Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0002736 (amyotrophic lateral sclerosis)
19,048 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of combined treatment with antilymphocyte serum, fractionated donor bone marrow, and a limited course of cyclosporine on renal allograft survival in mongrel dogs was examined. Recipients were treated with ALS from day -5 to day +7, relative to transplantation on day 0 with an MLR-mismatched donor. Fractionated donor bone marrow cells (BMFr3) obtained by density gradient separation were infused 3-7 days after ALS treatment. CsA treatments were begun either 3-7 days after ALS plus BMFr3 infusion or 3-7 days after treatments with ALS alone. Extended allograft survival was achieved at all CsA doses in BMFr3-infused, ALS-treated recipients. Allografts were sustained throughout the CsA treatment period without rejection in the majority of recipients (6 of 8) receiving ALS plus BMFr3 and CsA at 20 Mg/kg/day for 60 days. By contrast, few grafts were sustained through 30 days of treatment with CsA at 3.2 (1 of 12) or 10 mg/kg/day (2 of 9) in ALS plus BMFr3-treated recipients. Cyclosporine treatment was ineffective at all doses in augmenting allograft prolongation in ALS-treated recipients that did not receive BMFr3. Nearly all (6 of 7) long-term survivors (greater than 180 days) were BMFr3-treated. Peripheral blood lymphocytes or bone marrow cells of these long-term survivors proliferated normally in response to Con A and PWM, and were MLR responsive to third-party cells but did not have reduced MLR responsiveness to donor alloantigen in all cases. These long-term survivors promptly rejected third-party renal allografts without adverse effects on the original transplant's function. These results show that long-term renal allograft survival with specific unresponsiveness to the donor can result from the combined treatment with ALS plus donor BMFr3 and a limited course of CsA.
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PMID:The effect of antilymphocyte serum, fractionated donor bone marrow, and cyclosporine on renal allograft survival in mongrel dogs. 183 94

This study extends the finding that intrathymic (IT) inoculation of uv-B irradiated donor spleen cells (SC) or soluble alloantigens (Ag) induces peripheral tolerance to organ allografts in the rat to the murine cardiac allograft model. In our initial experiment, we showed that IT inoculation of uv-B irradiated SC combined with transient immunosuppression of the recipient with either sublethal TBI or ALS on Day -7 led to donor-specific, long-term cardiac allograft survival (> 300 days) in the completely mismatched A/J-to-C57BL/6 mice combination. To test our hypothesis that peripheral tolerance induced by IT injection of donor Ag is dependent on presentation of the foreign MHC molecule by thymic APC to T cell precursors, we examined the effect of IT injection of donor APC-free-soluble Ag inoculum obtained from 3 MKCl extracts of purified MHC class I resting T cells on cardiac allograft survival in the A/J-to-C3H mice combination. The results showed that IT injection of the optimal dose of 500 micrograms soluble Ag combined with 0.5 ml ALS on Day -7 led to donor-specific permanent graft survival (> 200 days). This finding could not be reproduced by intravenous administration of soluble Ag, thus confirming the privileged position of the thymus in tolerance induction. To further define the role of host APC in allorecognition, we studied the presentation of soluble Ag by responder APC in MLR. The results showed that primed T cells obtained from A/J skin graft-sensitized C3H T cells specifically developed alloreactivity to A/J-soluble Ag in MLR.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Donor-specific unresponsiveness to murine cardiac allografts induced by intrathymic-soluble alloantigens is dependent on alternate pathway of antigen presentation. 763 Jan 43

The influence of metal ions (Na(+), Mg(2+) and Cd(2+)) on the thermal unfolding of phenylalanine transfer ribonucleic acid (tRNA(Phe)) was studied by UV spectroscopy-monitored melting experiments. Absorbance data were obtained during the unfolding process in the range 220-340 nm and later analyzed by a multivariate curve resolution approach (MCR-ALS) based on factor analysis. This procedure determines the number of spectroscopically distinct conformations present during the unfolding process and reveals their concentration profiles and pure spectra, without any initial assumption having to be made about the number of steps in the unfolding pathway. From the concentration profiles and pure spectra, information such as T(m) values can be recovered. The results were compared with those obtained previously in spectroscopic and calorimetric unfolding experiments, showing that the multivariate approach recovers information that complements that obtained in traditional spectroscopic melting experiments.
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PMID:Study of the influence of metal ions on tRNA(Phe) thermal unfolding equilibria by UV spectroscopy and multivariate curve resolution. 1193 71

A differential pulse polarographic study of the Cd2+/gamma-Glu-Cys and Cd2+/Cys-Gly systems assisted by the alternating least-squares multivariate curve resolution (MCR-ALS) method was carried out to obtain a better understanding of the different metal affinities of the complexation sites on glutathione (GSH). The simultaneous analysis of the titration of peptide with metal and of metal with peptide allowed the resolution of the Cd2+/Cys-Gly system, whereas in the analysis of the Cd2+/gamma-Glu-Cys system the analysis of a single titration experiment was sufficient. The analysis of the shape of the resulting pure voltammograms and concentration profiles of the resolved components suggested the presence of two different types of bound Cd2+ in the two systems considered, that could be attributed to Cd2+ bound to one or two sulfur atoms to form complexes of stoichiometry 1:1 and 1:2. respectively.
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PMID:Study of Cd2+ complexation by the glutathione fragments Cys-Gly (CG) and gamma-Glu-Cys (gamma-EC) by differential pulse polarography. 1199 68

The application of multivariate curve resolution-alternating least squares (MCR-ALS) to the quantitative analysis of different metal ion mixtures using voltammetric data is described. The performance of MCR-ALS was evaluated in the resolution and quantitation of overlapped voltammetric peaks obtained in the analysis of binary and quaternary mixtures of Cd(II), In(III), Pb(II) and Tl(I) metal ions by anodic stripping voltammetry. Quality assessment of qualitative and quantitative determinations was evaluated considering the effects of different constraints and of initial estimations. MCR-ALS results were validated and compared with those obtained by applying other well-established multivariate calibration methods, such as partial least squares (PLS) and direct classical least squares (DCLS) methods.
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PMID:Multivariate curve resolution of overlapping voltammetric peaks: quantitative analysis of binary and quaternary metal mixtures. 1214 16

A successful application is reported of the multivariate curve resolution alternating least-squares method (MCR-ALS) for the analysis of nucleic acid melting and salt-induced transitions. Under conditions where several structures co-exist in a conformational equilibrium, MCR-ALS analysis of the UV and circular dichroism (CD) spectra at different temperatures, ionic strength and oligonucleotide concentration allows for the resolution of concentration profiles and pure spectra of the different species. The methodology is illustrated by the case of the cyclic oligonucleotide d<pTGCTCGCT>. The melting transition of this molecule at different oligonucleotide concentrations was studied at 0, 2 and 10 mM MgCl2 by UV and CD spectroscopy. In addition, salt titration experiments were carried out at 21.0 and 54.0 degrees C. The MCR-ALS analysis indicates that three different conformations of this molecule co-exist in solution. In agreement with previous NMR studies, these conformations were assigned to a monomeric dumbbell-like structure, a dimeric four-stranded conformation and a disordered (random coil) structure. The MCR-ALS methodology allows for a detailed analysis of how this equilibrium is affected by temperature, salt and oligonucleotide concentration.
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PMID:Multivariate curve resolution: a powerful tool for the analysis of conformational transitions in nucleic acids. 1220 80

The combination of near- and midinfrared spectroscopies (NIR and MIR) is proposed to monitor temperature-dependent transitions of proteins. These techniques offer a high discriminating power to distinguish among protein structural conformations but, in temperature-dependent processes, present the drawback associated with the intense and evolving absorption of the deuterium oxide, used as a solvent in the protein solutions. Multivariate curve resolution-alternating least squares (MCR-ALS) is chosen as the data analysis technique able to unravel the contributions of the pure protein and deuterium oxide species from the mixed raw experimental measurements. To do so, MCR-ALS works by analyzing simultaneously experiments from MIR and NIR on pure deuterium oxide solutions and protein solutions in D2O. This strategy has proven to be effective for modeling the protein process in the presence of D2O and, therefore, for avoiding the inclusion of artifacts in the data stemming from inadequate baseline corrections. The use of MIR and NIR and MCR-ALS has been tested in the study of the temperature-dependent evolution of beta-lactoglobulin. Only the combined use of these two infrared techniques has allowed for the distinction of the three pure conformations involved in the process in the working thermal range: native, R-type state, and molten globule.
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PMID:Modeling temperature-dependent protein structural transitions by combined near-IR and mid-IR spectroscopies and multivariate curve resolution. 1471 Aug 43

Multivariate Curve Resolution by Alternating Least Squares (MCR-ALS) is applied to voltammetric data obtained in the study of competitive complexation of Zn(II) and Cd(II) by alpha- and beta-domains of metallothionein (MT). The application of MCR-ALS allows the estimation of both the voltammograms and the concentration profiles associated with each electrochemical process. The complexity of the voltammograms obtained in titrations of the alpha- or beta-domains of MT with Cd(II) and later Zn(II) (or vice versa) prevents their direct interpretation using traditional electrochemical methods. But when MCR-ALS is applied, voltammograms can be interpreted rather satisfactorily in both qualitative and quantitative terms. MCR-ALS showed the formation of Cd2Znbeta dom and Cd3Znalpha dom complexes when both metals were competitively added. A method based on the combined use of voltammetry and some chemometric techniques is proposed. It can be useful for the metal speciation of environmentally relevant natural ligands.
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PMID:Voltammetry assisted by multivariate analysis as a tool for speciation of metallothioneins: competitive complexation of alpha- and beta-metallothionein domains with cadmium and zinc. 1471 71

For determining low levels of pesticides and phenolic compounds in river and wastewater samples by high performance liquid chromatography (HPLC), solid phase extraction (SPE) is commonly used before the chromatographic separation. This preconcentration step is not necessarily selective for the analytes of interest and it may retain other compounds of similar characteristics as well. In this case, we present, humic and fulvic acids caused a large baseline drift and overlapped the analytes to be quantified. The inaccurate determinations of the area of the peaks of these analytes made it difficult to quantify them with univariate calibration. Here we compare three second-order calibration algorithms (generalized rank annihilation method (GRAM), parallel factor analysis (PARAFAC) and multivariate curve resolution-alternating least squares (MCR-ALS)) which efficiently solve this problem. These methods use second-order data, i.e., a matrix of responses for each peak, which is easily obtained with a high performance liquid chromatography-diode array detector (HPLC-DAD). With these methods, the area does not need to be directly measured and predictions are more accurate. They also save time and resources because they can quantify analytes even if the peaks are not resolved. GRAM and PARAFAC require trilinear data. Biased and imprecise concentrations (relative standard deviation, %R.S.D. = 34) were obtained without correcting the time-shift. Hence, a time-shift correction algorithm to align the peaks was needed to obtain accurate predictions. MCR-ALS was the most robust to the time-shift. All three algorithms provided similar mean predictions, which were comparable to those obtained when sulfite was added to the samples. However, the predictions for the different replicates were more similar for the second-order algorithms (%R.S.D. = 3) than the ones obtained by univariate calibration after the sulfite addition (%R.S.D. = 13).
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PMID:Quantification from highly drifted and overlapped chromatographic peaks using second-order calibration methods. 1512 12

A voltammetric detection mode (VD) in conjunction with multivariate curve resolution with alternating least squares (MCR-ALS) method is applied to the analysis of cysteine-containing compounds and compared with a well established amperometric detection (AD) mode in a thin-layer dual Hg/Au cell. VD-MCR-ALS provides an increase in selectivity for cases where satisfactory separation of electroactive compounds is not allowed. However, concentrations needed for a good quantification in VD are higher than in AD due to much large contribution of background in VD.
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PMID:Comparison of voltammetric detection assisted by multivariate curve resolution with amperometric detection in liquid chromatographic analysis of cysteine-containing compounds. 1567 47


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