Difference between revisions of "SubtiPathways"

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=== [http://subtiwiki.uni-goettingen.de/pathways/proline.html Proline] ===
 
=== [http://subtiwiki.uni-goettingen.de/pathways/proline.html Proline] ===
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=== [http://subtiwiki.uni-goettingen.de/pathways/other_nitrogen_sources/index.html Proline] ===
  
 
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== Lipid metabolism ==
 
== Lipid metabolism ==
  

Revision as of 15:55, 19 August 2010

Pathway start page small.png
legend for SubtiPathways
graphical notation: click to enlarge

SubtiPathways is a model of B. subtilis metabolism and regulation in SBML/SBGN (Systems Biology Markup Language/ Graphical Notation). There is a color code for key metabolites (see the legend on the right side).

It can be used like Google Maps (scroll and zoom to the pathways). The markers of proteins and compounds listed on the right side in each pathway are containing links to the corresponding SubtiWiki and PubChem pages, respectively. There is a short description for each protein in the bubbles, too.

Contact: General Microbiology, University of Göttingen, send mail


A publication describing SubtiWiki and SubtiPathways:



A collection of important papers on B. subtilis metabolism can be found here


Carbon metabolism

Central carbon metabolism

Utilization of different carbon sources


Nitrogen and amino acid metabolism

Ammonium assimilation and glutamate metabolism (incl. glutamine and arginine)

Alanine, glycine, serine

Aspartate, asparagine

Cysteine, methionine

Histidine

Isoleucine, valine, leucine

Lysine, threonine

Phenylalanine, tyrosine, tryptophan

Proline

Proline


Lipid metabolism

Fatty acid and phospholipid biosynthesis

Fatty acid degradation


Nucleotides

Gene regulation of nucleotide metabolism

Nucleoside catabolism

Purine biosynthesis

Purine catabolism

Purine salvage pathways

Pyrimidine metabolism


Metabolism of cofactors

CoA synthesis

Folate biosynthesis

Menaquinone

Riboflavin and FAD synthesis

Thiamin synthesis


Other pathways

Cell wall

Stress responses

Phosphorelay

Sulfate assimilation

tRNA charging

Biofilm formation