Crystal structure of the C-terminal domain of the two-component system transmitter protein nitrogen regulator II (NRII; NtrB), regulator of nitrogen assimilation in Escherichia coli.

The kinase/phosphatase nitrogen regulator II (NRII, NtrB) is a member of the transmitter protein family of conserved two-component signal transduction systems. The kinase activity of NRII brings about the phosphorylation of the transcription factor nitrogen regulator I (NRI, NtrC), causing the activation of Ntr gene transcription. The phosphatase activity of NRII results in the inactivation of NRI-P. The activities of NRII are regulated by the signal transduction protein encoded by glnB, PII protein, which upon binding to NRII inhibits the kinase and activates the phosphatase activity. The C-terminal ATP-binding domain of NRII is required for both the kinase and phosphatase activities and contains the PII binding site. Here, we present the crystal structure of the C-terminal domain of a mutant form of NRII, NRII-Y302N, at 1.6 A resolution and compare this structure to the analogous domains of other two-component system transmitter proteins. While the C-terminal domain of NRII shares the general tertiary structure seen in CheA, PhoQ, and EnvZ transmitter proteins, it contains a distinct beta-hairpin projection that is absent in these related proteins. This projection is near the site of a well-characterized mutation that reduces the binding of PII and near other less-characterized mutations that affect the phosphatase activity of NRII. Sequence alignment suggests that the beta-hairpin projection is present in NRII proteins from various organisms, and absent in other transmitter proteins from Escherichia coliK-12. This unique structural element in the NRII C-terminal domain may play a role in binding PII or in intramolecular signal transduction.

Song Y ，Peisach D ，Pioszak AA ，Xu Z ，Ninfa AJ ... -  《BIOCHEMISTRY》

Functional dissection of the dimerization and enzymatic activities of Escherichia coli nitrogen regulator II and their regulation by the PII protein.

Jiang P ，Atkinson MR ，Srisawat C ，Sun Q ，Ninfa AJ ... -  《BIOCHEMISTRY》

Sensory components controlling bacterial nitrogen assimilation.

In enteric bacteria, the transcription of the Ntr regulon is regulated by a signal transduction system that measures and transmits information on the nitrogen status of the cell. Four of the components of this signal transduction apparatus have been previously identified, and the roles of these are known, to a first approximation, from studies with purified components. The sensor is a uridylyltransferase/uridylyl-removing enzyme (UTase/UR) that controls the uridylylation state of the PII protein. PII indirectly regulates the transcription of the Ntr regulon by acting through the kinase/phosphatase protein NRII. In the absence of unmodified PII, NRII autophosphorylates on a histidine residue, and these phosphoryl groups are transferred to the transcription factor NRI, resulting in the conversion of NRI to the form able to activate transcription. In the presence of PII and NRII, NRI approximately P is rapidly dephosphorylated, preventing the activation of Ntr transcription. This PII-dependent dephosphorylation of NRI approximately P is referred to as the regulated phosphatase activity. In this report, we describe improved methods for the purification of the UTase/UR and PII, and the crystallization of PII. We also present improved methods for the assay of the activities of the UTase/UR protein and PII. The results of our assays indicate that purified PII is effective in eliciting the regulated phosphatase activity, but does not affect the autophosphorylation of NRII or affect the transfer of phosphoryl groups from NRII approximately P to NRI. In addition, we demonstrate that the elicitation of the regulated phosphatase activity by PII is strongly dependent on the ratio of NRI approximately P to NRI, and that the isolated N-terminal domain of NRI, once phosphorylated, is dephosphorylated by the regulated phosphatase activity.

Kamberov ES ，Atkinson MR ，Feng J ，Chandran P ，Ninfa AJ ... -  《-》

Genetic and biochemical analysis of phosphatase activity of Escherichia coli NRII (NtrB) and its regulation by the PII signal transduction protein.

Pioszak AA ，Ninfa AJ 《-》

Mutations altering the N-terminal receiver domain of NRI (NtrC) That prevent dephosphorylation by the NRII-PII complex in Escherichia coli.

Pioszak AA ，Ninfa AJ 《-》