Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P00790 (
PGA
)
2,475
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A study of various direct condensations between different amines, having very high pK values, and unmodified acyl donors has been performed. This has been possible by the use of a very stable
PGA
derivative. First, it has been found that the higher the cosolvent concentration, the higher the pK of the acyl donor and thus the higher the yield. Therefore, these high concentrations of cosolvents seem to be a requisite for certain enzymatic condensations. Using ethanolamine and 2-hydroxy-2-phenylethyl-amine as nucleophiles and phenyl acetic acid as the acyl donor, the increase in the diglyme concentration from 50 to 90% (v/v) permitted improvement of not only the yield (reaching values higher than 99% in both cases) but also the reaction rates (by 360- or 3-fold, respectively). However, even when using
PGA
preparations stabilized by multipoint covalent attachment, it was not possible to obtain these results by inactivation of the enzyme derivative. Thus, in the protection of the octylamine with
phenylacetic acid
in 90% diglyme, the enzymatic activity was more than 20-fold higher using the hydrophilized derivative than the glyoxyl
PGA
, which allowed us to obtain a yield higher than 99%. Thus, the use of hydrophilized derivatives that are very stable even in the presence of high concentrations of organic solvents opens new opportunities in the use of
PGA
in organic chemistry.
...
PMID:Thermodynamically controlled synthesis of amide bonds catalyzed by highly organic solvent-resistant penicillin acylase derivatives. 1476 32
Immobilization of penicillin G acylase on glyoxyl agarose and its further hydrophilization by physicochemical modification with ionic polymers has made it possible to perform the direct condensation between (+/-)-2-hydroxy-2-phenylethylamine [(+/-)-1] and different acyl donors in the presence of high concentrations of organic cosolvent (up to 90%) in the reaction medium. Using 50 mM phenyl acetic acid and these drastic reaction conditions, too harsh for any other
PGA
preparation, we have achieved an almost quantitative transformation (more than 99%) of 10 mM (+/-)-1 into the corresponding amide. Remarkably, the enantioselectivity of the enzyme immobilized on the amine was strongly dependent on the acyl donor employed. Thus, using
phenylacetic acid
(2), the enantioselectivity was almost negligible (1.3 favoring the S isomer), whereas using S-mandelic acid [(S)-4], the E factor reached a value of 21 (also favoring the S isomer). By using R-mandelic acid [(R)-4], we observed a different enantioselectivity (E was 3.6 favoring the R). At 4 degrees C, the E value reached a value higher than 100 when (S)-4 was used as the acyl donor. The reaction performed under these conditions allowed us to produce (2S,2'S)-N-2'-hydroxy-2'-phenyl)-2-hydroxyphenylacetamide [(2S,2'S)-7] with a diasteromeric excess higher than 98%.
...
PMID:Enantioselective synthesis of phenylacetamides in the presence of high organic cosolvent concentrations catalyzed by stabilized penicillin G acylase. Effect of the acyl donor. 1517 9
The aim of present study was to optimize conditions for conversion of penicillin G into 6-APA using intact crude cells of locally collected
PGA
producing bacterial strains as biocatalyst. Corn steep liquor medium supplemented with
phenylacetic acid
was used for
PGA
production. For enzymatic conversion of penicillin G into 6-APA by
PGA
impregnated bacterial cells, a maximum reaction time of 4 h was found adequate. The procedure for extraction and crystallization of 6-APA from the enzyme reaction mixture was standardized. Isolation process was carried out under controlled pH conditions and 6-APA crystals were recovered from the reaction mixture via filtration, concentration and drying. The maximum
PGA
activity was observed in Escherichia coli strain BDCS-N-FMu12 (6.4 mg 6-APA h(-1) mg(-1) wet cells) whereas Bacillus megaterium (ATCC 14945 used as check) exhibited only 2.4 mg 6-APA h(-1) mg(-1) wet cells. The overall yield of 6-APA crystals obtained after enzymatic conversion of penicillin G ranged between 37-55 and 47-68% in foreign and local strains, respectively. BDCS-N-FMu12 was identified as the best
PGA
producer with 68% 6-APA conversion whereas ATCC 14945 showed the lowest conversion (37%). The recovery of 6-APA (68%) obtained by using crude intact cells as cheap biocatalyst appeared promising. The process of enzyme fermentation and 6-APA crystallization optimized during this study seems cost-effective and environment-friendly. However, further studies are required to scale up the 6-APA biosynthesis reaction for achieving 80-90% conversion of penicillin G into 6-APA by
PGA
hyper-producing locally collected strains of E. coli.
...
PMID:6-aminopenicillanic acid production by intact cells of E. coli containing penicillin G acylase (PGA). 1909 Jan 24
