PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
14554103-3	2003	Substantial differences in DTT influence on mitochondrial respiration at low and high [Cd2+] were revealed, namely, an enhanced mitochondrial permeabilization in the presence of saturated [DTT] at high [Cd2+] took place.	Dithiothreitol	189-192	Cd2 molecule	Rattus norvegicus	87-90	
15560892-7	2004	High [NEM] promoted synergistic increase of the Cd2+-produced swelling in NH4NO3 medium; all above effects were reversed (and prevented) by dithiothreitol, DTT.	Dithiothreitol	140-154	Cd2 molecule	Rattus norvegicus	48-51	
15560892-7	2004	High [NEM] promoted synergistic increase of the Cd2+-produced swelling in NH4NO3 medium; all above effects were reversed (and prevented) by dithiothreitol, DTT.	Dithiothreitol	156-159	Cd2 molecule	Rattus norvegicus	48-51	
15560892-8	2004	We shown also that when exogenous Ca2+ and Pi were simultaneously present in NH4NO3 medium, DTT reversed only partially Cd2+-produced swelling of succinate plus rotenone-energized mitochondria, while DTT recovery action was complete when either Ca2+ or Pi were separately administered to the Cd2+-treated mitochondria.	Dithiothreitol	92-95	Cd2 molecule	Rattus norvegicus	120-123	
15560892-8	2004	We shown also that when exogenous Ca2+ and Pi were simultaneously present in NH4NO3 medium, DTT reversed only partially Cd2+-produced swelling of succinate plus rotenone-energized mitochondria, while DTT recovery action was complete when either Ca2+ or Pi were separately administered to the Cd2+-treated mitochondria.	Dithiothreitol	92-95	Cd2 molecule	Rattus norvegicus	292-295	
15560892-9	2004	Besides, DTT added following a low Cd2+ pulse in KCl medium containing exogenous Ca2+ induced a substantial enhancing of sustained Cd2+ stimulation of mitochondrial basal respiration and the stimulation was CsA-sensitive, while the activation promoted by low [Cd2+] alone was totally eliminated by DTT supplement.	Dithiothreitol	9-12	Cd2 molecule	Rattus norvegicus	35-38	
15560892-9	2004	Besides, DTT added following a low Cd2+ pulse in KCl medium containing exogenous Ca2+ induced a substantial enhancing of sustained Cd2+ stimulation of mitochondrial basal respiration and the stimulation was CsA-sensitive, while the activation promoted by low [Cd2+] alone was totally eliminated by DTT supplement.	Dithiothreitol	9-12	Cd2 molecule	Rattus norvegicus	131-134	
15560892-9	2004	Besides, DTT added following a low Cd2+ pulse in KCl medium containing exogenous Ca2+ induced a substantial enhancing of sustained Cd2+ stimulation of mitochondrial basal respiration and the stimulation was CsA-sensitive, while the activation promoted by low [Cd2+] alone was totally eliminated by DTT supplement.	Dithiothreitol	9-12	Cd2 molecule	Rattus norvegicus	131-134	
15560892-9	2004	Besides, DTT added following a low Cd2+ pulse in KCl medium containing exogenous Ca2+ induced a substantial enhancing of sustained Cd2+ stimulation of mitochondrial basal respiration and the stimulation was CsA-sensitive, while the activation promoted by low [Cd2+] alone was totally eliminated by DTT supplement.	Dithiothreitol	298-301	Cd2 molecule	Rattus norvegicus	131-134	
15560892-9	2004	Besides, DTT added following a low Cd2+ pulse in KCl medium containing exogenous Ca2+ induced a substantial enhancing of sustained Cd2+ stimulation of mitochondrial basal respiration and the stimulation was CsA-sensitive, while the activation promoted by low [Cd2+] alone was totally eliminated by DTT supplement.	Dithiothreitol	298-301	Cd2 molecule	Rattus norvegicus	131-134	
14554103-2	2003	In particular, EGTA, ADP, and cyclosporin A (potent mitochondrial permeability transition antagonists) affected mainly Cd2+-induced changes in resting state respiration, eliminating its stimulation in KCl medium, while dithiothreitol (DTT, a dithiol reductant) produced its effect both on Cd2+ activation of the basal respiration and Cd2+ depression of uncoupler-stimulated respiration, evoking its restoration.	Dithiothreitol	235-238	Cd2 molecule	Rattus norvegicus	119-122	
14554103-3	2003	Substantial differences in DTT influence on mitochondrial respiration at low and high [Cd2+] were revealed, namely, an enhanced mitochondrial permeabilization in the presence of saturated [DTT] at high [Cd2+] took place.	Dithiothreitol	27-30	Cd2 molecule	Rattus norvegicus	87-90	
14554103-3	2003	Substantial differences in DTT influence on mitochondrial respiration at low and high [Cd2+] were revealed, namely, an enhanced mitochondrial permeabilization in the presence of saturated [DTT] at high [Cd2+] took place.	Dithiothreitol	27-30	Cd2 molecule	Rattus norvegicus	203-206	
14554103-4	2003	Besides, DTT only partially reversed Cd2+-induced swelling in NH4NO3 medium when glutamate plus malate or succinate without rotenone was used.	Dithiothreitol	9-12	Cd2 molecule	Rattus norvegicus	37-40	
10413299-10	1999	The reducing reagent dithiothreitol, which alone was unable to modify [3H]CCPA binding, overcame the inhibiting effects of both Cd2+ and DTNB.	Dithiothreitol	21-35	Cd2 molecule	Rattus norvegicus	128-131	
1397500-4	1992	The effect of Cd2+ on the GR binding activity can be reversed with DTT, suggesting Cd2+ interaction with thiol groups.	Dithiothreitol	67-70	Cd2 molecule	Rattus norvegicus	14-17	
8137886-2	1994	Five millimolar dithiothreitol reversed the rather stable block of the specific binding produced by Cd2+ or Zn2+.	Dithiothreitol	16-30	Cd2 molecule	Rattus norvegicus	100-103	
1397500-4	1992	The effect of Cd2+ on the GR binding activity can be reversed with DTT, suggesting Cd2+ interaction with thiol groups.	Dithiothreitol	67-70	Cd2 molecule	Rattus norvegicus	83-86	
1839962-4	1991	The effect of Cd2+ is reversible by 1 mM cysteine or dithiothreitol (DTT).	Dithiothreitol	53-67	Cd2 molecule	Rattus norvegicus	14-17	
1839962-4	1991	The effect of Cd2+ is reversible by 1 mM cysteine or dithiothreitol (DTT).	Dithiothreitol	69-72	Cd2 molecule	Rattus norvegicus	14-17