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De novo profiling of insect-resistant proteins of rice via nanopore peptide differentiation
Xiao, Yicen1,2; Ren, Juansheng3,4; Wang, Yunjiao1,2; Chen, Xiaohan1,2; Zhou, Shuo1,2; Li, Minghan1,2; Gao, Fangyuan3,4; Liang, Liyuan1,2; Wang, Deqiang1,2; Ren, Guangjun3,4
2022-09-15
摘要Nanopore is used as a single-molecule detector for proteins, peptides and amino acids identification of biomedical importance. We, on the first try, extended its profiling application for peptidome encoded by the insect-resistance gene in rice. Taking brown planthopper (Bph) for example, we previously cloned and verified Bph32 gene, which encodes SCR ("Bph32") protein as direct executor against this injurious insect. However, the homology protein expressed in susceptible line doesn't have this antibiosis resistance. Hence, profiling the structural modulars (peptide domains) of Bph32 proteins may provide essential basis to understand rice in response to insects. Herein, we combined approaches of bioinformatics, biochemistry and nanopore analysis to profile the rice peptides with diverse properties. Bph32 proteins were theoretically modeled into 24 functional peptide domains using Swiss-Model workspace. Next, 22 water-soluble peptides were identified by biuretchemistry amplified nanopore current modulations. Among those, 16 ones were distinguished at one amino acid resolution via reading the current modulation spectrum, consequently providing the peptidome fingerprints. In addition, the current modulations were evidenced as quadratic function of peptide's molecular masses. These findings suggest that nanopore may work as a new generation of mass detector for more omics analysis, especially in agricultural field where demands strongly.
关键词Nanopore Peptidome Insect-resistance gene Oryza sativa Bioinformatics
DOI10.1016/j.bios.2022.114415
发表期刊BIOSENSORS & BIOELECTRONICS
ISSN0956-5663
卷号212页码:7
通讯作者Ren, Guangjun(guangjun61@sina.com) ; Wang, Liang(wangliang83@cigit.ac.cn)
收录类别SCI
WOS记录号WOS:000806013300005
语种英语