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971.
Antisense oligonucleotide to PKC-epsilon alters cAMP-dependent stimulation of CFTR in Calu-3 cells 总被引:1,自引:0,他引:1
Liedtke Carole M.; Cole Thomas S. 《American journal of physiology. Cell physiology》1998,275(5):C1357
Protein kinase C(PKC) regulates cystic fibrosis transmembrane conductance regulator(CFTR) channel activity but the PKC signaling mechanism is not yetknown. The goal of these studies was to identify PKC isotype(s)required for control of CFTR function. CFTR activity was measured as36Cl efflux in a Chinese hamsterovary cell line stably expressing wild-type CFTR (CHO-wtCFTR) and in aCalu-3 cell line. Chelerythrine, a PKC inhibitor, delayed increasedCFTR activity induced with phorbol 12-myristate 13-acetate or with thecAMP-generating agents ()-epinephrine or forskolin plus8-(4-chlorophenylthio)adenosine 3',5'- cyclicmonophosphate. Immunoblot analysis of Calu-3 cells revealed thatPKC-, -II, -, -, and- were expressed in confluent cell cultures. Pretreatment of cellmonolayers with Lipofectin plus antisense oligonucleotide to PKC-for 48 h prevented stimulation of CFTR with ()-epinephrine,reduced PKC- activity in unstimulated cells by 52.1%, and decreasedPKC- mass by 76.1% but did not affect hormone-activated proteinkinase A activity. Sense oligonucleotide to PKC- and antisenseoligonucleotide to PKC- and - did not alter()-epinephrine-stimulated CFTR activity. These results demonstrate the selective regulation of CFTR function by constitutively active PKC-. 相似文献
972.
Richard T. Conant Jeffery M. Klopatek Robert C. Malin Carole C. Klopatek 《Biogeochemistry》1998,43(1):43-61
Carbon pools and fluxes were quantified along an environmentalgradient in northern Arizona. Data are presented on vegetation, litter, andsoil C pools and soil CO2 fluxesfrom ecosystems ranging from shrub-steppe through woodlands to coniferousforest and the ecotones in between. Carbon pool sizes and fluxes in thesesemiarid ecosystems vary with temperature and precipitation and are stronglyinfluenced by canopy cover. Ecosystem respiration is approximately 50percent greater in the more mesic, forest environment than in the dryshrub-steppe environment. Soil respiration rates within a site varyseasonally with temperature but appear to be constrained by low soilmoisture during dry summer months, when approximately 75% of totalannual soil respiration occurs. Total annual amount of CO2 respired across all sites ispositively correlated with annual precipitation and negatively correlatedwith temperature. Results suggest that changes in the amount and periodicityof precipitation will have a greater effect on C pools and fluxes than willchanges in temperature in the semiarid Southwestern United States. 相似文献
973.
Salinity stress proteins in Eurytemora affinis 总被引:5,自引:1,他引:4
Seasonal densities of Eurytemora affinis, a calanoid copepod in the Chesapeake Bay, seem to be controlled by temperature and salinity. To examine the role of osmotic stress we analyzed protein synthesis under various conditions of temperature and osmotic stress. Adult females were exposed in groups for 5 hours to different temperature and salinity regimes in the presence of isotope-labelled amino acid. Newly synthesized (stress) proteins could be separated and identified using polyacrylamide gel electrophoresis and autoradiography. The protein profiles occurring in copepods experiencing osmotic shock alone were different from those of control animals. Copepods transferred to lower (2 and 5) and higher (15 and 20) salinities showed differences in the up- and down-regulation of specific proteins. Concurrent heat stress changed these protein patterns. Animals experiencing osmotic and heat shock at the same time exhibited enhanced expression of another set of proteins. Variation in induced proteins occurred among individuals. 相似文献
974.
975.
Molecular Basis of Fructose Utilization by the Wine Yeast Saccharomyces cerevisiae: a Mutated HXT3 Allele Enhances Fructose Fermentation
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Carole Guillaume Pierre Delobel Jean-Marie Sablayrolles Bruno Blondin 《Applied microbiology》2007,73(8):2432-2439
Fructose utilization by wine yeasts is critically important for the maintenance of a high fermentation rate at the end of alcoholic fermentation. A Saccharomyces cerevisiae wine yeast able to ferment grape must sugars to dryness was found to have a high fructose utilization capacity. We investigated the molecular basis of this enhanced fructose utilization capacity by studying the properties of several hexose transporter (HXT) genes. We found that this wine yeast harbored a mutated HXT3 allele. A functional analysis of this mutated allele was performed by examining expression in an hxt1-7Δ strain. Expression of the mutated allele alone was found to be sufficient for producing an increase in fructose utilization during fermentation similar to that observed in the commercial wine yeast. This work provides the first demonstration that the pattern of fructose utilization during wine fermentation can be altered by expression of a mutated hexose transporter in a wine yeast. We also found that the glycolytic flux could be increased by overexpression of the mutant transporter gene, with no effect on fructose utilization. Our data demonstrate that the Hxt3 hexose transporter plays a key role in determining the glucose/fructose utilization ratio during fermentation. 相似文献
976.
977.
978.
Cultures of Chlamydomonas eugametos, Chl. sp., Carteria eugametos, C. crucifera, C. radiosa, and C. sp. were examined with the electron microscope to determine generic differences between Carteria and Chlamydomonas at the ultrastructural level. The ultrastructure of the flagella, mitochondria, dictyosomes, nuclei and ground substance was noted to be similar in all species. The cellular boundary of all species except Chlamydomonas eugametos contains a 250 A intermediate layer of unknown chemical composition between the fibrillar cellulose wall and the outer capsule layer. Four structural features other than the number of flagella distinguish Carteria from Chlamydomonas: the intermediate layer of the cellular boundary, the chloroplast, the pyrenoid and the eyespot. Only in the Carteria species is the intermediate layer traversed by striations or 12-mμ-wide bars. Striations in the cellulose wall surrounding the flagellar channels also appear in Carteria eugametos and C. crucifera. The chloroplast lamellae of the Carteria species are grouped into discrete stacks of invaginated thylakoids termed pseudograna. The chloroplast lamellae of Chlamydomonas are broad and sheet-like and are also invaginated although less frequently than are the pseudograna of Carteria. The phenomenon of infolding of the chloroplast lamellae is suggested as a general developmental process in the formation of new thylakoids. In Carteria, single thylakoids traverse the pyrenoid and there are 2 rows of granules in the eyespot. Favorable micrographs of the eyespot indicate that the granules may be osmiophilic granules of the chloroplast chemically modified for a photoreceptive function. 相似文献
979.
Sandra Segura‐Bayona Gabriel Gil‐Gómez Sameh A Youssef Camille Stephan‐Otto Attolini Michaela Wilsch‐Bräuninger Carole Jung Ana M Rojas Marko Marjanović Philip A Knobel Lluís Palenzuela Teresa López‐Rovira Stephen Forrow Wieland B Huttner Miguel A Valverde Alain de Bruin Vincenzo Costanzo Travis H Stracker 《The EMBO journal》2016,35(9):942-960
The generation of multiciliated cells (MCCs) is required for the proper function of many tissues, including the respiratory tract, brain, and germline. Defects in MCC development have been demonstrated to cause a subclass of mucociliary clearance disorders termed reduced generation of multiple motile cilia (RGMC). To date, only two genes, Multicilin (MCIDAS) and cyclin O (CCNO) have been identified in this disorder in humans. Here, we describe mice lacking GEMC1 (GMNC), a protein with a similar domain organization as Multicilin that has been implicated in DNA replication control. We have found that GEMC1‐deficient mice are growth impaired, develop hydrocephaly with a high penetrance, and are infertile, due to defects in the formation of MCCs in the brain, respiratory tract, and germline. Our data demonstrate that GEMC1 is a critical regulator of MCC differentiation and a candidate gene for human RGMC or related disorders. 相似文献
980.