Nitrogen heterocycles have found a key role in biologically active natural products. Pyridones, specifically 2‐pyridone and 2,4‐dihydoxypyridine are an extensive class of compounds with reported occurrence in many natural products. Therefore, the methods for generation of functionalized pyridones are of great interest since their discovery. From traditional coupling to transition metal catalyzed C−H functionalization and transition metal free C−H functionalization, this field has witnessed enormous growth. In the present review, we aim to present a comprehensive overview of pyridone functionalization for young researchers and invite the scientific community to come up with more environment friendly, economic and transition metal free methodologies for corresponding functionalizations.
Ten pearl millet genotypes selected on the basis of response to supra-optimal temperature tolerance were crossed in a half-diallel mating system. The 45 F 1 hybrids produced were tested along with parents for heat tolerance and related traits at seedling stage. Field screening and laboratory screening techniques were simultaneously used for the evaluation of F 1 hybrids and their parents. Heat tolerance was measured as seedling thermotolerance index (STI) and seed to seedling thermotolerance index (SSTI) under field conditions, but membrane thermostability (MTS) in the laboratory. The hybrid H77/29-2 × CVJ-2-5-3-1-3 showed highest STI value followed by H77/833-2 × 96AC-93. The genotype H77/833-2 × 96AC-93 had the highest worth for SSTI. These three indices were highly correlated among themselves. STI values were invariably high, whereas SSTI has lower values, as it also covers the effect of under soil mortality (USM). It was seen that the heat tolerance indices STI and SSTI were not showing any perceptible pooled correlation with developmental traits except germination and emergence rate. Based on our results, it could be suggested that membrane thermostability (MTS) may be used for screening large number of genotypes. Field based indices STI and SSTI may be used for evaluation of hybrids and varieties before they are released.
Dengue is the most common and widespread arthropod borne arboviral infection in the world today. Recent observations indicate that the clinical profile of dengue fever is changing with neurological manifestations being reported more frequently. A patient with dengue fever presented to us with symptoms suggestive of acute flaccid paralysis, and on subsequent investigation he was diagnosed as a case of hypokalaemic quadriparesis. Clinicians in the endemic area should be aware of such association of acute pure motor reversible quadriparesis with dengue fever.
Dengue fever is an acute mosquito-borne infection caused by dengue viruses belonging to the family Flaviviridae. It is an important public health problem in tropical and subtropical climates. Acute motor quadriparesis during the course of dengue infection is quite unusual and uncommonly reported. We hereby report two cases of acute motor quadriparesis during the course of dengue infection due to hypokalemia.
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