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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A mathematical analysis of cold target competition experiments of complement-mediated lysis is presented, aimed at developing a minimal model of lysis where no interaction between the competing populations of sensitized blood group A and B erythrocytes is presumed. The model is able to predict the extent of lysis from the input values with remarkable accuracy suggesting that under the conditions used no stimulation and/or inhibition of the lysis of the sensitized erythrocytes occurs. The distribution of complement between the competing A and B erythrocyte populations is approximated by the model and found to be proportional to the 5th and 4th power of the ratios of the antibody and target cell concentrations, respectively. In accordance with earlier observations, suggesting that the interaction between the antibody and the C1q molecules is based on polar electrostatic charges, we propose that the sensitizing antibody provides an electrostatic field around the erythrocytes which attracts C1q molecules towards their membranes.
Mol Immunol 1992 Nov
PMID:Cold target competition analysis of the classical activation pathway of complement-mediated cytotoxicity: a non-interaction model for competing lysis. 140 21

The homogeneous preparations of the brucella protein antigens were isolated from the hybrid producer strains Escherichia coli 6SE579 and 6SE800 by the cold osmotic shock technique and further purification on immunosorbents. The 18 + 38 and 38 kDa antigens were obtained. The antiserum specific to brucella 38 kDa antigen was obtained and used for isolation of the 18 kDa antigen from the producer strain 6SE579 synthesizing two brucella antigens. The immunosorbent developed on the basis of BrCn-agarose conjugated with antibodies from the serum has permitted isolation of 18 kDa protein antigen preparation. Thus, the combined technique of cold osmotic shock and affinity chromatography on immunosorbents permits one to isolate highly purified individual antigens of brucella from Escherichia coli K12 producer cells.
Mol Gen Mikrobiol Virusol
PMID:[Isolation and purification of Brucella antigens synthesized by Escherichia coli K12 cells]. 140 57

Crude extracts of hycanthone sensitive Schistosoma mansoni incubated at 37 degrees C in the presence of ATP and Mg2+ induced the covalent binding of tritiated hycanthone (HC) to macromolecules. The same behavior was shown by the HC sensitive species, Schistosoma rodhaini, whereas two independently isolated HC resistant S. mansoni strains had no detectable activity. Sensitive male schistosomes had more activity than females or immature worms. Virtually no activity was present in mouse liver, in human liver, in HeLa cells or in the naturally resistant species Schistosoma japonicum. The activity was destroyed by boiling or by Proteinase K treatment. Covalent binding of tritiated HC to macromolecules could be inhibited by cold HC, oxamniquine or IA-4, while none of the in vitro ineffective analogs, like lucanthone, UK-3883 or 4-desmethyl lucanthone, were inhibitory. These results strongly support the previously advanced suggestion that HC is activated by enzymatic mechanisms which are present only in drug sensitive schistosomes.
Mol Biochem Parasitol 1992 Oct
PMID:Hycanthone resistance in schistosomes correlates with the lack of an enzymatic activity which produces the covalent binding of hycanthone to parasite macromolecules. 143 68

The fission yeast pap1+ gene encodes an AP-1-like transcription factor that contains a leucine zipper motif. We identified a target gene of pap1, the p25 gene. The 5' upstream region of the p25 gene contains an AP-1 site, and by DNase I footprint analysis, we showed that the pap1 protein binds to the AP-1 site as well as to a 14-bp palindrome sequence. p25 is overproduced when the pap1+ gene is overexpressed, whereas p25 is not produced at all in the pap1 deletion mutant. p25 was previously found to be overproduced in strains carrying cold-sensitive crm1 mutations whose gene product is essential for viability and is thought to play an important role in maintenance of a proper chromosomal architecture. Deletion and site-directed mutagenesis of sequences upstream of the p25 gene demonstrated that the AP-1 site as well as the palindrome sequence are crucial for transcriptional activation either by pap1 overproduction or by the cold-sensitive crm1 mutation; pap1+ is apparently negatively regulated by crm1+. Moreover, we found that cold-sensitive crm1 mutations are suppressed by the deletion of pap1+, further indicating a close relationship between crm1+ and pap1+. The crm1 protein is highly conserved; the budding yeast homolog, CRM1, which complements the fission yeast cold-sensitive crm1 mutation, was isolated and found to also be essential for viability. These results suggest the functional importance of chromosome structure on the regulation of gene expression through the pap1 transcription factor.
Mol Cell Biol 1992 Dec
PMID:Fission yeast pap1-dependent transcription is negatively regulated by an essential nuclear protein, crm1. 144 80

In this paper we describe a method for preparing native, RNA-free, proteins from anti-m3G purified snRNPs (U1, U2, U4/U6 and U5) and the subsequent quantitative reconstitution of U1 and U2 snRNPs from purified proteins and snRNA. Reconstituted U1 and U2 snRNPs contained the full complement of core proteins, B, B', D1, D2, D3, E, F and G. Both the U1 and U2 reconstituted particles were stable in CsCl gradients and had the expected buoyant density of 1.4 g/cm3. Reconstituted RNP particle formation was not competited by a 50 fold molar excess of tRNA, as determined by gel retardation assays. However, U1 and U2 particle formation was reduced in the presence of an excess of cold U1 or U2 snRNA demonstrating a specific RNA-protein interaction. U1 and U2 snRNPs were also efficiently reconstituted in vitro, utilizing proteins prepared from mono Q purified U1 and U2 snRNPs. This suggests that for the assembly of snRNPs in vitro no auxiliary proteins other than bona fide snRNP proteins appear to be required. The potential of this reconstitution technique for investigating snRNP assembly and snRNA-protein interactions is discussed.
Mol Biol Rep 1992 Sep
PMID:In vitro reconstitution of U1 and U2 snRNPs from isolated proteins and snRNA. 145 55

Cold shock (10 degrees C) treatment to Saccharomyces cerevisiae cells normally grown at 30 degrees C resulted in splitting of vacuoles and retarded membrane fluidity as detected by phase contrast microscopy and in vivo nuclear magnetic resonance (NMR) studies, respectively. The treatment was found to impart protection against subsequent freezing as studied by cell viability and colony forming efficiency. We have earlier reported similar protection and retarded membrane fluidity as a result of heat shock treatment to these cells (Obuchi et al., 1990). This suggests that cold shock and heat shock treatments to yeast cells evoke some analogous responses. However, biochemically a new 33 kDa protein (CSP 33) was detected upon cold shock treatment which is distinct from heat shock induced family of proteins (Kaul et al., 1992). We present here the first report of this kind and its practical implications for protection against freezing.
Cell Mol Biol (Noisy-le-grand)
PMID:Cold shock response of yeast cells: induction of a 33 kDa protein and protection against freezing injury. 148 8

We isolated, and expressed in Escherichia coli, a gene (Wcs120) that is strongly induced during cold acclimation of wheat. The gene product was purified and used to produce antibodies. Immunoblotting experiments with the anti-WCS120 antibody identified several cold-induced proteins named FTMs for Freezing Tolerance Markers since they are associated with the development of freezing tolerance. This protein family was found to be coordinately regulated specifically by low temperature, highly hydrophilic, stable to boiling, and to have a pI above 6.5. The accumulation kinetics during the acclimation period indicated a positive correlation with the capacity of each genotype to develop freezing tolerance. Accumulation of the proteins was higher in the freezing-tolerant genotype than in the less tolerant one. In addition, their accumulation was more pronounced in the crown and leaf tissues compared with roots, confirming a relationship to the capacity of the different tissues to develop freezing tolerance. Analysis of different species (eight monocots and four dicots) indicated that this protein family is specific for freezing-tolerant cereals. The antibody did not cross-react with any of the non-cereal species examined. The anti-FTMs antibody represents a potential tool for breeders to select for freezing tolerance traits in the Gramineae.
Mol Gen Genet 1992 Jul
PMID:A molecular marker to select for freezing tolerance in Gramineae. 149 83

The denaturation of beta-lactoglobulin in solution with different content of urea and phosphates has been studied calorimetrically. It has been shown that the increase of phosphate ion concentration in solution leads to an increase of beta-lactoglobulin stability, while increase of urea concentration leads to an opposite effect. The variation of these components in solution practically does not influence the value of the heat capacity increment of beta-lactoglobulin in the considered temperature region. Accordingly the denaturation enthalpy is a linear function of temperature whose slope does not differ for solution with urea concentration less than 4.4 M. However, the absolute value of denaturation enthalpy in these solutions at corresponding temperatures differs significantly due to the heat effect of additional urea solvation during transition to the denatured state. The latter leads to a decrease of the overall denaturation enthalpy and, as a result, a shift of the enthalpy plot to higher temperatures providing conditions for studying the thermodynamic and structural characteristics of the molecule in the cold denatured-state.
Mol Biol (Mosk)
PMID:[Calorimetric study of the thermal denaturation of beta-lactoglobulin in the presence of urea and phosphate ions]. 150 64

An mRNA species, HVA1, has been shown to be rapidly induced by abscisic acid (ABA) in barley aleurone layers (Hong, Uknes and Ho, Plant Mol Biol 11: 495-506, 1988). In the current work we have investigated the expression of HVA1 in other organs of barley plants. In developing seeds, HVA1 mRNA is not detected in starchy endosperm cells, yet it accumulates in aleurone layers and embryo starting 25 days after anthesis, and its level remains high in these organs in dry seeds. Although the levels of HVA1 mRNA are equivalent in the dry embryos of dormant and nondormant barley seeds, upon imbibition HVA1 mRNA declines much slower in the dormant than in the nondormant embryos. The HVA1 mRNA and protein levels are highly induced by ABA treatment in all organs of 3-day-old seedlings. However, the induction in the leaf of 7-day-old seedlings is less than one tenth the level observed in the leaf of 3-day-old seedlings. In the leaf, HVA1 mRNA and protein are induced mainly at the base. These observations indicate that the expression of HVA1 is under developmental regulation. Besides the HVA1 protein, a smaller protein (p20) of approximately 20 kDa cross-reacting with anti-HVA1 polyclonal antibodies, is induced by ABA in barley seedlings but not in seeds. HVA1 mRNA is induced by drought, NaCl, cold or heat treatment. Similar to ABA treatment, the drought induction of HVA1 occurs in all the tissues of 3-day-old seedlings, but the induction decreases dramatically in the leaf of 7-day-old plants. The significance of organ-specific, developmentally regulated, and stress-induced expression of HVA1 is discussed.
Plant Mol Biol 1992 Feb
PMID:Developmental and organ-specific expression of an ABA- and stress-induced protein in barley. 153 49

Epididymal sperm cells, incubated with plasmid DNA, showed a spontaneous tendency to interact with the exogenous nucleic acid. We have investigated the molecular basis of such interaction. Exogenous DNA is taken up by sperm cells over a 15- to 20-min period and is specifically localized on the nuclear area of the sperm head. DNA was reversibly bound to spermatozoa since it can be competed out by excess of cold competitor DNA or by other polyanions as heparin and dextran sulphate. By contrast, poly-L-lysine, a polycation, favours the uptake. DNA molecules of large size (7 kb) were preferentially taken up as compared to smaller ones (150-750 bp). Acidic proteins were also taken up and concentrated, as for DNA, at the nuclear level. These data strongly suggested that ionic interactions may occur between foreign molecules and a substrate located in the sperm head. On the basis of Southwestern analysis, a sperm head protein(s) of 30-35 KD is identified as potential substrate for exogenous DNA binding. Moreover, we have found that seminal plasma contains factor(s) which abolish sperm permeability, exerting a powerful inhibitor effect on DNA uptake. The presence of a specific binding protein for the DNA and of a factor inhibiting such interaction support the existence of a mechanism controlling, through specific factors, the sperm-DNA interaction.
Mol Reprod Dev 1992 Mar
PMID:The interaction between exogenous DNA and sperm cells. 155 1


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