Deletion and gene expression analyses define the paxilline biosynthetic gene cluster in Penicillium paxilli

Barry Scott; Carolyn A. Young; Sanjay Saikia; Lisa K. McMillan; Brendon J. Monahan; Albert Koulman; Jonathan Astin; Carla J. Eaton; Andrea Bryant; Ruth E. Wrenn; Sarah C. Finch; Brian A. Tapper; Emily J. Parker; Geoffrey B. Jameson

doi:10.3390/toxins5081422

Deletion and gene expression analyses define the paxilline biosynthetic gene cluster in Penicillium paxilli

Barry Scott, Carolyn A. Young, Sanjay Saikia, Lisa K. McMillan, Brendon J. Monahan, Albert Koulman, Jonathan Astin, Carla J. Eaton, Andrea Bryant, Ruth E. Wrenn, Sarah C. Finch, Brian A. Tapper, Emily J. Parker, Geoffrey B. Jameson

Research output: Contribution to journal › Article › Research › peer-review

26 Citations (Scopus)

Abstract

The indole-diterpene paxilline is an abundant secondary metabolite synthesized by Penicillium paxilli. In total, 21 genes have been identified at the PAX locus of which six have been previously confirmed to have a functional role in paxilline biosynthesis. A combination of bioinformatics, gene expression and targeted gene replacement analyses were used to define the boundaries of the PAX gene cluster. Targeted gene replacement identified seven genes, paxG, paxA, paxM, paxB, paxC, paxP and paxQ that were all required for paxilline production, with one additional gene, paxD, required for regular prenylation of the indole ring post paxilline synthesis. The two putative transcription factors, PP104 and PP105, were not co-regulated with the pax genes and based on targeted gene replacement, including the double knockout, did not have a role in paxillineproduction. The relationship of indole dimethylallyl transferases involved in prenylation of indole-diterpenes such as paxilline or lolitrem B, can be found as two disparate clades, not supported by prenylation type (e.g., regular or reverse). This paper provides insight into the P. paxilli indole-diterpene locus and reviews the recent advances identified in paxilline biosynthesis.

Original language	English
Pages (from-to)	1422-1446
Number of pages	25
Journal	Toxins
Volume	5
Issue number	8
DOIs	https://doi.org/10.3390/toxins5081422
Publication status	Published - Aug 2013
Externally published	Yes

Keywords

Indole-diterpene
Paxilline
Prenylation

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10.3390/toxins5081422Licence: CC BY

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Scott, B., Young, C. A., Saikia, S., McMillan, L. K., Monahan, B. J., Koulman, A., Astin, J., Eaton, C. J., Bryant, A., Wrenn, R. E., Finch, S. C., Tapper, B. A., Parker, E. J., & Jameson, G. B. (2013). Deletion and gene expression analyses define the paxilline biosynthetic gene cluster in Penicillium paxilli. Toxins, 5(8), 1422-1446. https://doi.org/10.3390/toxins5081422

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title = "Deletion and gene expression analyses define the paxilline biosynthetic gene cluster in Penicillium paxilli",

abstract = "The indole-diterpene paxilline is an abundant secondary metabolite synthesized by Penicillium paxilli. In total, 21 genes have been identified at the PAX locus of which six have been previously confirmed to have a functional role in paxilline biosynthesis. A combination of bioinformatics, gene expression and targeted gene replacement analyses were used to define the boundaries of the PAX gene cluster. Targeted gene replacement identified seven genes, paxG, paxA, paxM, paxB, paxC, paxP and paxQ that were all required for paxilline production, with one additional gene, paxD, required for regular prenylation of the indole ring post paxilline synthesis. The two putative transcription factors, PP104 and PP105, were not co-regulated with the pax genes and based on targeted gene replacement, including the double knockout, did not have a role in paxillineproduction. The relationship of indole dimethylallyl transferases involved in prenylation of indole-diterpenes such as paxilline or lolitrem B, can be found as two disparate clades, not supported by prenylation type (e.g., regular or reverse). This paper provides insight into the P. paxilli indole-diterpene locus and reviews the recent advances identified in paxilline biosynthesis.",

keywords = "Indole-diterpene, Paxilline, Prenylation",

author = "Barry Scott and Young, \{Carolyn A.\} and Sanjay Saikia and McMillan, \{Lisa K.\} and Monahan, \{Brendon J.\} and Albert Koulman and Jonathan Astin and Eaton, \{Carla J.\} and Andrea Bryant and Wrenn, \{Ruth E.\} and Finch, \{Sarah C.\} and Tapper, \{Brian A.\} and Parker, \{Emily J.\} and Jameson, \{Geoffrey B.\}",

year = "2013",

month = aug,

doi = "10.3390/toxins5081422",

language = "English",

volume = "5",

pages = "1422--1446",

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T1 - Deletion and gene expression analyses define the paxilline biosynthetic gene cluster in Penicillium paxilli

AU - Scott, Barry

AU - Young, Carolyn A.

AU - Saikia, Sanjay

AU - McMillan, Lisa K.

AU - Monahan, Brendon J.

AU - Koulman, Albert

AU - Astin, Jonathan

AU - Eaton, Carla J.

AU - Bryant, Andrea

AU - Wrenn, Ruth E.

AU - Finch, Sarah C.

AU - Tapper, Brian A.

AU - Parker, Emily J.

AU - Jameson, Geoffrey B.

PY - 2013/8

Y1 - 2013/8

N2 - The indole-diterpene paxilline is an abundant secondary metabolite synthesized by Penicillium paxilli. In total, 21 genes have been identified at the PAX locus of which six have been previously confirmed to have a functional role in paxilline biosynthesis. A combination of bioinformatics, gene expression and targeted gene replacement analyses were used to define the boundaries of the PAX gene cluster. Targeted gene replacement identified seven genes, paxG, paxA, paxM, paxB, paxC, paxP and paxQ that were all required for paxilline production, with one additional gene, paxD, required for regular prenylation of the indole ring post paxilline synthesis. The two putative transcription factors, PP104 and PP105, were not co-regulated with the pax genes and based on targeted gene replacement, including the double knockout, did not have a role in paxillineproduction. The relationship of indole dimethylallyl transferases involved in prenylation of indole-diterpenes such as paxilline or lolitrem B, can be found as two disparate clades, not supported by prenylation type (e.g., regular or reverse). This paper provides insight into the P. paxilli indole-diterpene locus and reviews the recent advances identified in paxilline biosynthesis.

AB - The indole-diterpene paxilline is an abundant secondary metabolite synthesized by Penicillium paxilli. In total, 21 genes have been identified at the PAX locus of which six have been previously confirmed to have a functional role in paxilline biosynthesis. A combination of bioinformatics, gene expression and targeted gene replacement analyses were used to define the boundaries of the PAX gene cluster. Targeted gene replacement identified seven genes, paxG, paxA, paxM, paxB, paxC, paxP and paxQ that were all required for paxilline production, with one additional gene, paxD, required for regular prenylation of the indole ring post paxilline synthesis. The two putative transcription factors, PP104 and PP105, were not co-regulated with the pax genes and based on targeted gene replacement, including the double knockout, did not have a role in paxillineproduction. The relationship of indole dimethylallyl transferases involved in prenylation of indole-diterpenes such as paxilline or lolitrem B, can be found as two disparate clades, not supported by prenylation type (e.g., regular or reverse). This paper provides insight into the P. paxilli indole-diterpene locus and reviews the recent advances identified in paxilline biosynthesis.

KW - Indole-diterpene

KW - Paxilline

KW - Prenylation

UR - https://www.scopus.com/pages/publications/84882790174

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DO - 10.3390/toxins5081422

M3 - Article

AN - SCOPUS:84882790174

SN - 2072-6651

VL - 5

SP - 1422

EP - 1446

JO - Toxins

JF - Toxins

IS - 8

ER -

Deletion and gene expression analyses define the paxilline biosynthetic gene cluster in Penicillium paxilli

Abstract

Keywords

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