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Great scientific research with improved potential in probing biological locales has remained a giant stride. The use of bio-barcodes with the potential use of nanotechnology is a hallmark being developed among recent advanced techniques. Biobarcoding is a novel method used for screening biomolecules to identify and divulge ragbag biodiversity. It e...
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Clinico-radiological presentation of granulomatous prostatitis (GP) is quite similar to cancer, and differential diagnosis can be very challenging. The study aims to highlight GP features based on clinical findings and multiparametric magnetic resonance imaging (mpMRI) characteristics. We retrospectively reviewed eleven patients from a cohort under...
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... Additionally, biological barcoding technique based on nanotechnology provides extremely high specificity for DNA and protein identification. It is possible to create packages for the quick and on-site identification of plant ailments using barcode-based technologies [26]. As a whole, there are many potential uses for nanotechnology with regard to plant monitoring (Figure 1). ...
One of the main things restricting yields of crops is diseases that affect plants. Which continue to be the major agricultural threat in the globe and drastically reduce yields of crops internationally, creating serious issues for the availability of food. Despite the fact that chemical-based medication persists as the main tactic for lowering the incidence of agricultural ailments, their frequent usage can make the microorganisms less likely to spread. Consequently, effective screening techniques for the immediate detection of plant-borne pathogens in the initial phases of infection have becoming vital to preserving sustainable farming and adequate nutrition. Quantum dots (QDs), nanoparticles, and nanotechnology have become crucial instruments for the rapid and highly accurate assessment of a specific biochemical marker. Tools including such as biosensors, QDs, nanostructured platforms, nanoimaging, and nanopore DNA sequencing have an opportunity to enhance infection detection’s accuracy, precision, and efficiency. They can also make rapid analysis easier and be utilized for crop protection and high-quality monitoring. Additionally, nanodiagnostic tool technology enables professionals to assist producers in avoiding the emergence of pandemics by swiftly and simply identifying potentially hazardous pathogenic organisms in crops.
... A nano-barcode is a monitoring device in which the processing industry and exporters can monitor the source or track the delivery status of their aqua product until it reaches the market. Nano-barcoding can be used in detection of allergens, viruses, diseases monitoring (Munir et al, 2020). Mainly gold nanoparticles have been used for the detection of pathogenic organisms (Khiyami et al., 2014;Castelani et al., 2019). ...
Mycoremediation of Xenobiotics- Blue Print for Waste
Management
... A nano-barcode is a monitoring device in which the processing industry and exporters can monitor the source or track the delivery status of their aqua product until it reaches the market. Nano-barcoding can be used in detection of allergens, viruses, diseases monitoring (Munir et al, 2020). Mainly gold nanoparticles have been used for the detection of pathogenic organisms (Khiyami et al., 2014;Castelani et al., 2019). ...
Agriculture is an important component of normal life of human being as it provides food the basic need of everyone. Aquaculture can meet the food needs and livelihood of many fisherman community as it provides cheap source of animal protein. To intensify and meet the demand of applications. Nanotechnology becoming increasingly popular technology to meet those requirements through several applications. Several nano-materials, nano-particles, nano-devices have been used by several sectors of aquaculture which are the best way as compared to the basic techniques. Pollution has become a significant concern for agriculture and aquaculture due to weather and climate change. Nanotechnology is also helpful for monitoring the several pollution related problems which is helpful for more production in agriculture and aquaculture sector. Seed production is an essential part of aquaculture as increasing fish seed demand which can be achieved by nanotechnology. Fish growth and health management can also be done by several nano particles which have merits over the other traditional methods. Nanotechnology is an advanced form of biotechnology in several sectors to achieve the growing demand and overcome the challenges. Nanotechnology can be used by several researchers in case of agriculture and aquaculture to intensify the production and sustainable ecosystem management. This technology has been used as a novel tool in agricultural sector and its allied sectors.
... Although many investigators have tried to come up with protocols to tackle this issue, this area remains a lively area of investigation [64,111,112]. Nanotechnology methods could have farreaching applications in improving the efficiency of SARS-CoV-2 diagnostic assays [113][114][115]. Magnetic nanoparticles show promise for high sensitivity detection of viruses without the need for purification [116,117]. ...
The coronavirus disease 2019 (COVID-19) pandemic has highlighted the cardinal importance of rapid and accurate diagnostic assays. Since the early days of the outbreak, researchers with different scientific backgrounds across the globe have tried to fulfill the urgent need for such assays, with many assays having been approved and with others still undergoing clinical validation. Molecular diagnostic assays are a major group of tests used to diagnose COVID-19. Currently, the detection of SARS-CoV-2 RNA by reverse transcription polymerase chain reaction (RT-PCR) is the most widely used method. Other diagnostic molecular methods, including CRISPR-based assays, isothermal nucleic acid amplification methods, digital PCR, microarray assays, and next generation sequencing (NGS), are promising alternatives. In this review, we summarize the technical and clinical applications of the different COVID-19 molecular diagnostic assays and suggest directions for the implementation of such technologies in future infectious disease outbreaks.
