N-Benzoyl-L-tyrosine ethyl ester
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N-Benzoyl-L-tyrosine ethyl ester

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Category
L-Amino Acids
Catalog number
BAT-003893
CAS number
3483-82-7
Molecular Formula
C18H19NO4
Molecular Weight
313.40
N-Benzoyl-L-tyrosine ethyl ester
IUPAC Name
ethyl (2S)-2-benzamido-3-(4-hydroxyphenyl)propanoate
Synonyms
Bz-L-Tyr-OEt
Appearance
White to off-white crystal
Purity
≥ 98% (HPLC)
Density
1.2389 g/cm3(rough estimate)
Melting Point
119-124 °C
Boiling Point
453.15°C (rough estimate)
Storage
Store at 2-8 °C
InChI
InChI=1S/C18H19NO4/c1-2-23-18(22)16(12-13-8-10-15(20)11-9-13)19-17(21)14-6-4-3-5-7-14/h3-11,16,20H,2,12H2,1H3,(H,19,21)/t16-/m0/s1
InChI Key
SRLROPAFMUDDRC-INIZCTEOSA-N
Canonical SMILES
CCOC(=O)C(CC1=CC=C(C=C1)O)NC(=O)C2=CC=CC=C2
1. Changes in proteins from yolk and in the activity of benzoyl-L-tyrosine ethyl ester hydrolase from the yolk sac membrane during embryonic development of the chicken
Y Sugimoto, M Yamada Poult Sci. 1986 Apr;65(4):789-94. doi: 10.3382/ps.0650789.
The wet weight and nitrogen content in the water soluble fraction and granule fraction of chicken egg yolk changed during embryonic development. Rapid decreases between Days 14 and 16 were the largest changes observed. When protein components in the soluble and granule fractions of yolk from developing eggs were analyzed by polyacrylamide gel electrophoresis under denaturing conditions, the intensities of bands of some high molecular-weight proteins decreased during incubation, while smaller proteins increased. Most of such changes were observed after Day 16. The activities of proteinases and hydrolases assayed with protein substrates or synthetic substrates at a neutral pH were higher in the yolk sac membrane than in yolk itself. A benzoyl-L-tyrosine ethyl ester hydrolase showed the highest specific activity among the enzymes examined in yolk sac membrane homogenates. Its activity increased after Day 5 of embryogenesis, and became maximum on Days 14 to 20. The data suggest that some of the yolk proteins are degraded by yolk sac membrane enzymes during the latter half of the incubation period.
2. Purification and characterization of benzoyl-L-tyrosine ethyl ester hydrolase from the yolk sac membrane of chicken egg
Y Sugimoto, M Yamada Biochem Cell Biol. 1986 Jun;64(6):543-7. doi: 10.1139/o86-076.
An enzyme which hydrolyzes benzoyl-L-tyrosine ethyl ester (BTEE) was purified from yolk sac membranes of day-18 chick embryos. The purified BTEE hydrolase has a molecular weight of 110,000, being composed of 70,000 and 40,000 subunits, and preferred synthetic substrates for chymotrypsin to those for trypsin. The optimum pH and temperature of this enzyme were 6.5-7.0 and 40 degrees C, respectively. The Km value for BTEE of the enzyme was 16 mM at pH 6.5 and 30 degrees C. The enzyme was inhibited markedly by some chymotrypsin inhibitors but scarcely inhibited by trypsin inhibitors. Magnesium ion acted as potent activator, depending on the enzyme purity and its concentration, whereas p-chloromercuribenzoate and zinc ion inactivated the activity markedly. The BTEE hydrolase was found to hydrolyze proteins such as casein and hemoglobin. These data indicated that the enzyme is a proteinase similar to chymotrypsin. This proteinase could act on yolk proteins, suggesting that it plays an important role in the metabolism of yolk at the yolk sac membrane layer.
3. Hofmeister effect on catalytic properties of chymotrypsin is substrate-dependent
Eva Dušeková, Katarína Garajová, Rukiye Yavaşer, Rastislav Varhač, Erik Sedlák Biophys Chem. 2018 Dec;243:8-16. doi: 10.1016/j.bpc.2018.10.002. Epub 2018 Oct 13.
Effect of Hofmeister sodium salts, sulfate, chloride, bromide and perchlorate, on catalytic properties and stability of chymotrypsin has been studied by absorbance and circular dichroism spectroscopies. To address Hofmeister effect on activity of chymotrypsin, two different substrates, N-benzoyl-L-tyrosine ethyl ester and amide N-succinyl-L-phenylalanine-p-nitroanilide, were used. Catalytic activity of chymotrypsin is dependent on salt concentration and position of anion in Hofmeister series. The enzyme activity for both substrates is only slightly affected by chaotropic anions and increases with kosmotropic nature of anions. While the trend of Hofmeister effect on chymotrypsin catalysis is similar for both substrates, the amplitude of the effect significantly differs. In the presence of 1 M sulfate, catalytic efficiency increased by ~2-fold for the ester but ~20-fold for the amide substrate. Positive correlation between stability and activity of chymotrypsin indicates the interdependence of these enzyme properties and is in agreement with recently developed macromolecular rate theory suggesting an important role of protein dynamics in enzyme catalysis. Linear dependencies of catalytic properties of chymotrypsin with partitioning of anions at bulk water/air as well as at hydrocarbon surface strongly indicate that the modulated enzyme properties are results of direct interaction of anions with protein surface.
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