“
“Dietary alpha-carotene is present in oranges and purple-orange carrots. Upon the central cleavage of alpha-carotene in the intestine, alpha-retinal and retinal are formed and reduced to alpha-retinol
(alpha R) and retinol. Previous reports have suggested that alpha R has 2% biopotency of all-trans-retinyl acetate due in part to its inability to bind to the retinol-binding protein. click here In the present work, we carried out three studies. Study 1 re-determined alpha R’s biopotency compared with retinol and 3,4-didehydroretinol in a growth assay. Weanling rats (n 40) were fed a vitamin A-deficient diet for 8 weeks, divided into four treatment groups (n 10/group) and orally dosed with 50nmol/d retinyl acetate (14 center dot 3 mu g retinol), alpha-retinyl acetate (143 mu g alpha R), 3,4-didehydroretinyl acetate (14 center
dot 2 mu g DR) or cottonseed oil (negative control). Supplementation was continued until the control rats exhibited deficiency signs 5 weeks after the start of supplementation. Body weights and AUC values for growth response revealed that alpha R and DR had 40-50 and 120-130% bioactivity, respectively, compared with retinol. In study 2, the influence of alpha R on liver ROH storage was investigated. The rats (n 40) received 70nmol retinyl acetate and 0, 17 CT99021 center learn more dot 5, 35 or 70nmol alpha-retinyl acetate daily for 3 weeks. Although liver retinol concentrations differed among the groups, alpha R did not appreciably interfere with retinol storage. In study 3, the accumulation and disappearance of alpha R over time and potential liver pathology were determined.
The rats (n 15) were fed 3 center dot 5 mu mol/d alpha-retinyl acetate for 21d and the groups were killed at 1-, 2- and 3-week intervals. No liver toxicity was observed. In conclusion, alpha R and didehydroretinol are more biopotent than previously reported at sustained equimolar dosing of 50nmol/d, which is an amount of retinol known to keep rats in vitamin A balance.”
“Endogenous bornavirus-like nucleoprotein (EBLN) elements are nucleotide sequences homologous to the bornavirus N gene that have been identified in animal genomes. EBLN elements are considered to have been generated through reverse transcription of bornavirus N mRNA, mainly with the aid of long interspersed element-1 (LINE-1). The genome of thirteen-lined ground squirrels (Ictidomys tridecemlineatus) contains an EBLN element, itEBLN, which is thought to have been integrated less than 8.5 million years ago (MYA). However, it was also reported that the LINE-1 activity on this lineage was lost 4-5 MYA. Here, molecular evolutionary analyses were conducted to gain insights into the integration time of itEBLN.