Metabolic Network model for C. difficile 630
Metabolic model of C.difficile: Genome-scale metabolic models consists of curated biochemical reactions and can be used to investigate genotype to phenotype relationship. These genome-wide models have the potential to predict phenotypes in various environments. icdf834 is an updated metabolic network of C. difficile that builds on iMLTC806cdf and features 1227 reactions, 834 genes, and 807 metabolites. Genes in C. difficile are linked to the reactions based on gene-protein-reaction (GPR) associations. The performance of the icdf834 model is depicted in the form of a receiver operating characteristic (ROC) curve that shows the sensitivity and specificity of the model predictions for gene essentiality. The TnSeq analysis performed under nutrient-rich condition has been used to validate the predictions using the ROC curve.
Metabolic model adapted from: Kashaf, S., Angione, C. & Lió, P. Making life difficult for Clostridium difficile: augmenting the pathogen’s metabolic model with transcriptomic and codon usage data for better therapeutic target characterization. BMC Syst Biol 11, 25 (2017). https://doi.org/10.1186/s12918-017-0395-3
TnSeq Data from: Dembek M, Barquist L, Boinett CJ, et al. High-throughput analysis of gene essentiality and sporulation in Clostridium difficile. mBio. 2015;6(2):e02383. Published 2015 Feb 24. doi:10.1128/mBio.02383-14
Explore Metabolic Reactions
Displaying 931 - 940 of 1227| Desc | Reaction | GPR | Genes | Subsystem | ||
|---|---|---|---|---|---|---|
| ID_478 |
1-deoxy-D-xylulose-5-phosphate synthase |
glyald3p[c] + pyr[c] -> 1dxyl5p[c] + co2[c] | (CD630_12070) | CD630_12070 | Thiamine metabolism | Bookmark |
| ID_581 |
ATP:thiamine phosphotransferase |
thm[c] + atp[c] -> thmp[c] + adp[c] | Thiamine metabolism | Bookmark | ||
| ID_210 |
4-methyl-5-(beta-hydroxyethyl)thiazole Biosynthesis |
pyr[c] + glyald3p[c] + gly[c] + cysL[c] -> 4m5het[c] + alaL[c] + 2 h2o[c] + 2 co2[c] + pi[c] | (CD630_17030 and CD630_17021 and CD630_17040 and CD630_17050 and CD630_07540) or (CD630_17030 and CD630_17021 and CD630_17040 and CD630_21560 and CD630_07540) | CD630_17030, CD630_17021, CD630_17040, CD630_17050, CD630_07540, CD630_17030, CD630_17021, CD630_17040, CD630_21560, CD630_07540 | Thiamine metabolism | Bookmark |
| ID_388 |
thiamine diphosphokinase |
atp[c] + thm[c] -> amp[c] + thmdp[c] | (CD630_25740) or (CD630_12150) | CD630_25740, CD630_12150 | Thiamine metabolism | Bookmark |
| ID_389 |
thiamine-phosphate kinase |
thmp[c] + atp[c] -> thmdp[c] + adp[c] | Thiamine metabolism | Bookmark | ||
| Trans_2oglut | 2oglut[e] <=> 2oglut[c] | Transport of unknown mechanism | Bookmark | |||
| Trans_mevR |
(R)-mevalonate transport |
mevR[e] <=> mevR[c] | Transport of unknown mechanism | Bookmark | ||
| Trans_xyld |
D-xylose import |
xyld[e] -> xyld[c] | (CD630_30670 and CD630_30680 and CD630_30700 and CD630_30690) or (CD630_00340) | CD630_30670, CD630_30680, CD630_30700, CD630_30690, CD630_00340 | Transport of unknown mechanism | Bookmark |
| Trans_isobuta |
Isobutyric acid transport |
isobuta[c] -> isobuta[e] | Transport of unknown mechanism | Bookmark | ||
| Trans_fe |
Ferrous iron transport |
fe2[e] -> fe2[c] | (CD630_14780) or (CD630_15180) or (CD630_32730) or (CD630_14790) or (CD630_15170) or (CD630_32740) or (CD630_14770) or (CD630_09020) or (CD630_18310) or (CD630_21220) or (CD630_28320) or (CD630_32700) or (CD630_35200) | CD630_14780, CD630_15180, CD630_32730, CD630_14790, CD630_15170, CD630_32740, CD630_14770, CD630_09020, CD630_18310, CD630_21220, CD630_28320, CD630_32700, CD630_35200 | Transport of unknown mechanism | Bookmark |
