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81.
Calciumchannels are important in a variety of cellular events including musclecontraction, signaling, proliferation, and apoptosis.Sphingolipids have been recognized as mediators of intracellularcalcium release through their actions on a calcium channel,sphingolipid calcium release-mediating protein of the endoplasmicreticulum (SCaMPER). The current study investigates the expression andfunction of SCaMPER in cardiomyocytes. Northern analyses and RT-PCRcloning and sequencing revealed SCaMPER expression in both human andrat cardiac tissue. Immunofluorescence and Western blot analysesdemonstrated that SCaMPER is abundant in cardiac tissue and islocalized to the sarcotubular junction. This was confirmed by thecolocalization of SCaMPER with dihydropyridine and ryanodine receptorsby confocal microscopy. Purified T tubules were shown to containSCaMPER and immunoelectron micrographs suggested that SCaMPER islocated to the junctional T tubules, but a junctional SR localizationcannot be ruled out. The sphingolipid ligand for SCaMPER,sphingosylphosphorylcholine (SPC), initiated calcium release from thecardiomyocyte SR. Importantly, antisense knockdown of SCaMPER mRNAproduced a substantial reduction of sphingolipid-induced calciumrelease, suggesting that SCaMPER is a potentially important calciumchannel of cardiomyocytes.

  相似文献   
82.
The serine -lactamases present a special problem for phylogenetics because they have diverged so much that they fall into three classes that share no detectable sequence homology among themselves. Here we offer a solution to the problem in the form of two phylogenies that are based on a protein structure alignment. In the first, structural alignments were used as a guide for aligning amino acid sequences and in the second, the average root mean square distances between the alpha carbons of the proteins were used to create a pairwise distance matrix from which a neighbor-joining phylogeny was created. From those phylogenies, we show that the Class A and Class D -lactamases are sister taxa and that the divergence of the Class C -lactamases predated the divergence of the Class A and Class D -lactamases.  相似文献   
83.
Taste buds are multicellular receptor organs innervated by the VIIth, IXth, and Xth cranial nerves. In most vertebrates, taste buds differentiate after nerve fibers have reached the lingual epithelium, suggesting that nerves induce taste buds. However, under experimental conditions, taste buds of amphibians develop independently of innervation. Thus, rather than being induced by nerves, the developing taste periphery likely regulates ingrowing nerve fibers. To test this idea, we devised a culture approach using axolotl embryos. Gustatory neurons were generated from cultured epibranchial placodes, and when cultured alone, axon outgrowth was random over 4 days, a time period coincident with axon growth to the periphery in vivo. In contrast, cocultures of placodal neurons with oropharyngeal endoderm (OPE), the normal taste bud-containing target for these neurons, resulted in neurite growth toward the target tissue. Unexpectedly, placodal neurons also grew toward flank ectoderm (FE), which these neurons do not encounter in vivo. To compare further the impact of OPE and FE explants on gustatory neurons, cocultures were extended and examined at 6, 8, and 10 days, when, in vivo, placodal fibers have innervated the epithelium but prior to taste bud formation, when taste buds have differentiated and are innervated, and when the mouth has opened and larvae have begun to feed, respectively. The behavior of placodal axons with respect to target type did not differ between OPE and FE cocultures at 6 days. However, by 8 days, differences in axonal outgrowth were observed with respect to target type, and these differences were enhanced by 10 days in vitro. Most clearly, exuberant placodal fibers grew in 10-day OPE cocultures, and numerous neurites had invaded OPE explants by this time, whereas gustatory neurites were sparse in FE cocultures, and rarely approached and almost never contacted FE explants. Thus, embryonic endoderm destined to give rise to taste buds specifically attracts its innervation early in development, as placodal neurons send out axons. Later, when gustatory axons synapse with differentiated taste buds in vivo, the OPE provides trophic support for cultured gustatory neurons.  相似文献   
84.
Experimental prediction of the natural evolution of antibiotic resistance   总被引:5,自引:0,他引:5  
Barlow M  Hall BG 《Genetics》2003,163(4):1237-1241
The TEM family of beta-lactamases has evolved to confer resistance to most of the beta-lactam antibiotics, but not to cefepime. To determine whether the TEM beta-lactamases have the potential to evolve cefepime resistance, we evolved the ancestral TEM allele, TEM-1, in vitro and selected for cefepime resistance. After four rounds of mutagenesis and selection for increased cefepime resistance each of eight independent populations reached a level equivalent to clinical resistance. All eight evolved alleles increased the level of cefepime resistance by a factor of at least 32, and the best allele improved by a factor of 512. Sequencing showed that alleles contained from two to six amino acid substitutions, many of which were shared among alleles, and that the best allele contained only three substitutions.  相似文献   
85.
In the mouse the insulin-like growth factor receptor type 2 gene (Igf2r) is imprinted and maternally expressed. Igf2r encodes a trans-membrane receptor that transports mannose-6-phosphate tagged proteins and insulin-like growth factor 2 to lysosomes. During development the receptor reduces the amount of insulin-like growth factors and thereby decreases embryonic growth. The dosage of the gene is tightly regulated by genomic imprinting, leaving only the maternal copy of the gene active. Although the function of Igf2r in development is well established, the function of imprinting the gene remains elusive. Gene targeting experiments in mouse have demonstrated that the majority of genes are not sensitive to gene dosage, and mice heterozygous for mutations generally lack phenotypic alterations. To investigate whether reduction of Igf2r gene dosage by genomic imprinting has functional consequences for development we generated a non-imprinted allele (R2Delta). We restored biallelic expression to Igf2r by deleting a critical element for repression of the paternal allele (region 2) in mouse embryonic stem cells. Maternal inheritance of the R2Delta allele has no phenotype; however, paternal inheritance results in biallelic expression of Igf2r, which causes a 20% reduction in weight late in embryonic development that persists into adulthood. Paternal inheritance of the R2Delta allele rescues the lethality of a maternally inherited Igf2r null allele and a maternally inherited Tme (T-associated maternal effect) mutation. These data show that the biological function of imprinting Igf2r is to increase birth weight and they also establish Igf2r as the Tme gene.  相似文献   
86.
87.
Analysis of the cytoskeleton in morphogenetically active plant cells allows us to propose a unified concept for the structural organization of eukaryotic cells. Their cytoarchitecture is determined by two principal structural complexes: nucleus-microtubule-based cell bodies ("bugs") and plasma-membrane-F-actin-based cell periphery complexes ("cages"). There are dynamic interactions between each of these entities in response to extracellular and intracellular signals. In the case of the cell body, these signals determine its polarization, rotation and migration. Interactions between cell body and cell periphery complexes determine cell growth polarity and morphogenesis throughout the eukaryotic kingdom.  相似文献   
88.
Questions about brain function and disease are being addressed with parallel genomic approaches. High-density DNA arrays make it possible to monitor the expression levels of thousands of genes at a time, and are being used to address old questions in new ways and to generate new hypotheses about the workings of the brain.  相似文献   
89.
The OXA genes encode a class of b-lactamases that confer resistance to a wide range of b-lactam antibiotics. To determine whether the diversity of the OXA b-lactamases is the result of recent or ancient events, and to determine whether mobilization of the OXA genes from chromosomes to plasmids occurred recently or long ago, we have constructed a Bayesian phylogeny of the OXA b-lactamase genes. Analysis of that phylogeny shows that much of the diversity is the result of ancient events and that the OXA genes were mobilized from chromosomes to plasmids on at least two independent occasions that occurred millions of years ago. That observation contradicts the commonly held impression that mobilization of antibiotic resistance genes is strictly the result of modern use of antibiotics.  相似文献   
90.
Using simple arithmetical formulae, it is shown that, when the meristematic initial cells of a growing plant organ are arranged in a ring, the cellular dimensions predict the relative frequencies of anticlinal and periclinal divisions which these cells undergo. The pattern of cell file branching which appears during the course of development, and which is predicted by this mathematical model, is validated using data pertaining to the numbers and dimensions of initial cells within the secondary vascular cambium of hybrid aspen trees. Data pertaining to a second, simpler set of initial cells which comprises the outer cellular ring of the thallus of the alga Coleochaete orbicularis, and from which all the radial cell files of the circular disc-like thallus are descended, have also been used for model validation. Combining the mathematical approach to division frequencies with data of actual cell sizes permits inferences about the course of the increase of the number of cell files (generated by the anticlinal divisions) and the number of cells within each file (generated by the periclinal divisions) during the earlier stages of secondary tissue or thallus development, and also about how they will develop at future stages. The question whether or not cell division patterns conform to the geometry of the system in which the cells are embedded is also discussed.  相似文献   
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