PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
16531051-3	2006	Thus, the effect of vitamin A depletion and subsequent administration of retinoic acid (RA, the active metabolite of vitamin A) on the expression of RARbeta, and of proteins involved in amyloidogenic pathway, e.g., amyloid precursor protein (APP), beta-secretase enzyme (BACE), and APP carboxy-terminal fragment (APP-CTF) was examined in the whole brain, hippocampus, striatum, and cerebral cortex of rats.	Vitamin A	20-29	retinoic acid receptor, beta	Rattus norvegicus	149-156	
16531051-3	2006	Thus, the effect of vitamin A depletion and subsequent administration of retinoic acid (RA, the active metabolite of vitamin A) on the expression of RARbeta, and of proteins involved in amyloidogenic pathway, e.g., amyloid precursor protein (APP), beta-secretase enzyme (BACE), and APP carboxy-terminal fragment (APP-CTF) was examined in the whole brain, hippocampus, striatum, and cerebral cortex of rats.	Vitamin A	117-126	retinoic acid receptor, beta	Rattus norvegicus	149-156	
16531051-4	2006	Rats fed a vitamin A-deprived diet for 13 weeks exhibited decreased amount of RARbeta, APP695, BACE, and of APP-CTF in the whole brain and in the cerebral cortex.	Vitamin A	11-20	retinoic acid receptor, beta	Rattus norvegicus	78-85	
9475281-10	1998	Retinoic acid receptor-beta mRNA, which responds to vitamin A levels and DEX in many systems, was lower in fetal lungs of the D group that had been treated with DEX.	Vitamin A	52-61	retinoic acid receptor, beta	Rattus norvegicus	0-27	
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, beta	Rattus norvegicus	74-82	
9182860-8	1997	The intensity of the 51 K RAR beta band remained constant before and after the administration of retinol, but it had a slight up-shift at 6 h after retinol injection, suggesting post-translational modification of the receptor.	Vitamin A	97-104	retinoic acid receptor, beta	Rattus norvegicus	26-34	
1319320-3	1992	In the testis of vitamin A-deficient rats 1.9-, 2.8-, and 3.8-kilobase (kb) transcripts of RAR alpha; 2.8- and 3.3-kb transcripts of RAR beta; 1.8-, 2.8-, and 3.4-kb transcripts of RAR gamma; and two transcripts of RXR alpha of 2.5 and 4.8 kb are expressed.	Vitamin A	17-26	retinoic acid receptor, beta	Rattus norvegicus	133-141	
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, beta	Rattus norvegicus	62-70	
1279143-4	1992	The levels of expression of RAR beta mRNA were approximately 80% lower in bladder, brain, liver, lung and trachea and those of RAR gamma mRNA were approximately 50% lower in bladder, lung and trachea of rats fed the vitamin A-deficient diet than in controls.	Vitamin A	216-225	retinoic acid receptor, beta	Rattus norvegicus	28-36	
1329717-3	1992	Retinol also restored the RAR beta mRNA level, but the magnitude and kinetics of the induction differed from those by retinoic acid.	Vitamin A	0-7	retinoic acid receptor, beta	Rattus norvegicus	26-34	
1329717-5	1992	In addition, from these results it was postulated that the maintenance of the normal RAR beta mRNA levels seemed to require a threshold serum retinol concentration (about 25 micrograms/dl).	Vitamin A	142-149	retinoic acid receptor, beta	Rattus norvegicus	85-93	
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, beta	Rattus norvegicus	112-120	
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, beta	Rattus norvegicus	186-194	
7588278-5	1995	Moreover, using rats of various retinoid status, we investigated whether the expression of target genes for vitamin A (RAR beta and CRBP-I) is regulated by retinoic acid (RA) in the adult rat tibia.	Vitamin A	108-117	retinoic acid receptor, beta	Rattus norvegicus	119-127	
2177839-10	1990	In contrast, the regulation of retinoic acid receptor-beta mRNA was different from the alpha mRNAs, in that its level remained unchanged for 48 h after the injection of retinol.	Vitamin A	169-176	retinoic acid receptor, beta	Rattus norvegicus	31-58	
1719965-2	1991	All-trans-RA increased lung RAR-beta mRNA levels 5 or 11-fold in chow fed and retinol deficient rats, respectively.	Vitamin A	78-85	retinoic acid receptor, beta	Rattus norvegicus	28-36	
1719965-3	1991	Similarly to lung, liver RAR-beta mRNA levels were 3-fold higher in retinol deficient rats fed all-trans-RA than the rats fed cottonseed oil.	Vitamin A	68-75	retinoic acid receptor, beta	Rattus norvegicus	25-33	
1654565-8	1991	When retinol-deficient rats were orally administered 1 dose of retinoic acid (100 micrograms per rat), lung RAR-beta mRNA levels started to increase after 1 hr and reached a 16-fold higher level after 4 hr; after 4 hr these retinoic acid-fed rats also showed a 7-fold increase in liver RAR-beta mRNA levels as compared with levels in the retinol-deficient rats.	Vitamin A	5-12	retinoic acid receptor, beta	Rattus norvegicus	108-116	
1654565-8	1991	When retinol-deficient rats were orally administered 1 dose of retinoic acid (100 micrograms per rat), lung RAR-beta mRNA levels started to increase after 1 hr and reached a 16-fold higher level after 4 hr; after 4 hr these retinoic acid-fed rats also showed a 7-fold increase in liver RAR-beta mRNA levels as compared with levels in the retinol-deficient rats.	Vitamin A	5-12	retinoic acid receptor, beta	Rattus norvegicus	286-294	
1654565-8	1991	When retinol-deficient rats were orally administered 1 dose of retinoic acid (100 micrograms per rat), lung RAR-beta mRNA levels started to increase after 1 hr and reached a 16-fold higher level after 4 hr; after 4 hr these retinoic acid-fed rats also showed a 7-fold increase in liver RAR-beta mRNA levels as compared with levels in the retinol-deficient rats.	Vitamin A	338-345	retinoic acid receptor, beta	Rattus norvegicus	108-116	
24768685-9	2014	The treatment with vitamin A and ATRA reverted similarly the sensorial disturbances, which was associated with increased contents of NGF and RAR-beta expression.	Vitamin A	19-28	retinoic acid receptor, beta	Rattus norvegicus	141-149	
24768685-0	2014	Vitamin A increases nerve growth factor and retinoic acid receptor beta and improves diabetic neuropathy in rats.	Vitamin A	0-9	retinoic acid receptor, beta	Rattus norvegicus	44-71