新型出口融合酶具有氯酸盐变位酶和环己二烯基脱水酶活性:Shikimate途径酶在无人区联手。

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-08-14 DOI:10.1016/j.jbc.2023.105161
Christian Stocker, Tamjidmaa Khatanbaatar, Luca Bressan, Kathrin Würth-Roderer, Gabriele Cordara, Ute Krengel, Peter Kast
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摘要

Chorismate变位酶(CM)和环己二烯基脱水酶(CDT)催化l-苯丙氨酸(Phe)细胞内生物合成的两个后续反应。在这里,我们报道了一种新的、极为罕见的双功能融合酶的发现,它由融合的CM和CDT结构域组成,从细胞质中输出。这种酶仅在9种属于非致病性γ-或β-变形杆菌的细菌中发现。在γ-变形杆菌融合酶中,CM结构域是CDT结构域的N-末端,而在β-变形杆菌中,顺序相反。CM结构域与结核分枝杆菌AroQγ类CM全型(*MtCM)具有15%至20%的序列同一性,CDT结构域与输出的铜绿假单胞菌单功能酶(PheC)具有40%至60%的同一性。体外动力学显示Km
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Novel exported fusion enzymes with chorismate mutase and cyclohexadienyl dehydratase activity: Shikimate pathway enzymes teamed up in no man's land.

Chorismate mutase (CM) and cyclohexadienyl dehydratase (CDT) catalyze two subsequent reactions in the intracellular biosynthesis of l-phenylalanine (Phe). Here, we report the discovery of novel and extremely rare bifunctional fusion enzymes, consisting of fused CM and CDT domains, which are exported from the cytoplasm. Such enzymes were found in only nine bacterial species belonging to non-pathogenic γ- or β-Proteobacteria. In γ-proteobacterial fusion enzymes, the CM domain is N-terminal to the CDT domain, whereas the order is inverted in β-Proteobacteria. The CM domains share 15% to 20% sequence identity with the AroQγ class CM holotype of Mycobacterium tuberculosis (∗MtCM), and the CDT domains 40% to 60% identity with the exported monofunctional enzyme of Pseudomonas aeruginosa (PheC). In vitro kinetics revealed a Km <7 μM, much lower than for ∗MtCM, whereas kinetic parameters are similar for CDT domains and PheC. There is no feedback inhibition of CM or CDT by the pathway's end product Phe, and no catalytic benefit of the domain fusion compared with engineered single-domain constructs. The fusion enzymes of Aequoribacter fuscus, Janthinobacterium sp. HH01, and Duganella sacchari were crystallized and their structures refined to 1.6, 1.7, and 2.4 Å resolution, respectively. Neither the crystal structures nor the size-exclusion chromatography show evidence for substrate channeling or higher oligomeric structure that could account for the cooperation of CM and CDT active sites. The genetic neighborhood with genes encoding transporter and substrate binding proteins suggests that these exported bifunctional fusion enzymes may participate in signaling systems rather than in the biosynthesis of Phe.

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