PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
15347798-2	2004	Mutations that disrupt AtHKT1 function suppress NaCl sensitivity of sos1-1 and sos2-2, as well as of sos3-1 seedlings grown in vitro and plants grown in controlled environmental conditions.	Sodium Chloride	48-52	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	68-74	
19758408-5	2009	During the first 15 min after NaCl application, sos1 mutants showed net H(+) efflux and intracellular alkalinization in the meristem zone, whereas sos2 and sos3 mutants and WT showed net H(+) influx and slight intracellular acidification in the meristem zone.	Sodium Chloride	30-34	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	48-52	
19758408-8	2009	After NaCl application, internal pH shifted to higher values in WT and sos1 plants.	Sodium Chloride	6-10	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	71-75	
19748453-6	2009	The mRNA abundance of the NHX1 and SOS1 Na(+)/H(+) antiporters was significantly increased by 50 mM NaCl in the two accessions.	Sodium Chloride	100-104	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	35-39	
15347782-5	2004	However, mild salt stress (50 mm NaCl) strongly inhibited root-cell K(+) permeability and growth rate in K(+)-limiting conditions of sos1 but not wild-type plants.	Sodium Chloride	33-37	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	133-137	
19571313-9	2009	Reduction in SOS1 expression changed Thellungiella that normally can grow in seawater-strength sodium chloride solutions into a plant as sensitive to Na(+) as Arabidopsis.	Sodium Chloride	95-110	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	13-17	
9085573-0	1997	Reduced Na+ uptake in the NaCl-hypersensitive sos1 mutant of Arabidopsis thaliana.	Sodium Chloride	26-30	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	46-50	
12469134-3	2003	Transgenic plants showed substantial upregulation of SOS1 transcript levels upon NaCl treatment, suggesting post-transcriptional control of SOS1 transcript accumulation.	Sodium Chloride	81-85	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	53-57	
12469134-3	2003	Transgenic plants showed substantial upregulation of SOS1 transcript levels upon NaCl treatment, suggesting post-transcriptional control of SOS1 transcript accumulation.	Sodium Chloride	81-85	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	140-144	
12469134-4	2003	In response to NaCl treatment, transgenic plants overexpressing SOS1 accumulated less Na+ in the xylem transpirational stream and in the shoot.	Sodium Chloride	15-19	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	64-68	
12070350-1	2002	The Arabidopsis thaliana SOS1 protein is a putative Na+/H+ antiporter that functions in Na+ extrusion and is essential for the NaCl tolerance of plants.	Sodium Chloride	127-131	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	25-29	
10823923-5	2000	SOS1 gene expression in plants is up-regulated in response to NaCl stress.	Sodium Chloride	62-66	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	0-4	
9193091-1	1997	The sos1 mutant of Arabidopsis thaliana is more than 20 times more sensitive to NaCl stress than wild type Arabidopsis.	Sodium Chloride	80-84	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	4-8	
9193091-4	1997	Although a defective high-affinity K uptake system in sos1 causes K deficiency and inhibits growth in NaCl-treated plants, this decrease is not a sufficient signal for Pro accumulation and P5CS gene expression.	Sodium Chloride	102-106	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	54-58	
11884687-6	2002	Under mild salt stress (25 mM NaCl), sos1 mutant shoot accumulated less Na(+) than did the wild-type shoot.	Sodium Chloride	30-34	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	37-41	
11884687-7	2002	However, under severe salt stress (100 mM NaCl), sos1 mutant plants accumulated more Na(+) than did the wild type.	Sodium Chloride	42-46	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	49-53	
11884687-8	2002	There also was greater Na(+) content in the xylem sap of sos1 mutant plants exposed to 100 mM NaCl.	Sodium Chloride	94-98	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	57-61	
9085573-2	1997	We report here that sos1 accumulates less Na+ than the wild type in response to NaCl stress.	Sodium Chloride	80-84	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	20-24	
9085573-3	1997	The Na+ contents in sos1 seedlings exposed to 25 mM NaCl for 2 or more d are about 43% lower than those in the wild type.	Sodium Chloride	52-56	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	20-24	
9085573-4	1997	When assayed at 20 mM external NaCl, sos1 seedlings pretreated with low potassium have 32% lower Na+ uptake than the wild type.	Sodium Chloride	31-35	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	37-41	
33213111-6	2020	Our qPCR data revealed that during 12 h of NaCl stress, application of ACC increased the expression of AtSOS1 and AtAHA1, which encode the plasma membrane (PM) Na+/H+ antiporters (SOS1) and H+-ATPase (H+ pumps), respectively.	Sodium Chloride	43-47	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	103-109	
12239394-9	1996	sos1 plants became deficient in potassium when treated with NaCl.	Sodium Chloride	60-64	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	0-4	
33213111-6	2020	Our qPCR data revealed that during 12 h of NaCl stress, application of ACC increased the expression of AtSOS1 and AtAHA1, which encode the plasma membrane (PM) Na+/H+ antiporters (SOS1) and H+-ATPase (H+ pumps), respectively.	Sodium Chloride	43-47	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	105-109	
29307003-9	2018	Moreover, compared to the wild type, the expression of AtSOS1 (salt overly sensitive 1) and AtAHA1 (plasma membrane H+-ATPase 1) were down-regulated in atvha-c5 roots under NaCl stress.	Sodium Chloride	173-177	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	55-61	
31208046-7	2019	Transformations of TrSOS1, GhSOS1, or AtSOS1 into yeast NHA1 (Na+/H+ antiporter 1) mutant reduced cellular Na+ content and Na+/K+ ratio, increased K+ level under salt stress, and had good growth complementation in saline conditions.	Sodium Chloride	214-220	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	38-44	
32138325-8	2020	Interestingly, the transcriptional levels of SOS1, SOS2, and SOS3 increased significantly over time in the atbzip62 upon NaCl application, while they were downregulated in the wild type.	Sodium Chloride	121-125	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	45-49	
24459895-11	2013	Expression analysis of saline stress response marker genes in the transgenic and wild-type plants under the salt stress condition showed that PeMYB2 regulated the expression of NXH1, SOS1, RD29A, and COR15A.	Sodium Chloride	23-29	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	183-187	
26985021-5	2016	NaCl at concentration &gt;200 mM would kill AtNHX1-overexpressing or SOS1-overexpressing plants.	Sodium Chloride	0-4	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	69-73	
26985021-6	2016	Here it is shown that co-overexpressing AtNHX1 and SOS1 could further improve salt tolerance in transgenic Arabidopsis plants, making transgenic Arabidopsis able to tolerate up to 250 mM NaCl treatment.	Sodium Chloride	187-191	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	51-55	
24150094-1	2014	The SOS signaling pathway has emerged as a key mechanism in preserving the homeostasis of Na+ and K+ under saline conditions.	Sodium Chloride	107-113	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	4-7	
23809151-7	2013	Using quantitative reverse transcription-polymerase chain reaction (qRT-PCR) analysis, we determined that the accumulation of salt overly sensitive (SOS) transcripts, SOS1 and SOS3, was higher in atmyb73 ko and atmyb73 eko plants than in wild type plants in response to 300mM NaCl treatment.	Sodium Chloride	276-280	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	149-152	
23809151-7	2013	Using quantitative reverse transcription-polymerase chain reaction (qRT-PCR) analysis, we determined that the accumulation of salt overly sensitive (SOS) transcripts, SOS1 and SOS3, was higher in atmyb73 ko and atmyb73 eko plants than in wild type plants in response to 300mM NaCl treatment.	Sodium Chloride	276-280	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	167-171	
22115741-5	2012	In addition, roots of SOS1-overexpressing seedlings lost less K(+) instantaneously in response to 50 mM NaCl than control plants.	Sodium Chloride	104-108	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	22-26	
20796215-10	2010	The MPK6 phosphorylation of SOS1 was stimulated by treatment with NaCl, as well as directly by PA.	Sodium Chloride	66-70	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	28-32	
21227472-6	2011	NaCl sensitivity was associated with nks1 mutations in Arabidopsis lines expressing either wild type or null alleles of SOS1, SOS2 or SOS3.	Sodium Chloride	0-4	sodium proton exchanger, putative (NHX7) (SOS1)	Arabidopsis thaliana	120-124