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91.
Cell-intrinsic differences between stem cells from different regions of the peripheral nervous system regulate the generation of neural diversity 总被引:14,自引:0,他引:14
Stem cells in different regions of the nervous system give rise to different types of mature cells. This diversity is assumed to arise in response to local environmental differences, but the contribution of cell-intrinsic differences between stem cells has been unclear. At embryonic day (E)14, neural crest stem cells (NCSCs) undergo primarily neurogenesis in the gut but gliogenesis in nerves. Yet gliogenic and neurogenic factors are expressed in both locations. NCSCs isolated by flow-cytometry from E14 sciatic nerve and gut exhibited heritable, cell-intrinsic differences in their responsiveness to lineage determination factors. Gut NCSCs were more responsive to neurogenic factors, while sciatic nerve NCSCs were more responsive to gliogenic factors. Upon transplantation of uncultured NCSCs into developing peripheral nerves in vivo, sciatic nerve NCSCs gave rise only to glia, while gut NCSCs gave rise primarily to neurons. Thus, cell fate in the nerve was stem cell determined. 相似文献
92.
93.
The hypothesis that specific protein kinase C (PKC) isoforms regulate dopamine transporter (DAT) function was tested in Xenopus laevis oocytes expressing human (h)DAT. Activation of conventional PKCs (cPKCs) and novel PKCs (nPKCs) using 10 nM phorbol 12-myristate 13-acetate (PMA) significantly inhibited DAT-associated transport currents. This effect was reversed by isoform-non-selective PKC inhibitors, selective inhibitors of cPKCs and deltaPKC, and by Ca2+ chelation. By contrast, the epsilonPKC translocation inhibitor peptide had no effect on PMA-induced inhibition of hDAT transport-associated currents. Thus, the primary mechanism by which PMA regulates hDAT expressed in oocytes appears to be by activating cPKC(s). 相似文献
94.
Synthesis of histone H4 by mouse oocytes and unfertilized eggs has been examined by using a modified high-resolution two-dimensional gel electrophoresis procedure capable of resolving basic proteins (M. J. LaMarca and P. M. Wassarman, 1979, Develop. Biol.73, 103–119). Histones were separated on such gels and observed rates of incorporation of [35S]methionine into histone H4 were converted into absolute rates of synthesis by using previously determined values for the absolute rates of total protein synthesis in mouse oocytes and unfertilized eggs Schultz et al., 1979a, Schultz et al., 1979b. Histone H4 was synthesized at all stages of oogenesis examined, and accounted for 0.07, 0.05, and 0.04% of total protein synthesis in growing oocytes, fully grown oocytes, and unfertilized eggs, respectively. During oocyte maturation the absolute rate of histone H4 synthesis decreased by about 40%, as compared to a 23% decrease in the rate of total protein synthesis during the same period. These measurements indicate that enough histone is synthesized during oogenesis in the mouse to support two to three cell divisions. Examination of the intracellular location of newly synthesized proteins in fully grown oocytes revealed that histone H4 was highly concentrated in the nucleus (germinal vesicle), whereas total protein and tubulin were not. Nearly 50% of the histone H4 synthesized during a 5-hr period was located in the oocyte's germinal vesicle, as compared to 1.9 and 0.9% for total protein and tubulin, respectively. These results are compared with those obtained using oocytes and eggs from nonmammalian animal species. 相似文献
95.
Understanding the factors that affect the activity of Human T-cell Leukemia Virus type I (HTLV-I) protease is essential for the discovery of inhibitors to be used for the treatment of HTLV-I infection, but little has been reported on the protease to date. Here we report the production of HTLV-I protease in purified yields greater than 150 mg/L, determination of its extinction coefficient, and determination of the optimum conditions for cleavage of the p19/24 substrates (DABCYL)-(GABA)-PQVL-Nph-VMH-(EDANS), (DABSYL)-(GABA)-PQVL-Nph-VMH-(EDANS), and (DABSYL)-(GABA)-PQVLPVMH-(EDANS). The highest activity was found at pH 5.2-5.3 and 37 degrees C. There was no effect on activity upon change in sodium chloride concentration from 0 to 1500 mM. The values of K(m) and k(cat) for cleavage of these substrates by the protease with and without the histidine tag were determined. 相似文献
96.
Two alleles of 10.1 and 8.1 kb of the human glycogen synthase gene have been revealed with the restriction enzyme EcoRI. 相似文献
97.
Ronald W. Wilen Ping Fu Albert J. Robertson Suzanne R. Abrams Nicholas H. Low Lawrence V. Gusta 《Planta》1996,200(1):138-143
The application of abscisic acid (ABA), either as a racemic mixture or as optically resolved isomers, increases freezing tolerance in a bromegrass (Bromus inermis Leyss) cell culture and induces the accumulation of several heat-stable proteins. Two stereoisomers of an ABA analog, 23 dihydroacetylenic abscisyl alcohol (DHA), were used to study the role of ABA-induced processes in the acquisition of freezing tolerance in these cells. Freezing tolerance was unchanged in the presence of (–) DHA (LT50 -9°C), and no increase in heat-stable protein accumulation was detected; however, the (+) enantiomer increased the freezing tolerance (LT50 -13°C) and induced the accumulation of these polypeptides. All three forms of ABA increased freezing tolerance in the bromegrass cells, although (–) ABA was less effective than either (+) or (±) ABA when added at equal concentrations. Cells pretreated with 20 or 50 M (–) DHA displayed lower levels of freezing tolerance following the addition of 2.5, 7.5 or 25 M (±) ABA. Full freezing tolerance could be restored by increasing the concentration of (±) ABA to > 25 M. Pretreatment of cells with (–) DHA (20 or 50 M) had no effect on freezing tolerance when 25 M (+) ABA was added. The induction of freezing tolerance by 25 M (–) ABA was completely inhibited by the presence of 20 M (–) DHA. The accumulation of ABA-responsive heat-stable proteins was inhibited by pretreatment with 20 M (–) DHA in cells treated with 2.5 or 7.5M (+) ABA, and in cells treated with 25 M (–) ABA. The accumulation of these polypeptides was restored when (±) or (+) ABA was added at a concentration of 25 M. The analysis of proteins which cross-reacted with a dehydrin antibody revealed a similar inhibitory pattern as seen with the other ABA-responsive proteins. The effects of the various isomers of ABA and DHA on cell osmolarity and sucrose uptake was also investigated. In both cases, (±) and (+) ABA had pronounced effects on the parameters measured, whereas (–) ABA treated cells gave substantially different results. In both sucrose uptake and cell osmolarity, DHA had no significant effect on the results obtained following (±) or (+) ABA treatment. Maximum freezing tolerance was only observed in cells when both heat-stable protein accumulation and sucrose uptake were observed.Abbreviations ABA
abscisic acid
- DHA
2,3 dihydroacetylenicabscisyl alcohols
- DMSO
dimethyl sulfoxide
- LT50
temperature at which 50% of cells are killed
The authors would like to acknowledge the technical assistance of Angela Bollman, Bruce Ewan and Angela Shaw. This work was supported by grants from the Natural Science and Engineering Research Council of Canada to L.V.G. and N.H.L., and a grant from the University of Saskatchewan to R.W.W. 相似文献
98.
Selection of Specific Endophytic Bacterial Genotypes by Plants in Response to Soil Contamination 总被引:8,自引:2,他引:8 下载免费PDF全文
Steven D. Siciliano Nathalie Fortin Anca Mihoc Gesine Wisse Suzanne Labelle Danielle Beaumier Danielle Ouellette Real Roy Lyle G. Whyte M. Kathy Banks Paul Schwab Ken Lee Charles W. Greer 《Applied microbiology》2001,67(6):2469-2475
Plant-bacterial combinations can increase contaminant degradation in the rhizosphere, but the role played by indigenous root-associated bacteria during plant growth in contaminated soils is unclear. The purpose of this study was to determine if plants had the ability to selectively enhance the prevalence of endophytes containing pollutant catabolic genes in unrelated environments contaminated with different pollutants. At petroleum hydrocarbon contaminated sites, two genes encoding hydrocarbon degradation, alkane monooxygenase (alkB) and naphthalene dioxygenase (ndoB), were two and four times more prevalent in bacteria extracted from the root interior (endophytic) than from the bulk soil and sediment, respectively. In field sites contaminated with nitroaromatics, two genes encoding nitrotoluene degradation, 2-nitrotoluene reductase (ntdAa) and nitrotoluene monooxygenase (ntnM), were 7 to 14 times more prevalent in endophytic bacteria. The addition of petroleum to sediment doubled the prevalence of ndoB-positive endophytes in Scirpus pungens, indicating that the numbers of endophytes containing catabolic genotypes were dependent on the presence and concentration of contaminants. Similarly, the numbers of alkB- or ndoB-positive endophytes in Festuca arundinacea were correlated with the concentration of creosote in the soil but not with the numbers of alkB- or ndoB-positive bacteria in the bulk soil. Our results indicate that the enrichment of catabolic genotypes in the root interior is both plant and contaminant dependent. 相似文献
99.
A Genetic Polymorphism in Coumarin 7-Hydroxylation: Sequence of the Human CYP2A Gnes and Identification of Variant CYP2A6 Alleles 下载免费PDF全文
Pedro Fernandez-Salguero Susan M. G. Hoffman Suzanne Cholerton Harvey Mohrenweiser Hannu Raunio Arja Rautio Olavi Pelkonen Jin-ding Huang William E. Evans Jeffrey R. Idle Frank J. Gonzalez 《American journal of human genetics》1995,57(3):651-660
A group of human cytochrome P450 genes encompassing the CYP2A, CYP2B, and CYP2F subfamilies were cloned and assembled into a 350-kb contig localized on the long arm of chromosome 19. Three complete CYP2A genes—CYP2A6, CYP2A7, and CYP2A13—plus two pseudogenes truncated after exon 5, were identified and sequenced. A variant CYP2A6 allele that differed from the corresponding CYP2A6 and CYP2A7 cDNAs previously sequenced was found and was designated CYP2A6ν2. Sequence differences in the CYP2A6ν2 gene are restricted to regions encompassing exons 3, 6, and 8, which bear sequence relatedness with the corresponding exons of the CYP2A7 gene, located downstream and centromeric of CYP2A6ν2, suggesting recent gene-conversion events. The sequencing of all the CYP2A genes allowed the design of a PCR diagnostic test for the normal CYP2A6 allele, the CYP2A6ν2 allele, and a variant—designated CYP2A6ν1—that encodes an enzyme with a single inactivating amino acid change. These variant alleles were found in individuals who were deficient in their ability to metabolize the CYP2A6 probe drug coumarin. The allelic frequencies of CYP2A6ν1 and CYP2A6ν2 differed significantly between Caucasian, Asian, and African-American populations. These studies establish the existence of a new cytochrome P450 genetic polymorphism. 相似文献
100.
The vast majority of lakes examined worldwide emit CO2 to the overlying atmosphere, through a process by which catchment-derived subsidies of terrigenous C, often in the form of
dissolved organic carbon (DOC), augment within-lake CO2 production above the level consumed via photosynthesis. We show that shallow, macrophyte-rich lakes of the Mackenzie Delta,
western Canadian Arctic, do not follow this pattern. These lakes are strong summertime CO2 absorbers, despite DOC concentrations at or above levels commonly shown to produce CO2 emission. Paradoxically, CO2 levels were lowest where DOC was greatest, in lakes which appear to be annual net CO2 absorbers, and have poor hydrologic connection to the terrestrial landscape. CO2 in these lakes is depleted by high macrophyte productivity, and although catchment-derived C subsidies are low, within-lake
DOC generation appears to occur as a byproduct of macrophyte photosynthesis and evapoconcentration. Additionally, after accounting
for DOC and macrophytes, lakes that were least connected to the larger terrestrial landscape remained weaker CO2 absorbers, suggesting that CO2 balance may also be affected by DOC quality, foodweb structure, or inputs of pCO2-rich riverwater to connected lakes. In contrast, a small subset of Delta lakes that were strongly affected by permafrost
melting were CO2 emitters, suggesting future permafrost degradation could engender a change in the overall CO2 balance of these lakes from near-CO2 neutral over the ice-free season, to clear CO2 emission. Our work suggests that the current paradigm of lakewater CO2 regulation may need to specifically incorporate shallow, productive lakes, and those that are poorly connected to their surrounding
landscape.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.
ST, LL, and RH designed the study, ST performed research, ST analyzed data, ST, LL, and RH wrote the paper. 相似文献