PMID-sentid	Pub_year	Sent_text	comp_official_name	comp_offset	protein_name	organism	prot_offset
30866815-11	2019	CONCLUSIONS: These results indicated that TpSnRK2.10 and TpSnRK2.11 are involved in the uptakes and the translocations of Cd and Fe, possibly by regulating the expression of AtNRAMP1 and AtHMA4, and other genes involved in the synthesis of phytochelatins or hemicellolosic polysaccharides.	Cadmium	122-124	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	174-182
33735495-0	2021	Manganese triggers phosphorylation-mediated endocytosis of the Arabidopsis metal transporter NRAMP1.	Manganese	0-9	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	93-99
33735495-6	2021	Mutation of the phosphorylated serine residues 20, 22 and 24 in the cytosol-exposed N-terminus of NRAMP1 alters its membrane distribution.	Serine	31-37	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	98-104
33325992-7	2021	Furthermore, the transport activity for Mn2+ was higher in yeast expressing FeNramp5 than in yeast expressing AtNramp1.	Manganese(2+)	40-44	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	110-118
33325992-8	2021	FeNramp5 was also able to complement phenotype of Arabidopsis atnramp1 mutant in terms of growth and accumulation of Mn and Cd.	Cadmium	124-126	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	62-70
32817691-5	2020	This includes structural genes involved in Fe uptake (i.e. IRT1, FRO2, PDR9, NRAMP1) and transport (i.e. FRD3, NAS4) as well as a subset of their upstream regulators, namely BTS, PYE and the four clade Ib bHLH.	Iron	43-45	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	77-83
32044630-6	2020	ABA application also inhibited the expression of IRT1, ZIP1, ZIP4, and Nramp1 in Col-0 plants subjected to Cd stress.	Abscisic Acid	0-3	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	71-77
32044630-6	2020	ABA application also inhibited the expression of IRT1, ZIP1, ZIP4, and Nramp1 in Col-0 plants subjected to Cd stress.	Cadmium	107-109	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	71-77
31115467-0	2019	NRAMP1 promotes iron uptake at the late stage of iron deficiency in poplars.	Iron	16-20	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	0-6
31115467-8	2019	IRT1 and NRAMP1 are both Fe2+ transporters for iron uptake in Arabidopsis.	Iron	47-51	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	9-15
31115467-9	2019	In this study, however, only NRAMP1 was induced to promote Fe2+ uptake in roots at the late stage of Fe deficiency response.	ammonium ferrous sulfate	59-63	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	29-35
30866815-11	2019	CONCLUSIONS: These results indicated that TpSnRK2.10 and TpSnRK2.11 are involved in the uptakes and the translocations of Cd and Fe, possibly by regulating the expression of AtNRAMP1 and AtHMA4, and other genes involved in the synthesis of phytochelatins or hemicellolosic polysaccharides.	Iron	129-131	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	174-182
30866815-11	2019	CONCLUSIONS: These results indicated that TpSnRK2.10 and TpSnRK2.11 are involved in the uptakes and the translocations of Cd and Fe, possibly by regulating the expression of AtNRAMP1 and AtHMA4, and other genes involved in the synthesis of phytochelatins or hemicellolosic polysaccharides.	Phytochelatins	240-254	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	174-182
30866815-11	2019	CONCLUSIONS: These results indicated that TpSnRK2.10 and TpSnRK2.11 are involved in the uptakes and the translocations of Cd and Fe, possibly by regulating the expression of AtNRAMP1 and AtHMA4, and other genes involved in the synthesis of phytochelatins or hemicellolosic polysaccharides.	hemicellolosic polysaccharides	258-288	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	174-182
29365153-0	2018	Screening Arabidopsis thaliana mutants for low sensitivity to manganese identifies novel alleles of NRAMP1 and PGSIP6.	Manganese	62-71	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	100-106
30652514-3	2018	The amino acid sequence of this clone, designated CjNRAMP1, was similar to the sequence of Arabidopsis AtNRAMP1, which is involved in Fe and Cd transport.	Iron	134-136	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	103-111
30652514-3	2018	The amino acid sequence of this clone, designated CjNRAMP1, was similar to the sequence of Arabidopsis AtNRAMP1, which is involved in Fe and Cd transport.	Cadmium	141-143	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	103-111
29042608-8	2017	SaNramp6 also rescued the low Cd accumulation of the A. thaliana nramp1 mutant.	Cadmium	30-32	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	65-71
24571269-0	2014	Conserved histidine of metal transporter AtNRAMP1 is crucial for optimal plant growth under manganese deficiency at chilling temperatures.	Histidine	10-19	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	41-49
27849020-0	2016	The high-affinity metal Transporters NRAMP1 and IRT1 Team up to Take up Iron under Sufficient Metal Provision.	Iron	72-76	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	37-43
27849020-0	2016	The high-affinity metal Transporters NRAMP1 and IRT1 Team up to Take up Iron under Sufficient Metal Provision.	Metals	94-99	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	37-43
27849020-1	2016	Iron (Fe) and manganese (Mn) are essential metals which, when scarce in the growth medium, are respectively taken up by the root high affinity transporters IRT1 and NRAMP1 in Arabidopsis thaliana.	Iron	0-4	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	165-171
27849020-1	2016	Iron (Fe) and manganese (Mn) are essential metals which, when scarce in the growth medium, are respectively taken up by the root high affinity transporters IRT1 and NRAMP1 in Arabidopsis thaliana.	Iron	6-8	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	165-171
27849020-1	2016	Iron (Fe) and manganese (Mn) are essential metals which, when scarce in the growth medium, are respectively taken up by the root high affinity transporters IRT1 and NRAMP1 in Arabidopsis thaliana.	Manganese	14-23	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	165-171
27849020-7	2016	We concluded that NRAMP1 plays a pivotal role in Fe transport by cooperating with IRT1 to take up Fe in roots under replete conditions, thus providing the first evidence for a low affinity Fe uptake system in plants.	Iron	49-51	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	18-24
27849020-7	2016	We concluded that NRAMP1 plays a pivotal role in Fe transport by cooperating with IRT1 to take up Fe in roots under replete conditions, thus providing the first evidence for a low affinity Fe uptake system in plants.	Iron	98-100	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	18-24
27849020-7	2016	We concluded that NRAMP1 plays a pivotal role in Fe transport by cooperating with IRT1 to take up Fe in roots under replete conditions, thus providing the first evidence for a low affinity Fe uptake system in plants.	Iron	98-100	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	18-24
26878855-14	2016	Gene expression profile of AtNRAMP1 under Fe-, K-, P- and S-deficiencies, and cold, drought, heat and salt stresses revealed various proteins involving in transcription regulation, cofactor biosynthesis, diverse developmental roles, carbohydrate metabolism, oxidation-reduction reactions, cellular signaling and protein degradation pathways.	Carbohydrates	233-245	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	27-35
28373552-0	2017	Phosphatidylinositol 3-phosphate-binding protein AtPH1 controls the localization of the metal transporter NRAMP1 in Arabidopsis.	phosphatidylinositol 3-phosphate	0-32	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	106-112
28373552-6	2017	We further show that loss of AtPH1 function leads to the mislocalization of the metal uptake transporter NRAMP1 to the vacuole, providing a rationale for the reversion of nramp3nramp4 phenotypes.	Metals	80-85	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	105-111
24571269-0	2014	Conserved histidine of metal transporter AtNRAMP1 is crucial for optimal plant growth under manganese deficiency at chilling temperatures.	Manganese	92-101	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	41-49
24571269-9	2014	Chlorotic phenotype was associated with a histidine to tyrosine (H239Y) substitution in the allele of Hog NRAMP1.	Histidine	42-51	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	106-112
24571269-9	2014	Chlorotic phenotype was associated with a histidine to tyrosine (H239Y) substitution in the allele of Hog NRAMP1.	Tyrosine	55-63	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	106-112
10769179-0	2000	Involvement of NRAMP1 from Arabidopsis thaliana in iron transport.	Iron	51-55	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	15-21
20228245-0	2010	High-affinity manganese uptake by the metal transporter NRAMP1 is essential for Arabidopsis growth in low manganese conditions.	Manganese	14-23	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	56-62
20228245-0	2010	High-affinity manganese uptake by the metal transporter NRAMP1 is essential for Arabidopsis growth in low manganese conditions.	Manganese	106-115	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	56-62
20228245-6	2010	Finally, we show that NRAMP1 restores the capacity of the iron-regulated transporter1 mutant to take up iron and cobalt, indicating that NRAMP1 has a broad selectivity in vivo.	Iron	58-62	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	22-28
20228245-6	2010	Finally, we show that NRAMP1 restores the capacity of the iron-regulated transporter1 mutant to take up iron and cobalt, indicating that NRAMP1 has a broad selectivity in vivo.	Iron	58-62	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	137-143
20228245-6	2010	Finally, we show that NRAMP1 restores the capacity of the iron-regulated transporter1 mutant to take up iron and cobalt, indicating that NRAMP1 has a broad selectivity in vivo.	Iron	104-108	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	22-28
20228245-6	2010	Finally, we show that NRAMP1 restores the capacity of the iron-regulated transporter1 mutant to take up iron and cobalt, indicating that NRAMP1 has a broad selectivity in vivo.	Iron	104-108	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	137-143
20228245-6	2010	Finally, we show that NRAMP1 restores the capacity of the iron-regulated transporter1 mutant to take up iron and cobalt, indicating that NRAMP1 has a broad selectivity in vivo.	Cobalt	113-119	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	22-28
20228245-6	2010	Finally, we show that NRAMP1 restores the capacity of the iron-regulated transporter1 mutant to take up iron and cobalt, indicating that NRAMP1 has a broad selectivity in vivo.	Cobalt	113-119	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	137-143
10769179-7	2000	AtNramp1 and OsNramp1 are able to complement the fet3fet4 yeast mutant defective both in low- and high-affinity iron transports, whereas AtNramp2 and OsNramp2 fail to do so.	Iron	112-116	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	0-8
10769179-8	2000	In addition, AtNramp1 transcript, but not AtNramp2 transcript, accumulates in response to iron deficiency in roots but not in leaves.	Iron	90-94	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	13-21
10769179-9	2000	Finally, overexpression of AtNramp1 in transgenic A. thaliana plants leads to an increase in plant resistance to toxic iron concentration.	Iron	119-123	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	27-35
34116221-5	2021	INO is highly expressed during early seed development, and that decreased expression of INO increases the expression of NATURAL RESISTANCE ASSOCIATED MACROPHAGE PROTEIN 1 (NRAMP1), a gene encoding a transporter contributing to Fe loading into the seed.	Iron	227-229	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	120-170
34340090-3	2021	Knockout of FER in fer-4 mutants downregulated the Cd-induced expression of several genes related to iron (Fe) uptake, including IRT1, bHLH38, NRAMP1, NRAMP3, FRO2 andFIT.	Cadmium	51-53	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	143-149
34116221-5	2021	INO is highly expressed during early seed development, and that decreased expression of INO increases the expression of NATURAL RESISTANCE ASSOCIATED MACROPHAGE PROTEIN 1 (NRAMP1), a gene encoding a transporter contributing to Fe loading into the seed.	Iron	227-229	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	172-178
34116221-6	2021	The relatively high embryonic Fe accumulation conferred by decreased expression of INO is rescued by the nramp1 loss-of-function mutation.	Iron	30-32	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	105-111
34116221-8	2021	Moreover, we show that excessive Fe loading into developing seeds in ino mutants produces more oxidative damage, leading to increased cell death and seed abortion, a phenotype that can be rescued by nramp1 mutation.	Iron	33-35	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	199-205
34638794-9	2021	In response to Cd treatment, AtPDF1.5 regulated the expression of metal transporter genes AtHMP07, AtNRAMP4, AtNRAMP1, and AtHIPP3, resulting in higher Cd accumulation in the shoots.	Cadmium	15-17	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	109-117
35584228-5	2022	Second, multiple independent tandem duplications occurred at NRAMP1 and together rose to near fixation in the island population, compensating the loss of IRT1 by improving Fe homeostasis.	Iron	172-174	natural resistance-associated macrophage protein 1	Arabidopsis thaliana	61-67