PMID-sentid	Pub_year	Sent_text	comp_official_name	comp_offset	protein_name	organism	prot_offset
32291040-2	2018	Two Arabidopsis genes, AtMTM1 and AtMTM2, encode enzymatically active phosphatases but although AtMTM1 deficiency results in increased tolerance to dehydration stress and a decrease in cellular PtdIns5P, the role of AtMTM2 is less clear, as it does not contribute to the PtdIns5P pool upon dehydration stress.	phosphatidylinositol 5-phosphate	271-279	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	34-40
34434202-5	2021	The expression levels of AtMTM1, AtMTM2, and AtMnSOD respond positively to methyl viologen (MV) and metal stress.	Paraquat	75-90	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	33-39
34434202-5	2021	The expression levels of AtMTM1, AtMTM2, and AtMnSOD respond positively to methyl viologen (MV) and metal stress.	Metals	100-105	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	33-39
34434202-6	2021	AtMTM1 and AtMTM2 are involved in Mn and Fe homeostasis, root length, and flowering time.	Iron	41-43	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	11-17
35270089-0	2022	Impacts of Mn, Fe, and Oxidative Stressors on MnSOD Activation by AtMTM1 and AtMTM2 in Arabidopsis.	Iron	15-17	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	77-83
35270089-1	2022	It has been reported that the mitochondrial carrier family proteins of AtMTM1 and AtMTM2 are necessary for manganese superoxide dismutase (MnSOD) activation in Arabidopsis, and are responsive to methyl viologen (MV)-induced oxidative stress.	Paraquat	195-210	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	82-88
35270089-1	2022	It has been reported that the mitochondrial carrier family proteins of AtMTM1 and AtMTM2 are necessary for manganese superoxide dismutase (MnSOD) activation in Arabidopsis, and are responsive to methyl viologen (MV)-induced oxidative stress.	Paraquat	212-214	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	82-88
35270089-5	2022	However, we showed that BPS inhibited MnSOD activity in AtMTM1 and AtMTM2 single- and double-mutant protoplasts, implying that altered Fe homeostasis affected MnSOD activation through AtMTM1 and AtMTM2.	Iron	135-137	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	67-73
35270089-5	2022	However, we showed that BPS inhibited MnSOD activity in AtMTM1 and AtMTM2 single- and double-mutant protoplasts, implying that altered Fe homeostasis affected MnSOD activation through AtMTM1 and AtMTM2.	Iron	135-137	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	195-201
35270089-6	2022	Notably, we used inductively coupled plasma-optical emission spectrometry (ICP-OES) analysis to reveal an abnormal Fe/Mn ratio in the roots and shoots of AtMTM1 and AtMTM2 mutants under MV stress, indicating the importance of AtMTM1 in roots and AtMTM2 in shoots for maintaining Fe/Mn balance.	Iron	279-281	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	165-171
32291040-3	2018	Here we analysed the involvement of AtMTM1, AtMTM2 and PtdIns5P in the response of Arabidopsis seedlings to dehydration stress/ABA, and found that both AtMTM1 and AtMTM2 were involved but affected oppositely stomata movement and the accumulation of reactive oxygen species (ROS, e.g. H2O2).	phosphatidylinositol 5-phosphate	55-63	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	163-169
32291040-3	2018	Here we analysed the involvement of AtMTM1, AtMTM2 and PtdIns5P in the response of Arabidopsis seedlings to dehydration stress/ABA, and found that both AtMTM1 and AtMTM2 were involved but affected oppositely stomata movement and the accumulation of reactive oxygen species (ROS, e.g. H2O2).	Abscisic Acid	127-130	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	44-50
32291040-3	2018	Here we analysed the involvement of AtMTM1, AtMTM2 and PtdIns5P in the response of Arabidopsis seedlings to dehydration stress/ABA, and found that both AtMTM1 and AtMTM2 were involved but affected oppositely stomata movement and the accumulation of reactive oxygen species (ROS, e.g. H2O2).	Abscisic Acid	127-130	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	163-169
32291040-3	2018	Here we analysed the involvement of AtMTM1, AtMTM2 and PtdIns5P in the response of Arabidopsis seedlings to dehydration stress/ABA, and found that both AtMTM1 and AtMTM2 were involved but affected oppositely stomata movement and the accumulation of reactive oxygen species (ROS, e.g. H2O2).	Reactive Oxygen Species	249-272	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	163-169
32291040-3	2018	Here we analysed the involvement of AtMTM1, AtMTM2 and PtdIns5P in the response of Arabidopsis seedlings to dehydration stress/ABA, and found that both AtMTM1 and AtMTM2 were involved but affected oppositely stomata movement and the accumulation of reactive oxygen species (ROS, e.g. H2O2).	Reactive Oxygen Species	274-277	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	163-169
32291040-3	2018	Here we analysed the involvement of AtMTM1, AtMTM2 and PtdIns5P in the response of Arabidopsis seedlings to dehydration stress/ABA, and found that both AtMTM1 and AtMTM2 were involved but affected oppositely stomata movement and the accumulation of reactive oxygen species (ROS, e.g. H2O2).	Hydrogen Peroxide	284-288	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	163-169
32291040-5	2018	We propose the biological relevance of the counteracting AtMTM1 and AtMTM2 activities is to balance the ABA-induced ROS accumulation and cellular homeostasis under dehydration stress.	Abscisic Acid	104-107	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	68-74
32291040-5	2018	We propose the biological relevance of the counteracting AtMTM1 and AtMTM2 activities is to balance the ABA-induced ROS accumulation and cellular homeostasis under dehydration stress.	Reactive Oxygen Species	116-119	Myotubularin-like phosphatases II superfamily	Arabidopsis thaliana	68-74