Screening of Yeast Strains for Pectinolytic Activity: Effects of Different Carbon and Nitrogen Sources in Submerged Fermentations

Oskay, Mustafa; Yalçın, Hüsniye Tansel

doi:10.3844/ojbsci.2015.89.96

Cited by 6 publications

(5 citation statements)

References 30 publications

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“…Pectinase enzyme led to softening of fruits tissue as a result of destruction of pectin molecules, which are high molecular weight acid polysaccharides present in plant cell walls primarily made up of α‐(1 → 4) linked D‐galacturonic acid residues (Oskay & Yalçin, 2015). The lack of pectinase activity in the yeasts A. pullulans GE17 and M. guilliermondii KL3 used in this study was considered as an advantage, because this characteristic could help to maintain fruit firmness and prevent softening when these yeasts are applied to the surfaces of fruits for biocontrol purposes.…”

Section: Resultsmentioning

confidence: 99%

“…Ability of selected yeasts to produce and secrete five different cell wall lytic enzymes, chitinase (Souza et al, 2009), pectinase (Oskay & Yalçin, 2015), β‐1,3 glucanase (Lutz, Lopes, Rodriguez, Sosa, & Sangorrin, 2013), protease (Gullino) and gelatinase (Pickett, Greenwood, & Harvey, 1991) were characterized. The presence of chitinase was determined on solid medium containing colloidal chitin (Sigma C7170, USA), pectinase activity was tested on citruspectin (Sigma P9135, Denmark), β‐1,3 glucanase activity on laminarin (Sigma L9634, USA), protease activity on skim milk powder (Sigma‐Aldrich 70166, Switzerland), whereas gelatinase activity was checked on sterilized tubes including gelatin as a substrate.…”

Section: Methodsmentioning

confidence: 99%

“…Ability of selected yeasts to produce and secrete five different cell wall lytic enzymes, chitinase (Souza et al, 2009), pectinase (Oskay & Yalçin, 2015), β-1,3 glucanase (Lutz, Lopes, Rodriguez, Sosa, & Sangorrin, 2013), protease (Gullino) and gelatinase (Pickett, Greenwood, & Harvey, 1991)…”

Section: Extracellular Lytic Enzymes Activitymentioning

confidence: 99%

Section: Lytic Enzyme Production Assaymentioning

confidence: 99%

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Biocontrol ability and action mechanisms of Aureobasidium pullulans GE17 and Meyerozyma guilliermondii KL3 against Penicillium digitatum DSM2750 and Penicillium expansum DSM62841 causing postharvest diseases

Ağırman

Erten

2020

Yeast

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Epiphytic yeasts were isolated from different cultivars of apples and lemons and identified by a combination of PCR-RFLP of 5.8S rRNA region and sequencing of D1/D2 domain of the 26S rRNA gene. Among 69 isolates, Aureobasidium pullulans GE17 and Meyerozyma guilliermondii KL3 strains showed the greatest antagonistic activity against two significant apple and lemon postharvest pathogens, Penicillium expansum DSM62841 (blue mold) and Penicillium digitatum DSM2750 (green mold), after preliminary screening. Yeasts were applied as single and mixed cultures with two different cell concentrations of 10 6 and 10 8 cells/ml in the present study. It was determined that antagonistic activity of two yeast strains studied emerged with a combination of several mechanisms of action including competition for space and nutrients, production of volatile organic compounds (VOCs), secretion of extracellular lytic enzymes and inhibition of fungal spore germination. The highest inhibition of mycelial growth on P. expansum DSM62841 and P. digitatum DSM2750 (83.4% and 74.7%, respectively) was achieved by utilization of single culture of A. pullulans GE17. Otherwise, the application of mixed culture at the ratio of 10 8 cells/ml inhibited spore germination of both pathogens from 86% to 95%. Results of this study suggest that an increase in yeast cell concentrations positively affected their biocontrol activity against blue and green molds. According to the results, employing single culture of M. guilliermondii KL3 did not exhibit effective antagonistic activity against blue and green molds. However, utilization of A. pullulans GE17 alone and mixed culture showed succesfull controlling against both P. expansum DSM62841 and P. digitatum DSM2750. K E Y W O R D S antagonistic yeast, Aureobasidium pullulans, biocontrol, blue mold, green mold, Meyerozyma guilliermondii, mode of action 1 | INTRODUCTION Increased consumer awareness of the relationship between nutrition and health issues led to an increase in fruit and vegetable consumption. According to the data from Food and Agriculture Organization of the United Nations (FAO, 2017), 865.6 million tons of fresh fruit in 65.2 million hectares, 1.1 billion tons of fresh vegetables in 57 million hectares, hence approximately two billion tons of fresh fruit and vegetables have been produced in total. However, after harvesting, fresh fruit and vegetables undergo various spoilages resulting in economic

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Extracellular Lytic Enzymes Activitymentioning

confidence: 99%

Section: Lytic Enzyme Production Assaymentioning

confidence: 99%

See 2 more Smart Citations

Biocontrol ability and action mechanisms of Aureobasidium pullulans GE17 and Meyerozyma guilliermondii KL3 against Penicillium digitatum DSM2750 and Penicillium expansum DSM62841 causing postharvest diseases

Ağırman

Erten

2020

Yeast

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“…However, the production of pectinase in yeasts is not as common as in other microorganisms. Rhodotorula glutinis MP-10, isolated from tannin-rich persimmon fruits, has been reported to co-produce tannase and pectinase by both free and immobilized cells [ 7 ]. This highlights the potential of yeasts to produce pectinolytic enzymes, despite their limited occurrence in this group of microorganisms [ 1 ].…”

Section: Introductionmentioning

confidence: 99%

Enhancement of novel Endo-polygalacturonase expression in Rhodotorula mucilaginosa PY18: insights from mutagenesis and molecular docking

Abd El-Aziz,

Moharam,

El-Gamal

et al. 2023

Microb Cell Fact

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Pectinase is a particular type of enzyme that can break down pectin compounds and is extensively utilised in the agricultural field. In this study, twenty yeast isolates were isolated and assayed for pectinase activity. Molecular identification by PCR amplification and sequencing of internal transcribed spacer (ITS) regions of isolate no. 18 had the highest pectinase activity of 46.35 U/mg, was identified as Rhodotorula mucilaginosa PY18, and was submitted under accession no. (OM275426) in NCBI. Rhodotorula mucilaginosa PY18 was further enhanced through sequential mutagenesis, resulting in a mutant designated as Rhodotorula mucilaginosa E54 with a specific activity of 114.2 U/mg. Using Response Surface Methodology (RSM), the best culture conditions for the pectinase-producing yeast mutant Rhodotorula mucilaginosa E54 were pH 5, 72-h incubation, 2.5% xylose, and 2.5% malt extract, with a pectinase-specific activity of 156.55 U/mg. Then, the obtained sequences of the endo-polygalacturonase PGI gene from Rhodotorula mucilaginosa PY18 and mutant Rhodotorula mucilaginosa E54 were isolated for the first time, sequenced, and submitted to NCBI accession numbers OQ283005 and OQ283006, respectively. The modelled 3D structure of the endo-PGI enzyme (485 residues) was validated using Ramachandran’s plot, which showed 87.71, 85.56, and 91.57% in the most favourable region for template Rhodotorula mucilaginosa KR, strain Rhodotorula mucilaginosa PY18, and mutant Rhodotorula mucilaginosa E54, respectively. In molecular docking studies, the results of template Rhodotorula mucilaginosa KR endo-PG1 showed an interaction with an affinity score of − 6.0, − 5.9, and − 5.6 kcal/mol for active sites 1, 2, and 3, respectively. Rhodotorula mucilaginosa PY18 endo-PG1 showed an interaction affinity with a score of − 5.8, − 6.0, and − 5.0 kcal/mol for active sites 1, 2, and 3, respectively. Mutant Rhodotorula mucilaginosa E54 endo-PG1 showed an interaction affinity of − 5.6, − 5.5, – 5.5 and − 5.4 kcal/mol for active sites 1, 2, and 3, respectively. The endo-PGI genes of both the yeast strain Rhodotorula mucilaginosa PY18 and mutant Rhodotorula mucilaginosa E54 were successfully cloned and expressed in E. coli DH5α, showing significantly higher endo-PG1 activity, which recorded 94.57 and 153.10 U/mg for recombinant Rhodotorula mucilaginosa pGEM-PGI-PY18 and recombinant mutant Rhotorula pGEM-PGI-E54, respectively.

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Production, Partial Purification, and Characterization of Polygalacturonase from Aureobasidium pullulans P56 under Submerged Fermentation Using Agro-Industrial Wastes

Oskay

2022

Curr Microbiol

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Screening of Yeast Strains for Pectinolytic Activity: Effects of Different Carbon and Nitrogen Sources in Submerged Fermentations

Cited by 6 publications

References 30 publications

Biocontrol ability and action mechanisms of Aureobasidium pullulans GE17 and Meyerozyma guilliermondii KL3 against Penicillium digitatum DSM2750 and Penicillium expansum DSM62841 causing postharvest diseases

Biocontrol ability and action mechanisms of Aureobasidium pullulans GE17 and Meyerozyma guilliermondii KL3 against Penicillium digitatum DSM2750 and Penicillium expansum DSM62841 causing postharvest diseases

Enhancement of novel Endo-polygalacturonase expression in Rhodotorula mucilaginosa PY18: insights from mutagenesis and molecular docking

Production, Partial Purification, and Characterization of Polygalacturonase from Aureobasidium pullulans P56 under Submerged Fermentation Using Agro-Industrial Wastes

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