Characterization of the Gene Encoding S-adenosyl-L-methionine (AdoMet) Synthetase in Penicillium chrysogenum; Role in Secondary Metabolism and Penicillin Production
The filamentous fungus Penicillium chrysogenum (recently reidentified as Penicillium rubens) is used in the industrial production of the β-lactam antibiotic penicillin. There are several mechanisms regulating the production of this antibiotic, acting both at the genetic and epigenetic levels, the la...
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| Published in | Microorganisms (Basel) Vol. 10; no. 1; p. 78 |
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| Abstract | The filamentous fungus Penicillium chrysogenum (recently reidentified as Penicillium rubens) is used in the industrial production of the β-lactam antibiotic penicillin. There are several mechanisms regulating the production of this antibiotic, acting both at the genetic and epigenetic levels, the latter including the modification of chromatin by methyltransferases. S-adenosyl-L-methionine (AdoMet) is the main donor of methyl groups for methyltransferases. In addition, it also acts as a donor of aminopropyl groups during the biosynthesis of polyamines. AdoMet is synthesized from L-methionine and ATP by AdoMet-synthetase. In silico analysis of the P. chrysogenum genome revealed the presence of a single gene (Pc16g04380) encoding a putative protein with high similarity to well-known AdoMet-synthetases. Due to the essential nature of this gene, functional analysis was carried out using RNAi-mediated silencing techniques. Knock-down transformants exhibited a decrease in AdoMet, S-adenosyl-L-homocysteine (AdoHcy), spermidine and benzylpenicillin levels, whereas they accumulated a yellow-orange pigment in submerged cultures. On the other hand, overexpression led to reduced levels of benzylpenicillin, thereby suggesting that the AdoMet synthetase, in addition to participate in primary metabolism, also controls secondary metabolism in P. chrysogenum. |
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| AbstractList | The filamentous fungus
(recently reidentified as
) is used in the industrial production of the β-lactam antibiotic penicillin. There are several mechanisms regulating the production of this antibiotic, acting both at the genetic and epigenetic levels, the latter including the modification of chromatin by methyltransferases. S-adenosyl-L-methionine (AdoMet) is the main donor of methyl groups for methyltransferases. In addition, it also acts as a donor of aminopropyl groups during the biosynthesis of polyamines. AdoMet is synthesized from L-methionine and ATP by AdoMet-synthetase. In silico analysis of the
genome revealed the presence of a single gene (Pc16g04380) encoding a putative protein with high similarity to well-known AdoMet-synthetases. Due to the essential nature of this gene, functional analysis was carried out using RNAi-mediated silencing techniques. Knock-down transformants exhibited a decrease in AdoMet, S-adenosyl-L-homocysteine (AdoHcy), spermidine and benzylpenicillin levels, whereas they accumulated a yellow-orange pigment in submerged cultures. On the other hand, overexpression led to reduced levels of benzylpenicillin, thereby suggesting that the AdoMet synthetase, in addition to participate in primary metabolism, also controls secondary metabolism in
. The filamentous fungus Penicillium chrysogenum (recently reidentified as Penicillium rubens) is used in the industrial production of the β-lactam antibiotic penicillin. There are several mechanisms regulating the production of this antibiotic, acting both at the genetic and epigenetic levels, the latter including the modification of chromatin by methyltransferases. S-adenosyl-L-methionine (AdoMet) is the main donor of methyl groups for methyltransferases. In addition, it also acts as a donor of aminopropyl groups during the biosynthesis of polyamines. AdoMet is synthesized from L-methionine and ATP by AdoMet-synthetase. In silico analysis of the P. chrysogenum genome revealed the presence of a single gene (Pc16g04380) encoding a putative protein with high similarity to well-known AdoMet-synthetases. Due to the essential nature of this gene, functional analysis was carried out using RNAi-mediated silencing techniques. Knock-down transformants exhibited a decrease in AdoMet, S-adenosyl-L-homocysteine (AdoHcy), spermidine and benzylpenicillin levels, whereas they accumulated a yellow-orange pigment in submerged cultures. On the other hand, overexpression led to reduced levels of benzylpenicillin, thereby suggesting that the AdoMet synthetase, in addition to participate in primary metabolism, also controls secondary metabolism in P. chrysogenum. The filamentous fungus Penicillium chrysogenum (recently reidentified as Penicillium rubens ) is used in the industrial production of the β-lactam antibiotic penicillin. There are several mechanisms regulating the production of this antibiotic, acting both at the genetic and epigenetic levels, the latter including the modification of chromatin by methyltransferases. S-adenosyl-L-methionine (AdoMet) is the main donor of methyl groups for methyltransferases. In addition, it also acts as a donor of aminopropyl groups during the biosynthesis of polyamines. AdoMet is synthesized from L-methionine and ATP by AdoMet-synthetase. In silico analysis of the P. chrysogenum genome revealed the presence of a single gene (Pc16g04380) encoding a putative protein with high similarity to well-known AdoMet-synthetases. Due to the essential nature of this gene, functional analysis was carried out using RNAi-mediated silencing techniques. Knock-down transformants exhibited a decrease in AdoMet, S-adenosyl-L-homocysteine (AdoHcy), spermidine and benzylpenicillin levels, whereas they accumulated a yellow-orange pigment in submerged cultures. On the other hand, overexpression led to reduced levels of benzylpenicillin, thereby suggesting that the AdoMet synthetase, in addition to participate in primary metabolism, also controls secondary metabolism in P. chrysogenum . The filamentous fungus Penicillium chrysogenum (recently reidentified as Penicillium rubens) is used in the industrial production of the β-lactam antibiotic penicillin. There are several mechanisms regulating the production of this antibiotic, acting both at the genetic and epigenetic levels, the latter including the modification of chromatin by methyltransferases. S-adenosyl-L-methionine (AdoMet) is the main donor of methyl groups for methyltransferases. In addition, it also acts as a donor of aminopropyl groups during the biosynthesis of polyamines. AdoMet is synthesized from L-methionine and ATP by AdoMet-synthetase. In silico analysis of the P. chrysogenum genome revealed the presence of a single gene (Pc16g04380) encoding a putative protein with high similarity to well-known AdoMet-synthetases. Due to the essential nature of this gene, functional analysis was carried out using RNAi-mediated silencing techniques. Knock-down transformants exhibited a decrease in AdoMet, S-adenosyl-L-homocysteine (AdoHcy), spermidine and benzylpenicillin levels, whereas they accumulated a yellow-orange pigment in submerged cultures. On the other hand, overexpression led to reduced levels of benzylpenicillin, thereby suggesting that the AdoMet synthetase, in addition to participate in primary metabolism, also controls secondary metabolism in P. chrysogenum.The filamentous fungus Penicillium chrysogenum (recently reidentified as Penicillium rubens) is used in the industrial production of the β-lactam antibiotic penicillin. There are several mechanisms regulating the production of this antibiotic, acting both at the genetic and epigenetic levels, the latter including the modification of chromatin by methyltransferases. S-adenosyl-L-methionine (AdoMet) is the main donor of methyl groups for methyltransferases. In addition, it also acts as a donor of aminopropyl groups during the biosynthesis of polyamines. AdoMet is synthesized from L-methionine and ATP by AdoMet-synthetase. In silico analysis of the P. chrysogenum genome revealed the presence of a single gene (Pc16g04380) encoding a putative protein with high similarity to well-known AdoMet-synthetases. Due to the essential nature of this gene, functional analysis was carried out using RNAi-mediated silencing techniques. Knock-down transformants exhibited a decrease in AdoMet, S-adenosyl-L-homocysteine (AdoHcy), spermidine and benzylpenicillin levels, whereas they accumulated a yellow-orange pigment in submerged cultures. On the other hand, overexpression led to reduced levels of benzylpenicillin, thereby suggesting that the AdoMet synthetase, in addition to participate in primary metabolism, also controls secondary metabolism in P. chrysogenum. |
| Author | Sánchez-Orejas, Isabel-Clara Balaña-Fouce, Rafael Domínguez-Santos, Rebeca Reguera, Rosa M. García-Estrada, Carlos Barreiro, Carlos Pérez-Pertejo, Yolanda Kosalková, Katarina |
| AuthorAffiliation | 2 Área de Bioquímica y Biología Molecular, Departamento de Biología Molecular, Campus de Vegazana, Universidad de Leon, 24007 Leon, Spain 3 Departamento de Ciencias Biomédicas, Campus de Vegazana, Universidad de Leon, 24007 Leon, Spain; myperp@unileon.es (Y.P.-P.); rmregt@unileon.es (R.M.R.); rbalf@unileon.es (R.B.-F.) 1 INBIOTEC (Instituto de Biotecnología de León), Av. Real 1, 24006 Leon, Spain; Rebeca.Dominguez@uv.es (R.D.-S.); kkos@unileon.es (K.K.); csanchez@inbiotec.com (I.-C.S.-O.); c.barreiro@unileon.es (C.B.) |
| AuthorAffiliation_xml | – name: 1 INBIOTEC (Instituto de Biotecnología de León), Av. Real 1, 24006 Leon, Spain; Rebeca.Dominguez@uv.es (R.D.-S.); kkos@unileon.es (K.K.); csanchez@inbiotec.com (I.-C.S.-O.); c.barreiro@unileon.es (C.B.) – name: 2 Área de Bioquímica y Biología Molecular, Departamento de Biología Molecular, Campus de Vegazana, Universidad de Leon, 24007 Leon, Spain – name: 3 Departamento de Ciencias Biomédicas, Campus de Vegazana, Universidad de Leon, 24007 Leon, Spain; myperp@unileon.es (Y.P.-P.); rmregt@unileon.es (R.M.R.); rbalf@unileon.es (R.B.-F.) |
| Author_xml | – sequence: 1 givenname: Rebeca surname: Domínguez-Santos fullname: Domínguez-Santos, Rebeca – sequence: 2 givenname: Katarina surname: Kosalková fullname: Kosalková, Katarina – sequence: 3 givenname: Isabel-Clara surname: Sánchez-Orejas fullname: Sánchez-Orejas, Isabel-Clara – sequence: 4 givenname: Carlos orcidid: 0000-0001-7328-1630 surname: Barreiro fullname: Barreiro, Carlos – sequence: 5 givenname: Yolanda surname: Pérez-Pertejo fullname: Pérez-Pertejo, Yolanda – sequence: 6 givenname: Rosa M. orcidid: 0000-0001-9148-2997 surname: Reguera fullname: Reguera, Rosa M. – sequence: 7 givenname: Rafael orcidid: 0000-0003-0418-6116 surname: Balaña-Fouce fullname: Balaña-Fouce, Rafael – sequence: 8 givenname: Carlos orcidid: 0000-0001-5617-9669 surname: García-Estrada fullname: García-Estrada, Carlos |
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| Keywords | penicillin S-adenosyl-L-methionine polyamines secondary metabolism Penicillium chrysogenum |
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| Snippet | The filamentous fungus Penicillium chrysogenum (recently reidentified as Penicillium rubens) is used in the industrial production of the β-lactam antibiotic... The filamentous fungus (recently reidentified as ) is used in the industrial production of the β-lactam antibiotic penicillin. There are several mechanisms... The filamentous fungus Penicillium chrysogenum (recently reidentified as Penicillium rubens ) is used in the industrial production of the β-lactam antibiotic... |
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| SubjectTerms | Amides Antibiotics Benzylpenicillin Biosynthesis Chromatin computer simulation Epigenetics Experiments Functional analysis Fungi Gene expression genes Genomes Homocysteine Industrial production L-Homocysteine Metabolism Metabolites Methionine methionine adenosyltransferase methyltransferases Penicillin Penicillium chrysogenum Polyamines Potassium RNA-mediated interference S-adenosyl-L-methionine S-adenosylmethionine secondary metabolism Spermidine Standard deviation β-Lactam antibiotics |
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| Title | Characterization of the Gene Encoding S-adenosyl-L-methionine (AdoMet) Synthetase in Penicillium chrysogenum; Role in Secondary Metabolism and Penicillin Production |
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