (NtPAP) with phytase activity than the other AtPAPs.	atpaps	254-260	purple acid phosphatase 15	Arabidopsis thaliana	70-77
19633233-7	2009	Therefore, AtPAP15 likely mobilizes phosphorus reserves in plants, particularly during seed and pollen germination.	Phosphorus	36-46	purple acid phosphatase 15	Arabidopsis thaliana	11-18
18065557-4	2008	The phenotype was caused by activation of a purple acid phosphatase (PAP) gene, AtPAP15, which contains a dinuclear metal center in the active site.	Metals	116-121	purple acid phosphatase 15	Arabidopsis thaliana	80-87
18065557-6	2008	Overexpression of AtPAP15 with the 35S cauliflower mosaic virus promoter produced mutants with up to 2-fold increased foliar AsA, 20% to 30% decrease in foliar phytate, enhanced salt tolerance, and decreased abscisic acid sensitivity.	Ascorbic Acid	125-128	purple acid phosphatase 15	Arabidopsis thaliana	18-25
18065557-6	2008	Overexpression of AtPAP15 with the 35S cauliflower mosaic virus promoter produced mutants with up to 2-fold increased foliar AsA, 20% to 30% decrease in foliar phytate, enhanced salt tolerance, and decreased abscisic acid sensitivity.	Abscisic Acid	208-221	purple acid phosphatase 15	Arabidopsis thaliana	18-25
18065557-7	2008	Two independent SALK T-DNA insertion mutants in AtPAP15 had 30% less foliar AsA and 15% to 20% more phytate than wild-type plants and decreased tolerance to abiotic stresses.	Ascorbic Acid	76-79	purple acid phosphatase 15	Arabidopsis thaliana	48-55
18065557-9	2008	Recombinant AtPAP15 also showed enzyme activity on the substrate myoinositol-1-phosphate, indicating that the AtPAP15 is a phytase that hydrolyzes myoinositol hexakisphosphate to yield myoinositol and free phosphate.	inositol 1-phosphate	65-88	purple acid phosphatase 15	Arabidopsis thaliana	12-19
18065557-9	2008	Recombinant AtPAP15 also showed enzyme activity on the substrate myoinositol-1-phosphate, indicating that the AtPAP15 is a phytase that hydrolyzes myoinositol hexakisphosphate to yield myoinositol and free phosphate.	inositol 1-phosphate	65-88	purple acid phosphatase 15	Arabidopsis thaliana	110-117
18065557-9	2008	Recombinant AtPAP15 also showed enzyme activity on the substrate myoinositol-1-phosphate, indicating that the AtPAP15 is a phytase that hydrolyzes myoinositol hexakisphosphate to yield myoinositol and free phosphate.	Phytic Acid	147-175	purple acid phosphatase 15	Arabidopsis thaliana	12-19
18065557-9	2008	Recombinant AtPAP15 also showed enzyme activity on the substrate myoinositol-1-phosphate, indicating that the AtPAP15 is a phytase that hydrolyzes myoinositol hexakisphosphate to yield myoinositol and free phosphate.	Phytic Acid	147-175	purple acid phosphatase 15	Arabidopsis thaliana	110-117
18065557-9	2008	Recombinant AtPAP15 also showed enzyme activity on the substrate myoinositol-1-phosphate, indicating that the AtPAP15 is a phytase that hydrolyzes myoinositol hexakisphosphate to yield myoinositol and free phosphate.	Inositol	65-76	purple acid phosphatase 15	Arabidopsis thaliana	12-19
18065557-9	2008	Recombinant AtPAP15 also showed enzyme activity on the substrate myoinositol-1-phosphate, indicating that the AtPAP15 is a phytase that hydrolyzes myoinositol hexakisphosphate to yield myoinositol and free phosphate.	Inositol	65-76	purple acid phosphatase 15	Arabidopsis thaliana	110-117
18065557-9	2008	Recombinant AtPAP15 also showed enzyme activity on the substrate myoinositol-1-phosphate, indicating that the AtPAP15 is a phytase that hydrolyzes myoinositol hexakisphosphate to yield myoinositol and free phosphate.	Phosphates	79-88	purple acid phosphatase 15	Arabidopsis thaliana	12-19
18065557-9	2008	Recombinant AtPAP15 also showed enzyme activity on the substrate myoinositol-1-phosphate, indicating that the AtPAP15 is a phytase that hydrolyzes myoinositol hexakisphosphate to yield myoinositol and free phosphate.	Phosphates	79-88	purple acid phosphatase 15	Arabidopsis thaliana	110-117
18065557-11	2008	Thus, AtPAP15 may modulate AsA levels by controlling the input of myoinositol into this branch of AsA biosynthesis in Arabidopsis.	Ascorbic Acid	27-30	purple acid phosphatase 15	Arabidopsis thaliana	6-13
18065557-11	2008	Thus, AtPAP15 may modulate AsA levels by controlling the input of myoinositol into this branch of AsA biosynthesis in Arabidopsis.	Inositol	66-77	purple acid phosphatase 15	Arabidopsis thaliana	6-13
18065557-11	2008	Thus, AtPAP15 may modulate AsA levels by controlling the input of myoinositol into this branch of AsA biosynthesis in Arabidopsis.	Ascorbic Acid	98-101	purple acid phosphatase 15	Arabidopsis thaliana	6-13