There are various ways by which glutamate enters the cytoplasm in E.coli, such as through a glutamate:sodium symporter, glutamate / aspartate : H+ symporter GltP or a glutamate / aspartate ABC transporter. Similarly, there are various ways by which E. coli synthesizes glutamate from L-glutamine or oxoglutaric acid. L-glutamine, introduced into the cytoplasm by glutamine ABC transporter, can either interact with glutaminase resulting in ammonia and L-glutamic acid, or react with oxoglutaric acid, and hydrogen ion through an NADPH driven glutamate synthase resulting in L-glutamic acid. L-glutamic acid is metabolized into L-glutamine by reacting with ammonium through a ATP driven glutamine synthase. L-glutamic acid can also be metabolized into L-aspartic acid by reacting with oxalacetic acid through an aspartate transaminase resulting in an oxoglutaric acid and L-aspartic acid. L-aspartic acid is metabolized into fumaric acid through an aspartate ammonia-lyase. Fumaric acid can be introduced into the cytoplasm through 3 methods: dicarboxylate transporter, C4 dicarboxylate / C4 monocarboxylate transporter DauA, and C4 dicarboxylate / orotate:H+ symporter.

L-Glutamate Metabolism References