Appearance Of New Sites Research Articles

Influence of osmotic stress on protein methylation in resealed erythrocytes.

Resealed erythrocytes are a useful means of targeting exogenous proteins or extending their activity. We tested human resealed erythrocytes as a model system for studying protein methyl esterification, a reaction involved in the processing of spontaneously deamidated/isomerized polypeptides. Our results show that resealed erythrocytes are still active in the metabolic processes that lead to the formation of methyl-esterified proteins. The methylation pattern of endogenous membrane proteins appeared to be similar to that of normal erythrocytes, with bands 2.1, 3, 4.1 and 4.2 as the major methyl acceptors. We detected methyl esterification of ovalbumin, as an exogenous substrate trapped within resealed erythrocytes. Methyl incorporation was almost completely inhibited by simultaneously loading red cells with adenosine and homocysteine thiolactone, in vivo precursors of the transmethylation inhibitor S-adenosylhomocysteine. We investigated the effects of repeated resealing procedures on methyl acceptability of endogenous membrane proteins. We found that methyl-incorporation levels increased, despite an apparent conserved protein composition of the membrane. This result suggests that osmotic stress to the membrane may be responsible for increased protein methylation due to the appearance of new sites or an increased accessibility of existing sites.

Linker histones affect patterns of digestion of supercoiled plasmids by single-strand-specific nucleases.

The effect of histone H1 binding on the cleavage of superhelical plasmids by single-strand-specific nucleases was investigated. Mapping of P1 cleavage sites in pBR322, achieved by EcoRI digestion after the original P1 attack, showed an intriguing phenomenon: preexisting susceptible sites became "protected," whereas some new sites appeared at high levels of H1. Similar results were obtained with another single-strand-specific nuclease, S1. Disappearance of cutting at preexisting sites and appearance of new sites was also observed in a derivative plasmid that contains a 36-bp stretch of alternating d(AT) sequence that is known to adopt an altered P1-sensitive conformation. On the other hand, H1 titration of a dimerized version of the d(AT)18-containing plasmid led to protection of all preexisting sites except the d(AT)18 inserts, which were still cut even at high H1 levels; in this plasmid no new sites appeared. The protection of preexisting sites is best explained by long-range effects of histone H1 binding on the superhelical torsion of the plasmid. The appearance of new sites, on the other hand, probably also involves a local effect of stabilization of specific sequences in Pl-sensitive conformation, due to direct H1 binding to such sequences. That such binding involves linker histone N- and/or C-terminal tails is indicated by the fact that titration with the globular domain of H5, while causing disappearance of preexisting sites, does not lead to the appearance of any new sites.

Duration of the effects of intravenous alendronate in postmenopausal women and in patients with primary hyperparathyroidism and Paget's disease of bone

The effect of a single intravenous (i.v.) infusion of 5 mg alendronate was studied in ten patients with Paget's disease, six patients with primary hyperparathyroidism and ten osteopenic postmenopausal women. Urinary hydroxyproline excretion significantly decreased within few days in all patients (from 113 ± 67.9 to 58 ± 35 mmol/mol Cr in Paget's disease, from 21.8 ±9 to 12.9 ± 6 mmol/mol Cr in hyperparathyroidism, from 18.7 ± 9.5 to 8.5 ± 4.3 mmol/mol Cr in postmenopausal women). In the patients with Paget's disease urinary hydroxyproline remained suppressed over the 6 months of follow-up, whereas it rose toward pretreatment values within 4 and 6 weeks in the patients with primary hyperparathyroidism and in postmenopausal osteopenic women, respectively. Plasma alkaline phosphatase significantly fell only after 4–6 weeks in patients with primary hyperparathyroidism and in Pagetic patients. In the latter group alkaline phosphatase continued to decline thereafter and a plateau became apparent after 2 months. In postmenopausal women the serum alkaline phosphatase remained unchanged. Thus, the same dose of alendronate induces comparable fractional decreases of bone resorption in the three groups of patients, but the effect is persistent only in Paget's disease. This is consistent with the hypothesis that alendronate inhibits osteoclastic activity only at the level of the existing resorption sites. In osteoporotic and primary hyperparathyroid patients, as soon as the treatment is withdrawn, the appearance of new sites of resorption is not inhibited and bone turnover is resumed to pre-treatment values. In Pagetic lesions the bisphosphonate accumulates only at the level of focal skeletal lesion and it induces a long-term suppression of bone resorption at that level.

Optical Detection of Ion Impurity Sites in Doped LiNbO3

In this work the site location of several M3+ dopant ions in has been investigated by using optical (absorption and site‐selective fluorescence) techniques. Experimental results reveal that the regular cation sites, Li+ and Nb5+, are occupied in all cases and can be characterized optically. Additional crystal field sites, for and , have been detected by site selective spectroscopy. The effects on the M3+ optical spectra of the stoichiometry and the codoping with have been systematically investigated. The appearance of new sites for the M3+ ions, M3+‐Mg2+, is ascertained for .

Recruitment of Ca2+ channels by protein kinase C during rapid formation of putative neuropeptide release sites in isolated Aplysia neurons

Activation of protein kinase C (PKC) in Aplysia bag cell neurons causes the recruitment of voltage-dependent calcium channels. Using imaging techniques on isolated cells, we have now found that an activator of PKC,12-O-tetradecanoyl-phorbol-13-acetate (TPA), promotes the rapid appearance of new sites of calcium influx associated with a change in the morphology of neurite endings. In untreated cells, calcium influx triggered by action potentials occurs along neurites and in the central region of growth cones, but does not usually occur at the leading edge of lamellipodia. TPA produces extension of the lamellipodium, and action potentials now trigger calcium influx at the distal edge of the newly extended endings. Cotreatment with TPA and a cyclic AMP analog promotes movement of secretory organelles toward the new sites of calcium influx. Our results suggest that these second messenger systems promote the rapid formation of morphological structures that contribute to the potentiation of peptide release.

Arrangement of the genome of the human papovavirus RF virus.

DNA from plaque-purified RF virus, a variant of BK virus, was found to contain two species of molecules. Hybridization of each DNA species to the fragments of BK virus DNA revealed that one species had a deletion corresponding to at least 50% of the late region and the other had a deletion corresponding to at least 40% of the early region of BK virus DNA. Analysis by cleavage of each RF virus DNA species with restriction endonucleases EcoRI, HindIII, AvaII, and PvuII, when compared with BK virus DNA, revealed that the size and number of fragments were different. These results suggest the loss of some restriction sites and the appearance of new sites, probably as a result of base changes in each RF virus DNA species. Furthermore, analysis of the restriction map of each DNA molecule revealed in insertion(s) in both DNA species.