To keep high grain yield in low N deficiency, we should choose the genotype with higher N allocation within bioenergetics and lower degradation of photosynthetic enzymes. This review provides a generalized N allocation in response to N stress and gives a new prospect for breeding N-efficient genotypes.Tea plant (Camellia sinensis (L.) O. Kuntze) is known to accumulate high concentrations of fluoride (F) in its leaves; however, the underlying mechanism of F accumulation remains unclear. The main objective of this study was to investigate the homeostatic self-defense mechanisms of tea leaves to F supplementation (0, 5, 20, and 50 mgL-1) by metabolomics and ionomics. We identified a total of 96 up-regulated and 40 down-regulated metabolites in tea leaves treated with F. Of these different compounds, minor polypeptides, carbohydrates and amino acids played valuable roles in the F-tolerating mechanism of tea plant. After F treatments, the concentrations of sodium (Na), ferrum (Fe), manganese (Mn), and molybdenum (Mo) were significantly increased in tea leaves, whereas the aluminum (Al) was decreased. These findings suggest that the ionic balance and metabolites are attributable to the development of F tolerance, providing new insight into tea plant adaptation to F stress.Brassica genus comprises numerous cultivated brassica species with various economic importance. Salt stress is an overwhelming problem causing serious losses in Brassica species (e.g. B. napus, B. rapa, B. oleracea, B. juncea) growth and grain yield production by inducing ionic and ROS toxicity. Given that a significant variation exists in salt tolerance level in Brassica genus, Brassica species exhibited numerous salt tolerance mechanisms which were either overlooked or given less importance to improve and understand innate salt stress tolerance mechanism in Brassica species. In this review, we tried to highlight the importance and recent findings relating to some overlooked and potential mechanisms such as role of neurotransmitters, and role of cytosolic Ca2+ and ROS as signaling elements to enhance salt stress tolerance. Studies revealed that salt tolerant brassica species retained more K+ in leaf mesophyll which confers overall salinity tolerance in salt tolerance brassica species. Neurotransmitter such as melatonin, dopamiane and eATP regulates K+ and Ca2+ permeable ion channels and plays a very crucial role in ionic homeostasis under salinity stress in brassica. At the end, the numerous possible salt stress agronomic strategies were also discussed to mitigate the severity of the salt stress in Brassica species.Globally, salinity threatens the agricultural crops productivity by inhibiting plant growth and development through osmotic stress and ionic cytotoxicity. The polygenic nature of salinity offers several pragmatic shotgun approaches to improve salinity tolerance. The present study investigated the potential of glutathione (GSH; 1 mM) as an antioxidant and moringa leaf extract (MLE; 3%) as an organic biostimulant applied in sequence as seed priming and foliar spray on wheat growth, physiology and metabolic adaptation under saline conditions (9.16 dS m-1). Plants without any treatment and water spray (H2O) were considered controls. Salinity induced osmotic stress reduced the plant tissue water status and photosynthetic performance, and perturbed ionic (K+/Na+, Ca2+/Na+, K++Ca2+/Na+) and hormonal (IAA, GA3, zeatin, ABA) homeostasis, consequently affected growth and yield in wheat. Sequenced applied MLE and/or GSH improved osmotic stress tolerance by stabilizing membrane integrity and decreasing electrolyte leakage. These positive results were owed to enhanced endogenous GSH and ascorbate levels. Improved tissue water status was attributed to increased osmotic adjustment, better ionic and hormonal homeostasis contributed to improving photosynthetic efficiency and growth under salinity. Exogenously applied MLE and GSH sequences improved grain yield, which was attributed to the maintenance of green leaf area and delayed senescence associated with an increase in photosynthetic pigments and chlorophyll fluorescence traits. In crux, exogenous applied MLE and/or GSH can be the best physiological strategy to reduce the deleterious effects of salinity and improve physiological and metabolic adaptation in wheat under saline field conditions.Garlic (Allium sativum L.) is an economically important vegetable crop which is used worldwide for culinary and medicinal purposes. Soil salinity constrains the yield components of garlic. Understanding the responsive mechanism of garlic to salinity is crucial to improve its tolerance. To address this problem, two garlic cultivars differing in salt tolerance were used to investigate the long-term adaptive responses to salt stress at phenotype and transcriptome levels. Phenotypic analysis showed four-week salt stress significantly decreased the yield components of salt-sensitive cultivar. Transcriptomes of garlics were de novo assembled and mined for transcriptional activities regulated by salt stress. The results showed that photosynthesis, energy allocation, and secondary metabolism were commonly enriched in both sensitive and tolerant genotypes. Moreover, distinct responsive patterns were also observed between the two genotypes. Compared with the salt-tolerant genotype, most transcripts encoding enzymes in the phenylpropanoid biosynthesis pathway were coordinately down regulated in the salt-sensitive genotype, resulting in alternation of the content and composition of lignin. Meanwhile, transcripts encoding the enzymes in the brassinosteroid (BR) biosynthesis pathway were also systematically down regulated in the salt-sensitive genotypes. Taken together, these results suggested that BR-mediated lignin accumulation possibly plays an important role in garlic adaption to salt stress. These findings expand the understanding of responsive mechanism of garlic to salt stress.

Tobacco use increases morbidity and mortality following craniotomy. Selleck PF-2545920 Readmission is an important hospital metric of patient outcomes and has been used to inform reimbursement. This study aims to determine if tobacco use is associated with readmission within 90 days of hospital discharge among patients undergoing elective craniotomy.

The Nationwide Readmissions Database (NRD), a population-based, nationally representative database, was queried from 2010-2014. Patients undergoing craniotomy for benign or malignant tumors, vascular pathologies, and epilepsy were identified. Readmissions within 90 days of index hospitalization were characterized by admitting diagnoses. Tobacco use was defined by ICD-9 coding for active or prior use. Descriptive and multivariable regression analyses evaluated patient and hospital factors associated with readmission.

The study population included 77,903 patients treated with craniotomy. Of these, 17,674 (22.6%) were readmitted within 90 days. The most common reasons for readmission were post-operative infection (5.