Discovery of Polyesterases from Moss-Associated Microorganisms

Müller, Christina; Perz, Veronika; Provasnek, Christoph; Quartinello, Felice; Guebitz, Georg M.; Berg, Gabriele

doi:10.1128/aem.02641-16

Cited by 33 publications

(20 citation statements)

References 57 publications

(71 reference statements)

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“…The monomer Ta represented the most abundant compound detected at all experimental conditions and was proven not to be metabolised by the organism. This suggests the involvement of the fungus extracellular enzymes in the cleavage of aromatic ester bonds present in PBAT chains 17,45 , which are reportedly less prone to hydrolysis than the ester bond with aliphatic monomer (adipic acid) as also described for P. pseudoalcaligenes polyesterase PpEst 15 . Previous studies on single enzyme hydrolysis process of milled PBAT reported that BTaB and BTa were more abundant than the monomer, as well as that an increase of Ta concentration is given by higher pH than that selected in the current study 7 .…”

Section: Discussionmentioning

confidence: 57%

“…bation with PBAT, the supernatants were diluted with ice-cold methanol (1:1 v/v) in order to precipitate the enzymes and acidified to pH 3.0 with 1 M HCl. The samples were centrifuged at 18.213 x g (5427 R, Eppendorf) for 15 min at 4 °C, then filtered through 0.45 μm nylon syringe filters and thereafter analysed by a HPLC-DAD system consisting of a 1290 Infinity II LC (Agilent Technologies), coupled with a reversed phase column C18 (Poroshell 120 EC-C18 2,7 µm 3.0 × 150 mm), at a flow rate of 0.4 mL/min 15,19 . The PBAT hydrolysis products were separated using a nonlinear gradient according to Quartinello et al 2 with some modifications (i.e.…”

Section: Analysis Of Molecules Released From Pbat During Exposure Of mentioning

confidence: 99%

“…Microbial activities against PBAT have been shown in bacteria and to a lesser extent in fungi from soil [13][14][15][16][17] , by esterolytic hydrolases 7,15,18,19 . Typically, the investigation of PBAT degrading enzymes involves functional screenings and protein isolation through chromatographic purification 14,16,20,21 .…”

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confidence: 99%

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Shotgun proteomics reveals putative polyesterases in the secretome of the rock-inhabiting fungus Knufia chersonesos

Tesei

Quartinello

Guebitz

et al. 2020

Sci Rep

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Knufia chersonesos is an ascomycotal representative of black fungi, a morphological group of polyextremotolerant melanotic fungi, whose ability to resort to recalcitrant carbon sources makes it an interesting candidate for degradation purposes. A secretome screening towards polyesterases was carried out for the fungus and its non-melanized mutant, grown in presence of the synthetic copolyester Polybutylene adipate terephthalate (PBAT) as additional or sole carbon source, and resulted in the identification of 37 esterolytic and lipolytic enzymes across the established cultivation conditions. Quantitative proteomics allowed to unveil 9 proteins being constitutively expressed at all conditions and 7 which were instead detected as up-regulated by PBAT exposure. Protein functional analysis and structure prediction indicated similarity of these enzymes to microbial polyesterases of known biotechnological use such as MHETase from Ideonella sakaiensis and CalA from Candida antarctica. For both strains, PBAT hydrolysis was recorded at all cultivation conditions and primarily the corresponding monomers were released, which suggests degradation to the polymer’s smallest building block. The work presented here aims to demonstrate how investigations of the secretome can provide new insights into the eco-physiology of polymer degrading fungi and ultimately aid the identification of novel enzymes with potential application in polymer processing, recycling and degradation.

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Section: Discussionmentioning

confidence: 57%

Section: Analysis Of Molecules Released From Pbat During Exposure Of mentioning

confidence: 99%

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Shotgun proteomics reveals putative polyesterases in the secretome of the rock-inhabiting fungus Knufia chersonesos

Tesei

Quartinello

Guebitz

et al. 2020

Sci Rep

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“…The 3.6 Gbps metagenomic fosmid library was established in E. coli EPI300 pCC2FOS (Epicentre, Wisconsin, USA), incorporating ~40 kb metagenomic DNA from the Alpine peat bog moss S. magellanicum as previously described 55 . The generated 90 000 metagenomic clones were pooled by resuspending them in LB medium supplied with 20% glycerol for long term storage at −70°C.…”

Section: Methodsmentioning

confidence: 99%

Unravelling native plant resistomes – The Sphagnum microbiome harbours versatile and novel antimicrobial resistance genes

Obermeier

Taffner

Bergna

et al. 2019

Preprint

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The expanding antibiotic resistance crisis calls for a more in depth understanding of the importance of antimicrobial resistance genes (ARGs) in pristine environments. We, therefore, studied the microbiota associated with Sphagnum forming the main vegetation in undomesticated, evolutionary old bog ecosystems. In our complementary analysis of a culture collection, metagenomic data and a fosmid library, we identified a low abundant but highly diverse pool of resistance determinants, which targets an unexpected broad range of antibiotics including natural and synthetic compounds. This derives both, from the extraordinarily high abundance of efflux pumps (80%), and the unexpectedly versatile set of ARGs underlying all major resistance mechanisms. The overall target spectrum of detected resistance determinants spans 21 antibiotic classes, whereby β-lactamases and vancomycin resistance appeared as the predominant resistances in all screenings. Multi-resistance was frequently observed among bacterial isolates, e.g. in Serratia, Pandorea, Paraburkhotderia and Rouxiella. In a search for novel ARGs we identified the new class A β-lactamase Mm3. The native Sphagnum resistome comprising a highly diversified and partially novel set of ARGs contributes to the bog ecosystem’s plasticity. Our results shed light onto the antibiotic resistance background of non-agricultural plants and highlight the ecological link between natural and clinically relevant resistomes.

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“…However, lipolytic enzymes clustering within other families (Arpigny and Jaeger, ), e.g. family VIII (β‐lactamase like), were likewise associated with polyesterase activity very recently (Biundo et al ., ; Müller et al ., ; Hajighasemi et al ., ). Besides biodegradation of artificial polyesters like PET, cutinases/polyesterases are discussed for different biotechnological applications, e.g.…”

Section: Introductionmentioning

confidence: 99%

Agar plate‐based screening methods for the identification of polyester hydrolysis by Pseudomonas species

Molitor

Bollinger

Kubicki

et al. 2019

Microbial Biotechnology

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Hydrolases acting on polyesters like cutin, polycaprolactone or polyethylene terephthalate (PET) are of interest for several biotechnological applications like waste treatment, biocatalysis and sustainable polymer modifications. Recent studies suggest that a large variety of such enzymes are still to be identified and explored in a variety of microorganisms, including bacteria of the genus Pseudomonas. For activitybased screening, methods have been established using agar plates which contain nanoparticles of polycaprolactone or PET prepared by solvent precipitation and evaporation. In this protocol article, we describe a straightforward agar plate-based method using emulsifiable artificial polyesters as substrates, namely Impranil â DLN and liquid polycaprolactone diol (PLD). Thereby, the currently quite narrow set of screening substrates is expanded. We also suggest optional pre-screening with short-chain and middle-chainlength triglycerides as substrates to identify enzymes with lipolytic activity to be further tested for polyesterase activity. We applied these assays to experimentally demonstrate polyesterase activity in bacteria from the P. pertucinogena lineage originating from contaminated soils and diverse marine habitats.

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Discovery of Polyesterases from Moss-Associated Microorganisms

Cited by 33 publications

References 57 publications

Shotgun proteomics reveals putative polyesterases in the secretome of the rock-inhabiting fungus Knufia chersonesos

Shotgun proteomics reveals putative polyesterases in the secretome of the rock-inhabiting fungus Knufia chersonesos

Unravelling native plant resistomes – The Sphagnum microbiome harbours versatile and novel antimicrobial resistance genes

Agar plate‐based screening methods for the identification of polyester hydrolysis by Pseudomonas species

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