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1.
Sodium- and Calcium-Dependent Spike Potentials in the Secretory Neuron Soma of the X-Organ of the Crayfish 总被引:1,自引:0,他引:1
Membrane characteristics of neuron somata in the medulla terminalis ganglionic X-organ of crayfish have been investigated with intracellular glass microelectrodes. The soma membrane developed action potentials with 10–20 mv of overshoot. Delayed rectification appeared at 10–20 mv above resting membrane potential. In 50% of the neuron somata examined, action potentials were observed in Na-free medium or TTX medium. The peak potential level of the spike in these media depended on the extracellular concentration of Ca ion. It increased with the Ca concentration. In low calcium media, the peak potential level of the spike varied with Na concentration. Action potentials of the X-organ-sinus gland tract disappeared after bathing in Na-free or TTX medium, suggesting that the conductive action potential was dependent on Na ions. From these results, it is concluded that there are two systems in the neuron soma, one of which responds to the Na ion and the other, to the Ca ion. Inhibitory innervation of the X-organ by the cerebral ganglion was manifested by IPSP's when the optic peduncle was stimulated. A postulated connection between the Ca-dependent spike and the release of hormone in X-organ neuron somata is discussed. 相似文献
2.
Youko Satow 《Developmental neurobiology》1978,9(1):81-91
Ca or EGTA was ionophoretically injected into Paramecium tetraurelia to change [Ca]1. Ca decreased the resting membrane resistance and hyperpolarized the membrane. EGTA had the opposite effect. EGTA following TEA, which suppress GK, had little effect on resistance or resting potential. The I—V relation at steady state was studied before and after EGTA injection while the cell bathed in either K- or TEA-solution. The response to inward test pulses after EGTA injection was similar to that after TEA injection. These results show that [Ca]i controls a steady-state K permeability in Paramecium tetraurelia. A prolonged Ca-spike was recorded after EGTA injection. The plateau potentials in various Ca concentrations in a TEA-solution show the Nernst slope (29 mV for tenfold change in [Ca]0). This result suggests that the prolonged depolarization in this condition is due to a Ca current, after suppression of K-permeability and when [Ca]i is low. The difficulty of obtaining quantitative data an the internal Ca, and the difference between the effects of EGTA injection and TEA injection are discussed. 相似文献
3.
When carrot explants were cultured with phytohormones, DNA synthesistook place synchronously in the explants and a satellite DNAwith a heavier density in CsCl than the bulk DNA replicatedin the earliest phase of the first replication period. The earlyreplicating carrot satellite consisted of a component havingan identical density to carrot rDNA and another component havinga density between the p-value of carrot rDNA and that of thebulk DNA. DNA-rRNA hybridization was used to explore the possibilitythat this early replication of the satellites leads to amplificationof rDNA in the explant cells, in which massive ribosome synthesisis known to occur. The results showed that there was neitheramplification nor underreplication of rRNA genes during callusformation and its growth. Experiments with explants of Jerusalem artichoke tuber, whichare well known as a synchronous replication system, showed thata component slightly heavier than the bulk DNA was synthesizedat the early phases of the first replication period. However,the density of this early replicating satellite differed fromthat of artichoke rDNA. DNA-rRNA hybridization experiments againshowed no gross changes of rDNA content during dedifferentiationof this plant system. (Received September 30, 1981; Accepted January 5, 1982) 相似文献
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Satow T Ikeda A Yamamoto J Begum T Thuy DH Matsuhashi M Mima T Nagamine T Baba K Mihara T Inoue Y Miyamoto S Hashimoto N Shibasaki H 《American journal of physiology. Gastrointestinal and liver physiology》2004,287(2):G459-G470
We investigated the role of the cerebral cortex, particularly the face/tongue area of the primary sensorimotor (SMI) cortex (face/tongue) and supplementary motor area (SMA), in volitional swallowing by recording movement-related cortical potentials (MRCPs). MRCPs with swallowing and tongue protrusion were recorded from scalp electrodes in eight normal right-handed subjects and from implanted subdural electrodes in six epilepsy patients. The experiment by scalp EEG in normal subjects revealed that premovement Bereitschaftspotentials (BP) activity for swallowing was largest at the vertex and lateralized to either hemisphere in the central area. The experiment by epicortical EEG in patients confirmed that face/tongue SMI and SMA were commonly involved in swallowing and tongue protrusion with overlapping distribution and interindividual variability. BP amplitude showed no difference between swallowing and tongue movements, either at face/tongue SMI or at SMA, whereas postmovement potential (PMP) was significantly larger in tongue protrusion than in swallowing only at face/tongue SMI. BP occurred earlier in swallowing than in tongue protrusion. Comparison between face/tongue SMI and SMA did not show any difference with regard to BP and PMP amplitude or BP onset time in either task. The preparatory role of the cerebral cortex in swallowing was similar to that in tongue movement, except for earlier activation in swallowing. Postmovement processing of swallowing was lesser than that of tongue movement in face/tongue SMI; probably suggesting that the cerebral cortex does not play a significant role in postmovement processing of swallowing. SMA plays a supplementary role to face/tongue SMI both in swallowing and tongue movements. 相似文献
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Ohtani H Miura I Ichikawa Y 《Comparative biochemistry and physiology. Toxicology & pharmacology : CBP》2003,134(2):215-225
To elucidate the mechanisms of amphibian gonadal sex differentiation, we examined the expression of aromatase and androgen receptor (AR) mRNAs for days 17-31 after fertilization. The effects of inhibitors and sex steroid hormones were also examined. In ZZ males, expression of AR decreased after day 19, while aromatase expression was low throughout the sampling period. Males treated with 17beta-estradiol (E2) showed increasing aromatase expression after day 21, and formed ovaries. AR antagonist treatment also induced high-level aromatase expression and ovarian differentiation. In males co-treated with an aromatase inhibitor and E2, the undifferentiated gonads developed into testes despite high-level aromatase expression. Males treated with androgen and E2 before and during an estrogen sensitive period, respectively, also formed testes. In ZW females, AR expression persisted at a low-level, while aromatase expression increased after day 18. Short-term treatment with an aromatase inhibitor was ineffective in preventing ovarian differentiation, whereas long-term treatment resulted in testes developing from ovarian structure. Compared with the ZZ males and ZW females, WW females did not exhibit detectable expression of AR, suggesting that the active AR gene(s) itself, or a putative gene regulating AR gene expression, is located on Z chromosomes. From the time lag of aromatase expression between ZW females and ZZ males treated with E2 and the effect of AR antagonist, it was found that in males elevated AR expression suppresses aromatase expression directly or indirectly. Consequently, endogenous androgens, accumulated by blocking estrogen biosynthesis, induced testicular differentiation. The gonadogenesis of males is dependent on sex hormone, whereas that of females has evolved to hormone-independence. 相似文献
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Protein splicing is a posttranslational cellular process, in which an intervening protein sequence (intein) is self-catalytically excised out from a nascent protein precursor and the two flanking sequences (N- and C-exteins) are ligated to produce two mature enzymes. This unique reaction was first discovered from studies of the structure and expression of the VMA1 gene in Saccharomyces cerevisiae. VMA1 consists of a single open reading frame and yet comprises two independent genetic information for Vma1p (a catalytic 70-kDa subunit of the vacuolar H+-ATPase) and VDE (a 50-kDa DNA endonuclease) as an in-frame spliced insert in the gene. Subsequent studies have demonstrated that protein splicing is not unique for the VMA1 precursor and there are many operons in nature, which implement genetic information editing at protein level. To elucidate its precise reaction mechanisms from a viewpoint of structure-directed chemistry, a series of crystal structural studies has been carried out with the use of splicing-inactive and slowly spliceable precursors of VMA1 recombinants. One precursor structure revealed that the N-terminal junction of the introduced extein polypeptide forms an intermediate containing a five-membered thiazolidine ring. The other precursor structures showed spliced products with a linkage between the N- and C-extein segments. This article summarizes biochemical and structural studies on a self-catalytic mechanism for protein splicing that is triggered and terminated solely via thiazolidine intermediates with tetrahedral configurations formed within the splicing sites where proton ingress and egress are driven by balanced protonation and deprotonation. 相似文献