Difference between revisions of "Glycine out"
(Created page with "This reaction describes the utilization of the endproduct Glycine in other pathways. ==Reaction equation== <center><math> Glycine \rightarrow Glycine_{out} </math></center> ...") |
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|<math>K_{Glyc}</math> | |<math>K_{Glyc}</math> | ||
|<math>8.03 \times 10^{-3}</math> <ref name="Turnaev_2006">Turnaev II, Ibragimova SS, Usuda Y et al (2006). ''Mathematical modeling of serine and glycine synthesis regulation in Escherichia coli''. Proceedings of the fifth international conference on bioinformatics of genome regulation and structure 2:78–83 </ref> | |<math>8.03 \times 10^{-3}</math> <ref name="Turnaev_2006">Turnaev II, Ibragimova SS, Usuda Y et al (2006). ''Mathematical modeling of serine and glycine synthesis regulation in Escherichia coli''. Proceedings of the fifth international conference on bioinformatics of genome regulation and structure 2:78–83 </ref> | ||
− | |S^{-1} | + | |<math>S^{-1}</math> |
|Escherichia coli | |Escherichia coli | ||
|} | |} |
Revision as of 16:06, 21 March 2014
This reaction describes the utilization of the endproduct Glycine in other pathways.
Reaction equation
Rate equation
Simple mass action rate law is used.
Parameters
Parameter | Value | Units | Organism | Remarks |
---|---|---|---|---|
Failed to parse (Cannot store math image on filesystem.): K_{Glyc} | [1] | Escherichia coli |
References
- ↑ Turnaev II, Ibragimova SS, Usuda Y et al (2006). Mathematical modeling of serine and glycine synthesis regulation in Escherichia coli. Proceedings of the fifth international conference on bioinformatics of genome regulation and structure 2:78–83