Begomovirus and DNA-satellites association with mosaic and leaf curl disease of Solanum nigrum and Physalis minima: the new hosts for chilli leaf curl virus.

The numerous plants of Solanum nigrum L, and Physalis minima L, well-known weeds with medicinal properties in agriculture and horticulture crops exhibiting severe mosaic, enation and leaf curl symptoms, were collected from the Varanasi and Mirzapur districts of Uttar Pradesh, India. The begomovirus infection in S. nigrum and P. minima was validated by PCR using virus-specific primers. The whole genome of the represented isolate of S. nigrum (SN1), P. minima (PM1), and beta satellite was amplified, cloned and sequenced. The SDT analysis showed that the DNA-A of PM1 and SN1 isolate showed the highest nt identity of 87.4 to 99.1%, with several chilli leaf curl virus (ChiLCuV) isolates from India and Oman, respectively. The betasatellite sequence (PM1ß) obtained from the PM1 isolate showed a very low identity of 83.1-84.5%. A demarcation threshold of 91% for betasatellite species delineation has led to identifying a new betasatellite in the PM1 sample. This unique betasatellite has been named "physalis minima leaf curl betasatellite," indicating its novelty with the plant. Whereas, betasatellite sequence (SN1ß) obtained from the SN1 sample showed 86.8-91.2% nucleotide identity with ChiLCB isolates infecting several crops in Indian subcontinents. The RDP analysis of the viral genome and betasatellite of SN1 and PM1 isolates revealed recombination in substantial portions of their genetic makeup, which appeared to have originated from pre-existing begomoviruses known to infect diverse host species. The present research also highlights the potential role of these plants as significant reservoir hosts for ChiLCuV in chili plants. Supplementary Information: The online version contains supplementary material available at 10.1007/s13337-023-00850-x.

Characterization of plant growth-promoting, antifungal, and enzymatic properties of beneficial bacterial strains associated with pulses rhizosphere from Bundelkhand region of India.

The present study was conducted to characterize the native plant growth-promoting rhizobacteria (PGPRs) from the pulse rhizosphere of the Bundelkhand region of India. Twenty-four bacterial isolates belonging to nineteen species (B. amyloliquefaciens, B. subtilis, B. tequilensis, B. safensis, B. haynesii, E. soli, E. cloacae, A. calcoaceticus, B. valezensis, S. macrescens, P. aeruginosa, P. fluorescens, P. guariconensis, B. megaterium, C. lapagei, P. putida, K. aerogenes, B. cereus, and B. altitudinis) were categorized and evaluated for their plant growth-promoting potential, antifungal properties, and enzymatic activities to identify the most potential strain for commercialization and wider application in pulse crops. Phylogenetic identification was done on the basis of 16 s rRNA analysis. Among the 24 isolates, 12 bacterial strains were gram positive, and 12 were gram negative. Among the tested 24 isolates, IIPRAJCP-6 (Bacillus amyloliquefaciens), IIPRDSCP-1 (Bacillus subtilis), IIPRDSCP-10 (Bacillus tequilensis), IIPRRLUCP-5 (Bacillus safensis), IIPRCDCP-2 (Bacillus subtilis), IIPRAMCP-1 (Bacillus safensis), IIPRMKCP-10 (Bacillus haynesii), IIPRANPP-3 (Bacillus amyloliquefaciens), IIPRKAPP-5 (Enterobacter soli), IIPRAJCP-2 (Enterobacter cloacae), IIPRDSCP-11 (Acinetobacter calcoaceticus), IIPRDSCP-9 (Bacillus valezensis), IIPRMKCP-3 (Seratia macrescens), IIPRMKCP-1 (Pseudomonas aeruginosa), IIPRCKPP-3 (Pseudomonas fluorescens), IIPRMKCP-9 (Pseudomonas guariconensis), IIPRMKCP-8 (Bacillus megatirium), IIPRMWCP-9 (Cedecea lapagei), IIPRKUCP-10 (Pseudomonas putida), IIPRAMCP-4 (Klebsiella aerogenes), IIPRCKPP-7 (Enterobacter cloacae), IIPRAMCP-5 (Bacillus cereus), IIPRSHEP-6 (Bacillus subtilis), IIPRRSBa89 (Bacillus altitudinis) bacterial isolates, IIPRMKCP-9, IIPRAJCP-6, IIPRMKCP-10, IIPRAMCP-5, IIPRSHEP-6, and IIPRMKCP-3 showed the maximum antagonistic activity against Fusarium oxysporum f. sp. ciceris (FOC), Fusarium oxysporum f. sp. lentis (FOL), and Fusarium udum (FU) causing wilt disease of chickpea, lentil, and pigeonpea, respectively, and maximum plant growth-promoting enzyme (phosphatase), plant growth hormone (IAA), and siderophore production show promising results under greenhouse conditions. This study is the first report of bacterial diversity in the pulse-growing region of India.

Efficacy of clonidine as an adjuvant to ropivacaine in supraclavicular brachial plexus block: A prospective study.

BACKGROUND AND AIMS: Bupivacaine has been the most frequently used local anaesthetic in brachial plexus block, but ropivacaine has also been successfully tried in the recent past. It is less cardiotoxic, less arrhythmogenic, less toxic to the central nervous system than bupivacaine, and it has intrinsic vasoconstrictor property. The effects of clonidine have been studied in peripheral nerve blockade. The purpose of this study was to evaluate the effects of clonidine on nerve blockade during brachial plexus block with ropivacaine using peripheral nerve stimulator. METHODS: Sixty patients were randomly divided into two groups, Group A and B. Group A received 30 ml of 0.5% of ropivacaine with 0.5 ml normal saline while Group B received same amount of ropivacaine with 0.5 ml (equivalent to 75 µg) of clonidine for supraclavicular brachial plexus block. The groups were compared regarding quality of sensory and motor blockade, duration of post-operative analgesia and intra and post-operative complications. RESULTS: There was a significant increase in duration of motor and sensory block and analgesia in Group B as compared to Group A patients (P < 0.0001). There was no significant difference in onset time in either group (P = 0.304). No significant side effects were noted. CONCLUSION: The addition of 75 µg of clonidine to ropivacaine for brachial plexus block prolongs motor and sensory block and analgesia without significant side effects.