PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
21505150-4	2011	In normal muscle homeostasis, Odc1 expression is regulated by age and sex, reflecting testosterone levels, as muscle of adult male mice expresses high levels of Odc1 compared with age-matched females and younger males.	Testosterone	86-98	ornithine decarboxylase, structural 1	Mus musculus	30-34	
24305501-7	2014	Among pathways that were differentially responsive to testosterone in prostate, we identified ornithine decarboxylase (Odc1), an enzyme in polyamine biosynthesis, as a testosterone-responsive gene that is unresponsive to rFst.	Testosterone	54-66	ornithine decarboxylase, structural 1	Mus musculus	94-117	
24305501-7	2014	Among pathways that were differentially responsive to testosterone in prostate, we identified ornithine decarboxylase (Odc1), an enzyme in polyamine biosynthesis, as a testosterone-responsive gene that is unresponsive to rFst.	Testosterone	54-66	ornithine decarboxylase, structural 1	Mus musculus	119-123	
24305501-7	2014	Among pathways that were differentially responsive to testosterone in prostate, we identified ornithine decarboxylase (Odc1), an enzyme in polyamine biosynthesis, as a testosterone-responsive gene that is unresponsive to rFst.	Testosterone	168-180	ornithine decarboxylase, structural 1	Mus musculus	94-117	
24305501-7	2014	Among pathways that were differentially responsive to testosterone in prostate, we identified ornithine decarboxylase (Odc1), an enzyme in polyamine biosynthesis, as a testosterone-responsive gene that is unresponsive to rFst.	Testosterone	168-180	ornithine decarboxylase, structural 1	Mus musculus	119-123	
11282290-2	2000	Daily injections of testosterone or dihydrotestosterone (DHT) into 60 day old female mice for 4 days increased renal ODC activity in a dose-dependent manner that reached up to 100-fold (testosterone) or 250-fold (DHT) above the baseline when the highest dose, 200 microg/mouse, was used.	Testosterone	20-32	ornithine decarboxylase, structural 1	Mus musculus	117-120	
19135973-3	2009	Sequential activation of these pathways leads to a drastic decrease of testosterone-induced ornithine decarboxylase, ODC, expression.	Testosterone	71-83	ornithine decarboxylase, structural 1	Mus musculus	92-115	
19135973-3	2009	Sequential activation of these pathways leads to a drastic decrease of testosterone-induced ornithine decarboxylase, ODC, expression.	Testosterone	71-83	ornithine decarboxylase, structural 1	Mus musculus	117-120	
17148758-2	2007	We report here that in CD1 mice there is marked sexual dimorphism affecting not only gland size and corticoid hormone secretion but also adrenal ornithine decarboxylase (ODC), polyamine, and catecholamine levels in which testosterone appears to be a major determinant.	Testosterone	221-233	ornithine decarboxylase, structural 1	Mus musculus	145-168	
15539552-0	2005	Testosterone down-regulates ornithine aminotransferase gene and up-regulates arginase II and ornithine decarboxylase genes for polyamines synthesis in the murine kidney.	Testosterone	0-12	ornithine decarboxylase, structural 1	Mus musculus	93-116	
15539552-2	2005	In the murine kidney, testosterone induced ODC gene expression and polyamine production, but it is unknown how OAT gene is expressed under androgen treatment.	Testosterone	22-34	ornithine decarboxylase, structural 1	Mus musculus	43-46	
15539552-6	2005	The results clearly indicate that pharmacological doses of testosterone simultaneously down-regulated the level of OAT protein and up-regulated the expression of arginase II and ODC genes.	Testosterone	59-71	ornithine decarboxylase, structural 1	Mus musculus	178-181	
15539552-10	2005	In conclusion, OAT and ODC genes are inversely regulated by testosterone in the mouse kidney.	Testosterone	60-72	ornithine decarboxylase, structural 1	Mus musculus	23-26	
15539552-11	2005	Consequently, in kidneys of testosterone-treated mice, L-arginine-derived ornithine produced by arginase II might be preferentially used by ODC for putrescine production rather than by OAT.	Testosterone	28-40	ornithine decarboxylase, structural 1	Mus musculus	140-143	
15276653-4	2004	Their interaction results in a decrease in testosterone-induced ODC activity and ODC mRNA level, and in differential modulation of SSAT expression.	Testosterone	43-55	ornithine decarboxylase, structural 1	Mus musculus	64-67	
15276653-4	2004	Their interaction results in a decrease in testosterone-induced ODC activity and ODC mRNA level, and in differential modulation of SSAT expression.	Testosterone	43-55	ornithine decarboxylase, structural 1	Mus musculus	81-84	
12709396-0	2003	Influence of testosterone on regulation of ODC, antizyme, and N1-SSAT gene expression in mouse kidney.	Testosterone	13-25	ornithine decarboxylase, structural 1	Mus musculus	43-46	
12709396-2	2003	In murine kidney, testosterone enhances gene expression of ornithine decarboxylase (ODC), the first enzyme in polyamine biosynthesis.	Testosterone	18-30	ornithine decarboxylase, structural 1	Mus musculus	59-82	
12709396-2	2003	In murine kidney, testosterone enhances gene expression of ornithine decarboxylase (ODC), the first enzyme in polyamine biosynthesis.	Testosterone	18-30	ornithine decarboxylase, structural 1	Mus musculus	84-87	
12709396-3	2003	In this study, we document the time course effect of testosterone on 1) gene expression of ODC, antizyme 1 (AZ1), and spermidine/spermine-N1-acetyltransferase (N1-SSAT); 2) ODC activity in proximal convoluted tubules (PCT) and cortical proximal straight tubules (CPST); and 3) renal polyamine levels.	Testosterone	53-65	ornithine decarboxylase, structural 1	Mus musculus	91-94	
12709396-3	2003	In this study, we document the time course effect of testosterone on 1) gene expression of ODC, antizyme 1 (AZ1), and spermidine/spermine-N1-acetyltransferase (N1-SSAT); 2) ODC activity in proximal convoluted tubules (PCT) and cortical proximal straight tubules (CPST); and 3) renal polyamine levels.	Testosterone	53-65	ornithine decarboxylase, structural 1	Mus musculus	173-176	
12709396-7	2003	In female kidneys, testosterone treatment sharply increased ODC mRNA and protein levels as well as ODC activity.	Testosterone	19-31	ornithine decarboxylase, structural 1	Mus musculus	60-63	
12709396-7	2003	In female kidneys, testosterone treatment sharply increased ODC mRNA and protein levels as well as ODC activity.	Testosterone	19-31	ornithine decarboxylase, structural 1	Mus musculus	99-102	
12709396-8	2003	Testosterone increased the expression of ODC in PCT and CPST over different time courses, which suggests that ODC activity is differentially regulated in distinct tubules.	Testosterone	0-12	ornithine decarboxylase, structural 1	Mus musculus	41-44	
12709396-8	2003	Testosterone increased the expression of ODC in PCT and CPST over different time courses, which suggests that ODC activity is differentially regulated in distinct tubules.	Testosterone	0-12	ornithine decarboxylase, structural 1	Mus musculus	110-113	
11139396-5	2001	Similarly, testosterone-induced ornithine decarboxylase (ODC) mRNA level and activity are decreased 2.8-7.7-fold when the androgen is applied together with CB 3717.	Testosterone	11-23	ornithine decarboxylase, structural 1	Mus musculus	32-55	
11139396-5	2001	Similarly, testosterone-induced ornithine decarboxylase (ODC) mRNA level and activity are decreased 2.8-7.7-fold when the androgen is applied together with CB 3717.	Testosterone	11-23	ornithine decarboxylase, structural 1	Mus musculus	57-60	
11139396-7	2001	Our results document a substantial negative regulation of c-Met and ODC gene expression as a result of the cross-talk between testosterone-activated and HGF-activated pathways and suggest a sex-differentiated response to injury of mouse kidneys.	Testosterone	126-138	ornithine decarboxylase, structural 1	Mus musculus	68-71	
11282290-2	2000	Daily injections of testosterone or dihydrotestosterone (DHT) into 60 day old female mice for 4 days increased renal ODC activity in a dose-dependent manner that reached up to 100-fold (testosterone) or 250-fold (DHT) above the baseline when the highest dose, 200 microg/mouse, was used.	Testosterone	43-55	ornithine decarboxylase, structural 1	Mus musculus	117-120	
11282290-3	2000	Administration of flutamide concurrently with testosterone (75 microg/mouse) caused a potent decrease of ODC induction in a dose-dependent manner, suppressing the enzyme activity at the doses of 0.1 and 0.5 mg/mouse by about 88 and 95%, respectively.	Testosterone	46-58	ornithine decarboxylase, structural 1	Mus musculus	105-108	
11282290-4	2000	In contrast, estradiol at the doses of 0.5 and 1 mg/mouse induced a significant stimulation of renal ODC activity in a dose-dependent manner when it was given alone or in combination with testosterone.	Testosterone	188-200	ornithine decarboxylase, structural 1	Mus musculus	101-104	
10232597-15	1999	Similar results were obtained with C57BL/6 mice, where testosterone treatment at similar dosage resulted in a 2-fold increase in ODC activity in the ventral prostate and prior oral feeding with 0.2% GTPs resulted in 40% inhibition in this induction.	Testosterone	55-67	ornithine decarboxylase, structural 1	Mus musculus	129-132	
11007319-8	2000	Testosterone increased ODC activity in the proximal tubule substantially and to a minor extent in other nephron segments.	Testosterone	0-12	ornithine decarboxylase, structural 1	Mus musculus	23-26	
11007319-9	2000	In situ hybridization showed ODC messenger ribonucleic acid (mRNA) to be absent in kidneys of untreated females but abundant in the cortex and the outer stripe of the outer medulla of testosterone-treated female mice.	Testosterone	184-196	ornithine decarboxylase, structural 1	Mus musculus	29-32	
11007319-12	2000	The testosterone-inducible ODC is localized mainly in the proximal tubule, but is also present in distal tubules and collecting ducts.	Testosterone	4-16	ornithine decarboxylase, structural 1	Mus musculus	27-30	
9062893-6	1997	Developing tumours, especially ascitic, altered the renal activity of OAT and ODC, but not of arginase, in testosterone-untreated mice.	Testosterone	107-119	ornithine decarboxylase, structural 1	Mus musculus	78-81	
9194572-1	1997	Catecholamine depletion, evoked by reserpine, dramatically impaired (5-fold) the testosterone-induced increase of ornithine decarboxylase (ODC) activity in female mouse kidney.	Testosterone	81-93	ornithine decarboxylase, structural 1	Mus musculus	114-137	
9194572-1	1997	Catecholamine depletion, evoked by reserpine, dramatically impaired (5-fold) the testosterone-induced increase of ornithine decarboxylase (ODC) activity in female mouse kidney.	Testosterone	81-93	ornithine decarboxylase, structural 1	Mus musculus	139-142	
9194572-5	1997	Northern blot analysis revealed that the ODC mRNA level, that was increased 10-fold by testosterone, was decreased 2-fold in catecholamine-depleted hypertrophic kidney.	Testosterone	87-99	ornithine decarboxylase, structural 1	Mus musculus	41-44	
9194572-6	1997	Thus, ODC transcript level, lowered by reserpine, correlated partially with an attenuated response of ODC activity to testosterone.	Testosterone	118-130	ornithine decarboxylase, structural 1	Mus musculus	6-9	
9194572-6	1997	Thus, ODC transcript level, lowered by reserpine, correlated partially with an attenuated response of ODC activity to testosterone.	Testosterone	118-130	ornithine decarboxylase, structural 1	Mus musculus	102-105	
9194572-8	1997	It is concluded that catecholamines could be involved together with testosterone in regulation of the ODC gene expression in mouse kidney.	Testosterone	68-80	ornithine decarboxylase, structural 1	Mus musculus	102-105	
8574884-7	1995	Following testosterone treatment, ODC mRNA in the pars convoluta was expressed with a stronger intensity than that in the vehicle-injected animals.	Testosterone	10-22	ornithine decarboxylase, structural 1	Mus musculus	34-37	
7557274-2	1995	Neuronal, but not circulating catecholamines, regulate the induction of ornithine decarboxylase (ODC) by testosterone in the mouse kidney.	Testosterone	105-117	ornithine decarboxylase, structural 1	Mus musculus	72-95	
7557274-2	1995	Neuronal, but not circulating catecholamines, regulate the induction of ornithine decarboxylase (ODC) by testosterone in the mouse kidney.	Testosterone	105-117	ornithine decarboxylase, structural 1	Mus musculus	97-100	
7557274-6	1995	Benserazide and haloperidol decreased the induction of renal ODC produced by testosterone in female mice.	Testosterone	77-89	ornithine decarboxylase, structural 1	Mus musculus	61-64	
7557274-8	1995	Renal denervation produced a partial inhibition of renal ODC in male mice and decreased the induction of ODC elicited by testosterone in female mice.	Testosterone	121-133	ornithine decarboxylase, structural 1	Mus musculus	105-108	
7474658-3	1995	Only in the case of renal hypertrophy produced by testosterone administration was there a significant increase in ODC activity and putrescine content in the kidneys.	Testosterone	50-62	ornithine decarboxylase, structural 1	Mus musculus	114-117	
8307774-0	1993	Heterogeneous expression of ornithine decarboxylase gene in the proximal tubule of the mouse kidney following testosterone treatment.	Testosterone	110-122	ornithine decarboxylase, structural 1	Mus musculus	28-51	
7780833-1	1995	Administration of testosterone to female mice causes hypertrophy of their kidneys with spectacular induction of ornithine decarboxylase and significant increase in the level of putrescine.	Testosterone	18-30	ornithine decarboxylase, structural 1	Mus musculus	112-135	
7780833-12	1995	The study showed testosterone-induced differential changes in the activity of two enzymes involved in ornithine biosynthesis and catabolism which accompanied ODC induction in female mouse kidney.	Testosterone	17-29	ornithine decarboxylase, structural 1	Mus musculus	158-161	
8307774-1	1993	The expression of the ornithine decarboxylase (ODC) gene in the mouse kidney following testosterone treatment was examined using in situ hybridization histochemistry.	Testosterone	87-99	ornithine decarboxylase, structural 1	Mus musculus	22-45	
8307774-1	1993	The expression of the ornithine decarboxylase (ODC) gene in the mouse kidney following testosterone treatment was examined using in situ hybridization histochemistry.	Testosterone	87-99	ornithine decarboxylase, structural 1	Mus musculus	47-50	
8307774-7	1993	A marked increase in ODC mRNA was exclusively detected in the proximal tubule of the renal cortex in the testosterone-treated animals.	Testosterone	105-117	ornithine decarboxylase, structural 1	Mus musculus	21-24	
8307774-10	1993	These results indicate that testosterone induces the expression of the ODC gene in the proximal tubule of the renal cortex, leading to the increase in ODC activity in the same region.	Testosterone	28-40	ornithine decarboxylase, structural 1	Mus musculus	71-74	
8307774-10	1993	These results indicate that testosterone induces the expression of the ODC gene in the proximal tubule of the renal cortex, leading to the increase in ODC activity in the same region.	Testosterone	28-40	ornithine decarboxylase, structural 1	Mus musculus	151-154	
8318020-2	1993	We used three different stimuli which are well known to enhance ornithine decarboxylase activity in their appropriate target tissues: (i) testosterone in female kidney, (ii) a phorbol ester in epidermis and (iii) partial hepatectomy in liver.	Testosterone	138-150	ornithine decarboxylase, structural 1	Mus musculus	64-87	
8357843-2	1993	In the testosterone-induced hypertrophic and antifolate (N10-propargyl,5,6-dideazafolic acid, CB 3717)-induced hyperplastic mouse kidney models, a marked increase of two diamine levels--putrescine and cadaverine--occurred which paralleled induced ornithine decarboxylase (ODC) activity.	Testosterone	7-19	ornithine decarboxylase, structural 1	Mus musculus	247-270	
8357843-2	1993	In the testosterone-induced hypertrophic and antifolate (N10-propargyl,5,6-dideazafolic acid, CB 3717)-induced hyperplastic mouse kidney models, a marked increase of two diamine levels--putrescine and cadaverine--occurred which paralleled induced ornithine decarboxylase (ODC) activity.	Testosterone	7-19	ornithine decarboxylase, structural 1	Mus musculus	272-275	
8318020-5	1993	The human transgene-derived ornithine decarboxylase activity in kidney was unaffected by testosterone treatment, but responded in skin to application of the phorbol ester and likewise was clearly enhanced in regenerating liver.	Testosterone	89-101	ornithine decarboxylase, structural 1	Mus musculus	28-51	
8318020-6	1993	Although mouse endogenous ornithine decarboxylase mRNA levels were distinctly elevated after testosterone, this treatment did not influence the accumulation of the human transgene-derived mRNA.	Testosterone	93-105	ornithine decarboxylase, structural 1	Mus musculus	26-49	
8429279-0	1993	Induction of ornithine decarboxylase immunoreactivity in the male mouse kidney following testosterone treatment: an axial heterogeneity in the proximal tubule.	Testosterone	89-101	ornithine decarboxylase, structural 1	Mus musculus	13-36	
8429279-1	1993	The effect of testosterone on the activity of ornithine decarboxylase (ODC), its protein level and immunocytochemical distribution were examined in the mouse kidney.	Testosterone	14-26	ornithine decarboxylase, structural 1	Mus musculus	46-69	
8429279-1	1993	The effect of testosterone on the activity of ornithine decarboxylase (ODC), its protein level and immunocytochemical distribution were examined in the mouse kidney.	Testosterone	14-26	ornithine decarboxylase, structural 1	Mus musculus	71-74	
8429279-4	1993	Renal ODC activity and the content of the enzyme were markedly increased after testosterone treatment.	Testosterone	79-91	ornithine decarboxylase, structural 1	Mus musculus	6-9	
8429279-5	1993	Histologically, few cells that were obviously immunoreactive to ODC were observed in the control animals and in the testosterone-treated animals a marked increase in ODC immunoreactivity was observed only in the cortex.	Testosterone	116-128	ornithine decarboxylase, structural 1	Mus musculus	64-67	
8429279-5	1993	Histologically, few cells that were obviously immunoreactive to ODC were observed in the control animals and in the testosterone-treated animals a marked increase in ODC immunoreactivity was observed only in the cortex.	Testosterone	116-128	ornithine decarboxylase, structural 1	Mus musculus	166-169	
8429279-9	1993	These results show that testosterone treatment induces an increase in ODC content in certain cells located in the proximal tubule of the cortex.	Testosterone	24-36	ornithine decarboxylase, structural 1	Mus musculus	70-73	
2497140-2	1989	The amount of ODC protein was determined in crude extracts from the kidney of testosterone-treated mice, regenerating rat liver and human thyroid carcinoma, with purified mouse kidney or rat liver enzyme as standard.	Testosterone	78-90	ornithine decarboxylase, structural 1	Mus musculus	14-17	
2083533-2	1990	Testosterone (1 mg per mouse) induced a marked increase in ornithine decarboxylase activity of the mouse kidney, whereas no significant immunohistochemical difference was observed either in immunoreactivity or its localization.	Testosterone	0-12	ornithine decarboxylase, structural 1	Mus musculus	59-82	
1417915-0	1992	Catecholamines are required for testosterone induction of ornithine decarboxylase in the mouse kidney.	Testosterone	32-44	ornithine decarboxylase, structural 1	Mus musculus	58-81	
2340113-1	1990	Based on methods for ornithine-decarboxylase purification published previously we developed an improved procedure for purification of the enzyme from the kidneys of testosterone-treated NMRI mice.	Testosterone	165-177	ornithine decarboxylase, structural 1	Mus musculus	21-44	
3896241-3	1985	The elution patterns of ornithine decarboxylase activity and immunoreactive enzyme protein in the kidneys of untreated and testosterone-treated male mice did not differ otherwise than in order of magnitude.	Testosterone	123-135	ornithine decarboxylase, structural 1	Mus musculus	24-47	
3386633-9	1988	For GUS, ODC, and RP-2 mRNAs, but not KAP mRNA, induction of synthesis was rapidly reversed after testosterone removal.	Testosterone	98-110	ornithine decarboxylase, structural 1	Mus musculus	9-12	
3092827-0	1986	Ornithine decarboxylase activity and actin polymerization in testosterone--stimulated mouse kidney.	Testosterone	61-73	ornithine decarboxylase, structural 1	Mus musculus	0-23	
3178765-5	1988	Administration of testosterone to female mice, a procedure known to prolong the half-life of renal ODC, increased both ODC activity and the content of ODC-antizyme complex, but decreased the antizyme/ODC ratio in the kidney.	Testosterone	18-30	ornithine decarboxylase, structural 1	Mus musculus	99-102	
3178765-5	1988	Administration of testosterone to female mice, a procedure known to prolong the half-life of renal ODC, increased both ODC activity and the content of ODC-antizyme complex, but decreased the antizyme/ODC ratio in the kidney.	Testosterone	18-30	ornithine decarboxylase, structural 1	Mus musculus	119-122	
3178765-5	1988	Administration of testosterone to female mice, a procedure known to prolong the half-life of renal ODC, increased both ODC activity and the content of ODC-antizyme complex, but decreased the antizyme/ODC ratio in the kidney.	Testosterone	18-30	ornithine decarboxylase, structural 1	Mus musculus	119-122	
3757919-1	1986	The activity of ornithine decarboxylase in androgen-dependent mouse mammary tumor (Shionogi Carcinoma 115) was reduced to 25% by castration of tumor-bearing mice and restored to the normal level 12 h after administration of testosterone or 5 alpha-dihydrotestosterone.	Testosterone	224-236	ornithine decarboxylase, structural 1	Mus musculus	16-39	
6519353-1	1984	Renal ornithine decarboxylase (ODC) activity was evaluated in normal female, male, testosterone-treated female and androgen-insensitive Tfm/Y mice for its heat sensitivity and in vivo half-life.	Testosterone	83-95	ornithine decarboxylase, structural 1	Mus musculus	6-29	
3964747-11	1985	However, flutamide (up to 650 micrograms/day) given concomitantly with testosterone (40 micrograms/day) almost completely abolished the testosterone-induced increase in ODC.	Testosterone	71-83	ornithine decarboxylase, structural 1	Mus musculus	169-172	
3964747-11	1985	However, flutamide (up to 650 micrograms/day) given concomitantly with testosterone (40 micrograms/day) almost completely abolished the testosterone-induced increase in ODC.	Testosterone	136-148	ornithine decarboxylase, structural 1	Mus musculus	169-172	
6519353-1	1984	Renal ornithine decarboxylase (ODC) activity was evaluated in normal female, male, testosterone-treated female and androgen-insensitive Tfm/Y mice for its heat sensitivity and in vivo half-life.	Testosterone	83-95	ornithine decarboxylase, structural 1	Mus musculus	31-34	
4724183-7	1973	In the kidney, following testosterone administration, ornithine decarboxylase activity was found to be substantially elevated, whereas that of histidine decarboxylase was depressed.	Testosterone	25-37	ornithine decarboxylase, structural 1	Mus musculus	54-77	
6477895-6	1984	The fraction of total protein synthesis represented by renal ornithine decarboxylase was increased at least 25-fold by testosterone treatment of female mice and was found to be about 1.1% in the fully induced androgen-treated female.	Testosterone	119-131	ornithine decarboxylase, structural 1	Mus musculus	61-84	
6477638-0	1984	The effect of testosterone on the half-life of ornithine decarboxylase-mRNA in mouse kidney.	Testosterone	14-26	ornithine decarboxylase, structural 1	Mus musculus	47-70	
6477638-1	1984	The effect of testosterone on half-lives of ornithine decarboxylase and its mRNA in mouse kidney was studied.	Testosterone	14-26	ornithine decarboxylase, structural 1	Mus musculus	44-67	
6598355-11	1984	In this regard it is of interest to note that chronic treatment of mice with pharmacological doses of testosterone prolongs the half-life of ODC protein four- to tenfold.	Testosterone	102-114	ornithine decarboxylase, structural 1	Mus musculus	141-144	
6413866-8	1983	We now report that testosterone evokes a rapid (less than 30 s), transient increase in ODC activity and a sustained increase in polyamines in kidney cortex.	Testosterone	19-31	ornithine decarboxylase, structural 1	Mus musculus	87-90	
6853503-9	1983	After administration of a single dose of testosterone (10 mg) to female mice, an increased immunoreactive ornithine decarboxylase concentration was detected as soon as 2 h, and rose sharply between 8 and 24 h after steroid administration.	Testosterone	41-53	ornithine decarboxylase, structural 1	Mus musculus	106-129	
6880806-6	1983	The elevation of ornithine decarboxylase activity in the gastrocnemius by testosterone was reflected in an increased content of the polyamines in the muscle.	Testosterone	74-86	ornithine decarboxylase, structural 1	Mus musculus	17-40	
6401734-4	1983	It was found that treatment of female mice with testosterone produced a 400-fold increase in ornithine decarboxylase protein in the kidney within 4-5 days.	Testosterone	48-60	ornithine decarboxylase, structural 1	Mus musculus	93-116	
7164704-2	1982	L-Ornithine decarboxylase was purified to apparent homogeneity from the kidneys of testosterone-treated mice.	Testosterone	83-95	ornithine decarboxylase, structural 1	Mus musculus	2-25	
6175515-0	1982	Effects of testosterone on renal ornithine decarboxylase and kidney function.	Testosterone	11-23	ornithine decarboxylase, structural 1	Mus musculus	33-56	
6175515-1	1982	Testosterone injection caused a 2,000% increase in renal ornithine decarboxylase activity in intact male mice.	Testosterone	0-12	ornithine decarboxylase, structural 1	Mus musculus	57-80	
6797167-0	1981	Decarboxylation of ornithine and lysine by ornithine decarboxylase from kidneys of testosterone treated mice.	Testosterone	83-95	ornithine decarboxylase, structural 1	Mus musculus	43-66	
6457504-1	1980	Testosterone administration to gonadectomized male mice, besides giving rise to a distinct hypertrophy of the kidneys, results in a large increase in renal ornithine decarboxylase activity and accumulation of polyamines.	Testosterone	0-12	ornithine decarboxylase, structural 1	Mus musculus	156-179	
6457504-4	1980	Although the injection of mercuric chloride to testosterone treated mice decreased the stimulation of ornithine decarboxylase activity it did not prevent the increase in the concentration of putrescine.	Testosterone	47-59	ornithine decarboxylase, structural 1	Mus musculus	102-125	
6366788-7	1984	After a single dose of testosterone, renal OrnDCase mRNA concentration increased as soon as 6 hr and peaked 24 hr after steroid injection, as measured by RNA blot hybridization.	Testosterone	23-35	ornithine decarboxylase, structural 1	Mus musculus	43-51	
6582509-6	1984	A similar size mRNA was found in mouse kidney and was more abundant in the kidneys of mice treated with testosterone, an inducer of OrnDCase activity in that tissue.	Testosterone	104-116	ornithine decarboxylase, structural 1	Mus musculus	132-140	
6580640-5	1983	The ornithine decarboxylase inhibitor alpha-difluoromethylornithine (5 mM) suppressed the testosterone-induced increase in polyamine levels and rates of endocytosis, hexose transport, and amino acid transport, measured by horseradish peroxidase, [14C]aminoisobutyric acid, and deoxy[3H]glucose uptake.	Testosterone	90-102	ornithine decarboxylase, structural 1	Mus musculus	4-27	
6371845-2	1983	Although androgens increase many renal proteins, beta-glucuronidase and ODC are distinguished by exquisite genetic regulation of the magnitude of the response induced by testosterone.	Testosterone	170-182	ornithine decarboxylase, structural 1	Mus musculus	72-75	
506764-2	1979	Injections of 1,3-diaminopropane resulted in an almost total suppression of the testosterone induced stimulation of ornithine decarboxylase activity and prevented the accumulation of putrescine and spermidine in the kidneys.	Testosterone	80-92	ornithine decarboxylase, structural 1	Mus musculus	116-139	
654930-3	1978	The activity or ornithine decarboxylase was enhanced to values of more than 1 000 times the control level within a few days of testosterone substitution.	Testosterone	127-139	ornithine decarboxylase, structural 1	Mus musculus	16-39	
30566531-0	2018	New insights of polyamine metabolism in testicular physiology: A role of ornithine decarboxylase antizyme inhibitor 2 (AZIN2) in the modulation of testosterone levels and sperm motility.	Testosterone	147-159	ornithine decarboxylase, structural 1	Mus musculus	73-96