Lack of mycothiol and ergothioneine induces different protective mechanisms in Mycobacterium smegmatis

Mycobacterium smegmatis contains the low molecular weight thiols, mycothiol (MSH) and ergothioneine (ESH). Examination of transposon mutants disrupted in mshC and egtA, involved in the biosynthesis of MSH and ESH respectively, demonstrated that both mutants were sensitive to oxidative, alkylating, and metal stress. However, the mshC mutant exhibited significantly more protein carbonylation and lipid peroxidation than wildtype, while the egtA mutant had less protein and lipid damage than wildtype. We further show that Ohr, KatN, and AhpC, involved in protection against oxidative stress, are upregulated in the egtA mutant. In the mshC mutant, an Usp and a putative thiol peroxidase are upregulated. In addition, mutants lacking MSH also contained higher levels of Coenzyme F420 as compared to wildtype and two Coenzyme F420 dependent enzymes were found to be upregulated. These results indicate that lack of MSH and ESH result in induction of different mechanisms for protecting against oxidative stress.     

Protein evolution in different cellular environments: cytochrome b in sharks and mammals

DNA sequences for the mitochondrial cytochrome b gene were determined for 13 species of sharks. Rates and patterns of amino acid replacement are compared for sharks and mammals. Absolute rates of cytochrome b evolution are six times slower in sharks than in mammals. Bivariate plots of the number of nonsynonymous and silent transversions are indistinguishable in the two groups, however, suggesting that the differences in amino acid replacement rates are due primarily to differences in DNA substitution rates. Patterns of amino acid replacement are also similar in the two groups. Conserved and variable regions occur in the same parts of the cytochrome b gene, and there is little evidence that the types of amino acid changes are significantly different between the groups. Similarity in the relative rates and patterns of protein change between the two groups prevails despite dramatic differences in the cellular environments of sharks and mammals. Poor penetrance of physiological differences through to rates of protein evolution provides support for the neutral theory and suggests that, for cytochrome b, patterns of evolution have been relatively constant throughout much of vertebrate history.      

An overview of synthetic methods and applications of photoluminescence properties of carbon quantum dots

Carbon quantum dots (CQDs) are promising carbonaceous nanomaterials fortuitously discovered in 2004. CQDs are the rising stars in the nanotechnology ensemble because of their unique properties and widespread applications in sensing, imaging, medicine, catalysis, and optoelectronics. CQDs are notable for their excellent solubility and effective luminescence and, as a result, they are also known as carbon nanolights. Many strategies are used for the efficient and economical preparation of CQDs; however, CQDs prepared from waste or green sustainable methods have greater requirements due to their safety and ease of synthesis. Sustainable chemical strategies for CQDs have been developed, emphasizing green synthetic methodologies based on ‘top-down’ and ‘bottom-up’ approaches. This review summarizes many such studies relevant to the development of sustainable methods for photoluminescent CQDs. Furthermore, we have emphasized recent advances in CQDs' photoluminescence applications in chemical and biological fields. Finally, a brief overview of synthetic processes using the green source and their associated applications are tabulated, providing a clear understanding of the new optoelectronic materials.     

Quantification of Phytochemicals and Metal Ions as well as the Determination of Volatile Compounds,Antioxidant, Antimicrobial and Antacid Activities of the Mimosa pudica L. Leaf: Exploration of Neglected and Under-Utilized Part

Mimosa pudica L. (MP) is well-known plant in traditional medicinal system, especially in India. Unfortunately, leaves of MP are less explored. To determine the food and nutritional value of the neglected part of Mimosa pudica L. (MP), that is MP leaves, phytochemicals and metal ions of MP were quantified by newly developed HPLC and ICPOES-based methods. The content of phytochemicals observed using HPLC analysis for chlorogenic acid, catechin, and epicatechin was 141.823 (±8.171), 666.621 (±11.432), and 293.175 (±12.743) μg/g, respectively. Using GC/MS/MS analysis, fatty acid like oleic acid were identified. In ICP-OES analysis, a significant content of Na, K, Ca, Cu, Fe, Mg, Mn, and Zn was observed. The observed TPC and TFC for MP leaf extracts was 44.327 (±1.041) mg GAE/ g of wt. and 214.217 (±4.372) mg QCE/ g of wt., respectively. The DPPH assay depicted a strong antioxidant activity of MP leaf extracts with IC₅₀ values of 0.796 (±0.081) mg/mL and a TEAC value of 0.0356 (±0.0003). A significant antacid activity (666 mg MP+400 mg CaCO₃ >400 mg CaCO₃ ≫666 mg Gelusil) of MP leaves was noticed. The methanolic extract of MP leaves demonstrated anti-microbial activity against Staphylococcus aureus (15±2mm), Pseudomonas aeruginosa (12±2mm) and Escherichia coli (10±2mm). In silico studies confirmed the in vitro results obtained for antioxidant, antiacid, and anti-microbial activities. In addition, in silico studies revealed the anti-cancerous and anti-inflammatory potential of the MP leaves. In summary, this study demonstrated the medicinal significance of MP leaves and the conversion of agro-waste or the under-utilized part of MP into pharmaceutical potent materials. Consequently, the present study highlighted that MP leaves alone have medicinal importance with good nutritional utility and possess large promise in the pharma industry along with improving bio-valorization and the environment.     

Brain levels and turnover rates of presumptive neurotransmitters as influenced by administration and withdrawal of ethanol in mice

—Effects of acute or chronic administration of ethanol and its withdrawl on the steady-state levels and turnover rates of certain neurotransmitters have been investigated in mice. The influence of long-term administration of ethanol on the activities of enzymes involved in the metabolism of these transmitters has also been studied. Acute administration of ethanol or acetaldehyde or chronic administration of ethanol resulted in a decrease in the cerebral contents of acetylcholine, acetylCoA and CoA. Brain levels of 5-hydroxytryptamine, norepinephrine and choline remained unchanged after acute administration of ethanol. However, chronic administration of ethanol resulted in a decrease in the norepinephrine content without significantly affecting 5-hydroxytryptamine or choline contents. Cerebral levels of γ-aminobutyric acid increased with both acute or chronic administration of ethanol. The total incorporation of [³H]choline into acetylcholine in brain was depressed upon acute administration of ethanol. After withdrawal of ethanol for one day cerebral levels of norepinephrine returned to normal; however, γ-aminobutyric acid and acetylcholine returned to normal levels at 2 and 4 days after ethanol withdrawal, respectively. Pretreatment of mice with pyrazole, an inhibitor of alcohol dehydrogenase, prevented the ethanol-induced decrease in cerebral acetylcholine levels. The activities of cerebral choline acetyltransferase and glutamic decarboxylase were decreased after 2 weeks of chronic ethanol administration. However, the activities of acetyl cholinesterase and GABA-transaminase remained unaffected after 2 weeks of ethanol treatment     

The distribution of lice (Phthiraptera) on poultry (Gallus domesticus)

The distribution of three amblyceran (Menacanthus stramineus, Menacanthus cornutus, Menopon gallinae) and five ischnoceran species (Lipeurus lawrensis tropicalis, Lipeurus caponis. Goniocotes gallinae, Goniodes gigas, Goniodes dissimilis) on poultry was determined. The preferred sites of these species on the host body were recorded.     

Partial characterization of a new isoenzyme of carbonic anhydrase isolated from Chlamydomonas reinhardtii

A new isoenzyme of carbonic anhydrase has been isolated and purified from Chlamydomonas reinhardtii. This carbonic anhydrase is composed of two nonidentical subunits with apparent molecular masses of 39 and 4.5 kDa and is located in the periplasmic space. This is the second periplasmic carbonic anhydrase found in C. reinhardtii. Two genes, CAH1 and CAH2, which code for carbonic anhydrase, have been recently described by Fujiwara et al. (Fujiwara, S., Fukuzawa, H., Tachiki, A., and Miyachi, S. (1990) Proc. Natl. Acad, Sci. U.S.A. 87, 9779-9783). The CAH1 gene codes for a periplasmic carbonic anhydrase which is induced under low CO2 conditions and is well characterized. The carbonic anhydrase characterized in this report was isolated from a mutant that is unable to synthesize the CAH1 gene product. Amino acid sequencing demonstrates that this newly isolated carbonic anhydrase is the CAH2 gene product. This is the first report of another functional carbonic anhydrase in C. reinhardtii.