Spatial asymmetry is fundamental to the structure and function of most eukaryotic cells. A basic aspect of this polarity is that the cell's plasma membrane is divided into discrete domains. The best ...studied and simplest example of this occurs in epithelial cells, which line exposed body surfaces. Epithelial cells use two pathways to send proteins to the cell surface. Newly made proteins can travel directly from the trans-Golgi network (TGN) to either the apical or basolateral surface. Alternatively, proteins can be sent to the basolateral surface and then endocytosed and transcytosed to the apical surface. Epithelial cells grown on porous filters adopt a typical polarized morphology; transfected epithelial cells can be used to biosynthetically characterize the trafficking patterns of a given protein. These cells can also be used to study delivery to a particular surface and to localize the protein by immunofluorescence.
Food deprivation markedly reduces thyroid hormone levels in mammalian plasma, but existing data are incomplete and equivocal regards extrathyroidal hormone production and other indices of overall ...hormone economy. We have used a novel experiment design and analysis to directly measure the whole-body rate of conversion of T4 into T3 and several other steady-state whole organism parameters, in 4-day fasted and fed control rats. Trace amounts of 125I-labeled T3 (T3) or T4 (T*4) were infused for 7 days from osmotic minipumps implanted sc. On day 7, rats were anesthetized, bled, and killed and carcasses were frozen in liquid N2, pulverized, homogenized, and extracted. Extracts and plasma samples were chromatographed on both Sephadex and HPLC. Tracer infusion rates, whole rat tissue weights, and steady state tissue, blood, and plasma T*3, T*4, and total radioactivity concentrations provided all kinetic parameters of interest from simple steady state computations. T4 secretion (SR4) and whole body pool sizes were reduced 49-55% in fasted rats. But the most notable results were that the percent of available extrathyroidal T4 converted to T3 in fasted 41.6 +/- 7.9% (SD) was 87% greater than that in the fed (22.3 +/- 7.69%) rats and this, in turn, generated an absolute rate of production of T3 from T4 not significantly different in fasted vs. fed controls (7.17 +/- 2.40 vs. 7.54 +/- 3.10 ng/h.100 g BW). The surprisingly high 42% conversion ratio in fasting is explained in part by larger T3 blood pools (which are not sites of T3 production from T4) relative to tissue T3 pools in fasted rats, not accounted for in earlier whole-body studies. In contrast with this finding of an increased T4 to T3 conversion ratio in fasted rats, based on whole body measurements, T3 plasma concentrations (Cp3), clearance rates (PCR3), appearance rates (PAR3 = PCR3Cp3), and more conventional indirect estimates of the T4 to T3 conversion ratio (100 PAR3/SR4) were all substantially reduced, consistent with reports in fasting humans limited to measurements of T3 and T3 turnover in plasma and interpreted as indicative of reduced whole body T4 or T3 conversion. Directly measured total T3 extrathyroidal distribution volumes, reduced 55% in the fasted group from 241 +/- 19.5 to 109 +/- 8.14 ml/100 g BW, are also of interest because fed rat values are 27-61% greater than virtually all previous estimates of this index of total body T3.
In water and aqueous methanol up to 90% methanol–10% water and an ionic strength of 1.0 M (perchlorate), europium(III) forms a 1:1 complex with alanine. As methanol is added to the solvent, the ...complexation constants increase by less than 50% by changing the solvent from water to 90% methanol. This is different from the Eu(III)–glycine complex where more than an order of magnitude increase in the complexation constant was observed. The results are consistent with inner sphere Eu(III)–glycine and outer sphere Eu(III)–alanine complexes.
Egobile Tao, Hung Q.; Nguyen, Yen-Vy L.; Nguyen, Hieu M. ...
Proceedings of the 13th International Conference on Information Integration and Web-based Applications and Services,
12/2011
Conference Proceeding
The pervasiveness of always-on smartphones and wireless networks, has provided users chances to connect to mobile social networks everywhere. However, the diversity of phone manufacturers and ...operating systems is hindering the development of location-aware social network applications. Via introducing the Egobile application, this paper addresses the major issues of developing mobile context-aware social networks with collaborative filtering method for recommendations.
We demonstrate a dual silicide integration on a SOI CMOS platform with robust low-resistance PtSi PMOS contacts. Compared to NiSi, the specific contact resistivity is reduced in PtSi contacts to ...p-type Si and increased in contacts to n-type Si. PMOS linear and saturation drive current enhancements of 6% and 9%, respectively, were achieved with PtSi relative to baseline NiSi source/drain contacts.
Steady-state regulation of whole-body T3 and T4 distribution and metabolism were directly evaluated and compared in hypothyroid, euthyroid, and in euthyroid rats moderately T3-stimulated by ...continuous infusion of 0.15 microg/day L-T3 per 100 g BW, thereby supplementing euthyroid T3 sources by two thirds. Our goal was to develop deeper insights into the hierarchy, quantitative adequacy, and sensitivity of this regulatory system, in response to these hormone production challenges in constant steady state. We used a novel whole-body steady-state experiment design model and data analysis approach, which entails nonexclusive whole-body homogenate extracts and blood collected after 7-day infusions of tracer T3 (T3*) or T4*, quantitatively analyzed chromatographically for T3*, T4* and metabolite* concentrations. Hormone regulation implications across the 3 groups were assessed by comparing (per 100g BW) total body T4 to T3 and T3 from T4 conversion rates (CR(4-3) and CR(3-4)), total body pool sizes (Qtot) and distribution volumes (V(D)), total body production (PR), or plasma appearance rates (PAR), plasma clearance rates (PCR), and elimination rates (k). In the hypothyroid rats, absolute production of T3 from T4 was only a fourth of that in euthyroids: CR(3-4) = 1.55 vs. 6.77 ng/h, but the percent (efficiency) of whole-body T4 converted to T3 was more than double that in euthyroids: %CR(4-3) = 45.4% vs. 21.0%, reflecting an effective doubling of type I and/or type II 5'-deiodinase activity on a whole-body basis in response to severe curtailment of thyroidal production. Whole-body T3 pools and T3 production and clearance rates were all about 2 to 3 times lower in hypo- than in euthyroids: minimum Qtot = 36.8 vs. 100 ng, V(D3) = 148 vs. 236 ml, PAR3 = 3.44 vs. 9.09 ng/h, PCR3 = 13.8 vs. 21.3 ml/h; and nearly all T4 pool size, production, clearance and elimination rates also were very substantially reduced: PCR4 = 0.540 vs. 0.941 ml/h, PR4 = 4.11 vs. 38.3 ng/h, Qtot4 = 128 vs. 702 ng, k4 = 0.0322 vs. 0.0530 h(-1). In moderately T3-stimulated rats, presumed central feedback effects of the added T3 on T4 production and total body pool size also were quite pronounced: PR4 = 21.4 ng/h and Qtot4 = 346 ng were reduced to about half that in euthyroids, but T4 elimination indices were virtually unchanged, and T3 production and elimination were minimally affected. Thus, overall, stabilizing negative feedback regulation of TH functioning at different hierarchical levels is quite bidirectionally sensitive. We found very tight (inhibitory) control over thyroidal T4 secretion, possibly also T3 secretion, and probably also absolute T3 production from T4, in response to moderate (+68%) supplements in T3 production; and the efficiency of total body T3 production from available T4 was amplified substantially in the severe primary hypothyroid state, although not nearly enough to compensate for the malady. Finally, the blood to total body pool fractions (Qb/Qtot) of both T3 and T4, but not the plasma or blood hormone levels, remained remarkably constant in response to these oppositely directed hormone production challenges, suggesting this ratio as an actively regulated, homeostatically-maintained entity.
A one to one complex is formed between Eu(III) and alanine in water, with the log of the complexation constant=−0.48±0.08 at 25 °C and an ionic strength of 1.0 in perchlorate media.
Laser cycling of resonances can remove entropy from a system via spontaneously emitted photons, with electronic resonances providing the fastest cooling timescales because of their rapid relaxation ...rates. Although atoms are routinely laser cooled, even simple molecules pose two interrelated challenges for cooling: every populated rotational-vibrational state requires a different laser frequency, and electronic relaxation generally excites vibrations. Here, we cool trapped AlH+ molecules to their ground rotational-vibrational quantum state using an electronically-exciting broadband laser to simultaneously drive cooling resonances from many different rotational levels. Undesired vibrational excitation is avoided because of vibrational-electronic decoupling in AlH+. We demonstrate rotational cooling on the 140(20) ms timescale from room temperature to 3.8(+0.9/-0.3) K, with the ground state population increasing from ~3% to 95.4(+1.3/-2.0) %. This cooling technique could be applied to several other neutral and charged molecular species useful for quantum information processing, ultracold chemistry applications, and precision tests of fundamental symmetries.
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