Research Article

Cloning and expression analysis of cysteine protease gene (MwCP) in Agropyron mongolicum Keng

Published: January 22, 2016
Genet. Mol. Res. 15(1): gmr7424 DOI: https://doi.org/10.4238/gmr.15017424
Cite this Article:
T.G.B.Y. Ao, M.L. Lang, Y.Q. Li, Y. Zhao, L.C. Wang, X.J. Yang, T.G.B.Y. Ao, M.L. Lang, Y.Q. Li, Y. Zhao, L.C. Wang, X.J. Yang, T.G.B.Y. Ao, M.L. Lang, Y.Q. Li, Y. Zhao, L.C. Wang, X.J. Yang (2016). Cloning and expression analysis of cysteine protease gene (MwCP) in Agropyron mongolicum Keng. Genet. Mol. Res. 15(1): gmr7424. https://doi.org/10.4238/gmr.15017424
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Abstract

In this study, a cysteine protease gene (MwCP) from Agropyron mongolicum Keng was isolated using RACE. Sequence analysis indicated that MwCP was 1473 bp, and it contained a 1134-bp open reading frame, which encoded 377 amino acids with a 24-amino acid N-terminal signal peptide. The results indicated that the MwCP protein was a new member of the papain C1A family, and it was predicted to be an extracellular, secretory stable hydrophilic protein. The secondary structure of MwCP was mainly composed of α-helices and random coils, and the space structure primarily contained α-helices, β-sheets, and β-turns. Homology analyses showed the 98% homology between MwCP amino acids and a cysteine protease found in Triticum aestivum (GenBank accession No. AAW21813.1). Analysis of mRNA using semi-quantitative RT-PCR indicated that during a 48-h drought stress period, MwCP was expressed during the 4th hour, and the expression level peaked during the 6th hour before declining to the original level. The results revealed that MwCP was involved in drought-resistant physiological processes of A. mongolicum. Moreover, the MwCP expression levels were highest in leaves, intermediate in roots, and lowest in stems.

In this study, a cysteine protease gene (MwCP) from Agropyron mongolicum Keng was isolated using RACE. Sequence analysis indicated that MwCP was 1473 bp, and it contained a 1134-bp open reading frame, which encoded 377 amino acids with a 24-amino acid N-terminal signal peptide. The results indicated that the MwCP protein was a new member of the papain C1A family, and it was predicted to be an extracellular, secretory stable hydrophilic protein. The secondary structure of MwCP was mainly composed of α-helices and random coils, and the space structure primarily contained α-helices, β-sheets, and β-turns. Homology analyses showed the 98% homology between MwCP amino acids and a cysteine protease found in Triticum aestivum (GenBank accession No. AAW21813.1). Analysis of mRNA using semi-quantitative RT-PCR indicated that during a 48-h drought stress period, MwCP was expressed during the 4th hour, and the expression level peaked during the 6th hour before declining to the original level. The results revealed that MwCP was involved in drought-resistant physiological processes of A. mongolicum. Moreover, the MwCP expression levels were highest in leaves, intermediate in roots, and lowest in stems.