Cargando…
A conserved motif flags Acyl Carrier Proteins for β-branching in polyketide synthesis
Type I PKSs often utilise programmed β-branching, via enzymes of an “HMG-CoA synthase (HCS) cassette”, to incorporate various side chains at the second carbon from the terminal carboxylic acid of growing polyketide backbones. We identified a strong sequence motif in Acyl Carrier Proteins (ACPs) wher...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
2013
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4658705/ https://www.ncbi.nlm.nih.gov/pubmed/24056399 http://dx.doi.org/10.1038/nchembio.1342 |
| _version_ | 1782402550649061376 |
|---|---|
| author | Haines, Anthony S Dong, Xu Song, Zhongshu Farmer, Rohit Williams, Christopher Hothersall, Joanne Płoskoń, Eliza Wattana-amorn, Pakorn Stephens, Elton R. Yamada, Erika Gurney, Rachel Takebayashi, Yuiko Masschelein, Joleen Cox, Russell J. Lavigne, Rob Willis, Christine L. Simpson, Thomas J. Crosby, John Winn, Peter J. Thomas, Christopher M. Crump, Matthew P. |
| author_facet | Haines, Anthony S Dong, Xu Song, Zhongshu Farmer, Rohit Williams, Christopher Hothersall, Joanne Płoskoń, Eliza Wattana-amorn, Pakorn Stephens, Elton R. Yamada, Erika Gurney, Rachel Takebayashi, Yuiko Masschelein, Joleen Cox, Russell J. Lavigne, Rob Willis, Christine L. Simpson, Thomas J. Crosby, John Winn, Peter J. Thomas, Christopher M. Crump, Matthew P. |
| author_sort | Haines, Anthony S |
| collection | PubMed |
| description | Type I PKSs often utilise programmed β-branching, via enzymes of an “HMG-CoA synthase (HCS) cassette”, to incorporate various side chains at the second carbon from the terminal carboxylic acid of growing polyketide backbones. We identified a strong sequence motif in Acyl Carrier Proteins (ACPs) where β-branching is known. Substituting ACPs confirmed a correlation of ACP type with β-branching specificity. While these ACPs often occur in tandem, NMR analysis of tandem β-branching ACPs indicated no ACP-ACP synergistic effects and revealed that the conserved sequence motif forms an internal core rather than an exposed patch. Modelling and mutagenesis identified ACP Helix III as a probable anchor point of the ACP-HCS complex whose position is determined by the core. Mutating the core affects ACP functionality while ACP-HCS interface substitutions modulate system specificity. Our method for predicting β-carbon branching expands the potential for engineering novel polyketides and lays a basis for determining specificity rules. |
| format | Online Article Text |
| id | pubmed-4658705 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2013 |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-46587052015-11-25 A conserved motif flags Acyl Carrier Proteins for β-branching in polyketide synthesis Haines, Anthony S Dong, Xu Song, Zhongshu Farmer, Rohit Williams, Christopher Hothersall, Joanne Płoskoń, Eliza Wattana-amorn, Pakorn Stephens, Elton R. Yamada, Erika Gurney, Rachel Takebayashi, Yuiko Masschelein, Joleen Cox, Russell J. Lavigne, Rob Willis, Christine L. Simpson, Thomas J. Crosby, John Winn, Peter J. Thomas, Christopher M. Crump, Matthew P. Nat Chem Biol Article Type I PKSs often utilise programmed β-branching, via enzymes of an “HMG-CoA synthase (HCS) cassette”, to incorporate various side chains at the second carbon from the terminal carboxylic acid of growing polyketide backbones. We identified a strong sequence motif in Acyl Carrier Proteins (ACPs) where β-branching is known. Substituting ACPs confirmed a correlation of ACP type with β-branching specificity. While these ACPs often occur in tandem, NMR analysis of tandem β-branching ACPs indicated no ACP-ACP synergistic effects and revealed that the conserved sequence motif forms an internal core rather than an exposed patch. Modelling and mutagenesis identified ACP Helix III as a probable anchor point of the ACP-HCS complex whose position is determined by the core. Mutating the core affects ACP functionality while ACP-HCS interface substitutions modulate system specificity. Our method for predicting β-carbon branching expands the potential for engineering novel polyketides and lays a basis for determining specificity rules. 2013-09-22 2013-11 /pmc/articles/PMC4658705/ /pubmed/24056399 http://dx.doi.org/10.1038/nchembio.1342 Text en Users may view, print, copy, download and text and data- mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use: http://www.nature.com/authors/editorial_policies/license.html#terms |
| spellingShingle | Article Haines, Anthony S Dong, Xu Song, Zhongshu Farmer, Rohit Williams, Christopher Hothersall, Joanne Płoskoń, Eliza Wattana-amorn, Pakorn Stephens, Elton R. Yamada, Erika Gurney, Rachel Takebayashi, Yuiko Masschelein, Joleen Cox, Russell J. Lavigne, Rob Willis, Christine L. Simpson, Thomas J. Crosby, John Winn, Peter J. Thomas, Christopher M. Crump, Matthew P. A conserved motif flags Acyl Carrier Proteins for β-branching in polyketide synthesis |
| title | A conserved motif flags Acyl Carrier Proteins for β-branching in polyketide synthesis |
| title_full | A conserved motif flags Acyl Carrier Proteins for β-branching in polyketide synthesis |
| title_fullStr | A conserved motif flags Acyl Carrier Proteins for β-branching in polyketide synthesis |
| title_full_unstemmed | A conserved motif flags Acyl Carrier Proteins for β-branching in polyketide synthesis |
| title_short | A conserved motif flags Acyl Carrier Proteins for β-branching in polyketide synthesis |
| title_sort | conserved motif flags acyl carrier proteins for β-branching in polyketide synthesis |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4658705/ https://www.ncbi.nlm.nih.gov/pubmed/24056399 http://dx.doi.org/10.1038/nchembio.1342 |
| work_keys_str_mv | AT hainesanthonys aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT dongxu aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT songzhongshu aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT farmerrohit aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT williamschristopher aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT hothersalljoanne aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT płoskoneliza aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT wattanaamornpakorn aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT stephenseltonr aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT yamadaerika aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT gurneyrachel aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT takebayashiyuiko aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT masscheleinjoleen aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT coxrussellj aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT lavignerob aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT willischristinel aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT simpsonthomasj aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT crosbyjohn aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT winnpeterj aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT thomaschristopherm aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT crumpmatthewp aconservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT hainesanthonys conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT dongxu conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT songzhongshu conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT farmerrohit conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT williamschristopher conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT hothersalljoanne conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT płoskoneliza conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT wattanaamornpakorn conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT stephenseltonr conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT yamadaerika conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT gurneyrachel conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT takebayashiyuiko conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT masscheleinjoleen conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT coxrussellj conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT lavignerob conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT willischristinel conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT simpsonthomasj conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT crosbyjohn conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT winnpeterj conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT thomaschristopherm conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis AT crumpmatthewp conservedmotifflagsacylcarrierproteinsforbbranchinginpolyketidesynthesis |