PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
22696393-8	2012	The results showed that the Sr, Zn, and Si (or Sr, Mg, and Si)-containing ionic products from SZS and SMS powders enhanced ALP activity of BMSCs, compared to those from beta-TCP.	Magnesium	51-53	alkaline phosphatase, placental	Homo sapiens	123-126	
24616281-0	2016	Magnesium ions facilitate integrin alpha 2- and alpha 3-mediated proliferation and enhance alkaline phosphatase expression and activity in hBMSCs.	Magnesium	0-9	alkaline phosphatase, placental	Homo sapiens	91-111	
24616281-6	2016	Magnesium exposure profoundly enhanced alkaline phosphatase (ALP) gene expression and activity even at a relatively low magnesium concentration (2.5 mm).	Magnesium	0-9	alkaline phosphatase, placental	Homo sapiens	39-59	
24616281-6	2016	Magnesium exposure profoundly enhanced alkaline phosphatase (ALP) gene expression and activity even at a relatively low magnesium concentration (2.5 mm).	Magnesium	0-9	alkaline phosphatase, placental	Homo sapiens	61-64	
24616281-6	2016	Magnesium exposure profoundly enhanced alkaline phosphatase (ALP) gene expression and activity even at a relatively low magnesium concentration (2.5 mm).	Magnesium	120-129	alkaline phosphatase, placental	Homo sapiens	61-64	
24616281-7	2016	Exposure to magnesium ions facilitated hBMSC proliferation via integrin alpha2 and alpha3 expression and partly promoted differentiation into osteoblasts via the alteration of ALP expression and activity.	Magnesium	12-21	alkaline phosphatase, placental	Homo sapiens	176-179	
24737106-0	2014	Strontium ranelate stimulates the activity of bone-specific alkaline phosphatase: interaction with Zn(2+) and Mg (2+).	Magnesium	110-112	alkaline phosphatase, placental	Homo sapiens	60-80	
24737106-3	2014	In this study we investigated the direct effect of strontium (SR and SrCl2) on the activity of ALP obtained from UMR106 osteosarcoma cells, as well as its possible interactions with the divalent cations Zn(2+) and Mg(2+).	Magnesium	214-216	alkaline phosphatase, placental	Homo sapiens	95-98	
23827608-11	2013	In particular, Mg ion implantation increased the initial cell adhesion, and in an osteoblast differentiation assay, ALP activity and calcium accumulation.	Magnesium	15-17	alkaline phosphatase, placental	Homo sapiens	116-119	
27694822-6	2016	Following optimization of immobilized materials-such as MG, PTH, and alkaline phosphatase (ALP)-the performance of the MG sensor was investigated via cyclic voltammetry, to assess its linearity, repeatability, and reproducibility.	Magnesium	119-121	alkaline phosphatase, placental	Homo sapiens	69-89	
27694822-6	2016	Following optimization of immobilized materials-such as MG, PTH, and alkaline phosphatase (ALP)-the performance of the MG sensor was investigated via cyclic voltammetry, to assess its linearity, repeatability, and reproducibility.	Magnesium	119-121	alkaline phosphatase, placental	Homo sapiens	91-94	
26928781-6	2016	Accordingly, experimental studies with MG-63 osteoblast-like cells show a more efficient in vitro secretion of alkaline phosphatase (ALP) and collagen I and a more copious in vivo formation of new bone trabeculae, thus suggesting a relevant role of dHA to support the main mechanisms involved in bone regeneration.	Magnesium	39-41	alkaline phosphatase, placental	Homo sapiens	111-131	
26928781-6	2016	Accordingly, experimental studies with MG-63 osteoblast-like cells show a more efficient in vitro secretion of alkaline phosphatase (ALP) and collagen I and a more copious in vivo formation of new bone trabeculae, thus suggesting a relevant role of dHA to support the main mechanisms involved in bone regeneration.	Magnesium	39-41	alkaline phosphatase, placental	Homo sapiens	133-136	
1424126-6	1992	The addition of the metal ion buffer N-hydroxyethylethylenediaminetriacetic acid, along with low concentrations of Zn and Mg, as used in the IFCC/RM/ALP, reduced the slow loss in activity over time, as did decreasing the reaction temperature to 30 degrees C, but had no effect on the early rapid decay in activity seen in the first minute.	Magnesium	122-124	alkaline phosphatase, placental	Homo sapiens	149-152	
11937510-4	2002	We found that mutations at Zn2 or Mg sites had similar effects in PLAP and ECAP but that the environment of the Zn1 ion in PLAP is less affected by substitutions than that in ECAP.	Magnesium	34-36	alkaline phosphatase, placental	Homo sapiens	66-70	
10469152-9	1999	The ALP is magnesium-dependent for its catalytic activity and was inhibited after incubation of ALP-containing liposomes in a magnesium-free buffer.	Magnesium	11-20	alkaline phosphatase, placental	Homo sapiens	4-7	
10469152-9	1999	The ALP is magnesium-dependent for its catalytic activity and was inhibited after incubation of ALP-containing liposomes in a magnesium-free buffer.	Magnesium	11-20	alkaline phosphatase, placental	Homo sapiens	96-99	
10469152-9	1999	The ALP is magnesium-dependent for its catalytic activity and was inhibited after incubation of ALP-containing liposomes in a magnesium-free buffer.	Magnesium	126-135	alkaline phosphatase, placental	Homo sapiens	4-7	
10469152-9	1999	The ALP is magnesium-dependent for its catalytic activity and was inhibited after incubation of ALP-containing liposomes in a magnesium-free buffer.	Magnesium	126-135	alkaline phosphatase, placental	Homo sapiens	96-99	
10469152-10	1999	The ALP activity was restored by the addition of detergent to the liposomes, due to the release of the luminal magnesium ions.	Magnesium	111-120	alkaline phosphatase, placental	Homo sapiens	4-7	
6465832-4	1984	Visualization of ALP activity is accomplished by the use of buffered p-toluidinium 5-bromo-4-chloro-indolyl phosphate and magnesium ions.	Magnesium	122-131	alkaline phosphatase, placental	Homo sapiens	17-20	
35631664-8	2022	An in vitro study showed that metal ions released from Mg-Zn-Ca BMG promoted cell proliferation and migration and elevated alkaline phosphatase (ALP) activity and mineralization.	Magnesium	55-57	alkaline phosphatase, placental	Homo sapiens	123-143	
35631664-8	2022	An in vitro study showed that metal ions released from Mg-Zn-Ca BMG promoted cell proliferation and migration and elevated alkaline phosphatase (ALP) activity and mineralization.	Magnesium	55-57	alkaline phosphatase, placental	Homo sapiens	145-148	
2702751-6	1989	ALP requires Mg ion in vitro for optimal activity, but addition of Mg in the appropriate amounts to sera with low ALP activity did not restore ALP activity.	Magnesium	13-15	alkaline phosphatase, placental	Homo sapiens	0-3	
2702751-6	1989	ALP requires Mg ion in vitro for optimal activity, but addition of Mg in the appropriate amounts to sera with low ALP activity did not restore ALP activity.	Magnesium	67-69	alkaline phosphatase, placental	Homo sapiens	114-117	
2702751-6	1989	ALP requires Mg ion in vitro for optimal activity, but addition of Mg in the appropriate amounts to sera with low ALP activity did not restore ALP activity.	Magnesium	67-69	alkaline phosphatase, placental	Homo sapiens	114-117	
32814632-4	2020	In addition, it was confirmed that the junctional site localization of Zona-occludens 1 (ZO-1), a representative tight junction protein, was destroyed by magnesium treatment; furthermore, it was determined that cytoplasmic localization increased, and alkaline phosphatase (ALP) activity increased.	Magnesium	154-163	alkaline phosphatase, placental	Homo sapiens	251-271	
13416568-0	1957	The alkaline phosphomonoesterase activity of cell nuclei; activation by 0.16M magnesium.	Magnesium	78-87	alkaline phosphatase, placental	Homo sapiens	4-32	
33313164-7	2020	These results were consistent with those of in vitro experiments, in which high levels of magnesium inhibited mineral deposition by mesenchymal stem cells (MSCs) but increased alkaline phosphatase (ALP) expression.	Magnesium	90-99	alkaline phosphatase, placental	Homo sapiens	176-196	
33313164-7	2020	These results were consistent with those of in vitro experiments, in which high levels of magnesium inhibited mineral deposition by mesenchymal stem cells (MSCs) but increased alkaline phosphatase (ALP) expression.	Magnesium	90-99	alkaline phosphatase, placental	Homo sapiens	198-201	
32814632-4	2020	In addition, it was confirmed that the junctional site localization of Zona-occludens 1 (ZO-1), a representative tight junction protein, was destroyed by magnesium treatment; furthermore, it was determined that cytoplasmic localization increased, and alkaline phosphatase (ALP) activity increased.	Magnesium	154-163	alkaline phosphatase, placental	Homo sapiens	273-276	
30581701-4	2018	Magnesium ions released from the hydrogels promote osteogenic differentiation of the encapsulated human mesenchymal stem cells (hMSCs) and activation of alkaline phosphatase (ALP).	Magnesium	0-9	alkaline phosphatase, placental	Homo sapiens	153-173	
30581701-4	2018	Magnesium ions released from the hydrogels promote osteogenic differentiation of the encapsulated human mesenchymal stem cells (hMSCs) and activation of alkaline phosphatase (ALP).	Magnesium	0-9	alkaline phosphatase, placental	Homo sapiens	175-178	
29257215-3	2018	PPLF significantly increased ALP release from MG-63 cells and mineralization in a dose-dependent manner.	Magnesium	46-48	alkaline phosphatase, placental	Homo sapiens	29-32	
28882757-3	2017	Results indicate that Mg ions up-regulated the expression of Runx2 and alkaline phosphatase (ALP) through TRPM7/PI3K signalling pathway, which could significantly enhance the osteogenic activity of human osteoblasts.	Magnesium	22-24	alkaline phosphatase, placental	Homo sapiens	71-91	
28882757-3	2017	Results indicate that Mg ions up-regulated the expression of Runx2 and alkaline phosphatase (ALP) through TRPM7/PI3K signalling pathway, which could significantly enhance the osteogenic activity of human osteoblasts.	Magnesium	22-24	alkaline phosphatase, placental	Homo sapiens	93-96	
31931298-5	2020	For this purpose, ALP is introduced in Ca2+/Mg2+-containing solution (pH = 7.4; 37  C), and its activity modulated by the concentration of its substrate.	Magnesium	44-47	alkaline phosphatase, placental	Homo sapiens	18-21