β-(1-Naphthyl)-L-β-homoglycine
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β-(1-Naphthyl)-L-β-homoglycine

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Category
β−Amino Acids
Catalog number
BAT-007510
CAS number
775280-91-6
Molecular Formula
C13H13NO2
Molecular Weight
215.25
β-(1-Naphthyl)-L-β-homoglycine
IUPAC Name
(3R)-3-amino-3-naphthalen-1-ylpropanoic acid
Synonyms
H-Gly(1-Naph)-(C#CH2)OH; H-Npg(1)-(C#CH2)OH; (R)-3-Amino-3-(naphthalen-1-yl)propanoic acid; D-β-Ala(1-naphthyl)-OH; H-D-β-Ala(1-naphthyl)-OH; (R)-3-Amino-3-(1-naphthyl)propionic acid; (3R)-3-amino-3-naphthalen-1-ylpropanoic acid
Appearance
White to off-white solid
Purity
≥ 99% (HPLC)
Melting Point
230-234 °C (dec.)
Storage
Store at 2-8 °C
InChI
InChI=1S/C13H13NO2/c14-12(8-13(15)16)11-7-3-5-9-4-1-2-6-10(9)11/h1-7,12H,8,14H2,(H,15,16)/t12-/m1/s1
InChI Key
BIOQBKBTOAMMDG-GFCCVEGCSA-N
Canonical SMILES
C1=CC=C2C(=C1)C=CC=C2C(CC(=O)O)N
1. Comparison of effects of L-tryptophan and a tryptophan analog, D,L-beta-(1-naphthyl)alanine, on processes relating to hepatic protein synthesis in rats
H Sidransky, E Verney, R Kurl J Nutr. 1990 Oct;120(10):1157-62. doi: 10.1093/jn/120.10.1157.
Earlier studies reported that the administration of L-tryptophan increased polyribosomal aggregation, protein synthesis and levels of cytoplasmic poly(A) mRNA in rat liver. This study was concerned with the effects of an L-tryptophan analog, D,L-beta-(1-naphthyl)alanine, in comparison with those of L-tryptophan. Both D,L-beta-(1-naphthyl)alanine and L-tryptophan bound to the L-tryptophan receptor protein and increased poly(A)polymerase and nucleoside triphosphatase activities of hepatic nuclei. However, only L-tryptophan was associated with increases in the release of labeled nuclear RNA (in vitro), in protein synthesis, in polyribosomal aggregation and in glycosylation ([14C]glucosamine incorporation into proteins) of rat liver. These results indicate that although D,L-beta-(1-naphthyl)alanine affected hepatic nuclei (binding and enzyme levels), it did not stimulate nucleocytoplasmic translocation of mRNA and concomitant protein synthesis, as did L-tryptophan.
2. Primary proteasome inhibition results in cardiac dysfunction
Joerg Herrmann, Christine Wohlert, Ardan M Saguner, Ana Flores, Lisa L Nesbitt, Alejandro Chade, Lilach O Lerman, Amir Lerman Eur J Heart Fail. 2013 Jun;15(6):614-23. doi: 10.1093/eurjhf/hft034. Epub 2013 Apr 24.
Aims: The proteasome prevents the intracellular accumulation of proteins and its impairment can lead to structural and functional alterations, as noted for the coronary vasculature in a previous study. Utilizing the same model, this study was designed to test the hypothesis that chronic proteasome inhibition (PSI) also leads to structural and functional changes of the heart. Methods and results: Female domestic pigs were randomized to a normal diet without (N) or with twice-weekly subcutaneous injections of the proteasome inhibitor MLN-273 (0.08 mg/kg, N + PSI, n = 5 each group). In vivo data on cardiac structure and function as well as myocardial perfusion and microvascular permeability response to adenosine and dobutamine were obtained by electron beam computed tomography after 11 weeks. Subsequent ex vivo myocardial analyses included immunoblotting, immunostaining, TUNEL (terminal deoxynucleotidyl transferase dUTP nick end labelling), Masson trichrome, and Congo red staining. Compared with N, an increase in LV mass was observed in N + PSI (106.5 ± 16.4 g vs. 183.1 ± 24.2 g, P < 0.05). The early to late diastolic filling ratio was increased in N + PSI vs. N (3.5 ± 0.6 vs. 1.8 ± 0.1, P < 0.05). The EF tended to be lower (46 ± 12% and 53 ± 9%, respectively) and cardiac output was significantly lower in N + PSI than in N (2.9 ± 1.1 vs. 4.7 ± 1.1 L/min, P < 0.05). Tissue analyses demonstrated an accumulation of proteasome substrates, apoptosis, and fibrosis in the PSI group. Compared with N, the myocardial perfusion response was reduced and microvascular permeability was increased in N + PSI. Conclusion: The current study demonstrates that chronic proeasome inhibition affects the cardiovascular system, leading to functional and structural alteration of the heart consistent with a hypertrophic-restrictive cardiomyopathy phenotype.
3. Synthesis and microbiological activities of beta-(1-chloro-2-naphthyl) alanine and beta-(1-bromo-2-naphthyl) alanine
T J McCord, R N Watson, C E DuBose, K L Hulme, A L Davis J Med Chem. 1976 Mar;19(3):429-30. doi: 10.1021/jm00225a020.
beta-(1-Chloro-2-naphthyl)alanine and beta-(1-bromo-2-naphthyl) alanine were synthesized by ammonolysis of the corresponding alpha, 1-dihalo-2-naphthalenepropanoic acids derived from 1-nitro-2-naphthylamine by diazotization and condensation with acrylic acid in the presence of cuprous halides. The two analogs as well as the previously reported beta-(2-naphthyl)alanine and beta-(1-naphthyl)alanine were studied as growth inhibitors of Escherichia coli 9723, Leuconostoc dextranicum 8086, and Lactobacillus plantarum 8014. In general, the chloro and bromo analogs were more effective than the unsubstituted naphthylalanines as growth inhibitors of the three microorganisms studied.
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