1 / 27

Christof Francke

Reconstructing the metabolic network of a bacterium from its genome: the construction of LacplantCyc. In silico reconstruction of the metabolic pathways of Lactobacillus plantarum : comparing predictions of nutrient requirements with growth experiments

azana
Download Presentation

Christof Francke

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Reconstructing the metabolic network of a bacterium from its genome: the construction of LacplantCyc In silico reconstruction of the metabolic pathways of Lactobacillus plantarum: comparing predictions of nutrient requirements with growth experiments Teusink, van Enckevort, Francke, Wiersma, Wegkamp, Smid and Siezen 2005 Appl. Environ. Microbiol. 71: 7253-7262 Christof Francke

  2. What do we mean by reconstruction? ...... the collection and visualization of all potential physiologically relevant cellular processes. .......... Reconstructing the metabolic network of a bacterium from its genome Francke, Siezen and Teusink Trends in Microbiol. 2005 13: 550-558

  3. Why do we want to do it? ...... it serves to sort the individual proteins and thus the potential molecular functions, into a context (like pathways or protein complexes) and as such: - allows for improved functional annotation - provides a platform to visualize and analyze 'omics' data - yields a network the topology of which can be studied - can be converted to a model (metabolic engineering)

  4. How do we annotate? The attribute function is ambiguous context independent (molecular function or properties) - catalyze certain reactions - interact with certain proteins - bind to a specific DNA sequence context dependent (role) - act in a certain pathway - be a member of a certain protein complex(es) - act as a transcription factor

  5. We are interested in lactic acid bacteria # # (2003) Proc Natl Acad Sci USA 100,1990 annotation database PlantDB

  6. the construction of LacplantCyc recovering gene - protein - reaction -pathway relations Pathway Tools (SRI) uses gene-annotation (EC-numbers) and reference database (MetaCyc) to arrive automatically at an • encyclopedia of genes connected to proteins proteins connected to reactions reactions connected in pathways

  7. initial automatic reconstruction: some remarks Are the assignments correct and which functions are there that have not been retrieved? - presence of pathways - gaps in pathways - are these numbers correct? - same reactions and pathways - manual changes are not correctly incorporated

  8. the actual labour: curation

  9. What we have done: consult reference databases

  10. What we have done: add information that is not recovered from MetaCyc. Transporters are not recovered by pathway tools

  11. What we have done: add information that is not recovered from MetaCyc. pyruvate PEP - include newly discovered and or organism specific reactions and pathways - add information on complex formation EI EI ~P HPr HPr ~P 170 170 ~P dak1 dak2 dak1 170 dak2 ~P dihydroxy acetone dihydroxy acetone ~P

  12. What we have done: evaluation of the attributed molecular function for each individual case Do we trust the gene - protein - reaction association when we consider thesimilarity between the sequence of the gene-product and the sequence of a protein with the specified molecular function (evidence based on experiment)? - determine orthology (use phylogeny and gene-context to determine evolutionary relationship) - check experimental evidence

  13. The evaluation of the attributed molecular function: Improved annotation of homologous proteins the use of phylogeny and orthologous relations experimental: kojibiose phosphorylase map1* experimental: trehalose phosphorylase map4 * there are slight but significant differences in alignment of cluster 1 which might point to slightly altered specificity L. plantarum has four homologs annotated as maltose phosphorylase

  14. The evaluation of the attributed molecular function: Improved annotation of homologous proteins the use of gene context and metabolic context map2 map3 experimental: maltose phosphorylase active passive experimental: maltose phosphorylase

  15. the evaluation of gaps in pathways: are genes really missing ?  an example: Tetrahydrofolate synthesis by Lactobacillus plantarum

  16. the evaluation of gaps in pathways: track missing genes

  17. the evaluation of gaps in pathways: the use of knowledge on physiology absent absent predicted growth dependence Validation: no tetrahydrofolate detectable without addition of p-aminobenzoate to the medium

  18. the evaluation of reactions and pathways: the use knowledge on physiology Lactobacilli do not have a TCA cycle and therefore do not produce succinyl-CoA ==>In all reactions succinyl-CoA is used as a substrate it has to be replaced by acetyl-CoA TCA cycle

  19. cleaning up the database the removal of redundant pathways

  20. a comparison of the automatic and curated LacplantCyc

  21. using LacplantCyc - inconsistencies between observed nutrient requirements and pathway predictions may lead to new insights about regulation automatic  further research needed   

  22. using LacplantCyc - to visualize -omics data - to compare the metabolic network between different species we need improved visualization

  23. remarks About the use ofCyc to visualize 'omics' data - it preferably requires * an interactive overview with more information * the possibility of having multiple selectable overviews * colouring of the genes instead of the reactions

  24. using LacplantCyc - to help the reconstruction of the metabolic network of a related species through orthologous relationships between proteins - to serve as the starting point for making a metabolic model (constraint based modeling) Accelerating the reconstruction of genome-scale metabolic networks Notebaart, van Enckevort, Francke, Siezen and Teusink in preparation

  25. remarks About the use of: Cyc as a source of gene-reaction-pathway association information to be used in other applications - requires easy export of these associations Cyc as a starting point for modeling - requires balanced reactions, detailed and correct molecular information on compounds and balance checks

  26. final remarks Pathway Tools is very nice to quickly connect reaction and pathway information to a gene which has been annotated with an EC-code. However: - Generation of a reliable reconstruction requires a lot of work and the implementation of changes is not always straightforward (problems with certain frames) and requires a lot of steps. - Better control over the editor of individual pathways and the pathway overview would be an important asset. - Application of automatic procedures after curation unfortunately destroys the changes that were carefully implemented. - Multiple editors with straightforward import and export functions would enhance the usefulness.

  27. acknowledgements Frank van Enckevort Christof Francke Richard Notebaart Roland Siezen Eddy Smid Bas Teusink Arno Wegkamp Anne Wiersma LacplantCyc can be found at www.lacplantcyc.nl

More Related