PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
7519440-9	1994	Another unexpected result was an inverse relationship between RAR beta and RAR alpha expression, the latter becoming the major species after partial hepatectomy in animals on the vitamin A-deficient regimen.	Vitamin A	179-188	retinoic acid receptor, alpha	Rattus norvegicus	75-84	
9492059-0	1998	Ligand-dependent regulation of retinoic acid receptor alpha in rat testis: in vivo response to depletion and repletion of vitamin A.	Vitamin A	122-131	retinoic acid receptor, alpha	Rattus norvegicus	31-59	
9492059-7	1998	In VAD testis, RAR alpha levels were low and then increased primarily in Sertoli cells after retinol replenishment.	Vitamin A	93-100	retinoic acid receptor, alpha	Rattus norvegicus	15-24	
9116160-3	1997	Characterization of RAR alpha expression revealed the time and location of the vitamin A requirement during spermatogenesis.	Vitamin A	79-88	retinoic acid receptor, alpha	Rattus norvegicus	20-29	
8722633-2	1996	The action of vitamin A in male reproduction is postulated to be mediated at least partly by retinoic acid receptor-alpha (RAR alpha).	Vitamin A	14-23	retinoic acid receptor, alpha	Rattus norvegicus	93-121	
8722633-2	1996	The action of vitamin A in male reproduction is postulated to be mediated at least partly by retinoic acid receptor-alpha (RAR alpha).	Vitamin A	14-23	retinoic acid receptor, alpha	Rattus norvegicus	123-132	
32205185-0	2020	Vitamin A regulates neural stem cell proliferation in rats after hypoxic-ischemic brain damage via RARalpha-mediated modulation of the beta-catenin pathway.	Vitamin A	0-9	retinoic acid receptor, alpha	Rattus norvegicus	99-107	
1279143-5	1992	The levels of expression of RAR alpha mRNA were approximately 90% lower in brain and approximately 30% greater in liver, kidney, intestine and lung of rats fed the vitamin A-deficient diet.	Vitamin A	164-173	retinoic acid receptor, alpha	Rattus norvegicus	28-37	
1329717-6	1992	Moreover, we found that administration of retinol and retinoic acid to normal rats caused the overexpression of RAR beta transcripts (2-15-fold) when compared with the control levels of RAR beta mRNA, although the levels of RAR alpha and RAR gamma mRNAs were not affected.	Vitamin A	42-49	retinoic acid receptor, alpha	Rattus norvegicus	224-233	
1654565-7	1991	In the testes of retinol-deficient animals, two transcripts, RAR-alpha 1 (3.7 kb) and RAR-alpha 2 (2.8 kb), were detected as compared with one RAR-alpha 1 (3.7 kb) transcript in retinol-sufficient testes.	Vitamin A	17-24	retinoic acid receptor, alpha	Rattus norvegicus	61-70	
1654565-7	1991	In the testes of retinol-deficient animals, two transcripts, RAR-alpha 1 (3.7 kb) and RAR-alpha 2 (2.8 kb), were detected as compared with one RAR-alpha 1 (3.7 kb) transcript in retinol-sufficient testes.	Vitamin A	17-24	retinoic acid receptor, alpha	Rattus norvegicus	86-95	
1654565-7	1991	In the testes of retinol-deficient animals, two transcripts, RAR-alpha 1 (3.7 kb) and RAR-alpha 2 (2.8 kb), were detected as compared with one RAR-alpha 1 (3.7 kb) transcript in retinol-sufficient testes.	Vitamin A	17-24	retinoic acid receptor, alpha	Rattus norvegicus	86-95	
2177839-8	1990	The most striking finding was that the treatment of vitamin A-deficient rats with retinol led to a rapid increase in the retinoic acid receptor-alpha mRNA levels.	Vitamin A	52-61	retinoic acid receptor, alpha	Rattus norvegicus	121-149	
2177839-8	1990	The most striking finding was that the treatment of vitamin A-deficient rats with retinol led to a rapid increase in the retinoic acid receptor-alpha mRNA levels.	Vitamin A	82-89	retinoic acid receptor, alpha	Rattus norvegicus	121-149	
33130074-0	2021	Maternal vitamin A deficiency impairs cholinergic and nitrergic neurons, leading to gastrointestinal dysfunction in rat offspring via RARbeta.	Vitamin A	9-18	retinoic acid receptor, alpha	Rattus norvegicus	134-141	
32205185-1	2020	Our previous experiments found that a suitable dose of vitamin A (VA) can affect neuronal apoptosis after hypoxic-ischemic brain damage (HIBD) by binding to RARalpha to activate the PI3K/AKT signaling pathway; however, the other neuroprotective effects of VA after HIBD, for example, whether it promotes neural stem cell (NSC) proliferation, remain unclear.	Vitamin A	55-64	retinoic acid receptor, alpha	Rattus norvegicus	157-165	
32205185-1	2020	Our previous experiments found that a suitable dose of vitamin A (VA) can affect neuronal apoptosis after hypoxic-ischemic brain damage (HIBD) by binding to RARalpha to activate the PI3K/AKT signaling pathway; however, the other neuroprotective effects of VA after HIBD, for example, whether it promotes neural stem cell (NSC) proliferation, remain unclear.	Vitamin A	66-68	retinoic acid receptor, alpha	Rattus norvegicus	157-165	
32205185-1	2020	Our previous experiments found that a suitable dose of vitamin A (VA) can affect neuronal apoptosis after hypoxic-ischemic brain damage (HIBD) by binding to RARalpha to activate the PI3K/AKT signaling pathway; however, the other neuroprotective effects of VA after HIBD, for example, whether it promotes neural stem cell (NSC) proliferation, remain unclear.	Vitamin A	256-258	retinoic acid receptor, alpha	Rattus norvegicus	157-165	
25302071-7	2014	In BAT of obese rats, vitamin A supplementation at doses of 26 and 52 mg of vitamin A/kg diet resulted in increased UCP1 expression with concomitant decrease in RARalpha and RXRalpha levels compared to control diet-fed obese rats.	Vitamin A	22-31	retinoic acid receptor, alpha	Rattus norvegicus	161-169	
25302071-7	2014	In BAT of obese rats, vitamin A supplementation at doses of 26 and 52 mg of vitamin A/kg diet resulted in increased UCP1 expression with concomitant decrease in RARalpha and RXRalpha levels compared to control diet-fed obese rats.	Vitamin A	76-85	retinoic acid receptor, alpha	Rattus norvegicus	161-169	
24973045-10	2014	In summary, this hepatic Gck promoter RARE interacts with RARalpha, HNF4alpha and COUP-TFII to integrate Vitamin A and insulin signals.	Vitamin A	105-114	retinoic acid receptor, alpha	Rattus norvegicus	58-66	
16623998-21	2006	Vitamin A may modulate the expression of RC3 mRNA by affecting RAR-alpha, RAR-beta and RXR-beta to influence the LTP, learning and memory.	Vitamin A	0-9	retinoic acid receptor, alpha	Rattus norvegicus	63-72	
22984325-5	2012	We also found that feeding animals with a vitamin A-free diet, dampened daily rhythms of RARalpha and RXRbeta mRNA, GR expression and activity, GSH, BMAL1 protein levels and locomotor activity.	Vitamin A	42-51	retinoic acid receptor, alpha	Rattus norvegicus	89-97