The Role of PGPB-Microalgae interaction in Alleviating Salt Stress in Plants.

Plant development and yield are severely hampered by climate change. Plants are very prone to a variety of abiotic stressors during growth, making them susceptible to destruction which can reduce the productivity by 20-60%. These stresses generate reactive oxygen species (ROS), which damage lipids, proteins, and nucleic acids. Microalgae and plant growth-promoting bacteria (PGPB) are remarkably effective at reducing the effects of salt stress and promoting plant growth, thereby increasing agricultural yield, and helping ensure global food security. Through a variety of mechanisms, including the production of phytohormones, 1-aminocyclopropane-1-carboxylic acid deaminase, exopolysaccharide, siderophores, hydrogen cyanide, extracellular polymeric substances, volatile organic compounds, and modulation of antioxidants defense machinery under abiotic stresses promote plant growth after inoculation of PGPB and microalgae. These microorganisms also maintain ion homeostasis, offer osmotic balance, stimulate genes that respond to salt and drought, rewire the metabolism, modify the transcription of ion transporter genes, and more. To counteract the negative consequences of salinity stress, this study summarizes the effects of PGPB- microalgae along with a tentative protective mechanism during salinity stress for sustainable agriculture.

Restoration of the soil fertility under Cr(VI) and artificial drought condition by the utilization of plant growth-promoting Bacillus spp. SSAU2.

The study explores the potential of an indigenous halo-tolerant microbe identified as Bacillus spp. SSAU-2 in enhancing soil fertility and promoting plant growth for sustainable agricultural practices under the influence of multiple abiotic stresses such as Cr(VI), high salinity, and artificial drought condition. The study investigated various factors influencing IAA synthesis by SSAU-2, such as pH (5 to 11), salinity (10 to 50 g/L), tryptophan concentration (0.5 to 1%), carbon (mannitol mand lactose), and nitrogen sources (peptone and tryptone). The highest IAA concentration was observed at pH 10 (1.695 mg/ml) and pH 11 (0.782 mg/ml). IAA synthesis was optimized at a salinity level of 30 g/l, with lower and higher salinity levels resulting in decreased IAA concentrations. Notably, the presence of mannitol and lactose significantly augmented IAA synthesis, while glucose and sucrose had inhibitory effects. Furthermore, peptone and tryptone played a pivotal role in enhancing IAA synthesis, while ammonium chloride exerted an inhibitory influence. SSAU-2 showed a diverse array of capabilities, including the synthesis of gibberellins, extracellular polymeric substances, siderophores, and hydrogen cyanide along with nitrogen fixation and ammonia production. The microbe could efficiently tolerate 45% PEG-6000 concentration and effectively produce IAA in 15% PEG concentration. It could also tolerate high concentration of Cr(VI) and synthesize IAA even in 50 ppm Cr(VI). The findings of this study provide valuable insights into harnessing the potential of indigenous microorganisms to promote plant growth, enhance soil fertility, and establish sustainable agricultural practices essential for restoring the health of ecosystems.

Comparative evaluation of antimicrobial efficacy of calcium hydroxide, triple antibiotic paste and bromelain against Enterococcus faecalis: An In Vitro study.

Context: Considering the effectiveness and safety concerns of synthetic intracanal medicaments (ICM), alternative usage of herbal ingredients in the root canal treatment may prove to be beneficial. Hence, the naturally available potent proteolytic, anti-inflammatory, and antimicrobial pineapple extract Bromelain as an ICMs needs to be studied. Aim: The aim of this study is to evaluate and compare the antimicrobial efficacy of calcium hydroxide (CaOH) and triple antibiotic paste (TAP) with Bromelain against Enterococcus faecalis bacteria using the turbidity method. Materials and Methods: Forty-four freshly extracted single-rooted teeth were collected and 6 mm sections were prepared. These samples were infected with E. faecalis bacteria (ATCC 29212), randomly divided into four groups. Negative control, CaOH paste, TAP, and Bromelain paste. After the removal of medicament, the optical density (OD) of the dentinal shavings was measured using a spectrophotometer. Statistical Analysis: The Chi-square and Kruskal - Wallis ANOVA test were used. The confidence interval was set to 95% at 5% significance level. Results: TAP showed less OD than CaOH2 paste which is statistically significant. (P = 0.0022). The OD reading of Bromelain paste was less than CaOH2 with P = 0.007. The OD of Bromelain and TAP were statistically insignificant (P = 0.095), indicating their comparable antibacterial efficacy. Conclusions: The antimicrobial efficiency of Bromelain was found to be more effective than Ca (OH) 2 paste and comparable to TAP against E. faecalis.

Segmental thoracic spinal anesthesia versus general anesthesia for breast cancer surgery: A prospective randomized-controlled open-label trial.

Background and Aims: Breast surgery is associated with moderate-to-severe postoperative pain, nausea, and vomiting. For this, neuraxial anesthesia might be a better alternative to general anesthesia (GA), providing superior analgesia, with higher patient satisfaction and lesser incidence of nausea vomiting. This randomized-controlled open-label trial was done to compare segmental spinal and GA for breast cancer surgery. Material and Methods: The present study enrolled 56 female patients scheduled to undergo breast cancer surgery. They were randomly divided into two groups, group G (received standard GA) and group TS (received segmental thoracic spinal anesthesia with 0.5% isobaric levobupi vacaine at T5-T6 inter spaces). The primary objective of this study was patient satisfaction with the anesthetic technique, while secondary objectives were hemodynamic changes, perioperative complications, time of first rescue analgesic, total opioid consumption in first 24 h, and surgeon satisfaction score. Data were expressed as mean (SD) or number (%) as indicated and were compared using Chi-square, Fisher's exact, or Student's ttest as appropriate. Results: Patient in group TS had significantly higher satisfaction score median 5 (IQR 1) compared to patients in group G median 4 (IQR 3.5) (P = 0.0001). Nausea and vomiting were significantly higher in group G compared to group TS (P = 0.01). Mean time to rescue analgesia was 33.21 ± 7.48 min in group G as compared to 338.57 ± 40.70 in group TS and opioid consumption was also significantly lower in group TS (70.00 ± 27.38) as compared to group G (366.07 ± 59.40). There was no significant difference in hemodynamic parameters (except significantly lower heart rate at 15 min in group TS (P = 0.001) and surgeon satisfaction score between groups. Quality of postoperative analgesia was better in group TS. Conclusion: Segmental thoracic spinal anesthesia technique provides better satisfaction with superior postoperative analgesia and fewer complications in patients undergoing breast cancer surgery compared to GA.