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ObjectiveThe biosynthetic pathways of benzylisoquinoline alkaloids(BIAs) in Nelumbo nucifera are of great theoretical and economic value. In this paper, N. nucifera O-methyltransferase(NnOMT) and N. nucifera N-methyltransferase(NnNMT) gene families were identified and analyzed by bioinformatics in order to facilitate the biosynthetic pathway of BIAs in N. nucifera. MethodBased on the whole genome of N. nucifera, UniPort and National Center for Biotechnology Information(NCBI) databases were used to identify the NnOMT and NnNMT gene families of N. nucifera, and analyze their physicochemical properties and subcellular localization, then TBtools, MEME, MEGA 11.0, FigTree 1.4.4 and other tools were used to analyze the phylogeny, sequence characteristics, gene structure, functional annotation and cis-acting elements of NnOMT and NnNMT genes identified in the previous stage. ResultA total of 61 NnOMT and NnNMT genes were identified in this paper, the number of amino acids encoded by these genes ranged from 168 aa to 580 aa, the isoelectric point ranged from 4.76 to 9.16, and the relative molecular weight ranged from 18 699.52 Da to 64 934.53 Da, most of which showed acidic and mostly hydrophilic proteins. There were 10 conserved motifs, Kyoto Encyclopedia of Genes and Genomes(KEGG) analysis enriched a total of 12 pathways, including metabolism, biosynthesis of phenylpropane and isoquinoline alkaloids, etc. And Visualization of Gene Ontology(GO) enrichment results showed that 61 NnOMT and NnNMT genes were annotated to 32 items, which included 16 molecular functions[such as reduced nicotinamide adenine dinucleotide(NADH) activity and exopeptidase activity] and 16 biological processes(such as metabolic process of carbon tetrachloride, anaerobic carbon tetrachloride metabolic process and responses to exogenous biological stimuli). There were a variety of cis-acting elements in the promoter regions of NnOMT and NnNMT genes, mainly promoter and enhancer regions element, light responsive element and methyl jasmonate responsive element. ConclusionIn this study, a comprehensive bioinformatics analysis of 61 NnOMT and NnNMT genes is carried out based on the genome data of N. nucifera, which lays a foundation for research on the gene structure and function of NnOMT and NnNMT gene families, and provides a reference for biosynthetic pathway elucidation of BIAs in N. nucifera.
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ObjectiveCYP71 gene family is one of the CYP71 clans belonging to cytochrome P450, which plays an important role in secondary metabolites, especially terpenoid biosynthesis. To understand the characteristics of CYP71 family of diploid Perilla frutescens and predict its function, this study identified and systematically analyzed the family by bioinformatics. MethodOn the basis of the whole genome of diploid P. frutescens PC99, the conserved domains of CYP71 family of diploid P. frutescens were screened, and the sequence characteristics, gene structure, chromosome location, phylogeny and cis-acting elements were analyzed by National Center for Biotechnology Information (NCBI), TBtools, MEME, Molecular Evolutionary Genetics Analysis (MEGA), Cytoscape and other tools. ResultA total of 68 CYP71 genes were identified from diploid P. frutescens, which were unevenly distributed on 34 chromosomes and belonged to two subfamilies. They encoded 481-530 amino acids and contained 10 conserved motifs, with the isoelectric point of 5.70-9.03 and the molecular weight of 54 217.07-60 031.79 Da. The enrichment analysis and functional annotation analysis revealed 11 enriched pathways and 114 categories, and the genes were mainly annotated in biological processes. There were many cis-acting elements in the promoter region of CYP71, mainly light-responsive and methyl jasmonate-responsive elements. Protein-protein interaction analysis indicated that CYP71 protein had multiple functions such as terpene cyclase activity. ConclusionThis study lays a foundation for the functional study of CYP71 family, and provides a reference for the biosynthesis of monoterpenes in P. frutescens and the directional cultivation of excellent varieties.
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The newly emerged SARS-CoV-2 Omicron BQ.1.1, XBB.1, and other sublineages have accumulated additional spike mutations that may affect vaccine effectiveness. Here we report neutralizing activities of three human serum panels collected from individuals 1-3 months after dose 4 of parental mRNA vaccine (post-dose-4), 1 month after a BA.5-bivalent-booster (BA.5-bivalent-booster), or 1 month after a BA.5-bivalent-booster with previous SARS-CoV-2 infection (BA.5-bivalent-booster-infection). Post-dose-4 sera neutralized USA-WA1/2020, BA.5, BF.7, BA.4.6, BA.2.75.2, BQ.1.1, and XBB.1 SARS-CoV-2 with geometric mean titers (GMTs) of 1533, 95, 69, 62, 26, 22, and 15, respectively; BA.5-bivalent-booster sera improved the GMTs to 3620, 298, 305, 183, 98, 73, and 35; BA.5-bivalent-booster-infection sera further increased the GMTs to 5776, 1558,1223, 744, 367, 267, and 103. Thus, although BA.5-bivalent-booster elicits better neutralization than parental vaccine, it does not produce robust neutralization against the newly emerged Omicron BA.2.75.2, BQ.1.1, and XBB.1. Previous infection enhances the magnitude and breadth of BA.5-bivalent-booster-elicited neutralization.
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Since the initial emergence of SARS-CoV-2 Omicron BA.1, several Omicron sublineages have emerged, leading to BA.5 as the current dominant sublineage. Here we report the neutralization of different Omicron sublineages by human sera collected from individuals who had distinct mRNA vaccination and/or BA.1 infection. Four-dose-vaccine sera neutralize the original USA-WA1/2020, Omicron BA.1, BA.2, BA.212.1, BA.3, and BA.4/5 viruses with geometric mean titers (GMTs) of 1554, 357, 236, 236, 165, and 95, respectively; 2-dose-vaccine-plus-BA.1-infection sera exhibit GMTs of 2114, 1705, 730, 961, 813, and 274, respectively; and 3-dose-vaccine-plus-BA.1-infection sera show GMTs of 2962, 2038, 983, 1190, 1019, and 297, respectively. Thus, 4-dose-vaccine elicits the lowest neutralization against BA.5; 2-dose-vaccine-plus-BA.1-infection elicits significantly higher GMTs against Omicron sublineages than 4-dose-vaccine; and 3-dose-vaccine-plus-BA.1-infection elicits slightly higher GMTs (statistically insignificant) than the 2-dose-vaccine-plus-BA.1-infection. Finally, compared with BA.5, the newly emerged BA.2.75 is equally evasive of 4-dose-vaccine-elicited neutralization, but more susceptible to 3-dose-vaccine-plus-BA.1-infection-elicited neutralization.
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Distinct SARS-CoV-2 Omicron sublineages have evolved showing increased fitness and immune evasion than the original Omicron variant BA.1. Here we report the neutralization activity of sera from BNT162b2 vaccinated individuals or unimmunized Omicron BA.1-infected individuals against Omicron sublineages and "Deltacron" variant (XD). BNT162b2 post-dose 3 immune sera neutralized USA-WA1/2020, Omicron BA.1-, BA.2-, BA.2.12.1-, BA.3-, BA.4/5-, and XD-spike SARS-CoV-2s with geometric mean titers (GMTs) of 1335, 393, 298, 315, 216, 103, and 301, respectively; thus, BA.4/5 SARS-CoV-2 spike variant showed the highest propensity to evade vaccine neutralization compared to the original Omicron variants BA.1. BA.1-convalescent sera neutralized USA-WA1/2020, BA.1-, BA.2-, BA.2.12.1-, BA.3-, BA.4/5-, and Deltacron-spike SARS-CoV-2s with GMTs of 15, 430, 110, 109, 102, 25, and 284, respectively. The low neutralization titers of vaccinated sera or convalescent sera from BA. 1 infected individuals against the emerging and rapidly spreading Omicron BA.4/5 variants provide important results for consideration in the selection of an updated vaccine in the current Omicron wave.
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The continuous emergence of SARS-CoV-2 variants with increased transmission and immune evasion has caused breakthrough infections in vaccinated population. It is important to determine the threshold of neutralizing antibody titers that permit breakthrough infections. Here we tested the neutralization titers of vaccinated patients who contracted Delta variant. All 75 patients with Delta breakthrough infections exhibited neutralization titers (NT50) of less than 70. Among the breakthrough patients, 76%, 18.7%, and 5.3% of them had the NT50 ranges of <20, 20-50, and 50-69, respectively. These clinical laboratory results have implications in vaccine strategy and public health policy.
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The Omicron SARS-CoV-2 has three distinct sublineages, among which sublineage BA.1 is responsible for the initial Omicron surge and is now being replaced by BA.2 world-wide, whereas BA.3 is currently at a low frequency. The ongoing BA.1-to-BA.2 replacement underscores the importance to understand the cross-neutralization among the three Omicron sublineages. Here we tested the neutralization of BA.1-infected human sera against BA.2, BA.3, and USA/WA1-2020 (a strain isolated in late January 2020). The BA.1-infected sera neutralized BA.1, BA.2, BA.3, and USA/WA1-2020 SARS-CoV-2s with geometric mean titers (GMTs) of 445, 107, 102, and 16, respectively. Thus, the neutralizing GMTs against heterologous BA.2, BA.3, and USA/WA1-2020 were 4.2-, 4.4-, and 28.4-fold lower than the GMT against homologous BA.1, respectively. These findings have implications in COVID-19 vaccine strategy.
