Rapid detection of a fish iridovirus using loop-mediated isothermal amplification (LAMP)

A loop-mediated isothermal amplification (LAMP) procedure is described to detect the genomic DNA molecule of red seabream iridovirus (RSIV), a fish iridovirus belonging to the Iridoviridae family. The RSIV DNA was amplified using DNA extracts obtained from spleen of infected red seabream, Pagrus major and from various RSIV isolates. The method was at least 10 times more sensitive than conventional PCR in detecting for the presence of RSIV. A striking feature of the LAMP reaction is its ability to synthesize a large amount of DNA leading to the production of a white precipitate, magnesium pyrophosphate, as a by-product. The presence or absence of this white precipitate facilitates easy detection of the RSIV genomic DNA without the use of gel electrophoresis. A strong correlation exists between the amount of input viral DNA copy and the corresponding turbidity reading at the end of the reaction; hence, the LAMP reaction may be used potentially to quantify RSIV particles in the infected fish.     

Sweet pepper confirmed as a reservoir host for tomato yellow leaf curl virus by both agro-inoculation and whitefly-mediated inoculation

Tomato yellow leaf curl virus (TYLCV), a member of the genus Begomovirus, has a single-stranded DNA genome. TYLCV can induce severe disease symptoms on tomato plants, but other hosts plants such as cucurbits and peppers are asymptomatic. A full-length DNA clone of a Korean TYLCV isolate was constructed by rolling-circle amplification from TYLCV-infected tomatoes in Korea. To assess relative susceptibility of sweet pepper varieties to TYLCV, 19 cultivars were inoculated with cloned TYLCV by agro-inoculation. All TYLCV-infected sweet peppers were asymptomatic, even though Southern hybridization and polymerase chain reaction analysis showed TYLCV genomic DNA accumulation in roots, stems, and newly produced shoots. Southern hybridization indicated that TYLCV replicated and moved systemically from agro-inoculated apical shoot tips to roots or newly produced shoots of sweet peppers. Whitefly-mediated inoculation experiments showed that TYLCV can be transmitted to tomatoes from TYLCV-infected sweet peppers. Taken together, these results indicate that sweet pepper can be a reservoir for TYLCV in nature.     

Lamium amplexicaule (Lamiaceae): a weed reservoir for tomato yellow leaf curl virus (TYLCV) in Korea

After the first identification of tomato yellow leaf curl virus (TYLCV) in the southern part of Korea in 2008, TYLCV has rapidly spread to tomato farms in most regions of Korea. From 2008 to 2010, a survey of natural weed hosts that could be reservoirs of TYLCV was performed in major tomato production areas of Korea. About 530 samples were collected and identified as belonging to 25 species from 11 families. PCR and Southern hybridization were used to detect TYLCV in samples, and replicating forms of TYLCV DNA were detected in three species (Achyranthes bidentata, Lamium amplexicaule, and Veronica persica) by Southern hybridization. TYLCV transmission mediated by Bemisia tabaci from TYLCV-infected tomato plants to L. amplexicaule was confirmed, and TYLCV-infected L. amplexicaule showed symptoms such as yellowing, stunting, and leaf curling. TYLCV from infected L. amplexicaule was also transmitted to healthy tomato and L. amplexicaule plants by B. tabaci. The rate of infection of L. amplexicaule by TYLCV was similar to that of tomato. This report is the first to show that L. amplexicaule is a reservoir weed host for TYLCV.     

Detection of Japanese yam mosaic virus by RT-LAMP

Summary. A rapid and simple procedure is described to detect the genomic RNA molecule of Japanese yam mosaic potyvirus (JYMV). This method, named RT-LAMP, allows direct detection of RNA from infected plants without careful RNA extraction, rapid thermal cycling and gel electrophoresis. RT-LAMP was successfully applied to leaves, propagules and roots of Japanese yam infected with JYMV. One of the characteristics of the RT-LAMP method is its ability to synthesize an extremely large amount of DNA. Accordingly, a large amount of by-product, pyrophospate ion, is produced yielding a white precipitate of magnesium pyrophosphate in the reaction mixture. The presence or absence of this white precipitate allows easy detection of the amplification of JYMV genomic RNA without gel electrophoresis.Received January 20, 2003; accepted April 16, 2003 Published online July 2, 2003     

Sensitive and rapid detection of infectious hypodermal and hematopoietic necrosis virus (IHHNV) in shrimps by loop-mediated isothermal amplification

A method for nucleic acid amplification, loop-mediated isothermal amplification (LAMP) is a novel, sensitive and rapid technique, which can be applied for disease diagnosis in aquaculture. Using the LAMP method, a highly specific and sensitive diagnostic system for infectious hypodermal and hematopoietic necrosis virus (IHHNV) detection was designed. A set of four primers was designed by targeting the IHHNV genome DNA. By the detection system, target DNA was amplified and visualized on agarose gel within 60min under isothermal condition at 64 degrees C. Without gel electrophoresis, the LAMP amplicon was visualized directly in the reaction tube by addition of SYBR Green I for a naked-eye inspection. The LAMP reaction was also assessed by the white turbidity of magnesium pyrophosphate (a by-product of LAMP) in the tube. The assay had a detection limit of 5-500 copies of DNA template with gel electrophoresis, SYBR Green I and white turbidity with naked-eye inspection. The detection sensitivity of LAMP was 100-fold higher than the PCR. A diagnostic procedure which is rapid and highly sensitive was developed for IHHNV detection.     

A GroEL homologue from endosymbiotic bacteria of the whitefly Bemisia tabaci is implicated in the circulative transmission of tomato yellow leaf curl virus

Evidence for the involvement of a Bemisia tabaci GroEL homologue in the transmission of tomato yellow leaf curl geminivirus (TYLCV) is presented. A approximately 63-kDa protein was identified in B. tabaci whole-body extracts using an antiserum raised against aphid Buchnera GroEL. The GroEL homologue was immunolocalized to a coccoid-shaped whitefly endosymbiont. The 30 N-terminal amino acids of the whitefly GroEL homologue showed 80% homology with that from different aphid species and GroEL from Escherichia coli. Purified GroEL from B. tabaci exhibited ultrastructural similarities to that of the endosymbiont from aphids and E. coli. In vitro ligand assays showed that tomato yellow leaf curl virus (TYLCV) particles displayed a specific affinity for the B. tabaci 63-kDa GroEL homologue. Feeding whiteflies anti-Buchnera GroEL antiserum before the acquisition of virions reduced TYLCV transmission to tomato test plants by >80%. In the haemolymph of these whiteflies, TYLCV DNA was reduced to amounts below the threshold of detection by Southern blot hybridization. Active antibodies were recovered from the insect haemolymph suggesting that by complexing the GoEL homologue, the antibody disturbed interaction with TYLCV, leading to degradation of the virus. We propose that GroEL of B. tabaci protects the virus from destruction during its passage through the haemolymph.     

Use of loop-mediated isothermal amplification of the IS900 sequence for rapid detection of cultured Mycobacterium avium subsp. paratuberculosis

We evaluated the usefulness of loop-mediated isothermal amplification (LAMP) in detecting specific gene sequences of Mycobacterium avium subsp. paratuberculosis (MAP). A total of 102 primer sets for LAMP was designed to amplify the IS900, HspX, and F57 gene sequences of MAP. Using each of two primer sets (P-1 and P-2) derived from the IS900 fragment, it was possible to detect MAP in a manner similar to that used with nested PCR. The sensitivity of LAMP with P-1 was 0.5 pg/tube, which was more sensitive than nested PCR. When P-2 was used, 5 pg/tube could be detected, which was the same level of sensitivity as that for nested PCR. LAMP with P-1 was specific. Although only 2 Mycobacterium scrofulaceum strains out of 43 non-MAP mycobacterial strains were amplified, the amplification reaction for these strains was less efficient than for MAP strains, and their products could be distinguished from MAP products by restriction digestion. LAMP with P-2 resulted in very specific amplification only from MAP, the same result obtained with nested PCR. Our LAMP method was highly specific, and the white turbidity of magnesium pyrophosphate, a by-product of the LAMP reaction, allowed simple visual detection. Our method is rapid, taking only 2 h, compared with 4 h for nested PCR. In addition, the LAMP method is performed under isothermal conditions and no special apparatus is needed, which makes it more economical and practical than nested PCR or real-time PCR. These results indicate that LAMP can provide a rapid yet simple test for the detection of MAP.     

Rapid detection of the most common high-risk human papillomaviruses by loop-mediated isothermal amplification

Persistent infection with high-risk human papillomavirus (HPV) is a major risk factor for development of cervical cancer. At present, polymerase chain reaction (PCR)-based methods, the most widely molecular tools used for HPV detection, are time-consuming and require expensive instruments. In this study, loop-mediated isothermal amplification (LAMP) was established for detection of HPV types 16, 18, 45 and 58 which are frequently found in Thailand. The optimal condition for detection of these high risk HPVs was 63°C for 60min. Since a white magnesium pyrophosphate precipitate is a characteristic by product of the LAMP reaction which can be visualized directly by the naked eye, the entire assay time of LAMP is 1h compared to 6-8h of for a nested PCR detection. The detection limit of LAMP assay was shown to be equivalent to nested PCR that could amplify 10(2) copies of HPV-18 and 10(3) copies of HPV 16, 45 and 58, as determined by either turbidity detection or agarose gel electrophoresis. No cross-reaction was observed, indicating that LAMP assay has high type-specificity. The assay showed successful detection of HPV in 56 clinical specimens. Using nested PCR as the gold standard, the sensitivity, specificity, negative predictive values and positive predictive values of LAMP assay were 100%. In conclusion, LAMP assay is a high efficiency, low cost diagnostic tool, useful for rapid, accurate, direct detection of HPV for clinical diagnosis.     

Biolistic inoculation of plants with tomato yellow leaf curl virus DNA

Tomato yellow leaf curl virus (TYLCV) full-length DNA was amplified by PCR and cloned into a bacterial plasmid. The cloned TYLCV DNA was excised from the plasmid, ligated and the resulting monomeric circular double-stranded TYLCV DNA was used to inoculate tomato (Solanum lycopersicom) and datura (Datura stramonium) plants by particle bombardment. The bombarded plants produced typical disease symptoms, similar to those produced following whitefly-mediated inoculation, albeit 5-7 days later than whitefly-inoculated plants. The success rate of inoculating tomato plants by particle bombardment averaged 37%, whereas with datura plants, it averaged 85%. With whitefly-mediated inoculation of TYLCV, the success rate of inoculation was also higher in datura plants than in tomato plants. Bombardment of datura plants with a linear form of TYLCV DNA also resulted in viral infection, with an inoculation success rate similar to that with the closed-circular TYLCV DNA. Bombarding datura plants with the bacterial plasmid containing the cloned TYLCV DNA did not result in viral infection, but bombardment with a bacterial plasmid containing a cloned dimer of TYLCV DNA yielded an infection rate of 50-100%. This is the first report of TYLCV inoculation of plants using particle bombardment of a cloned monomeric linear or closed-circular form of TYLCV double-stranded DNA.     

Whiteflies (<Emphasis Type="BoldItalic">Bemisia tabaci</Emphasis>) issued from eggs bombarded with infectious DNA clones of <Emphasis Type="BoldItalic">Tomato yellow leaf curl virus</Emphasis> from Israel (TYLCV) are able to infect tomato plants

Summary.  We have reported previously that Tomato yellow leaf curl virus from Israel (TYLCV) penetrates the reproductive system of its vector, the whitefly Bemisia tabaci biotype B, and may be transmitted to progeny [9]. In order to mimic this phenomenon and to understand how TYLCV accompanies the development of the insect, we have bombarded B. tabaci eggs with an infectious DNA clone of TYLCV. After a linear full-length genomic copy of TYLCV DNA was delivered to eggs, the DpnI-sensitive DNA became circular and DpnI resistant. When a dimeric copy of TYLCV DNA was delivered to eggs, the viral DNA was detected in all the whitefly developmental stages. Adult insects that developed from the treated eggs were able to infect tomato test plants with variable frequency. Viral DNA was detected in the progeny of whiteflies that developed from eggs bombarded with TYLCV. Similarly, when insect eggs were bombarded with a dimeric copy of an infectious clone of the genome of Tomato yellow leaf curl virus from Sardinia, Italy (TYLCSV), adults that eclosed from the treated eggs were able to infect tomato test plants. Received February 19, 2001 Accepted September 20, 2001     

Rapid and sensitive detection of Penaeus monodon nucleopolyhedrovirus by loop-mediated isothermal amplification

Loop-mediated isothermal amplification (LAMP) is a novel, sensitive and rapid method for amplification of nucleic acids under isothermal conditions. In this report, a LAMP method was developed for detection of Penaeus monodon nucleopolyhedrovirus (PemoNPV), known previously as monodon baculovirus (MBV), using a set of six primers designed to specifically recognize the PemoNPV polyhedrin gene. The optimized time and temperature conditions for the LAMP assay were 60 min at 63 °C. The sensitivity of LAMP for PemoNPV detection was approximately 50 viral copies ng⁻¹ genomic DNA (equivalent to 150 viral copies per reaction). Using a DNA template extracted from PemoNPV-infected shrimp by a viral nucleic acid kit, the detection limit of LAMP was 0.7 fg while that of nested PCR was 70 fg; therefore, the LAMP assay was 100 times more sensitive than nested PCR. The LAMP method did not amplify a product using nucleic acid extracted from shrimp infected with other viruses including yellow head virus (YHV), Taura syndrome virus (TSV), white spot syndrome virus (WSSV), Penaeus stylirostris densovirus (PstDNV) known previously as infectious hypodermal and hematopoietic necrosis virus (IHHNV), and Penaeus monodon densovirus (PmDNV) known previously as hepatopancreatic parvovirus (HPV).     

Development of loop-mediated isothermal amplification assay for specific and rapid detection of camelpox virus in clinical samples

In this study, development of loop-mediated isothermal amplification (LAMP) assay based on ankyrin repeat protein gene (C18L) for specific and rapid detection of camelpox virus (CMLV) was carried out. The assay was optimized using viral genomic DNA (gDNA) extracted from density gradient purified CMLV and standard control recombinant DNA plasmid containing the target, which resulted in reliable amplification at 62°C for 60 min. The amplified LAMP product was identified by agarose gel electrophoresis and subsequent direct visualization under UV light or observation by naked-eye for the presence of turbidity and color change following the addition of SYBR Green I dye and hydroxy naphthol blue (HNB). The analytical specificity of LAMP and conventional PCR assays was evaluated using other related poxviruses namely buffalopox, goatpox, sheeppox, and orf viruses, which revealed only a specific amplification of CMLV. The LAMP assay was 10-fold more sensitive than the conventional PCR. Further, the assay was evaluated with DNA extracted from the cell culture isolates of CMLV (n=11) and clinical samples (n=23). These results proved that the developed LAMP is a simple, specific, sensitive, rapid and economical diagnostic tool for detection of CMLV from clinical materials.     

Tomato yellow leaf curl virus: a whitefly-transmitted geminivirus with a single genomic component

The genome of the tomato yellow leaf curl virus (TYLCV), a Bemisia tabaci-transmitted geminivirus, was cloned. All clones obtained were of one genomic molecule, analogous to DNA A of African cassava mosaic virus. Nucleotide sequence analysis of the TYLCV genome showed that it comprises 2787 nucleotides, encoding six open reading frames, two on the virion strand and four on the complementary strand. All of them have counterparts in other geminiviruses. Dimeric copies of the cloned viral genome were introduced into tomato plants by agroinoculation. Severe yellow leaf curl disease symptoms developed in all of them. Effective whitefly-mediated transmission of the virus from agroinoculated plants to test plants demonstrated that the cloned molecule carries all the information needed for virus replication, systemic infection, and transfer by whiteflies. Restriction and hybridization analyses of viral DNA forms in infected plants and viruliferous whiteflies did not support the presupposed existence of a second genomic component. This is the first report of a whitefly-transmitted geminivirus that possesses a single genomic molecule.     

Genetic structure and evolution of natural populations of viruses causing the tomato yellow leaf curl disease in Spain

The population structure and genetic variation of two begomoviruses: tomato yellow leaf curl Sardinia virus (TYLCSV) and tomato yellow leaf curl virus (TYLCV) in tomato crops of Spain were studied from 1997 until 2001. Restriction digestion of a genomic region comprised of the CP coat protein gene (CPR) of 358 TYLC virus isolates enabled us to classify them into 14 haplotypes. Nucleotide sequences of two genomic regions: CPR, and the surrounding intergenic region (SIR) were determined for at least two isolates per haplotype. SIR was more variable than CPR and showed multiple recombination events whereas no recombination was detected within CPR. In all geographic regions except Murcia, the population was, or evolved to be composed of one predominant haplotype with a low genetic diversity (<0.0180). In Murcia, two successive changes of the predominant haplotype were observed in the best studied population. Phylogenetic analysis showed that the TYLCSV sequences determined clustered with sequences obtained from the GenBank of other TYLCSV Spanish isolates which were clearly separated from TYLCSV Italian isolates. Most of our TYLCV sequences were similar to those of isolates from Japan and Portugal, and the sequences obtained from TYLCV isolates from the Canary island of Lanzarote were similar to those of Caribbean TYLCV isolates.     

Loop-mediated isothermal amplification of a single DNA molecule in polyacrylamide gel-based microchamber

Loop-mediated isothermal amplification (LAMP) is an original nucleic acid amplification method established by Notomi et al. LAMP is performed under isothermal condition, employing only a basic reaction protocol and minimal supporting electronics. These requirements prove to be viable for exploring the avenues to down-scale this biological reaction for Lab-on-a-chip application. Hence here, we developed a novel technique for fluorescent imaging of LAMP at a single molecule level. The experiment was conducted in a polyacrylamide (PAA) gel-based microchamber where a single DNA template, freely suspended in a solution containing primers and polymerase was initially encapsulated. In order to activate the amplification reaction, a microheater regulated by an automatic computerized feedback system was used for localized heating. This microchamber-based approach for LAMP demonstrated the effective exploitation of minute amount of templates and primers, and the overall reduction in LAMP detection time. An average efficiency of 80% was evaluated for conducting DNA amplification after 50 min of incubation at 65 degrees C. As the total time for reaction including detection can be completed in less than 1 h, this one-step, direct observation method displays the potential as a simple alternative to conventional techniques for genetic analysis and diagnosis in the clinical laboratory.     

Shrimp hepatopancreatic parvovirus detection by combining loop-mediated isothermal amplification with a lateral flow dipstick

Present methods such as traditional PCR, PCR-ELISA, real-time PCR and histopathology for detection of shrimp hepatopancreatic parvovirus (PmDNV) entail various disadvantages including high cost, long assay time or use of toxic substances. Loop-mediated isothermal amplification (LAMP) of target nucleotide sequences under inexpensive isothermal conditions combined with amplicon detection by chromatographic lateral flow dipsticks (LFD) allowed simpler detection within 75 min. Biotinylated LAMP amplicons from the targeted portion of the PmDNA capsid protein gene were produced under isothermal conditions at 63 degrees C for 1h and then hybridized at 63 degrees C for 5 min with an FITC-labeled probe (optimized at 20 pmol) that was specific for the LAMP amplicons (i.e., outside the primer region). The FITC-labeled, biotinylated LAMP product picked up gold-labeled, anti-FITC near the LFD origin and the whole, triple-labeled complex was captured by an immobilized biotin-binding protein to yield a red nano-gold stripe at the LFD test line. With a DNA template derived from PmDNV-infected shrimp, the LAMP-LFD detection limit was 1 ng while that for one-step PCR-electrophoresis was 10 ng. Comparative sensitivity for one nested-PCR-electrophoresis method was 1 ng but for another 0.1 ng. The LAMP-LFD method gave negative test results with DNA extracts from normal shrimp and from shrimp infected with other DNA viruses including monodon baculovirus (MBV), white spot syndrome virus (WSSV) and infectious hypodermal and hematopoietic necrosis virus (IHHNV).     

Development of a loop-mediated isothermal amplification method for rapid detection of caprine arthritis-encephalitis virus proviral DNA

A rapid detection assay based on loop-mediated isothermal amplification (LAMP) has been developed for detecting caprine arthritis-encephalitis (CAEV) proviral DNA. The LAMP assay utilized a set of five primers designed against highly conserved sequences located within the p25 gene region. The assay successfully detected CAEV proviral DNA in total DNA extracts originating from cell culture, whole blood samples and separated PBMCs. There was no cross-reaction with the negative control. Amplification was monitored using a Loopamp real-time turbidimeter; turbidity and the corresponding time were recorded. Amplification from CAEV-Shanxi DNA was detected as early as 17 min, with a maximum sensitivity of 0.0001 TCID(50), reached at 32 min. Sixty-eight animal blood samples were tested using AGID, PCR and LAMP assay, and the positive rates were 30.9 %, 33.8 % and 47.1 %, respectively. Whole blood can be used directly, eliminating the need for separation of PBMCs and nucleic acid extraction, reducing the overall procedure time to approximately 80 min. Therefore, the LAMP assay provides a specific and sensitive means for detecting CAEV proviral DNA in a simple, fast, and cost-effective manner and should be useful in eradication programs and epidemiological studies. Furthermore, the LAMP assay can be performed in less-well-equipped laboratories as well as in the field.     

A rapid and highly reliable field-based LAMP assay of canine parvovirus

Loop-mediated isothermal amplification (LAMP) is known as a rapid and reliable alternative to conventional single-step or nested PCR for detection of genomic DNA of various pathogens in clinical samples. In this study, LAMP assay was developed for canine parvovirus (CPV) and compared with single-step and nested PCR assays. Out of 50 fecal samples from dogs clinically suspected for CPV infections, 19 were found positive by single-step PCR, 22 by nested PCR and 26 by LAMP. LAMP products were subjected to restriction analysis and sequencing to check their specificity. LAMP assay turned out to be a rapid and fairly reproducible method, did not amplify other common canine pathogens and was more sensitive than nested PCR assay. Therefore, it can be regarded as a highly reliable method for routine field diagnosis of CPV infection. Keywords: canine parvovirus; nested polymerase chain reaction; loop-mediated isothermal amplification; sensitivity; specificity.     

Evidence for Transovarial Transmission of Tomato Yellow Leaf Curl Virus by Its Vector, the WhiteflyBemisia tabaci

The whiteflyBemisia tabaciis the only vector of the tomato yellow leaf curl geminivirus (TYLCV). The insect transmits the virus in a persistent-circulative manner. TYLCV DNA was detected by polymerase chain reaction and by Southern blot hybridization in progeny (eggs, first and second instars, adults) of single viruliferous whiteflies that developed on eggplant or on cotton (two TYLCV nonhost plants). Furthermore, TYLCV DNA was present in the progeny of insects that had acquired the virus through the egg. The adult progeny of the viruliferous insects and their own progeny were able to infect tomato test plants, producing typical disease symptoms. Ovaries and maturing eggs of viruliferous insects contained viral DNA, as did eggs laid by viruliferous insects maintained on an artificial diet. Eggs laid by nonviruliferous whiteflies on cotton plants previously caged with viruliferous insects did not acquire viral DNA from the plant. Hence, TYLCV can be transmitted through the egg for at least two generations. In the absence of an available plant host, the whitefly may serve as a reservoir of the virus between growing seasons.     

Detection of white spot syndrome virus in shrimp by loop-mediated isothermal amplification

Loop-mediated isothermal amplification (LAMP) method is a novel, sensitive and rapid technique which can be applied for disease diagnosis in aquaculture. Using the LAMP method, a highly specific and sensitive diagnostic system for white spot syndrome virus (WSSV) detection was designed. A set of four primers, two outer and two inner primers, were designed from WSSV genome DNA. Reaction time and temperatures were optimized for 60 min at 65 degrees C, respectively. The detection limit (DL) using the LAMP method was up to 1 fg, when compared to 10 fg by nested polymerase chain reaction (PCR). Thus, standardized LAMP procedure was used to detect the presence of WSSV in the heart, stomach and lymphoid organ from infected shrimp. The study has developed a diagnostic procedure which is a rapid and highly sensitive for WSSV detection in shrimp.