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201.
1. Nitric oxide (NO) is thought to play a neuromodulatory role in the nervous system of vertebrate and invertebrate species.
In the hornworm Manduca sexta, NO-mediated signaling has been implicated in behavioral and developmental processes, but its exact function in neurons is
unknown. In this study, we identify specific neurons in the CNS of Manduca larvae that accumulate cGMP in response to treatment with NO donors in the presence of cGMP-phosphodiesterase inhibitors.
Subsets of these neurons were identified as motoneuron-12 (MN12) and intersegmental motoneurons (ISMs), which innervate dorsal
oblique muscles of the larvae.
2. To investigate the physiological role of NO-evoked increases in cGMP in these motoneurons we performed intracellular recordings;
we found that application of NO donors caused an increase in neuronal excitability that was characterized by an increase in
the spontaneous firing frequency. When action potentials and EPSPs were blocked, NO treatment evoked a depolarization of the
resting membrane potential and a decrease in the measured input resistance in both MN12 and the ISMs.
3. Additional experiments with MN12 showed that treatment with the cGMP analogue, 8-Br-cGMP mimicked the NO effect on the
resting potential and the input resistance. Furthermore, MN12 incubation with the NOS inhibitor, L-NNA, resulted in a small
hyperpolarization of the resting potential and an increase in the input resistance, and incubation with the sGC inhibitor,
ODQ blocked the NO-evoked depolarization of MN12. Finally, NO treatment during voltage clamping of MN12 evoked an inward positive
current.
4. Taken together, these results suggest that NO can act as a “gain control” of neuronal excitability, which might have an
important role in insect behavior. 相似文献
202.
Liane FM Finotelo Paulo JS Amaral Julio C Pieczarka Edivaldo HC de Oliveira Alcides Pissinati Michaela Neusser Stephan Müller Cleusa Y Nagamachi 《BMC evolutionary biology》2010,10(1):189
Background
The New World monkey (Platyrrhini) subfamily Pitheciinae is represented by the genera Pithecia, Chiropotes and Cacajao. In this work we studied the karyotypes of Pithecia irrorata (2n = 48) and Cacajao calvus rubicundus (2n = 45 in males and 2n = 46 in females) by G- and C-banding, NOR staining and chromosome painting using human and Saguinus oedipus whole chromosome probes. The karyotypes of both species were compared with each other and with Chiropotes utahicki (2n = 54) from the literature. 相似文献203.
Jon T. Sack Nicholas Stephanopoulos Daniel C. Austin Matthew B. Francis James S. Trimmer 《The Journal of general physiology》2013,142(3):315-324
A family of 40 mammalian voltage-gated potassium (Kv) channels control membrane excitability in electrically excitable cells. The contribution of individual Kv channel types to electrophysiological signaling has been difficult to assign, as few selective inhibitors exist for individual Kv subunits. Guided by the exquisite selectivity of immune system interactions, we find potential for antibody conjugates as selective Kv inhibitors. Here, functionally benign anti-Kv channel monoclonal antibodies (mAbs) were chemically modified to facilitate photoablation of K currents. Antibodies were conjugated to porphyrin compounds that upon photostimulation inflict localized oxidative damage. Anti-Kv4.2 mAb–porphyrin conjugates facilitated photoablation of Kv4.2 currents. The degree of K current ablation was dependent on photon dose and conjugate concentration. Kv channel photoablation was selective for Kv4.2 over Kv4.3 or Kv2.1, yielding specificity not present in existing neurotoxins or other Kv channel inhibitors. We conclude that antibody–porphyrin conjugates are capable of selective photoablation of Kv currents. These findings demonstrate that subtype-specific mAbs that in themselves do not modulate ion channel function are capable of delivering functional payloads to specific ion channel targets. 相似文献
204.
205.
The mechanical properties of soft tissues are important for the control of motion in many invertebrates. Pressurized cylindrical animals such as worms have circumferential reinforcement of the body wall; however, no experimental characterization of comparable anisotropy has been reported for climbing larvae such as caterpillars. Using uniaxial, real-time fluorescence extensometry on millimeter scale cuticle specimens we have quantified differences in the mechanical properties of cuticle to circumferentially and longitudinally applied forces. Based on these results and the composite matrix-fiber structure of cuticle, a pseudo-elastic transversely isotropic constitutive material model was constructed with circumferential reinforcement realized as a Horgan-Saccomandi strain energy function. This model was then used numerically to describe the anisotropic material properties of Manduca cuticle. The constitutive material model will be used in a detailed finite-element analysis to improve our understanding of the mechanics of caterpillar crawling. 相似文献
206.
Combination of in situ hybridization and immunocytochemistry to detect messenger RNAs in identified CNS neurons and glia in tissue culture 总被引:1,自引:0,他引:1
P A Trimmer L L Phillips O Steward 《The journal of histochemistry and cytochemistry》1991,39(7):891-898
We have developed a technique in which immunofluorescence is combined with in situ hybridization using cDNA and RNA probes to assess the expression and distribution of messenger RNAs (mRNA) by neurons and neuroglia in tissue cultures of the rat dentate gyrus. The probes used in this study include a cDNA probe for ribosomal RNA (rRNA) and an RNA probe (cRNA) for glial fibrillary acidic protein (GEAP), an intermediate filament protein subunit expressed by astrocytes in the central nervous system. Both ubiquitous (tubulin) and cell type-specific (MAP-2 and GEAP) antibodies were used to identify neurons and neuroglia in culture. Using this procedure, the mRNA for rRNA was found in the cell bodies and large processes of MAP-2-positive neurons and throughout the cytoplasm of GEAP-positive flat astrocytes. In process-bearing astrocytes, GEAP mRNA is concentrated in the cell body, although some hybridization also occurred in astrocyte cell processes. With this combined in situ hybridization-immunofluorescence technique, the expression and distribution of an mRNA can be examined in different immunocytochemically identified cell types under identical culture and hybridization conditions. It is also possible to determine if there is a differential subcellular distribution of an mRNA in a single cell and if the distribution of the mRNA reflects the distribution of the protein itself. Finally, this technique can be utilized to verify the specificity of probes for cell type-specific mRNAs and to determine appropriate hybridization conditions to produce a specific signal. 相似文献
207.
208.
Shechinah Felice Choragudi Ganesh Kumar Veeramachaneni BV Raman Bondili JS 《Bioinformation》2014,10(8):507-511
Endo- β-N-acetylgucosaminidases (ENGases) are the enzymes that catalyze both hydrolysis and
transglycosylation reactions. It is of interest to study ENGases because of their ability to synthesize glycopeptides.
Homology models of Human, Arabidopsis thaliana and Sorghum ENGases were developed and their active sites
marked based on information available from Arthrobacter protophormiae (PDB ID: 3FHQ) ENGase. Further, these
models were docked with the natural substrate GlcNAc-Asn and the inhibitor Man3GlcNAc-thiazoline. The catalytic
triad of Asn, Glu and Tyr (N171, E173 and Y205 of bacteria) were found to be conserved across the phyla. The crucial
Y299F mutation showing 3 times higher transglycosylation activity than in wild type Endo-A is known. The hydrolytic
activity remained unchanged in bacteria, while the transglycosylation activity increased. This Y to F change is found
to be naturally evolved and should be attributing higher transglycosylation rates in human and Arabidopsis thaliana
ENGases. Ligand interactions Ligplots revealed the interaction of amino acids with hydrophobic side chains and polar
uncharged side chain amino acids. Thus, structure based molecular model-ligand interactions provide insights into
the catalytic mechanism of ENGases and assist in the rational engineering of ENGases. 相似文献
209.
210.