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Structural and molecular basis for urea recognition by Prochlorococcus

Chen Wang, Wenjing Zhu, Haitao Ding, Ning-Hua Liu, Haiyan Cao, Chuan-Lei Suo, Ze-kun Liu, Yi Zhang, Mei‐Ling Sun, Hui‐Hui Fu, Chunyang Li, Xiu‐Lan Chen, Yu‐Zhong Zhang, Peng Wang

2023Journal of Biological Chemistry11 citationsDOIOpen Access PDF

Abstract

Nitrogen (N) is an essential element for microbial growth and metabolism. The growth and reproduction of microorganisms in more than 75% of areas of the ocean are limited by N. Prochlorococcus is numerically the most abundant photosynthetic organism on the planet. Urea is an important and efficient N source for Prochlorococcus. However, how Prochlorococcus recognizes and absorbs urea still remains unclear. Prochlorococcus marinus MIT 9313, a typical Cyanobacteria, contains an ABC-type transporter, UrtABCDE, which may account for the transport of urea. Here, we heterologously expressed and purified UrtA, the substrate-binding protein of UrtABCDE, detected its binding affinity toward urea, and further determined the crystal structure of the UrtA/urea complex. Molecular dynamics simulations indicated that UrtA can alternate between "open" and "closed" states for urea binding. Based on structural and biochemical analyses, the molecular mechanism for urea recognition and binding was proposed. When a urea molecule is bound, UrtA undergoes a state change from open to closed surrounding the urea molecule, and the urea molecule is further stabilized by the hydrogen bonds supported by the conserved residues around it. Moreover, bioinformatics analysis showed that ABC-type urea transporters are widespread in bacteria and probably share similar urea recognition and binding mechanisms as UrtA from P. marinus MIT 9313. Our study provides a better understanding of urea absorption and utilization in marine bacteria.

Topics & Concepts

ProchlorococcusBasis (linear algebra)UreaChemistryComputational biologyBiochemistryBiophysicsBiologyGeneticsMathematicsCyanobacteriaBacteriaGeometrySynechococcusMetabolism and Genetic DisordersMetabolomics and Mass Spectrometry StudiesAmino Acid Enzymes and Metabolism
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