nasD Dimeric ATP-Binding Protein

This basic part encodes the nasD, the cytoplasmic protein subunit subunit of the NasFED transporter complex in the ANRA pathway.

Assimilatory nitrate reduction to ammonium (ANRA) in bacteria occurs through 3 main steps: (1) Nitrate uptake from the extracellular space by a transporter, (2) Conversion of nitrate to nitrite by the nitrate reductase enzyme and (3) Reduction to ammonium of the nitrite by nitrite reductase.

Usage and Biology

The transporter protein is a crucial part in the ANRA pathway. It’s an ATP-binding casette (ABC) transporter enzyme. Thus, to be able to transport the nitrate ions through the membrane, this group of transporters require energy from ATP hydroloysis. This enzyme is composed of of three subunits: a periplasmic protein that binds NO₃^-, a transmembrane protein, and a cytoplasmic ATPase attached to the membrane (Lin & Stewart, 1997; Moreno-Vivián & Flores, 2007). Its high-affinity binding of NO₃^- enables efficient uptake even at low external concentrations.

nasD constitutes the ATP-binding cytoplasmic component subunit of the transporter complex. This protein is responsible for the hydrolysis of ATP to ADP that will provide the energy necessary for the uptake of the nitrate ions.

The nasFED nitrate transporter complex (Wu & Stewart, 1998)

To ensure a proper functionality of the transporter enzyme, the sequence encoding nasD should be introduced with the other 2 subunits nasF(BBa_5306000) and nas E (BBa_5306000) as these genes has been found by Wu & Stewart (1998) to work as an operon. If you want to introduce the whole nitrate assimilation pathway as our team did, you can find the whole operon sequence that contains all the coding sequences that you need in our composite part’s page (BBa_K5306006) or access each one individually from this list:

• nasF (BBa_5306000)
• nasE (BBa_5306001)
• nasD (This Part)
• nasC (BBa_5306003)
• nasB (BBa_5306004)
• nasA (BBa_5306005)

Sequence and Features

References

1. Lee, H. H., Ostrov, N., Wong, B. G., Gold, M. A., Khalil, A. S., & Church, G. M. (2019). Functional genomics of the rapidly replicating bacterium Vibrio natriegens by CRISPRi. *Nature Microbiology*, *4*(7), 1105–1113. https://doi.org/10.1038/s41564-019-0423-8
2. Lin, J. T., Goldman, B. S., & Stewart, V. (1993). Structures of genes nasA and nasB, encoding assimilatory nitrate and nitrite reductases in Klebsiella pneumoniae M5al. *Journal of Bacteriology*, *175*(8), 2370–2378. https://doi.org/10.1128/jb.175.8.2370-2378.1993
3. Lin, J. T., Goldman, B. S., & Stewart, V. (1994). The nasFEDCBA operon for nitrate and nitrite assimilation in Klebsiella pneumoniae M5al. *Journal of Bacteriology*, *176*(9), 2551–2559. https://doi.org/10.1128/jb.176.9.2551-2559.1994
4. Moreno-Vivián, C., & Flores, E. (2007, January 1). *Chapter 17 - Nitrate Assimilation in Bacteria* (H. Bothe, S. J. Ferguson, & W. E. Newton, Eds.). ScienceDirect; Elsevier. https://www.sciencedirect.com/science/article/abs/pii/B9780444528575500187?via%3Dihub
5. Wu, Q., & Stewart, V. (1998). NasFED Proteins Mediate Assimilatory Nitrate and Nitrite Transport in Klebsiella oxytoca (pneumoniae) M5al. *Journal of Bacteriology*, *180*(5), 1311–1322. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC107022/