Analysis of Dom34 and Its Function in No-Go Decay

Eukaryotic mRNAs are subject to quality control mechanisms that degrade defective mRNAs. In yeast, mRNAs with stalls in translation elongation are targeted for endonucleolytic cleavage by No-Go decay (NGD). The cleavage triggered by No-Go decay is dependent on Dom34p and Hbs1p, and Dom34 has been proposed to be the endonuclease responsible for mRNA cleavage. We created several Dom34 mutants and examined their effects on NGD in yeast. We identified mutations in several loops of the Dom34 structure that affect NGD. In contrast, mutations inactivating the proposed nuclease domain do not affect NGD in vivo. Moreover, we observed that overexpression of the Rps30a protein, a high copy suppressor of dom34Δ cold sensitivity, can restore some mRNA cleavage in a dom34Δ strain. These results identify important functional regions of Dom34 and suggest that the proposed endonuclease activity of Dom34 is not required for mRNA cleavage in NGD. We also provide evidence that the process of NGD is conserved in insect cells. On the basis of these results and the process of translation termination, we suggest a multistep model for the process of NGD.     

Protease and carotenogenesis in Blakeslea trispora

Carotene production by single and mated Blakeslea trispora has been studied. On mating and on the addition of trisporic acid to minus cultures there was an increase in the membrane bound neutral protease (MW 126 000) activity. The protease probably acts by inactivating the inhibitory protein of carotene biosynthesis resulting in increased carotenogenesis.     

Effects of Ageing on Amylase Activity and Scutellar Cell Structure during Imbibition in Wheat Seed

In wheat seed the scutellum plays an important role in the hydrolysisof stored substrate during germination. This layer is activatedfirst, whilst the aleurone becomes activated later. A good correlationexists between the initiation of visible germination and theappearance of enzyme activity in the scutellum. Enzyme activityin the aleurone becomes apparent only when the germinating seedlingreaches the rapid growth phase. Electron microscopic observationsshow that during the later stages of germination the scutellarcells develop finger like projections. These may serve to absorbendospermic reserves hydrolysed by aleurone amylase. The scutellumof aged non-germinating seeds showed no amylase activity andno finger like projections were produced even after prolongedimbibition.Copyright 1993, 1999 Academic Press Wheat (Triticum aestivum L.), deteriorated, germination, scutellum, scanning electron microscopy, aleurone     

Chickpea glutaredoxin (CaGrx) gene mitigates drought and salinity stress by modulating the physiological performance and antioxidant defense mechanisms

Glutaredoxins (Grxs) are short, cysteine-rich glutathione (GSH)-mediated oxidoreductases. In this study, a chickpea (Cicer arietinum L.) glutaredoxin [LOC101493651 (CaGrx)] gene has been selected based on screening experiments with two contrasting varieties of chickpea, PUSA-362 (drought-tolerant) and ICC-1882 (drought-sensitive) under drought and salinity. The tolerant variety showed higher CaGrx gene expression, as compared to less in the sensitive variety, under both the stresses. The CaGrx gene was then over-expressed in Arabidopsis thaliana and were exposed to drought and salinity. The over-expression of CaGrx elevated the activity of glutaredoxin, which induced antioxidant enzymes (glutathione reductase; GR, glutathione peroxidase; GPX, catalase; CAT, ascorbate peroxidase; APX, glutathione-S-transferase; GST, superoxide dismutase; SOD, monodehydroascorbate reductase; MDHAR, and dehydroascorbate reductase; DHAR), antioxidants (GSH and ascorbate) and stress-responsive amino acids (cysteine and proline). Enhancement in the antioxidant defense system possibly administered tolerance in transgenics against both stresses. CaGrx reduced stress markers (H₂O₂, TBARS, and electrolyte leakage) and enhanced root growth, seed germination, and survival against both stresses. The physiological parameters (net photosynthesis; P_N, water use efficiency; WUE, stomatal conductance; g_s, transpiration; E, electron transport rate; ETR, and photochemical quenching; qP), chlorophylls and carotenoids, were improved in the transgenics during both stresses, that maintained the photosynthetic apparatus and protected the plants from damage. The enhanced activity of the cysteine biosynthesis enzyme, o-acetylserine (thiol) lyase (OAS-TL), increased the cysteine level in the transgenics, which elevated glutathione biosynthesis to maintain the ascorbate–glutathione cycle under both stresses. This investigation verified that the CaGrx gene provides tolerance against salinity and drought, maintaining physiological and morphological performances, and could be exploited for genetic engineering approaches to overcome both the stresses in various crops.Supplementary InformationThe online version contains supplementary material available at 10.1007/s12298-021-00999-z.     

Simultaneous Extraction of RNA and DNA from Rat Liver with Cupric Sulfate

Homogenization of fresh rat livers in 0.5mM cupric sulfate and 0.5% sodium dodecyl sulfate yielded both RNA and DNA in the aqueous phase after treatment vith phenol at 0–4°C. Effective deproteinization was achieved by three additional phenol treatments. Nucleic acids vere freed from Cu²⁺by repeated precipitation with ethanol in the presence of EDTA. The final yield was 6–7 mg/g of liver, of which about 20% was DNA and 11% tRNA. Physicochenical studies showed that pure tRNA, undegraded rRKA (30S, 18S) and native DNA (s°_{20, w} = 24.4S) were isolated by this procedure.