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8UP9

Structure of atypical asparaginase from Rhodospirillum rubrum (mutant K19Q)

Summary for 8UP9
Entry DOI10.2210/pdb8up9/pdb
DescriptorAsparaginase, CHLORIDE ION, 1,2-ETHANEDIOL, ... (5 entities in total)
Functional Keywordsasparaginase, wild type, atypical, enzyme, hydrolase
Biological sourceRhodospirillum rubrum ATCC 11170
Total number of polymer chains2
Total formula weight40140.26
Authors
Lubkowski, J.,Wlodawer, A.,Zhang, D. (deposition date: 2023-10-21, release date: 2024-04-03)
Primary citationZhang, D.,Czapinska, H.,Bochtler, M.,Wlodawer, A.,Lubkowski, J.
RrA, an enzyme from Rhodospirillum rubrum, is a prototype of a new family of short-chain L-asparaginases.
Protein Sci., 33:e4920-e4920, 2024
Cited by
PubMed Abstract: L-Asparaginases (ASNases) catalyze the hydrolysis of L-Asn to L-Asp and ammonia. Members of the ASNase family are used as drugs in the treatment of leukemia, as well as in the food industry. The protomers of bacterial ASNases typically contain 300-400 amino acids (typical class 1 ASNases). In contrast, the chain of ASNase from Rhodospirillum rubrum, reported here and referred to as RrA, consists of only 172 amino acid residues. RrA is homologous to the N-terminal domain of typical bacterial class 1 ASNases and exhibits millimolar affinity for L-Asn. In this study, we demonstrate that RrA belongs to a unique family of cytoplasmic, short-chain ASNases (scASNases). These proteins occupy a distinct region in the sequence space, separate from the regions typically assigned to class 1 ASNases. The scASNases are present in approximately 7% of eubacterial species, spanning diverse bacterial lineages. They seem to be significantly enriched in species that encode for more than one class 1 ASNase. Here, we report biochemical, biophysical, and structural properties of RrA, a member of scASNases family. Crystal structures of the wild-type RrA, both with and without bound L-Asp, as well as structures of several RrA mutants, reveal topologically unique tetramers. Moreover, the active site of one protomer is complemented by two residues (Tyr21 and Asn26) from another protomer. Upon closer inspection, these findings clearly outline scASNases as a stand-alone subfamily of ASNases that can catalyze the hydrolysis of L-Asn to L-Asp despite the lack of the C-terminal domain that is present in all ASNases described structurally to date.
PubMed: 38501449
DOI: 10.1002/pro.4920
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.47 Å)
Structure validation

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