| Literature DB >> 33808947 |
Ahmed Mahas1, Norhan Hassan1, Rashid Aman1, Tin Marsic1, Qiaochu Wang1, Zahir Ali1, Magdy M Mahfouz1.
Abstract
One important factor for successful disease management is the ability to rapidly and accurately identify the causal agent. Plant viruses cause severe economic losses and pose a serious threat to sustainable agriculture. Therefore, optimization of the speed, sensitivity, feasibility, portability, and accuracy of virus detection is urgently needed. Here, we developed a clustered regularly interspaced short palindromic repeats (CRISPR)-based nucleic acid diagnostic method utilizing the CRISPR-Cas12a system for detecting two geminiviruses, tomato yellow leaf curl virus (TYLCV) and tomato leaf curl New Delhi virus (ToLCNDV), which have single-stranded DNA genomes. Our assay detected TYLCV and ToLCNDV in infected plants with high sensitivity and specificity. Our newly developed assay can be performed in ~1 h and provides easy-to-interpret visual readouts using a simple, low-cost fluorescence visualizer, making it suitable for point-of-use applications.Entities:
Keywords: CRISPR–Cas12; biosensing; genome engineering; molecular diagnostics; plant viruses
Year: 2021 PMID: 33808947 PMCID: PMC8001329 DOI: 10.3390/v13030466
Source DB: PubMed Journal: Viruses ISSN: 1999-4915 Impact factor: 5.048
Figure 1LAMP-coupled Cas12-based assay for the detection of TYLCV and ToLCNDV. (A) The assay workflow. Viral DNA (orange circles) extracted from an infected tomato plant is amplified by loop-mediated isothermal amplification (LAMP), followed by clustered regularly interspaced short palindromic repeats (CRISPR)-mediated detection. Cas12a-based detection of the LAMP product triggers collateral cleavage of the reporter, thus producing a signal for visual detection. (B) Organization of the single-component TYLCV genome (left) and the two-component (bipartite) ToLCNDV-A and B genomes (right). The targeted areas in the coat protein gene (CP) are highlighted, with the designed LAMP primers and crRNAs shown. Rep: replication-associated protein; IR: intergenic region; CP: coat protein; REn: replication enhancer protein; TrAP: transcriptional activator protein; AC4 or C4: RNA suppressor protein, present on the antisense (complementary) strand; AV2 or V2: precoat proteins, present on the virion-sense strand as plant RNA silencing suppressors. (C) Monitoring the performance of LAMP of synthetic DNA generated by PCR of TYLCV dsDNA (left) and ToLCNDV dsDNA (right) by real-time fluorescence across a range of dsDNA concentrations at 65 °C for 60 min. The LAMP signal was measured using the nucleic acid stain SYTO 9. Data generated using 50 aM of sample showed fluorescence signals similar to those of the no-template control (NTC), and these lines are therefore overlapping. Data are shown as the mean (n = 3). (D) Real-time measurements of Cas12 collateral activity on HEX reporter with LAMP-amplified DNA from a synthetic dsDNA template. Cas12a with crRNA targeting TYLCV (left) or ToLCNDV (right) was incubated with HEX reporter and LAMP product at 37 °C for 60 min. Data generated using 50 aM of sample showed fluorescence signals similar to those of the NTC, and these lines are therefore overlapping. Data are shown as the mean (n = 3).
Figure 2Detection of TYLCV and ToLCNDV in infected plants. (A) Comparison of Cas12-based detection (top) and conventional PCR detection (bottom) of 10 serial dilutions of TYLCV and ToLCNDV DNA from infected Nicotiana benthamiana plants. Different dilutions of DNA extracted from plants infected with TYLCV (left) or ToLCNDV (right) or noninfected plants (healthy) were used as input for the LAMP reactions at 65 °C for 40 min as well as PCR. LAMP products were subsequently added to the Cas12a detection reactions. The Cas12a detection assay was performed at 37 °C, and collateral activity was measured by HEX reporter fluorescence after 30 min. Data are shown as mean ± SD (n = 3). Conventional PCR products were resolved on a 1% agarose gel. L: 1 kb plus ladder (Invitrogen). (B) Comparison of Cas12a-based virus detection with visual in-tube fluorescence readouts (top) and conventional PCR (bottom) of three independent N. benthamiana plants infected with TYLCV (left panel) or ToLCNDV (right panel) or noninfected plants (healthy). (C) Comparison of Cas12a-based virus detection with visual in-tube fluorescence readouts (top) and conventional PCR (bottom) of tomato plants infected with TYLCV (left panel) or ToLCNDV (right panel) or noninfected plants (healthy).