Effect of thyroid hormone on the abundance of Na,K-adenosine triphosphatase alpha-subunit messenger ribonucleic acid

The effects of thyroid hormone on Na,K-ATPase alpha-subunit mRNA (mRNA alpha) content and Na,K-ATPase activity were measured in renal cortex, heart, and cerebrum of hypothyroid rats 24 and 72 h after injection of diluent or T3. Use of a cDNA probe complementary to rat brain mRNA alpha in Northern blot analysis revealed a single 26-27 S band in RNA isolated from these three tissues regardless of thyroid status. Tissue mRNA alpha content was estimated by dot blot analysis of whole cell extracts and isolated total RNA. Injection of T3 augmented mRNA alpha content by 2.1- to 2.5-fold in kidney cortex and myocardium at 24 h. After three daily injections of T3, the increases in mRNA alpha were evident despite a global increase in RNA content associated with hypertrophy of these target tissues. Furthermore, the increases in abundance of mRNA alpha after 72 h of T3 treatment correlated with enhancement of Na,K-ATPase activity. In contrast, both mRNA alpha and enzyme activity were invariant in the cerebrum. These data suggest that T3-induced augmentation of Na,K-ATPase activity is mediated, at least in part, by increased mRNA alpha content in target tissues.     

Solubility of proteins

A theory is presented on the solubility of proteins, in the hydrated as well as in the dry state, and in water as well as in organic solvents. To this effect, colloidal stability is assimilated with the solubility of the proteins, considered as hydrated entities. By means of a surface thermodynamic approach it can be shown that an increase in size of a hydrated protein must lead to insolubility, even in the absence of any change in a protein's surface properties. This can be substantiated experimentally by comparing the surface properties of immune complexes with those of their constituent immunoglobulins, as well as by comparing some of the properties of intact tobacco mosaic virus with those of its monomeric capsid subunits. Insolubilization of proteins by means of charge interactions as well as by dehydration is studied; an explanation is given of why precipitation caused by charge interactions is more likely to lead to partial irreversible denaturation than precipitation caused by protein-protein interactions brought about by partial dehydration (e.g., by “salting-out”). A link is established between the smallness (or even the negative value) of the interfacial tension between given proteins and various solvents and their solubility in these solvents. The energy of hydration of proteins can also be measured, and the differences between the free energies of interaction of dried and hydrated proteins with water point toward the additional processes underlying the solubilization, i.e., toward the conformational change of a protein in the process of becoming hydrated. The parameter of conformational change of a protein, while becoming hydrated, appears to be more closely linked to its degree of hydration than to its hydration energy.     

Relative regeneration proficiency ofArabidopsis thaliana ecotypes

We have compared regeneration proficiency for cultured explants from different tissues of different ecotypes ofArabidopsis thaliana. Proficiency varies widely with both tissue and ecotype, and is highest when the flux of light during regeneration is low. Analysis of F1 hybrids suggests that high proficiency is dominant to low proficiency.     

Genetic control of male fertility in Arabidopsis thaliana: structural analysis of premeiotic developmental mutants

We have taken a mutational approach to identify genes important for male fertility in Arabidopsis thaliana and have isolated a number of nuclear male/ sterile mutants in which vegetative growth and female fertility are not altered. Here we describe detailed developmental analyses of four mutants, each of which defines a complementation group and has a distinct developmental end point. All four mutants represent premeiotic developmental lesions. In ms3, tapetum and middle layer hypertrophy result in the degeneration of microsporocytes. In ms4, microspore dyads persist for most of anther development as a result of impaired meiotic division. In ms5, degeneration occurs in all anther cells at an early stage of development. In ms15, both the tapetum and microsporocytes degenerate early in anther development. Each of these mutants had shorter filaments and a greater number of inflorescences than congenic male-fertile plants. The differences in the developmental phenotypes of these mutants, together with the non-allelic nature of the mutations indicate that four different genes important for pollen development, have been identified.     

Bio-oxidation of iron using Thiobacillus ferrooxidans

The effects of pH, ferrous and ferric ion concentrations on iron oxidation by Thiobacillus ferrooxidans were examined. The initial temperature and bacterial concentration were maintained at 37°C and 2±1×104cells/ml, respectively. The iron oxidation rate increased with increased initial ferrous iron concentration to 4g/l and thereafter decreased. The presence of iron(III) showed a negative effect on the bacterial iron oxidation rate. The increase of pH also showed an increase in the oxidation rate up to pH 1.75. The oxidation rate followed first order kinetics for the parameters studied. A rate equation has been developed.     

Recent Advances in Lipid Nanoparticle Formulations with Solid Matrix for Oral Drug Delivery

Lipid nanoparticles based on solid matrix have emerged as potential drug carriers to improve gastrointestinal (GI) absorption and oral bioavailability of several drugs, especially lipophilic compounds. These formulations may also be used for sustained drug release. Solid lipid nanoparticle (SLN) and the newer generation lipid nanoparticle, nanostructured lipid carrier (NLC), have been studied for their capability as oral drug carriers. Biodegradable, biocompatible, and physiological lipids are generally used to prepare these nanoparticles. Hence, toxicity problems related with the polymeric nanoparticles can be minimized. Furthermore, stability of the formulations might increase than other liquid nano-carriers due to the solid matrix of these lipid nanoparticles. These nanoparticles can be produced by different formulation techniques. Scaling up of the production process from lab scale to industrial scale can be easily achieved. Reasonably high drug encapsulation efficiency of the nanoparticles was documented. Oral absorption and bioavailability of several drugs were improved after oral administration of the drug-loaded SLNs or NLCs. In this review, pros and cons, different formulation and characterization techniques, drug incorporation models, GI absorption and oral bioavailability enhancement mechanisms, stability and storage condition of the formulations, and recent advances in oral delivery of the lipid nanoparticles based on solid matrix will be discussed.     

Identification of Key Contributory Factors Responsible for Vascular Dysfunction in Idiopathic Recurrent Spontaneous Miscarriage

Poor endometrial perfusion during implantation window is reported to be one of the possible causes of idiopathic recurrent spontaneous miscarriage (IRSM). We have tested the hypothesis that certain angiogenic and vasoactive factors are associated with vascular dysfunction during implantation window in IRSM and, therefore, could play a contributory role in making the endometrium unreceptive in these women. This is a prospective case-controlled study carried out on 66 women with IRSM and age and BMI matched 50 fertile women serving as controls. Endometrial expression of pro-inflammatory (IL-1β, TNF-α, IFN-γ, TGF-β1), anti-inflammatory (IL-4, -10), angiogenesis-associated cytokines (IL-2, -6, -8), angiogenic and vasoactive factors including prostaglandin E2 (PGE2), vascular endothelial growth factor (VEGF), endothelial nitric oxide synthase (eNOS), nitric oxide (NO) and adrenomedullin (ADM) were measured during implantation window by ELISA. Subendometrial blood flow (SEBF) was assessed by color Doppler ultrasonography. Multivariate analysis was used to identify the significant factor(s) responsible for vascular dysfunction in IRSM women during window of implantation and further correlated with vascular dysfunction. Endometrial expression of pro-inflammatory cytokines and PGE2 were up-regulated and anti-inflammatory and angiogenesis-associated cytokines down-regulated in IRSM women as compared with controls. Further, the angiogenic and vasoactive factors including VEGF, eNOS, NO and ADM were found to be down-regulated and SEBF grossly affected in these women. Multivariate analysis identified IL-10, followed by VEGF and eNOS as the major factors contributing towards vascular dysfunction in IRSM women. Moreover, these factors strongly correlated with blood flow impairment. This study provides an understanding that IL-10, VEGF and eNOS are the principal key components having a contributory role in endometrial vascular dysfunction in women with IRSM. Down-regulation of these factors is also associated with impaired endometrial perfusion which possibly makes the endometrium unreceptive that may eventually cause early pregnancy loss.     

Assessment of Mineral Pathophysiology in Patients with Diabetic Foot Ulcer

Biological Trace Element Research - Chronic non-healing diabetic foot ulcers (DFU) with a recurrence rate of over 50% in 3 years account for more than 1,08000 non-traumatic lower extremity...