scholarly journals Lignocellulolytic enzyme activity pattern of three white oyster mushroom (Pleurotus ostreatus (Jacq.) P. Kumm.) strains during mycelial growth and fruiting body development

2021 ◽  
Vol 1725 ◽  
pp. 012056
Author(s):  
N Nurfitri ◽  
W Mangunwardoyo ◽  
I Saskiawan
Keyword(s):  
Enzyme Activity ◽  
Fruiting Body ◽  
Activity Pattern ◽  
Pleurotus Ostreatus ◽  
Mycelial Growth ◽  
Oyster Mushroom ◽  
Body Development ◽  
Fruiting Body Development ◽  
Enzyme Activity Pattern

scholarly journals Pola aktivitas enzim ligninolitik Pleurotus ostreatus pada limbah sludge pabrik kertas Activity pattern of ligninolytic enzyme of Pleurotus ostreatus in sludge waste of paper factory

2016 ◽  
Vol 76 (1) ◽  
Author(s):  
Happy WIDIASTUTI ◽  
. TRI-PANJI
Keyword(s):  
Rice Bran ◽  
Growth Phase ◽  
Fruiting Body ◽  
Activity Pattern ◽  
Vegetative Growth ◽  
Pleurotus Ostreatus ◽  
Ligninolytic Enzymes ◽  
Ligninolytic Enzyme ◽  
Oyster Mushroom ◽  
Sludge Waste

Summary Sludge is a solid waste abundantly available on paper factory that is economically unutilized and tends to pollute environment. This waste can be used as growth media for oyster mushroom (Pleurotus ostreatus) as edible mushroom and ligninolytic enzymes production as well. A research has been conducted to study the activity pattern of ligninolytic enzymes of oyster mushroom grown on the sludge waste of recycle paper factory. Six treatments were examinated consisted of three media combinations (sawdust, sludge, sludge mixed with sawdust), with and without supplementing with rice bran, lime, and gypsum, and two mushroom strains Bogor oyster mushroom (JTB) and China Taipei oyster mushroom (JTT). Monitoring of ligninolytic enzyme activity consisting of laccase, mangan peroxidase (Mn-P) and lignin peroxidase (Li-P),  was subsequently regularly started since inoculation, at vegetative phase (four and six weeks), primordial formation, phase of fruiting body formation, and two weeks after formation of fruiting body. Each treatment was repeated three times, so that 216 bag logs of oyster mushroom cultures were performed. The results showed that laccase, Mn-P, and Li-P activities could be observed on sludge or mixture of sludge+sawdust media inoculated with P. ostreatus. Generally, the highest activity of ligninolytic enzymes especially for laccase and MnP were observed at the first vegetative growth phase i.e. before emerging primordial of fruiting body (1.697 & 2.113 U/mL, 4.394 & 2.314 U/mL  respectively for JTB and JTT laccase and JTB & JTT Mn-P). The highest Li-P activity was affected by the kind of media and strain of inoculum. In sludge medium, the highest Li-P activity was observed in  vegetative growth phase (2.706 & 4.014 U/mL respectively for JTB and JTT) while in a mixture of sludge + sawdust the highest activity of that enzyme was observed in primordial phase of growth (2.509 & 1.9 U/mL respectively for JTB and JTT). Addition of supplement to the sludge increased ligninolytic activity, while laccase activity of sludge was suggested could be more enhanced by mixing the sludge with sawdust and enrich with rice bran, gypsum and lime. Ringkasan                                                Sludge merupakan limbah padat yang tersedia melimpah di pabrik kertas dan belum dimanfaatkan secara ekonomis sehingga berpotensi mencemari lingkungan. Limbah ini dapat dimanfaatkan sebagai medium tumbuh jamur konsumsi seperti jamur tiram (Pleurotus ostreatus) dan penghasil enzim ligninolitik. Penelitian dilakukan untuk mempelajari pola aktivitas enzim ligninolitik jamur tiram pada limbah sludge pabrik kertas selama fase vegetatif sampai setelah fase generatif. Enam perlakuan yang diuji berupa tiga kombinasi komposisi medium (serbuk gergaji, sludge, campuran sludge dan serbuk gergaji), dengan dan tanpa pengayaan, yaitu penambahan dedak, kapur, dan gipsum,  serta dua strain jamur tiram Bogor (JTB) dan jamur tiram China Taipei (JTT). Pengamatan aktivitas enzim ligninolitik meliputi lakase, mangan peroksidase (Mn-P) dan lignin peroksidase  (Li-P) dilakukan sejak saat inokulasi, pada fase vegetatif (empat dan enam minggu), pada saat pembentukan primordia, fase tubuh buah, dan dua minggu setelah pembentukan tubuh buah. Masing-masing perlakuan diulang tiga kali sehingga terdapat 216 bag log jamur tiram. Hasil penelitian menunjukkan bahwa aktivitas ligninolitik dijumpai pada medium sludge dan campuran sludge+serbuk gergaji yang diino-kulasi P. ostreatus. Aktivitas enzim ligninolitik tertinggi khususnya lakase dan MnP teramati pada fase pertumbuhan vegetatif pertama yaitu sebelum terbentuknya primordia (1,697 & 2,113 U/mL, 4,394 & 2,314 U/mL  masing-masing untuk lakase JTB dan JTT dan MnP  JTB & JTT). Aktivitas LiP tertinggi dipengaruhi oleh jenis medium dan strain inokulum. Pada medium sludge, aktivitas LiP tertinggi dijumpai pada fase vegetatif (2,706 & 4,014 U/ml masing-masing untuk JTB dan JTT) sedangkan pada medium campuran sludge+serbuk gergaji, aktivitas enzim  ter-tinggi dijumpai  pada fase primordia (2,509 & 1,9 U/ml berturut-turut untuk JTB dan JTT). Pengayaan sludge meningkatkan aktivitas ligninolitik, sedangkan aktivitas lakase pada sludge diduga dapat lebih ditingkatkan dengan menambahkan serbuk gergaji disertai pengayaan berupa gipsum, dedak, dan kapur.

scholarly journals Pola aktivitas enzim ligninolitik Pleurotus ostreatus pada limbah sludge pabrik kertas Activity pattern of ligninolytic enzyme of Pleurotus ostreatus in sludge waste of paper factory

2016 ◽  
Vol 76 (1) ◽  
Author(s):  
Happy WIDIASTUTI ◽  
. TRI-PANJI
Keyword(s):  
Rice Bran ◽  
Growth Phase ◽  
Fruiting Body ◽  
Activity Pattern ◽  
Vegetative Growth ◽  
Pleurotus Ostreatus ◽  
Ligninolytic Enzymes ◽  
Ligninolytic Enzyme ◽  
Oyster Mushroom ◽  
Sludge Waste

Summary Sludge is a solid waste abundantly available on paper factory that is economically unutilized and tends to pollute environment. This waste can be used as growth media for oyster mushroom (Pleurotus ostreatus) as edible mushroom and ligninolytic enzymes production as well. A research has been conducted to study the activity pattern of ligninolytic enzymes of oyster mushroom grown on the sludge waste of recycle paper factory. Six treatments were examinated consisted of three media combinations (sawdust, sludge, sludge mixed with sawdust), with and without supplementing with rice bran, lime, and gypsum, and two mushroom strains Bogor oyster mushroom (JTB) and China Taipei oyster mushroom (JTT). Monitoring of ligninolytic enzyme activity consisting of laccase, mangan peroxidase (Mn-P) and lignin peroxidase (Li-P),  was subsequently regularly started since inoculation, at vegetative phase (four and six weeks), primordial formation, phase of fruiting body formation, and two weeks after formation of fruiting body. Each treatment was repeated three times, so that 216 bag logs of oyster mushroom cultures were performed. The results showed that laccase, Mn-P, and Li-P activities could be observed on sludge or mixture of sludge+sawdust media inoculated with P. ostreatus. Generally, the highest activity of ligninolytic enzymes especially for laccase and MnP were observed at the first vegetative growth phase i.e. before emerging primordial of fruiting body (1.697 & 2.113 U/mL, 4.394 & 2.314 U/mL  respectively for JTB and JTT laccase and JTB & JTT Mn-P). The highest Li-P activity was affected by the kind of media and strain of inoculum. In sludge medium, the highest Li-P activity was observed in  vegetative growth phase (2.706 & 4.014 U/mL respectively for JTB and JTT) while in a mixture of sludge + sawdust the highest activity of that enzyme was observed in primordial phase of growth (2.509 & 1.9 U/mL respectively for JTB and JTT). Addition of supplement to the sludge increased ligninolytic activity, while laccase activity of sludge was suggested could be more enhanced by mixing the sludge with sawdust and enrich with rice bran, gypsum and lime. Ringkasan                                                Sludge merupakan limbah padat yang tersedia melimpah di pabrik kertas dan belum dimanfaatkan secara ekonomis sehingga berpotensi mencemari lingkungan. Limbah ini dapat dimanfaatkan sebagai medium tumbuh jamur konsumsi seperti jamur tiram (Pleurotus ostreatus) dan penghasil enzim ligninolitik. Penelitian dilakukan untuk mempelajari pola aktivitas enzim ligninolitik jamur tiram pada limbah sludge pabrik kertas selama fase vegetatif sampai setelah fase generatif. Enam perlakuan yang diuji berupa tiga kombinasi komposisi medium (serbuk gergaji, sludge, campuran sludge dan serbuk gergaji), dengan dan tanpa pengayaan, yaitu penambahan dedak, kapur, dan gipsum,  serta dua strain jamur tiram Bogor (JTB) dan jamur tiram China Taipei (JTT). Pengamatan aktivitas enzim ligninolitik meliputi lakase, mangan peroksidase (Mn-P) dan lignin peroksidase  (Li-P) dilakukan sejak saat inokulasi, pada fase vegetatif (empat dan enam minggu), pada saat pembentukan primordia, fase tubuh buah, dan dua minggu setelah pembentukan tubuh buah. Masing-masing perlakuan diulang tiga kali sehingga terdapat 216 bag log jamur tiram. Hasil penelitian menunjukkan bahwa aktivitas ligninolitik dijumpai pada medium sludge dan campuran sludge+serbuk gergaji yang diino-kulasi P. ostreatus. Aktivitas enzim ligninolitik tertinggi khususnya lakase dan MnP teramati pada fase pertumbuhan vegetatif pertama yaitu sebelum terbentuknya primordia (1,697 & 2,113 U/mL, 4,394 & 2,314 U/mL  masing-masing untuk lakase JTB dan JTT dan MnP  JTB & JTT). Aktivitas LiP tertinggi dipengaruhi oleh jenis medium dan strain inokulum. Pada medium sludge, aktivitas LiP tertinggi dijumpai pada fase vegetatif (2,706 & 4,014 U/ml masing-masing untuk JTB dan JTT) sedangkan pada medium campuran sludge+serbuk gergaji, aktivitas enzim  ter-tinggi dijumpai  pada fase primordia (2,509 & 1,9 U/ml berturut-turut untuk JTB dan JTT). Pengayaan sludge meningkatkan aktivitas ligninolitik, sedangkan aktivitas lakase pada sludge diduga dapat lebih ditingkatkan dengan menambahkan serbuk gergaji disertai pengayaan berupa gipsum, dedak, dan kapur.

scholarly journals Strand-Specific RNA-Seq Analyses of Fruiting Body Development in Coprinopsis cinerea

PLoS ONE ◽  
2015 ◽  
Vol 10 (10) ◽  
pp. e0141586 ◽  
Author(s):  
Hajime Muraguchi ◽  
Kiwamu Umezawa ◽  
Mai Niikura ◽  
Makoto Yoshida ◽  
Toshinori Kozaki ◽  
...  
Keyword(s):  
Fruiting Body ◽  
Rna Seq ◽  
Coprinopsis Cinerea ◽  
Body Development ◽  
Fruiting Body Development

scholarly journals Lessons on fruiting body morphogenesis from genomes and transcriptomes of Agaricomycetes

2021 ◽  
Author(s):  
Laszlo G Nagy ◽  
Peter Jan Vonk ◽  
Markus Kunzler ◽  
Csenge Foldi ◽  
Mate Viragh ◽  
...  
Keyword(s):  
Cell Wall ◽  
Fruiting Body ◽  
Expression Patterns ◽  
Schizophyllum Commune ◽  
Gene Families ◽  
Second Phase ◽  
Fruiting Bodies ◽  
Body Development ◽  
Fruiting Body Development

Fruiting bodies of mushroom-forming fungi (Agaricomycetes) are among the most complex structures produced by fungi. Unlike vegetative hyphae, fruiting bodies grow determinately and follow a genetically encoded developmental program that orchestrates tissue differentiation, growth and sexual sporulation. In spite of more than a century of research, our understanding of the molecular details of fruiting body morphogenesis is limited and a general synthesis on the genetics of this complex process is lacking. In this paper, we aim to comprehensively identify conserved genes related to fruiting body morphogenesis and distill novel functional hypotheses for functionally poorly characterized genes. As a result of this analysis, we report 921 conserved developmentally expressed gene families, only a few dozens of which have previously been reported in fruiting body development. Based on literature data, conserved expression patterns and functional annotations, we provide informed hypotheses on the potential role of these gene families in fruiting body development, yielding the most complete description of molecular processes in fruiting body morphogenesis to date. We discuss genes related to the initiation of fruiting, differentiation, growth, cell surface and cell wall, defense, transcriptional regulation as well as signal transduction. Based on these data we derive a general model of fruiting body development, which includes an early, proliferative phase that is mostly concerned with laying out the mushroom body plan (via cell division and differentiation), and a second phase of growth via cell expansion as well as meiotic events and sporulation. Altogether, our discussions cover 1480 genes of Coprinopsis cinerea, and their orthologs in Agaricus bisporus, Cyclocybe aegerita, Armillaria ostoyae, Auriculariopsis ampla, Laccaria bicolor, Lentinula edodes, Lentinus tigrinus, Mycena kentingensis, Phanerochaete chrysosporium, Pleurotus ostreatus, and Schizophyllum commune, providing functional hypotheses for ~10% of genes in the genomes of these species. Although experimental evidence for the role of these genes will need to be established in the future, our data provide a roadmap for guiding functional analyses of fruiting related genes in the Agaricomycetes. We anticipate that the gene compendium presented here, combined with developments in functional genomics approaches will contribute to uncovering the genetic bases of one of the most spectacular multicellular developmental processes in fungi. Key words: functional annotation; comparative genomics; cell wall remodeling; development; fruiting body morphogenesis; mushroom; transcriptome

Sign in / Sign up

Export Citation Format

Share Document