Universal PCR Research Articles

DNA barcoding: An effective molecular tool for species identification, molecular authentication and phylogeny studies in plant science research

DNA barcoding is a technique for identifying specimens using brief, standardised DNA segments. In a variety of fields, including phylogeny, ecology, population genetics and biodiversity, DNA barcoding has become a successful method for precisely distinguishing species. The method is straightforward, efficient in both time and money and accurate. The key to successful DNA barcoding is choosing the right DNA marker. Since the idea of a quick approach for species identification was first put up in 2003, the scientific community has been keen to realise the potential of DNA barcodes. Cytochrome c oxidase, I (COI) region of the mitochondrial genome is mostly recognised as a standard barcoding region in animals. Later, rbcL + matK pairing, with a 70 % discriminating efficiency, was suggested by the Plant Working Group (PWG) of the Consortium for the Barcoding of Life (CBOL) as the standard barcode in plants. Three conditions must be met for a gene region to be an efficient DNA barcode: it must have sufficient species-level genetic divergence and variability, it must have conserved flanking regions for the widest taxonomic use and for generating universal PCR primers and it should be long enough to facilitate current capability for sequencing and extracting DNA. Different combinations of plastid coding, non-coding and nuclear markers are utilised as supplemental markers to boost the degree of plant species differentiation. The reliability of different barcodes in distinguishing species varies among different groups of plants. As DNA barcoding approaches its twentieth anniversary, technologies are still being developed that make use of this resource, which is constantly expanding in a variety of biological disciplines. Plant DNA barcoding, which became a scientific advance during the last ten years, is frequently employed as a taxonomical aid in identifying species. It is a way of choosing genetic loci that identifies and distinguishes an organism's membership from specific species, variations or even intervarieties. It varies from molecular phylogeny, which identifies an unknown sample from an existing classification rather than identifying patterns of association.

Microalgal Diversity and Molecular Ecology: A Comparative Study of Classical and Metagenomic Approaches in Ponds of the Eifel National Park, Germany

While molecular methods have begun to transform ecology, most algal biodiversity is still studied using the classical approach of identifying microalgae by light microscopy directly in sample material or using cultures. In this study, we compare both approaches (light microscopy and metagenomics as a molecular approach) using the freshwater ponds of the Eifel National Park in Germany as a case study. The ponds were found to be rich in desmids by light microscopy. A total of 299 species representing 81 genera were identified by light microscopy. While the molecular method does not currently allow species identification in most cases, we were able to identify 207 different algal genera. In total, 157 genera were detected only by metagenomics, 50 genera were found with both methods, and 31 genera were found by light microscopy, highlighting the need to continue using light microscopy in addition to a molecular approach. The metagenomics method has several advantages over the light microscopy method: (1) deeper assessment of alpha biodiversity, (2) better abundance numbers, and (3) complete coverage of all living matter. The latter is also a significant improvement over metabarcoding, as universal PCR primers are not available.

A high-throughput screening method for GM soybean events based on single universal primer multiplex PCR and capillary electrophoresis

A high-throughput screening method for GM soybean events based on single universal primer multiplex PCR and capillary electrophoresis

Identifying Universal Fish Biomarker Genes in Response to PCB126 Exposure by Comparative Transcriptomic Analyses.

Water pollution remains a major environmental concern, with increased toxic by-products being released into water bodies. Many of these chemical contaminants persist in the environment and bio-accumulate in aquatic organisms. At present, toxicological tests are mostly based on laboratory tests, and effective methods for monitoring wild aquatic environments remain lacking. In the present study, we used a well-characterized toxic chemical, 3,3',4,4',5-polychlorinated biphenyl (PCB126), as an example to try to identify common biomarker genes to be used for predictive toxicity of this toxic substance. First, we used two laboratory fish models, the zebrafish (Danio rerio) and medaka (Oryzias latipes), to expose PCB126 to obtain liver transcriptomic data by RNA-seq. Comparative transcriptomic analyses indicated generally conserved and concerted changes from the two species, thus validating the transcriptomic data for biomarker gene selection. Based on the common up- and downregulated genes in the two species, we selected nine biomarker genes to further test in other fish species. The first validation experiment was carried out using the third fish species, Mozambique tilapia (Oreochromis mossambicus), and essentially, all these biomarker genes were validated for consistent responses with the two laboratory fish models. Finally, to develop universal PCR primers suitable for potentially all teleost fish species, we designed degenerate primers and tested them in the three fish species as well as in another fish species without a genomic sequence available: guppy (Poecilia reticulata). We found all the biomarker genes showed consistent response to PCB126 exposure in at least 50% of the species. Thus, our study provides a promising strategy to identify common biomarker genes to be used for teleost fish analyses. By using degenerate PCR primers and analyzing multiple biomarker genes, it is possible to develop diagnostic PCR arrays to predict water contamination from any wild fish species sampled in different water bodies.

LEVELS OF MICRO RNA-21-3R IN THE BLOOD OF HYPERTENSIVE PATIENTS WITH NORMAL BODY WEIGHT AND WITH ABDOMINAL OBESITY

Objective: The combination of arterial hypertension (AH) with abdominal obesity (AO) significantly increases the severity of hypertension and accelerates the development of hypertension-mediated organ damage, in particular, left ventricular hypertrophy (LVH). MicroRNAs are small non-coding RNA molecules that are involved in the regulation of post-transcriptional gene expression. A number of experimental studies have revealed the antihypertensive, antihypertrophic and antifibrosing properties of microRNA-21-3p. The goal is to study the plasma levels of microRNA-21-3p in hypertensive patients with normal body weight (NBW) and with abdominal obesity (AO). Design and method: 27 patients (16 men) with stage 2-3 hypertension (13 with NBW and 14 with stage II AO) aged from 42 to 60 years were examined. The control group consisted of 12 practically healthy individuals. All patients underwent general clinical laboratory and instrumental examination. Circulating plasma microRNA-133a levels were obtained by polymerase chain reaction using the CFX96 Touch System, “TaqMan microRNA Assay” and “TaqMan® Universal PCR Master Mix” reagent kits. Results: A significant decrease in the levels of micoRNA-21-3p in the blood plasma was established in the whole group of patients with hypertension (with NBW and with AO) (1.43±0.08), p<0.05) in comparison with practically healthy individuals (3.24 ±0.07). At the same time, the levels of this miRNA in the blood plasma of patients with hypertension and AO (1.13±0.06) were significantly lower (p<0.05) than in patients with hypertension and NBW (1.67±0.07). A correlation analysis revealed negative correlations between the levels of micoRNA-21-3p in the blood plasma and the levels of “office” systolic blood pressure (R=-0.44; p=0.04), as well as the left ventricular myocardial mass index (LVMMI) (R= -0.38; p=0.03) in the whole group of patients with AH (with NBW and AO). Conclusions: The results of this study may indicate the presence of a significant deficiency in the production of mircRNA-21-3p in patients with hypertension, especially when it is combined with AO, as well as the involvement of this miRNA in the mechanisms of progression of hypertension and the development of LVH.

Optimized decision algorithm for the microbiological diagnosis of osteoarticular infections in adults using synovial fluid samples: a prospective study in two French hospitals including 423 samples of synovial fluid.

No consensus exists about the techniques to use for microbiological diagnosis of bone and joint infections (BJIs). The objective herein was to define an algorithm to optimize BJI diagnosis in adults using various bacteriological methods on synovial fluid samples. This prospective multi-center study included 423 synovial fluids collected from adult patients with suspected BJIs. Culture (using five solid media, an enrichment broth, and blood culture bottles), universal 16S rRNA PCR followed by Sanger sequencing, and seven specific bacterial PCRs were systematically performed. Combinations of methods were compared to arrive at the optimized algorithm. Among 423 synovial fluids, 242 infections were diagnosed (57.2 %): 213 mono- and 29 poly-microbial for a total of 284 bacteria (staphylococci at 54.6 %, streptococci-enterococci at 16.5 %, Gram-negative bacilli at 15.5 %, anaerobic species at 8.8 %). Comparing culture techniques, blood culture bottles had the highest sensitivity (67.6 % for pediatric and 63.9 % for anaerobic bottles) but are not sufficient alone and require being combined with solid media. The 16S rDNA PCR detected only 52.3 % of the bacteria, whereas specific PCRs had a higher sensitivity (Staphylococcus spp. at 66.2 %, S.aureus at 85.2 %, Streptococcus spp. at 91.2 %). Based on these results, an algorithm was proposed associating three solid media; inoculation into blood culture bottles; and 16S, Staphylococcus spp., and Streptococcus spp. PCRs, which would have detected 90.5 % of bacteria in the present cohort versus 79.2 % using all culture techniques on synovial fluid. This prospective study shows that a combination of culture and molecular methods on synovial fluids allows the optimization of bacterial detection.

First report of Pectobacterium aroidearum causing soft rot on leaf mustard in China.

Leaf mustard (Brassica juncea [L.] Czern. et Coss.) is widely planted in China as an important leaf vegetable. In March 2022, water-soaked and mushy rot symptoms were observed on leaf mustard plants in the field of Zhaotong (27.85°N; 105.05°E), Yunnan, China. The incidence of symptomatic leaf mustard was approximately 10%. The isolation of the causal agent followed the method of Peng et al. (2023). Briefly, infected tissues from four diseased plants were mixed and teased apart, and homogenized by vortex shaking. The bacterial suspension was diluted and spread on nutrient agar (NA). About 10 single colonies exhibiting different colony morphologies were picked and purified separately by successive streaking. A pinprick method was used for pathogenicity tests with an inoculum concentration of 108 CFU/ml (Singh et al. 2013). Among 10 isolates, only strain YKX exhibited soft rot symptoms on detached mustard leaves. In addition, ten two-month-old leaf mustard plants grown in the greenhouse were used for in vivo pathogenicity tests. Briefly, sterilized pins were dipped in the bacterial suspension, and then leaf mustard petioles were pricked with these pins. After inoculation, each plant was kept in a plastic bag for 12 hours to maintain high humidity. As expected, strain YKX caused obvious rot symptoms on eight plants at 1-2 days post-inoculation while the control group including two plants treated with sterile water showed no symptoms. The colonies of strain YKX on NA were white, roughly circular, and convex. For a preliminary identification, total DNA was extracted and used as the template in PCR amplification of 16S rDNA with the universal PCR primer pair 27F/1492R (Weisburg et al. 1991). The quality-filtered DNA sequence (871 bp) showed 100% query coverage and 99.47% identity to the 16S rDNA sequences of type strain Pectobacterium aroidearum SCRI 109T (GenBank: NR_159926) found in the NCBI rRNA/ITS database. Whole-genome sequencing of strain YKX was then performed using the Illumina and Nanopore sequencing platforms by Tsingke Biotechnology Co., Ltd. (Beijing, China). A single contig (GenBank: CP129239) with a length of approximately 4.9 Mb was obtained by de novo hybrid assembly using Unicycler v0.5.0 (Wick et al. 2017). The quality of the genomic data was evaluated by BUSCO v5.4.7 (Manni et al. 2021) against the gammaproteobacteria_odb10 dataset. A BUSCO complete score of 99.5% indicated high assembly quality. The genome sequence of strain YKX was uploaded to the Type Strain Genome Server for a genome-based taxonomic analysis (Meier-Kolthoff et al. 2022). The distance-based phylogeny showed that strain YKX and P. aroidearum L6 (GenBank: CP065044) and P. aroidearum PC1 (GenBank: NC_012917) form a clade. When comparing strain YKX with L6 or PC1, the digital DNA-DNA hybridization value (83.5-83.8%) was above the species delineation threshold (70% for DDH), clearly indicating that strain YKX should be classified as P. aroidearum. Additionally, P. aroidearum was reisolated from inoculated leaves and identified based on morphological similarities and 16S rDNA sequencing, thus fulfilling Koch's postulates. It is worth noting that a previous study reported occurrences of soft rot disease on leaf mustard attributed to Rhizopus microsporus var. chinensis (Wang et al. 2020). To our knowledge, this is the first report of P. aroidearum causing soft rot on leaf mustard in China, which expands the known host range of this pathogen and benefits the control of this disease.

An Inexpensive System for Rapid and Accurate On-site Detection of Garlic-Infected Viruses by Agarose Gel Electrophoresis Followed by Array Assay.

Garlic can be infected by a variety of viruses, but mixed infections with leek yellow stripe virus, onion yellow dwarf virus, and allexiviruses are the most damaging, so an easy, inexpensive on-site method to simultaneously detect at least these three viruses with a certain degree of accuracy is needed to produce virus-free plants. The most common laboratory method for diagnosis is multiplex reverse transcription polymerase chain reaction (RT-PCR). However, allexiviruses are highly diverse even within the same species, making it difficult to design universal PCR primers for all garlic-growing regions in the world. To solve this problem, we developed an inexpensive on-site detection system for the three garlic viruses that uses a commercial mobile PCR device and a compact electrophoresis system with a blue light. In this system, virus-specific bands generated by electrophoresis can be identified by eye in real time because the PCR products are labeled with a fluorescent dye, FITC. Because the electrophoresis step might eventually be replaced with a lateral flow assay (LFA), we also demonstrated that a uniplex LFA can be used for virus detection; however, multiplexing and a significant cost reduction are needed before it can be used for on-site detection.

Multiplex Detection of RNA Viruses Based on Ligation Reaction and Universal PCR Amplification.

To detect several RNA viruses simultaneously, a method based on multiplex ligation reaction combined with multiplex qPCR or multiplex PCR+capillary electrophoresis was established to detect four RNA viruses: human immunodeficiency virus (HIV), hepatitis C (HCV), influenza A virus (IAV) H1N1 and H5N1. The experimental conditions including ligation probe concentration, annealing procedure, ligation temperature and ligase dosage were optimized intensively. We found that the specificity of the ligation reaction was affected by the probe concentration predominantly, high-probe concentration (100nM) resulted in splint-independent ligation with efficiency comparable to that with RNA splint. The sensitivity of the ligation reaction was affected by the annealing mode apparently as the sensitivity of the step-down annealing mode was 100 times higher than that of the isothermal annealing at 37°C. Under the optimized condition, this assay could detect virus RNA as low as 16 viral copies per reaction in doubleplex and triplex real-time quantitative PCR detection with satisfactory specificity and precision. By multiplex PCR+capillary electrophoresis, four RNA viruses could be detected in one tube with the sensitivity of 10 copies per reaction.

The relationship between polymorphic variants of the endothelial NO-synthase gene and the course of diabetic nephropathy in patients with type 2 diabetes mellitus

Objective — to identify a possible association between the endothelial nitric oxide synthase (eNOS) gene G894T (rs1799983) polymorphism and the markers of renal function and glucose metabolism in patients with type 2 diabetes mellitus (DM2) with diabetic nephropathy (DN).
 Materials and methods. Examinations 126 patients with diabetic nephropathy (DN). The control group included 20 healthy individuals. Patients with DM2 were divided into two groups depending on the eNOS rs1799983 gene polymorphism: group I — patients with DN and G/G genotype eNOS G894T gene (n=80); group II — patients with DN and G/T and T/T genotypes eNOS G894T gene (n=46). Genotyping of the of the eNOS rs1799983 gene polymorphism was performed by the Taq‑Man® Fast Universal PCR Master Mix (Applied Biosystems, USA) and TaqMan® SNP Assay (Applied Biosystems, USA).
 Results. It has been established that in patients with DN, the distribution of genotypes of the G894T polymorphism of the eNOS gene corresponded to the Hardy‑Weinberg equilibrium in all groups and does not differ significantly from European populations. In diabetic patients with DN the 3 times higher total frequency of G/T and T/T genotypes eNOS G894T gene was established when compared to the control group. These findings prove the undoubted influence of the T allele on the development of DN in this group of patients. DN patients with genotypes G/T and T/T had significantly higher blood glucose and HOMA index (p <0.05) than G homozygotes (genotype G/G). Patients with DN and G/G genotype eNOS G894T gene had better glomerular filtration rate and lower albuminuria compared to patients with G/T and T/T genotypes (p <0.05).
 Conclusions. The establishing of association of eNOS gene polymorphism with the disease and further assessment of individual genetic risk is important for the development of a differentiated approach to the prevention and treatment of DN in patients with DM2 depending on the hereditary predisposition of an individual patient. Therefore, currently one of the most progressive approaches is to develop a strategy for early diagnosis, prognosis and preventive therapy of the disease using genetic markers.

Universal PCR for bacteria, mycobacteria, and fungi: a 10-year retrospective review of clinical indications and patient outcomes.

Our work provides a retrospective analysis of universal PCR orders for bacteria, mycobacteria, and fungi across our institution across a 10-year period. We assessed the positivity rates for this diagnostic tool by test type and specimen type and, critically, studied whether and how the results influenced the outcomes from treatment change, to readmission, to death.

Universal primers for rift valley fever virus whole-genome sequencing

Rift Valley fever (RVF) is a mosquito-borne zoonotic disease causing acute hemorrhagic fever. Accurate identification of mutations and phylogenetic characterization of RVF virus (RVFV) require whole-genome analysis. Universal primers to amplify the entire RVFV genome from clinical samples with low copy numbers are currently unavailable. Thus, we aimed to develop universal primers applicable for all known RVFV strains. Based on the genome sequences available from public databases, we designed eight pairs of universal PCR primers covering the entire RVFV genome. To evaluate primer universality, four RVFV strains (ZH548, Kenya 56 (IB8), BIME-01, and Lunyo), encompassing viral phylogenetic diversity, were chosen. The nucleic acids of the test strains were chemically synthesized or extracted via cell culture. These RNAs were evaluated using the PCR primers, resulting in successful amplification with expected sizes (0.8–1.7 kb). Sequencing confirmed that the products covered the entire genome of the RVFV strains tested. Primer specificity was confirmed via in silico comparison against all non-redundant nucleotide sequences using the BLASTn alignment tool in the NCBI database. To assess the clinical applicability of the primers, mock clinical specimens containing human and RVFV RNAs were prepared. The entire RVFV genome was successfully amplified and sequenced at a viral concentration of 108 copies/mL. Given the universality, specificity, and clinical applicability of the primers, we anticipate that the RVFV universal primer pairs and the developed method will aid in RVFV phylogenomics and mutation detection.

Positivity Rate of Universal PCR Screening for COVID-19 Pre-Endoscopy and its Impact on Diagnosis and Management of New Cancer Patients at a Cancer Centre in Pakistan

Objective: To determine the positivity rate of COVID-19 on pre-procedure screening and its impact on diagnosis and management of new cancer patients. Study Design: Cross-sectional study. Place and Duration of Study: Shaukat Khanum Memorial Cancer Hospital, Lahore Pakistan, from Sep 2020 to Aug 2021. Methodology: Data was retrospectively collected from electronic medical records of the patients, including their age, gender, PCR test result, date of first visit to the gastroenterology clinic, date of multidisciplinary team meeting and any adverse event reported due to delay in endoscopy procedure. Results: A total of 1273 patients underwent endoscopy procedures in the study period. Fifty-two patients were found to be COVID-positive (4.1%), and only one was symptomatic. The percentage of positivity in newly diagnosed 22 cancer patients was 1.72%. Of 52 patients, 31 were male (59.61%), and 21 were female (40.39%). Only 1 patient was presented with abdominal pain and revealed concealed perforation. No other adverse event was reported in any patient, and no new imaging was required before discussion in a multidisciplinary team meeting. Conclusion: The hospital policy of COVID PCR test 48 hours before the endoscopy procedure effectively isolates the asymptomatic positive COVID-19 patients. The two-week delay due to COVID-PCR positivity in newly diagnosed cancer patients was not associated with any adverse event, and no new imaging was required.

Molecular Dissection of the 5S Ribosomal RNA-Intergenic Transcribed Spacers in Saccharum spp. and Tripidium spp.

Due to complex polyploid, sugarcane whole genome sequencing and characterization lag far behind other crops. PCR-based DNA markers are a viable low-cost option to evaluate genetic diversity and verify genotypes. In this study, the 5S ribosomal RNA-intergenic spacer (ITS) of 171 accessions of Saccharum spp. and Tripidium spp. was dissected, including 30 accessions of S. officinarum, 71 of S. spontaneum, 17 of S. robustum, 25 of S. barberi, 13 of S. sinense, 2 of S. edule, 5 sugarcane cultivars (Saccharum spp. hybrids), 6 of Tripidium spp. (formally Erianthus spp.), and 2 of unknown species. The ITS spacers were amplified from 10 ng of the leaf DNA of each accession with the universal PCR primers PI and PII. The PCR-amplified spacers (amplicons) were analyzed by both agarose gel and capillary electrophoresis (CE). While agarose gel electrophoresis revealed five banding patterns, a total of 42 polymorphic amplicons, ranging from 60 to 506 bp, were detected by CE. Three amplicons, 234-, 235-, and 236-bp in size, were amplified from all accessions of six Saccharum species, except for three S. robustum accessions (Molokai 5573, NG 57-054, and NG 77-235) that lacked the 236-bp amplicon. The 234-, 235-, 236-bp banding pattern found in S. spontaneum was less consistent than other Saccharum species, sometimes missing a few but not all the bands in this region. An amplicon of 61-bp was amplified only from the sugarcane hybrid varieties. The PI/PII patterns indicated diversity and subpopulations within Saccharum, which could potentially be used in Breeding. Moreover, all Saccharum-specific amplicons were mostly absent in Tripidium spp. accessions, which produced 405-bp and 406-bp amplicons, and any pattern of the exceptions indicated misidentification. The T. bengalense accession Kalimpong had a unique CE-banding pattern that was different from all other accessions. Although the clustering pattern of the 42 amplicons only discriminated at the genus level, these amplicons helped identify nine misclassified accessions. This study further demonstrates that these PI/PII amplicons could be particularly useful markers for breeders at sugarcane field stations to quickly confirm and discriminate among the accessions of germplasm collections.

An Inter-Laboratory Comparative Study on the Influence of Reagents to Perform the Identification of the Xylella fastidiosa Subspecies Using Tetraplex Real Time PCR

In 2022, a test performance study (TPS) assessing the influence of different master mixes on the performance of the tetraplex real-time PCR (TqPCR) assay was organized. TqPCR allows for the specific detection and identification of Xylella fastidiosa (Xf) subspecies in a single reaction. Eighteen official laboratories of the Italian National Plant Protection Organization received a panel of 12 blind samples, controls, primers, probes, and different master mixes to participate in the TPS. Furthermore, the Research Centre for Plant Protection and Certification of the Council for Agricultural Research and Economics performed an intra-laboratory study (ITS) on spiked plant matrices to evaluate the analytical sensitivity of TqPCR employing the selected master mixes with the best performance. Naturally infected samples were analyzed for subspecies identification via TqPCR compared with the official multilocus-sequence-typing (MLST) method. The best results in this comparative study were obtained using Fast Universal PCR Master Mix (Applied Biosystems) and Brilliant multiplex QPCR Master Mix (Agilent), and they confirmed that the TqPCR test is reliable, offering the advantage of identifying this subspecies at the same time, thus saving time and resources. The TqPCR assay is suggested among the tests to be used by laboratories performing the official diagnosis of Xf to support the activities of official monitoring.

Molecular screening of Entamoeba spp. (E. histolytica, E. dispar, E. coli, and E. hartmanni) and Giardia intestinalis using PCR and sequencing

A wide range of intestinal protozoan parasites inhabit the human gut. To establish a more comprehensive molecular screening, we designed PCR-sequencing screening methods for Entamoeba spp., including commensal species, and Giardia intestinalis, and performed such methods using 174 stool samples collected from Kenyan children. The prevalences of the target species were as follows: E. histolytica (2/174, 1.1%), E. dispar (20/174, 11.5%), E. coli (107/174, 61.5%), E. hartmanni (77/174, 44.3%), and G. intestinalis (54/174, 31.0%). PCR amplicons specific to G. intestinalis was differentiated to assemblages A (8/174, 4.6%) and B (46/174, 26.4%). PCR specificity for Entamoeba spp. was quite high, except for some cross-reactions between E. hartmanni detection primers and G. intestinalis, although the false-positive amplicons were discernible by the band size. The 18S rRNA PCR primers that was designed by Monis et al. in 1999 for G. intestinalis, have specificity issue, therefore amplicon sequencing was essential not only to determine assemblage classifications but also to confirm the positive results by eliminating potential non-specific reactions. The detection sensitivity of both the Entamoeba universal PCR and the G. intestinalis PCR was more than 100 copies of the target loci, which is sufficient for detecting a single trophozoite or cyst of both species.

Geographical distribution of tomato-infecting begomoviruses in major cucurbits in India: a diagnostic analysis using begomovirus species specific PCR.

Cucurbits are an essential summer-season vegetable crops, but they are highly vulnerable from a range of abiotic and biotic factors. One of the significant biotic factors posing a growing menace to the production of major cucurbits in India is the emergence of tomato-infecting begomoviruses. In this study, we utilized PCR-based species-specific primers, developed earlier in our laboratory for the detection of begomoviruses infecting tomato and chilli plants, to identify begomoviruses in cucurbits across various regions of India. Leaf samples from major cucurbits were collected from different regions of Haryana, Delhi, Uttar Pradesh, Chhattisgarh, Maharashtra, Telangana and Karnataka, during the year 2020-2021. Total nucleic acid (TNA) was extracted from the samples and subjected to PCR using a generic primer specific to begomoviruses. The samples that exhibited positive amplification were further tested using six different species-specific primers targeting specific begomovirus species, namely Tomato leaf curl New Delhi virus (ToLCNDV), Tomato leaf curl Palampur virus (ToLCPalV), Tomato leaf curl Bangalore virus (ToLCBV), Tomato leaf curl Joydebpur virus (ToLCJoV), Tomato leaf curl Gujarat virus (ToLCGuV), and Chilli leaf curl virus (ChiLCV). The PCR analysis revealed that among the 551 plant samples tested, a total of 124 samples exhibited positive amplification using the universal begomovirus PCR. Specifically, 47 samples tested positive for ToLCNDV, 73 samples were positive for ToLCPalV and only one sample showed positive amplification for ChiLCV. However, none of the samples tested positive for ToLCJoV, ToLCGuV and ToLCBV. These findings from our study indicate the prevalence of ToLCNDV and ToLCPalV in major cucurbits across India. Furthermore, the study highlights the varied distribution of begomoviruses in major cucurbits between northern and southern regions of India.

Exploring community dynamics: Cultivable and uncultivable for the microbial-mediated bioremediation of oil-based paints polluted soil from aqueous media by Plackett-Burman statistically designed conditions

Oil-based paint seriously threatens biodiversity due to its complex composition and biocide toxicity. Therefore, it alters the microbial diversity abundance and in modern approaches like metagenomic, a powerful tool to get insight into pollutants effect on soil microbial community abundance. Thus, present study aimed at “exploring community dynamics: cultivable and uncultivable for the microbial-mediated bioremediation of oil-based paints polluted soil from aqueous media by Plackett-Burman statistical designed conditions”. The total DNA from oil-based paints polluted soil was extracted by PowerSoil DNA Isolation Kit. The 16S rDNA genes were amplified using universal primers and PCR amplicons were sequenced for analysis of metagenomes to determine the bacterial microbiome abundance. A total 133,140 sequence reads, 2857 Operational Taxonomic Units (OTUs) of 16S rRNA genes, and 30 bacterial phyla were retrieved from all the oil-based paints polluted samples (C, R498, B698 and G492) with the significant increase in Firmicutes (18.90 %, 52.39 %, 49.75 %, 44.36 %) and Actinobacteria (26.66 %, 28.93 %, 28.17 %, 14.68 %) whereas a decrease in Proteobacteria (19.53 %, 6.32 %, 9.37 %, 16.21 %), Chloroflexi (16.93 %, 8.71 %, 9.78 %, 18.17 %), and Bacteroidetes (8.96 %, 0.36 %, 0.41 %, 0.11 %) was recorded respectively. Additionally, the 100 % removal of oil-based paints (R498, B698 and G492) was achieved by the cultivable microbial consortia in laboratory settings. On the other hand for the R498 single cultivable pure isolates exhibited biodegradation potential as “PDB20, 91 %”, “PDB14, 81 %”, and “PDB16, 87 %” while for the blue B698, “PDB4, 86 %”, “PDB20, 89 %”, “PDB5, and PDB2, 80%”. Moreover, in case of G492, maximum % removal was achieved with “PDB20, 93 %”, “PDB5, 90 %”, “PDB6, 90 %”, “PDB16, 88 %”, “PDB2, and PDB4, 89%”. Conclusively, in comparison to R498 and B698, maximum percent removal was displayed by G492 and this might be attributed due to difference in pigment. Cultivable consortia and individual pure isolates demonstrated >80 % contribution in the % removal of oil-based paints.

First report of 'Candidatus phytoplasma asteris' (16SrI) from Cassia fistula showing symptoms of flat stem and witches'-broom in India.

Cassia fistula commonly known as 'golden shower tree' is a deciduous tree with a greenish-gray bark and complex leaves with lovely clusters of yellow blossoms that is also utilized for several purposes in traditional medicine offer therapeutic characteristics (Pawar et al., 2017). Random spotting of flat stem symptoms along with unopened flower beds was observed in C. fistula plant during March 2022 in IISER (Indian Institute of Science Education and Research), Thiruvananthapuram, Kerala, India and during May 2022 in SKUAST (Sher-e-Kashmir University of Agricultural Sciences and Technology), Jammu, which were suggestive of phytoplasma infection (Fig. 1 a-e). Surge of leaf hoppers was also observed in and around the tree. The leaf samples were collected from 3 individual C. fistula trees showing suspected symptoms of phytoplasma and one sample from asymptomatic plant of both the states. Leafhopper (LH) species were collected using sweep net method from both the locations. DNA was extracted using CTAB (Cetyl trimethyl ammonium bromide) method and nested universal PCR primers P1/P7 and R16F2n/R16R2 for the 16S rRNA gene (Deng and Hiruki 1991; Gundersen and Lee 1996) and secAfor1/secArev3 and SecAfor2/ SecArev3 for SecA gene (Hodgetts et al. 2008) were employed for the analysis of the phytoplasma strain association. The symptomatic plants and leaf hopper species showed positive bands of 1.2kb and 480bp for 16S rRNA and SecA gene respectively along with. Purified PCR products of both the genes (16Sr RNA and sec A) were ligated into pGEM ®T vector and cloned in Escherichia coli (DH5-α) were sequenced at Agri Genome labs, Kerala, India. The comparative sequence analysis using the BLASTn tool results showed 16S rRNA sequences acquired from plant samples (GenBank Acc. No. OP950857, OP950858) and the leafhoppers Hishimonus phycitis (OP538583) and Orosius albicinctus (OP538584) of Kerala had the minimum of 99.84% of similarity with Bitter gourd little leaf phytoplasma from Myanmar and maximum sequence identity (100%) with the Rapeseed phyllody phytoplasma strain from Taiwan. The sequences of phytoplasma strains from Jammu trees (Genbank Acc. No. OP801671 & OP801672) and H. phycitis (OP801673) shared 100% similarity with each other as well as with North American grapevine yellows and a minimum of 97.65% with Beta vulgaris phytoplasma from Poland. The pairwise comparison results were completely supported by the corresponding phylogenetic sequence analysis of 16S rRNA and SecA gene sequences of all the isolates in the study which clustered with 16SrI-B subgroup related strains. Virtual RFLP analysis through iPhyClassifer results that were derived from in silico digestions of R16F2n/R2 region of 16S rRNA gene using 17 restriction endonucleases enzymes indicated that all the samples produced similar virtual RFLP profiles identical to the reference strain of 16SrI-B phytoplasma subgroup (aster yellows: Acc. No. M30790) with a similarity coefficient value of 1.0. To the best of our knowledge, this is the first report of the phytoplasma association of 'Ca. P. asteris' (16SrI-B) subgroup with Cassia fistula in the world.

Abstract 6021: Genetic and epigenetic features OF KMT2D, CREBBP, ATM, TSC2 and GNAS in uterine leyomiosarcomas

Abstract Background: Uterine leiomyosarcoma (LMS) comprises 60% to 70% of the uterine sarcoma (US). These tumors present high rates of recurrence and metastasis, and the patients’ survival rates are very low (20% in five years). It is known that somatic mutations and modifications in the DNA methylation levels are associated with several types of neoplasms. Previously, our group identified missense and loss of function mutations in KMT2D, CREBBP, ATM, TSC2, and GNAS, using a genetic screening method in LMS samples. Based on these results, we decided to investigate whether a genetic and epigenetic crosstalk could help to understand the biological processes involved in the LMS origin, development, and pathogenesis. The present study aimed to evaluate the KMT2D, CREBBP, ATM, TSC2 and GNAS gene expression profile in LMS cell line, and their methylation levels in formalin-fixed and paraffin-embedded (FFPE) patients´ samples. Methods: We selected 15 LMS - FFPE samples obtained via surgical procedures performed between 2012 and 2019 at the Instituto do Cancer do Estado de São Paulo (ICESP). Genomic DNA was extracted using the QIAamp DNA FFPE Tissue Kit and we evaluated methylation levels using the Illumina Infinium Methylation EPIC BeadChip system 850k, including samples treated with bisulfite-treated DNA. Leiomyoma (LM) (THESCs CRL-4003) and LMS (SK-UT-1) cell lines were cultivated for gene expression analysis. Cells were growth for 24, 48, 72, and 96 hours, and the total RNA was extracted by TRIzol. High-Capacity cDNA Reverse Transcription Kit was used for cDNA synthesis and for gene expression evaluation, real-time PCR reactions were performed using TaqMan Universal PCR Master Mix and inventoried TaqMan probes. Results: KMT2D and TSC2 showed increased expression in LMS compared to LM (cut-off ≤ -2 and ≥ 2 for down and upregulation, respectively), with higher expression in 24 hours of KMT2D [Fold Regulation (FR): 2.77] and TSC2 (FR: 2.58). In contrast, CREBBP was downregulated, with lowest expression in 72 hours (FR: -6.57). ATM was upregulated at 24, 48 with higher expression in 72 hours (FR: 2.32), and GNAS was downregulated, with lowest expression in 96 hours (FR: -4.31). Moreover, the methylation analyzes showed an expressive hypomethylation in LMS samples, compared to myometrium, for KMT2D (β value: 0.45; p= 0.004); CREBBP (β value: 0.51 p < 0.0001); ATM (β value: 0.47 p < 0.0001); TSC2 (β value: 0.53 p < 0.0001) and GNAS (β value: 0.41 p < 0.0001). In conclusion, our study showed that potentially pathogenic mutations may be associated with an aberrant hypomethylation profile, as well as increased expression of KMT2D, TSC2, ATM and loss expression of CREBBP and GNAS in LMS. The interconnection of these genetic and epigenetic events is essential for understanding the complex biology of these tumors, in addition to enabling identification of biomarkers. Citation Format: Laura G. dos Anjos, Daniela Bizinelli, Katia C. Carvalho. Genetic and epigenetic features OF KMT2D, CREBBP, ATM, TSC2 and GNAS in uterine leyomiosarcomas [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 6021.