Identification and Functional Analysis of a Pseudo-Cysteine Protease from the Midgut Transcriptome of <i>Sphenophorus levis</i>

Identification and Functional Analysis of a Pseudo-Cysteine Protease from the Midgut Transcriptome of <i>Sphenophorus levis</i>

The <i>Sphenophorus levis</i> (Coleoptera, Curculionidae) is one of the main pests of sugarcane in Brazil. Although its major digestive proteases are known, its complex digestive process still needs to be further understood. We constructed a transcriptome from the midgut of 30-day-old la...

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Autores principales: Priscila Yumi Tanaka Shibao, Milene Ferro, Fernando Fonseca Pereira de Paula, Bruno Salata Lima, Flávio Henrique-Silva
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
pseudoenzyme
cysteine protease
coleoptera
protease inhibitor
insect digestion
Biology (General)
QH301-705.5
Chemistry
QD1-999
Acceso en línea:https://doaj.org/article/c9da468f32fc45858344913abfd4c4fc
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Sumario:The <i>Sphenophorus levis</i> (Coleoptera, Curculionidae) is one of the main pests of sugarcane in Brazil. Although its major digestive proteases are known, its complex digestive process still needs to be further understood. We constructed a transcriptome from the midgut of 30-day-old larvae and identified sequences similar to its major digestive protease (cysteine cathepsin Sl-CathL), however, they presented a different amino acid than cysteine in the active cleft. We identified, recombinantly produced, and characterized Sl-CathL-CS, a pseudo cysteine protease, and verified that higher gene expression levels of Sl-CathL-CS occur in the midgut of 30-day old larvae. We reverted the serine residue to cysteine and compared the activity of the mutant (Sl-CathL-mutSC) with Sl-CathL-CS. Sl-CathL-CS presented no protease activity, but Sl-CathL-mutSC hydrolyzed Z-Phe-Arg-AMC (V<sub>max</sub> = 1017.60 ± 135.55, K<sub>m</sub> = 10.77 mM) and was inhibited by a cysteine protease inhibitor E-64 (K<sub>i</sub> = 38.52 ± 1.20 μM), but not by the serine protease inhibitor PMSF. Additionally, Sl-CathL-CS interacted with a sugarcane cystatin, while Sl-CathL-mutSC presented weaker interaction. Finally, protein ligand docking reinforced the differences in the catalytic sites of native and mutant proteins. These results indicate that Sl-CathL-CS is a pseudo-cysteine protease that assists protein digestion possibly by interacting with canecystatins, allowing the true proteases to work.

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