APPROVAL OF THE TEST-SYSTEM FOR THE INDICATION AND IDENTIFICATION OF ASPERGILLUS FLAVUS BY THE METHOD OF POLYMERASE CHAIN REACTION IN THE “REAL TIME” MODE

Biosafety and Biotechnology Pub Date : 2023-01-26 DOI:10.58318/2957-5702-2022-12-67-73

N. Feoktistova, E. Suldina, A. Mastilenko, A. Lomakin

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Abstract

the article presents the results of studies on approbation of a test system for the indication and identification of microscopic fungi Aspergillus flavus by the polymerase chain reaction method with real-time detection. Using software Multiple Sequence Alignment Viewer 1.22.1 and UGENA 44.0. The test system for A. flavus includes specific primers: forward primer (f) 5’-3’ GGGCCCGCAGCAAGAATAC, reverse primer (r) 3’-5’ ACGAGTTGTCACCTTCCCGAGA; fluorescent dye: HEX, probe - CGGTTCGCTTTGGTCATCGT, quencher BHQ2. Reaction protocol: preliminary denaturation - 95 0C - 5 minutes (1 cycle); denaturation - 95 0C - 5 sec, annealing - 60 0C - 15 sec (50 cycles). Probe: AGCATAGGCTGATGCTCGTAGGC, fluorescent dye - ROX, quencher - BHQ-2. The sensitivity of the test system is 1000 cells. The optimal concentration of primers was set equal to 9 pM of each primer per reaction. The optimal probe concentration is 0.4 pM. The results obtained indicate that the use of dichotomous keys does not allow the most accurate differentiation of phytopathogenic fungi A. flavus. A new approach to the identification of isolates confirmed the belonging of 15 isolated strains to the species A. flavus out of 20 isolated from corn samples with signs that manifest themselves as root rot and wilting, and initially typed as Aspergillus based on the study of cultural and morphological properties. The study was carried out according to the thematic plan-task of the Ministry of agriculture of the Russian Federation, the registration number of the INIS RTD 122030200367-8.

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批准采用聚合酶链反应法“实时”模式对黄曲霉进行指示和鉴定的测试系统

本文介绍了一种实时检测聚合酶链反应法对微小真菌黄曲霉进行指示和鉴定的检测系统的研究结果。使用软件多序列比对查看器1.22.1和UGENA 44.0。黄曲霉检测系统包括特异性引物:正向引物(f) 5′-3′GGGCCCGCAGCAAGAATAC，反向引物(r) 3′-5′ACGAGTTGTCACCTTCCCGAGA;荧光染料:HEX，探针- CGGTTCGCTTTGGTCATCGT，猝灭剂BHQ2。反应方案:预变性- 95℃- 5分钟(1个循环);变性- 95℃- 5秒，退火- 60℃- 15秒(50个循环)。探针:AGCATAGGCTGATGCTCGTAGGC，荧光染料- ROX，猝灭剂- BHQ-2。测试系统的灵敏度为1000格。引物的最佳浓度为每次反应中每个引物的9pm。最佳探针浓度为0.4 pM。结果表明，使用二分类键不能最准确地区分植物病原真菌黄曲霉。一种新的鉴定分离菌株的方法证实了从20个玉米样品中分离出的15个菌株属于A. flavus，这些菌株具有表现为根腐和枯萎的迹象，并根据培养和形态学特性的研究初步归类为曲霉。该研究是根据俄罗斯联邦农业部的专题计划任务进行的，INIS RTD注册号为122030200367-8。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Biosafety and Biotechnology

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