Investigation of the Enzymatic Cleavage of Diastereomeric Oligo(3-hydroxybutanoates) Containing Two to Eight HB Units. A Model for the Stereoselectivity of PHB Depolymerase from <i>Alcaligenes faecalis</i> T<sub>1</sub>

Bachmann, Beat M.; Seebàch, Dieter

doi:10.1021/ma981496w

Cited by 66 publications

(57 citation statements)

References 12 publications

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“…This result confirmed that the purified depolymerase has endo-hydrolase activity (see above, results with aPHB). Oligomers of (S)-3HB were not hydrolyzed at all and confirmed the specificity of the enzyme for the R isomers as it has been found for dPHB depolymerase of Alcaligenes faecalis (13).…”

Section: Products Of Enzymatic Nphb Hydrolysis-supporting

confidence: 82%

“…However, the enzyme hydrolyzed aPHB when this amorphous polymer was blended, or copolymerized, with a variety of crystalline polyesters (10 -12). Hydrolytic activity toward aPHB was clearly of an endo type because of the presence of S units along the chain, which are known not to be recognized by PHB depolymerases (10,13). The conclusion was drawn that in aPHB, efficient enzyme binding to the substrate is prevented by exceeding mobility of the polymer chains in the amorphous rubbery state.…”

mentioning

confidence: 97%

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A New Type of Thermoalkalophilic Hydrolase of Paucimonas lemoignei with High Specificity for Amorphous Polyesters of Short Chain-length Hydroxyalkanoic Acids

Handrick

Reinhardt

Focarete

et al. 2001

Journal of Biological Chemistry

129

144

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A novel type of hydrolase was purified from culture fluid of Paucimonas (formerly Pseudomonas) lemoignei. Biochemical characterization revealed an unusual substrate specificity of the purified enzyme for amorphous poly((R)-3-hydroxyalkanoates) (PHA) such as native granules of natural poly((R)-3-hydroxybutyrate) (PHB) or poly((R)-3-hydroxyvalerate) (PHV), artificial cholatecoated granules of natural PHB or PHV, atactic poly((R,S)-3-hydroxybutyrate), and oligomers of (R)-3-hydroxybutyrate (3HB) with six or more 3HB units. The enzyme has the unique property to recognize the physical state of the polymeric substrate by discrimination between amorphous PHA (good substrate) and denatured, partially crystalline PHA (no substrate). The pentamers of 3HB or 3HV were identified as the main products of enzymatic hydrolysis of native PHB or PHV, respectively. No activity was found with any denatured PHA, oligomers of (R)-3HB with five or less 3HB units, poly(6-hydroxyhexanoate), substrates of lipases such as tributyrin or triolein, substrates for amidases/nitrilases, DNA, RNA, casein, N-␣-benzoyl-L-arginine-4-nitranilide, or starch. The purified enzyme (M r 36,209) was remarkably stable and active at high temperature (60°C), high pH (up to 12.0), low ionic strength (distilled water), and in solvents (e.g. n-propyl alcohol). The depolymerase contained no essential SH groups or essential disulfide bridges and was insensitive to high concentrations of ionic (SDS) and nonionic (Triton and Tween) detergents. Characterization of the cloned structural gene (phaZ7) and the DNA-deduced amino acid sequence revealed no homologies to any PHB depolymerase or any other sequence of data banks except for a short sequence related to the active site serine of serine hydrolases. A classification of the enzyme into a new family (family 9) of carboxyesterases (Arpigny, J. L., and Jaeger, K.-E. (1999) Biochem. J. 343, 177-183) is suggested.Poly((R)-3-hydroxyalkanoic acids) (PHAs) 1 are a class of storage compounds that are synthesized during unbalanced growth by many bacteria. PHAs are deposited intracellularly in the form of inclusion bodies ("granules") to levels up to 90% of the cellular dry weight. The subject was reviewed recently (1). Poly((R)-3-hydroxybutyric acid) (PHB) is the most abundant polyester in bacteria. Bacterial copolymers containing randomly distributed (R)-3-hydroxybutyric and (R)-3-hydroxyvaleric units (poly(3HB-co-3HV)) have been commercialized for over a decade under the trade name Biopol ® . Any research on the biodegradation of PHA should clearly distinguish between (i) extracellular PHA degradation and (ii) intracellular PHA degradation. (i) Extracellular degradation is the utilization of an exogenous carbon/energy source by a notnecessarily-accumulating microorganism. The source of this extracellular polymer is PHA-released by accumulating cells after death. The ability to degrade PHA is widely distributed among bacteria and depends on the secretion of specific PHA depolymerases that are carboxyesterases (EC 3.1.1) a...

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Section: Products Of Enzymatic Nphb Hydrolysis-supporting

confidence: 82%

mentioning

confidence: 97%

A New Type of Thermoalkalophilic Hydrolase of Paucimonas lemoignei with High Specificity for Amorphous Polyesters of Short Chain-length Hydroxyalkanoic Acids

Handrick

Reinhardt

Focarete

et al. 2001

Journal of Biological Chemistry

129

144

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“…For determination of temperature stability, purified PhaZ1 (0.6 g) was incubated in assay buffer at 50°C for the times indicated before residual activity was determined (columns). 2 or MgCl 2 increased the activity to 130 or 140% at 1 mM, respectively, but decreased the activity at 5 mM (both to 75%) or at 10 mM (to 40 or 35%, respectively). EDTA partially inhibited PhaZ1, but a 5 mM concentration was necessary to obtain more than 50% inhibition.…”

Section: Resultsmentioning

confidence: 92%

The “Intracellular” Poly(3-Hydroxybutyrate) (PHB) Depolymerase of Rhodospirillum rubrum Is a Periplasm-Located Protein with Specificity for Native PHB and with Structural Similarity to Extracellular PHB Depolymerases

et al. 2004

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Rhodospirillum rubrum possesses a putative intracellular poly(3-hydroxybutyrate) (PHB) depolymerase system consisting of a soluble PHB depolymerase, a heat-stable activator, and a 3-hydroxybutyrate dimer hydrolase (J. M. Merrick and M. Doudoroff, J. Bacteriol. 88:60-71, 1964). In this study we reinvestigated the soluble R. rubrum PHB depolymerase (PhaZ1). It turned out that PhaZ1 is a novel type of PHB depolymerase with unique properties. Purified PhaZ1 was specific for amorphous short-chain-length polyhydroxyalkanoates (PHA) such as native PHB, artificial PHB, and oligomer esters of (R)-3-hydroxybutyrate with 3 or more 3-hydroxybutyrate units. Atactic PHB, (S)-3-hydroxybutyrate oligomers, medium-chain-length PHA, and lipase substrates (triolein, tributyrin) were not hydrolyzed. The PHB depolymerase structural gene (phaZ1) was cloned. Its deduced amino acid sequence (37,704 Da) had no significant similarity to those of intracellular PHB depolymerases of Wautersia eutropha or of other PHB-accumulating bacteria. PhaZ1 was found to have strong amino acid homology with type-II catalytic domains of extracellular PHB depolymerases, and Ser 42 , Asp 138 , and His 178 were identified as catalytic-triad amino acids, with Ser 42 as the putative active site. Surprisingly, the first 23 amino acids of the PHB depolymerase previously assumed to be intracellular revealed features of classical signal peptides, and Edman sequencing of purified PhaZ1 confirmed the functionality of the predicted cleavage site. Extracellular PHB depolymerase activity was absent, and analysis of cell fractions unequivocally showed that PhaZ1 is a periplasm-located enzyme. The previously assumed intracellular activator/depolymerase system is unlikely to have a physiological function in PHB mobilization in vivo. A second gene, encoding the putative true intracellular PHB depolymerase (PhaZ2), was identified in the genome sequence of R. rubrum.Polyhydroxyalkanoates (PHA) are bacterial storage compounds that can be accumulated to as much as 90% of cellular dry weight during unbalanced growth in the form of inclusion bodies (for recent reviews, see references 7 and 30). Because of their thermoplastic properties and biodegradability, PHA have attracted considerable academic and industrial interest during the last 2 decades. About 150 hydroxyalkanoic acids other than 3-hydroxybutyrate (3HB) have been identified as constituents of PHA (23,45,46). The most frequently occurring PHA in bacteria is poly(3-hydroxybutyrate) (PHB), which has been commercialized under the trade name BIOPOL. Recently, a novel class of biopolymers, with thioester linkages instead of oxoester bonds, has been found in Wautersia (Ralstonia) eutropha (50) and has been classified as polythioesters (27,28).Investigation of the biodegradation of PHA should distinguish between intracellular and extracellular degradation (for a recent review, see reference 20). Intracellular degradation is the active mobilization (hydrolysis) of the polymer by the accumulating bacterium itself. In the case of...

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“…Bachmann and Seebach proposed that PhaZ RpiT1 has four subsites (2, 1, -1, and -2) in its active site, in which three of the subsites must be occupied by 3HB units for cleavage to occur at the centre of the active site [106]. Homology modelling of PhaZ RpiT1 (the modelled residue range was from positions 124 to 294) based on the crystal structure of PhaZ Pfu suggested that Asn285 (color-coded according to molecular species) of PhaZ RpiT1 is located at the mouth of the crevice, immediately above His273, which probably involved subsite -1 (Figure 7 (A)).…”

Section: Proposed Active Site Model Of Phaz Rpit1mentioning

confidence: 99%

Enzymes catalysing the synthesis and degradation of beta-linked biopolymers and their applications

Hiraishi¹,

Taguchi²

2017

Biodegradable Polymers: Recent Developments and New Perspectives

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Investigation of the Enzymatic Cleavage of Diastereomeric Oligo(3-hydroxybutanoates) Containing Two to Eight HB Units. A Model for the Stereoselectivity of PHB Depolymerase from Alcaligenes faecalis T₁

Cited by 66 publications

References 12 publications

A New Type of Thermoalkalophilic Hydrolase of Paucimonas lemoignei with High Specificity for Amorphous Polyesters of Short Chain-length Hydroxyalkanoic Acids

A New Type of Thermoalkalophilic Hydrolase of Paucimonas lemoignei with High Specificity for Amorphous Polyesters of Short Chain-length Hydroxyalkanoic Acids

The “Intracellular” Poly(3-Hydroxybutyrate) (PHB) Depolymerase of Rhodospirillum rubrum Is a Periplasm-Located Protein with Specificity for Native PHB and with Structural Similarity to Extracellular PHB Depolymerases

Enzymes catalysing the synthesis and degradation of beta-linked biopolymers and their applications

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Investigation of the Enzymatic Cleavage of Diastereomeric Oligo(3-hydroxybutanoates) Containing Two to Eight HB Units. A Model for the Stereoselectivity of PHB Depolymerase from Alcaligenes faecalis T1

Cited by 66 publications

References 12 publications

A New Type of Thermoalkalophilic Hydrolase of Paucimonas lemoignei with High Specificity for Amorphous Polyesters of Short Chain-length Hydroxyalkanoic Acids

A New Type of Thermoalkalophilic Hydrolase of Paucimonas lemoignei with High Specificity for Amorphous Polyesters of Short Chain-length Hydroxyalkanoic Acids

The “Intracellular” Poly(3-Hydroxybutyrate) (PHB) Depolymerase of Rhodospirillum rubrum Is a Periplasm-Located Protein with Specificity for Native PHB and with Structural Similarity to Extracellular PHB Depolymerases

Enzymes catalysing the synthesis and degradation of beta-linked biopolymers and their applications

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Product

Resources

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Investigation of the Enzymatic Cleavage of Diastereomeric Oligo(3-hydroxybutanoates) Containing Two to Eight HB Units. A Model for the Stereoselectivity of PHB Depolymerase from Alcaligenes faecalis T₁