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Multiple RT-PCR detection method for apple latent viruses and viroid

An apple latent virus, RT-PCR technology, applied in microorganism-based methods, biochemical equipment and methods, and microbial determination/inspection, etc., can solve the problems of high efficiency of multiplex PCR, no simultaneous detection, etc., to improve the results. The effect of discriminating accuracy, reducing non-specific amplification, and improving detection accuracy and sensitivity

Inactive Publication Date: 2014-11-26
CHINA AGRI UNIV
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Compared with conventional PCR, multiplex PCR has high efficiency and strong system, which saves detection cost and detection time. There are many reports on the detection of fruit tree diseases, but there is no information on the simultaneous detection of 3 latent viruses and apple rust viroid 3 Relevant literature and patents of virus species

Method used

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  • Multiple RT-PCR detection method for apple latent viruses and viroid
  • Multiple RT-PCR detection method for apple latent viruses and viroid
  • Multiple RT-PCR detection method for apple latent viruses and viroid

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0052] The acquisition of multiple RT-PCR detection primer combination of embodiment 1 apple latent virus and viroid

[0053] Referring to the existing literature and the sequences reported in GenBank, screen and design multiple RT-PCR primers, aiming to make the selected primers applicable to all latent viruses and viroids of apples that have been identified in my country, and can specifically obtain the target fragments, and each target fragment can be clearly distinguished by agarose gel electrophoresis. Finally, four pairs of primers for ACLSV (794bp), ASGV (666bp), ASPV (346bp) and apscarviroids (220bp) in Table 1 were designed and selected. In order to reduce the generation of false positives, the apple genome EF-1α (520bp) was used as the internal standard gene. It was verified by conventional PCR. It can be seen that the selected primers can clearly and specifically obtain the target fragment, the primer dimer is not obvious, and there is no obvious interference betwee...

Embodiment 2

[0056] The establishment and optimization of the multiple RT-PCR system of embodiment 2 apple latent virus and viroid

[0057] 1. Determine the sampling location and sampling method

[0058] In order to make the established multiple RT-PCR technique more widely applicable, according to the distribution characteristics of latent viruses and viroids in apple plants, it was determined that leaves, branches, flowers and fruits could be used as sampling sites. Among them, the leaves and flowers can be used to directly grind and extract the total plant RNA, the branches need to use a blade to peel off the phloem for grinding, and the fruit needs to peel off the pericarp.

[0059] 2. Extract total RNA: extract total RNA by CTAB-phenol method

[0060] Prepare RNA extraction buffer:

[0061]

[0062] Take 0.1g sample, grind it with liquid nitrogen, quickly transfer it to a 1.5ml centrifuge tube, add 500 μL water-saturated phenol, chloroform and isoamyl alcohol mixture (phenol: chl...

Embodiment 3

[0086] The detection and specificity verification of embodiment 3 orchard apple samples

[0087] Using apple samples collected from an orchard as materials and extracting total RNA as a template, the feasibility of the established multiplex RT-PCR technique was verified.

[0088] Extraction of total RNA, reverse transcription, multiplex PCR reaction system and optimized PCR reaction conditions are the same as those described in Example 2. The results show that the detection results have achieved very good results ( Figure 5 ).

[0089] In order to verify the specificity of detecting the virus, the bands after electrophoresis were subjected to gel cutting, recovery and purification, cloning, and sequence determination. The obtained sequences were compared in GenBank by Blastn, and the results showed that the viral sequences corresponding to each band were consistent with the target viral sequences, indicating that the method was highly specific.

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Abstract

The invention provides a multiple RT-PCR detection method, which can simultaneously detect whether leaves, twigs, flowers or fruits of an apple tree bring three latent viruses namely apple chlorotic leaf spot virus, apple stem grooving virus, and apple stem pitting virus, and three apple scar skin viroids namely apple scar skin viroid, apple dimple fruit viroid, and apple fruit crinkle viroid or not. The detection method has the advantages of clear detection result, convenient operation, rapid reaction, and high sensitivity, and overcomes the shortages of time consuming, tedious steps, difficulty in distinguishing the stripes, and low sensitivity in the prior art. The invention provides a rapid detection method, which is easy for promotion and application, for detecting apple viruses.

Description

technical field [0001] The invention relates to the fields of plant protection and molecular biology detection, in particular to a multiple RT-PCR detection method for apple latent virus and viroid. Background technique [0002] In the process of apple cultivation and production, virus disease has always been one of the main factors that seriously affect the yield and quality of fruit. After the apple tree is infected by the virus, it will carry the virus for life, and the virus will proliferate in the tree, disturbing and destroying the normal physiological functions of the tree, resulting in a decline in growth, a decrease in yield, deterioration in quality, and intolerance to storage. serious economic loss. At present, the viruses that have been discovered and identified in my country mainly include: Apple chlorotic leaf spot virus (ACLSV), apple stem grooving virus (ASGV), apple stem pitting virus (Apple stem pitting virus, ASPV), Apple scar skin viroid (ASSVd), Apple d...

Claims

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Application Information

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IPC IPC(8): C12Q1/70C12Q1/68C12N15/11C12R1/94
CPCC12Q1/686C12Q1/70C12Q2531/113C12Q2537/143C12Q2521/107
Inventor 周涛郝璐陈善义范在丰国立耘叶婷
Owner CHINA AGRI UNIV
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