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Not AvailableA loop-mediated isothermal amplification (LAMP) assay was optimized for the detection of Mesta yellow vein mosaic virus (MeYVMV) in diseased plants of mesta (Hibiscus sabdariffa L.& H. cannabinus L.). The LAMP assay was optimized using a set of six primers targeting the MeYVMV genome and could be completed in 30-60 min at 63 °C. The LAMP amplification results were visualized by adding 1 μl of hydroxy naphthol blue (HNB) dye in a 25 μl LAMP reaction mixture prior to amplification as well as by electrophoresis. The LAMP assay, which detected MeYVMV in a 10-5-fold diluted total DNA, was more sensitive than the PCR assay (10-4-fold dilution). The optimized LAMP assay was able to detect MeYVMV in different parts of the kenaf and roselle plants. Similarly, the optimized PCR assay was also capable of detecting MeYVMV in all the different parts of the kenaf plant but failed to detect the virus in the stem and flower buds of the roselle plant. Validation of the LAMP and LAMP with HNB dye assays revealed that the optimized reactions can be used successfully for the in-situ detection of MeYVMV in field samples and in virus quarantine programs. This is the first report of the detection of the begomovirus species, MeYVMV, in the mucilaginous plant species, kenaf and roselle, using a LAMP assay.Not Availabl

Entrepreneurship opportunities for agriculture graduate and rural youth in India: a scoping review

The majority of the world’s population lives in rural areas whereas, in the case of India, 73% population is dependent on agriculture and related works as their mainstream revenue resources. Entrepreneurship in rural areas could be one of the utmost vital initiatives towards the country’s economic development under the adverse impacts of climate change. Entrepreneurship is a crucial feature for the sustainable survival of small-scale agriculture in a continuously increasing compound international economy. Contrarily, most rural entrepreneurs in developing nations, including India, face numerous problems due to the unavailable primary facilities in remote areas. Several agricultural entrepreneurship technologies have been scientifically studied and introduced by numerous countries. Information regarding the progress in modern agriculture entrepreneurship has become crucial for agriculture graduates and the rural youth engaged in the agriculture sector. Hence, it becomes essential for developed and developing economies to emphasize the large-scale demonstrations of agriculture entrepreneurship technologies. In the present manuscript, several such interventions are highlighted in the form of various points which will be of immense use to the self-reliant movement of India. In this endeavour, helpful information on agriculture entrepreneurship technologies from various research institutions and universities has been generated to benefit agriculture graduates and rural youth

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Not AvailableIntensive cultivation, climate change and host–pathogen dynamics/interaction had led to emergence of viral diseases and vector population, thereby causing significant economic losses. In the present study, extensive surveys were conducted (during 2016–2017) followed with field experiments (2017 and 2019 kharif and 2018 rabi seasons) in the state of Chhattisgarh, India, comprising of three diverse agroecological zones, viz., northern hill zone, central plain zone and southern Bastar plateau zone, for understanding the distribution pattern of viruses and vector populations in prominent pulses and vegetable crops. Field experiments revealed that more than 90% incidence of yellow mosaic disease (YMD) was recorded in mungbean and urdbean, followed by YMD of ridge gourd and bitter gourd, leaf curl disease of tomato (ToLCD) and chilli and yellow vein mosaic disease of bhendi; however, only five per cent YMD was recorded in cow pea. Molecular and sequence analysis of viral genomic components revealed ToLCD in central plain zone of Chhattisgarh was caused by a consortium of begomoviruses, including Tomato leaf curl New Delhi virus (ToLCNDV), Tomato leaf curl Karnataka virus (ToLCKV), and Tomato leaf curl Kerala virus associated with satellite molecules. YMD of mungbean, cow pea and soybean was caused by Mungbean yellow mosaic India virus (MYMIV), while YMD of ridge gourd was caused by ToLCNDV. PCR analysis, using species-specific primers, of samples representing the three different regions revealed that YMD of mungbean, urdbean and cowpea was positive only for MYMIV and was unevenly distributed, while YMD of ridge gourd, bitter gourd, pumpkin and sponge gourd was positive only for ToLCNDV; however, ToLCD was positive for either ToLCNDV or ToLCKV or both, and some samples were also found associated with betasatellite molecules. Amaranthus and rice bean were identified as non-host species for the begomoviruses infecting tomato and MYMIV, as observed by surveys in the hot-spot-like areas, controlled whitefly transmission as well as agroinoculation. Compilation and analysis of available information on begomoviruses affecting these crops in India suggest that they are unevenly distributed in India. This is the first report of the begomovirus occurrence in pulses and vegetable crops in this agroecologically diverse region.Not Availabl