D-Ornithine monohydrochloride
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D-Ornithine monohydrochloride

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Category
D-Amino Acids
Catalog number
BAT-003503
CAS number
16682-12-5
Molecular Formula
C5H12N2O2.HCl
Molecular Weight
168.62
D-Ornithine monohydrochloride
IUPAC Name
(2R)-2,5-diaminopentanoic acid;hydrochloride
Synonyms
D-Ornithine, hydrochloride (1:1); D-Ornithine, hydrochloride; Ornithine, monohydrochloride, D-; (2R)-2,5-Diaminopentanoic acid monohydrochloride; (R)-Ornithine hydrochloride; D-Orn-OH HCl; (R)-2,5-diaminopentanoic acid monohydrochloride
Related CAS
348-66-3 (free base) 99815-05-1 (x-hydrochloride)
Appearance
White to off-white crystalline powder
Purity
≥95%
Storage
Store at RT
InChI
InChI=1S/C5H12N2O2.ClH/c6-3-1-2-4(7)5(8)9;/h4H,1-3,6-7H2,(H,8,9);1H/t4-;/m1./s1
InChI Key
GGTYBZJRPHEQDG-PGMHMLKASA-N
Canonical SMILES
C(CC(C(=O)O)N)CN.Cl
1.Safety of long-term dietary supplementation with L-arginine in rats.
Yang Y1, Wu Z, Jia S, Dahanayaka S, Feng S, Meininger CJ, McNeal CJ, Wu G. Amino Acids. 2015 Sep;47(9):1909-20. doi: 10.1007/s00726-015-1992-3. Epub 2015 May 7.
This study was conducted with rats to determine the safety of long-term dietary supplementation with L-arginine. Beginning at 6 weeks of age, male and female rats were fed a casein-based semi-purified diet containing 0.61 % L-arginine and received drinking water containing L-arginine-HCl (0, 1.8, or 3.6 g L-arginine/kg body-weight/day; n = 10/group). These supplemental doses of L-arginine were equivalent to 0, 286, and 573 mg L-arginine/kg body-weight/day, respectively, in humans. After a 13-week supplementation period, blood samples were obtained from rats for biochemical analyses. Supplementation with L-arginine increased plasma concentrations of arginine, ornithine, proline, homoarginine, urea, and nitric oxide metabolites without affecting those for lysine, histidine, or methylarginines, while reducing plasma concentrations of ammonia, glutamine, free fatty acids, and triglycerides. L-Arginine supplementation enhanced protein gain and reduced white-fat deposition in the body.
2.Carnosine Content in Skeletal Muscle Is Dependent on Vitamin B6 Status in Rats.
Suidasari S1, Stautemas J2, Uragami S1, Yanaka N1, Derave W2, Kato N1. Front Nutr. 2016 Jan 19;2:39. doi: 10.3389/fnut.2015.00039. eCollection 2015.
Carnosine, a histidine-containing dipeptide, is well known to be associated with skeletal muscle performance. However, there is limited information on the effect of dietary micronutrients on muscle carnosine level. Pyridoxal 5'-phosphate (PLP), the active form of vitamin B6, is involved in amino acid metabolisms in the body as a cofactor. We hypothesized that enzymes involved in β-alanine biosynthesis, the rate-limiting precursor of carnosine, may also be PLP dependent. Thus, we examined the effects of dietary vitamin B6 on the muscle carnosine content of rats. Male and female rats were fed a diet containing 1, 7, or 35 mg pyridoxine (PN) HCl/kg for 6 weeks. Carnosine in skeletal muscles was quantified by ultra-performance liquid chromatography coupled with tandem mass spectrometry. In the gastrocnemius muscle of male rats, carnosine concentration was significantly higher in the 7 and 35 mg groups (+70 and +61%, respectively) than in the 1 mg PN HCl/kg group, whereas that in the soleus muscle of male rats was significantly higher only in the 7 mg group (+43%) than in the 1 mg PN HCl/kg group (P < 0.
3.Safety of long-term dietary supplementation with L-arginine in pigs.
Hu S1, Li X, Rezaei R, Meininger CJ, McNeal CJ, Wu G. Amino Acids. 2015 May;47(5):925-36. doi: 10.1007/s00726-015-1921-5. Epub 2015 Feb 6.
This study was conducted with a swine model to determine the safety of long-term dietary supplementation with L-arginine-HCl or L-arginine free base. Beginning at 30 days of age, pigs were fed a corn- and soybean meal-based diet (31.5 g/kg body weight/day) supplemented with 0, 1.21, 1.81 or 2.42 % L-arginine-HCl (Experiment 1) or with 0, 1, 1.5 or 2 % L-arginine (Experiment 2). The supplemental doses of 0, 1, 1.5, and 2 % L-arginine provided pigs with 0, 315, 473, and 630 mg L-arginine/kg body weight/day, respectively, which were equivalent to 0, 286, 430, and 573 mg L-arginine/kg body weight/day, respectively, in humans. At 121 days of age (91 days after initiation of supplementation), blood samples were obtained from the jugular vein of pigs at 1 and 4 h after feeding for hematological and clinical chemistry tests. Dietary supplementation with L-arginine increased plasma concentrations of arginine, ornithine, proline, albumin and reticulocytes, while reducing plasma concentrations of ammonia, free fatty acids, triglyceride, cholesterol, and neutrophils.
4.Rapid and sensitive ultrasonic-assisted derivatisation microextraction (UDME) technique for bitter taste-free amino acids (FAA) study by HPLC-FLD.
Chen G1, Li J, Sun Z, Zhang S, Li G, Song C, Suo Y, You J. Food Chem. 2014 Jan 15;143:97-105. doi: 10.1016/j.foodchem.2013.07.099. Epub 2013 Jul 27.
Amino acids, as the main contributors to taste, are usually found in relatively high levels in bitter foods. In this work, we focused on seeking a rapid, sensitive and simple method to determine FAA for large batches of micro-samples and to explore the relationship between FAA and bitterness. Overall condition optimisation indicated that the new UDME technique offered higher derivatisation yields and extraction efficiencies than traditional methods. Only 35min was needed in the whole operation process. Very low LLOQ (Lower limit of quantification: 0.21-5.43nmol/L) for FAA in twelve bitter foods was obtained, with which BTT (bitter taste thresholds) and CABT (content of FAA at BTT level) were newly determined. The ratio of CABT to BTT increased with decreasing of BTT. This work provided powerful potential for the high-throughput trace analysis of micro-sample and also a methodology to study the relationship between the chemical constituents and the taste.
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