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11.
Human spermatids and spermatozoa lacking acrosomes 总被引:2,自引:0,他引:2
12.
Depth-Independent Reproduction in the Reef Coral Porites astreoides from Shallow to Mesophotic Zones
Mesophotic coral ecosystems between 30–150 m may be important refugia habitat for coral reefs and associated benthic communities from climate change and coastal development. However, reduced light at mesophotic depths may present an energetic challenge to the successful reproduction of light-dependent coral organisms, and limit this refugia potential. Here, the relationship of depth and fecundity was investigated in a brooding depth-generalist scleractinian coral, Porites astreoides from 5–37 m in the U.S. Virgin Islands (USVI) using paraffin tissue histology. Despite a trend of increasing planulae production with depth, no significant differences were found in mean peak planulae density between shallow, mid-depth and mesophotic sites. Differential planulae production over depth is thus controlled by P. astreoides coral cover, which peaks at 10 m and ~35 m in the USVI. These results suggest that mesophotic ecosystems are reproductive refuge for P. astreoides in the USVI, and may behave as refugia for P. astreoides metapopulations providing that vertical larval exchanges are viable. 相似文献
13.
Impaired hypoglycemia awareness affects approximately 25% of all patients with type 1 diabetes (T1DM). Duration of diabetes and tight glycemic control represent main risk factors of impaired hypoglycemia awareness. However, even among patients with good glycemic control and longstanding T1DM, awareness of hypoglycemia may be intact. Genetic factors might explain some of this remaining variability. Recently, the insertion/deletion ( I/ D) polymorphism in angiotensin converting enzyme gene ( ACE) was shown to be associated with significantly higher risk of hypoglycemic events in subjects with T1DM. Here, we studied the effects of genetic polymorphisms in the ACE on impaired hypoglycemia awareness in 231 Caucasian T1DM patients. Hypoglycemia awareness status was determined using standardized questionnaires (Clarke et al. and Edinburgh Hypoglycemia Scale). ACE I/ D genotype was determined by PCR amplification of the respective fragments from intron 16 of the ACE and size fractionation (I allele frequency=0.49; P=0.74 for Hardy-Weinberg equilibrium). In the logistic regression analysis, significant risk factors of impaired hypoglycemia awareness were duration of diabetes, C-peptide and HbA (1c) (all P<0.01). However, no significant effect of the I/ D polymorphism on impaired hypoglycemia awareness was observed with and without adjustment for age, diabetes duration, C-peptide and HbA (1c). Even though the study provides a relatively large dataset, it is possible that small differences may have been missed. 相似文献
14.
A peptide-gated ion channel from the freshwater polyp Hydra 总被引:1,自引:0,他引:1
Golubovic A Kuhn A Williamson M Kalbacher H Holstein TW Grimmelikhuijzen CJ Gründer S 《The Journal of biological chemistry》2007,282(48):35098-35103
Chemical transmitters are either low molecular weight molecules or neuropeptides. As a general rule, neuropeptides activate only slow metabotropic receptors. To date, only one exception to this rule is known, the FMRFamide-activated Na(+) channel (FaNaC) from snails. Until now FaNaC has been regarded as a curiosity, and it was not known whether peptide-gated ionotropic receptors are also present in other animal groups. Nervous systems first evolved in cnidarians, which extensively use neuropeptides. Here we report cloning from the freshwater cnidarian Hydra of a novel ion channel (Hydra sodium channel, HyNaC) that is directly gated by the neuropeptides Hydra-RFamides I and II and is related to FaNaC. The cells expressing HyNaC localize to the base of the tentacles, adjacent to the neurons producing the Hydra-RFamides, suggesting that the peptides are the natural ligands for this channel. Our results suggest that neuropeptides were already used for fast transmission in ancient nervous systems. 相似文献
15.
16.
Clathrin light chains (CLCs) are regulatory subunits of clathrin triskelia. Based on homology searches in Arabidopsis thaliana data bases we have identified three putative CLC clones, and have focused on the one with the highest homology to mammalian CLC sequences. Analysis of its sequence has revealed coiled-coil structures within a region that corresponds to the clathrin heavy chain-binding site. In addition there is a stretch of acidic amino acids, which is required for the regulatory function of CLC in clathrin assembly. This putative plant CLC ortholog, expressed in bacteria as a glutathione-S-transferase- and myc-tagged fusion protein, was shown to bind to CLC-free recombinantly expressed mammalian clathrin hubs. In contrast, purified native mammalian triskelia with endogeneous CLC did not bind the recombinant putative plant CLC. Based on the conserved sequences between the three Arabidopsis candidates it appears that plants, unlike mammals, may have more than two CLCs. 相似文献
17.
A sensitive, nonradioactive analytical method has been developed to simultaneously determine the concentrations of farnesyl pyrophosphate (FPP) and geranylgeranyl pyrophosphate (GGPP) in cultured cells. Following extraction, enzyme assays involving recombinant farnesyl protein transferase or geranylgeranyl protein transferase I are performed to conjugate FPP or GGPP to dansylated peptides. The reaction products are then separated and quantified by high-performance liquid chromatography coupled to a fluorescence detector at the excitation wavelength 335 nm and the emission wavelength 528 nm. The retention times for farnesyl-peptide and geranylgeranyl-peptide are 8.4 and 16.9 min, respectively. The lower limit of detection is 5 pg of FPP or GGPP ( approximately 0.01 pmol). A linear response has been established over a range of 5-1000 pg ( approximately 0.01-2 pmol) with good reproducibility. The method has been used to determine the levels of FPP (0.125+/-0.010 pmol/10(6)cells) and GGPP (0.145+/-0.008 pmol/10(6)cells) in NIH3T3 cells. Furthermore, changes in FPP and GGPP levels following treatment of cells with isoprenoid biosynthetic pathway inhibitors were measured. This method is suitable for the determination of the concentrations of FPP and GGPP in any cell type or tissue. 相似文献
18.
Impairment of motor coordination, or ataxia, is a prominent effect of alcohol ingestion in humans. To date, many models have been created to examine this phenomenon in animals. Evidence suggests that the tasks thought to measure this behavior in mice actually measure different components of this complex trait. We have characterized the parallel rod floor apparatus to quantify ethanol-induced motor incoordination. Using genetically heterogeneous mice, we evaluated the influence of rod diameter and inter-rod distance on dose-related ethanol-induced motor incoordination to select parameters that optimized testing procedures. We then used the DBA/2J and C57BL/6J inbred strains of mice to examine the effect of 2 g/kg of ethanol, by serially testing mice on two floor types, separated by 1 week. Finally, we tested eight inbred strains of mice on four floor types to examine patterns of strain sensitivity to 2 g/kg of intraperitoneal ethanol and determined the test parameters that maximized strain effect size. Motor incoordination varied depending on the floor type and strain. When data from strain 129S1/SvlmJ were removed from the analyses because of their extreme behavior, the greatest strain effect size was observed on one floor type during the first 10 min of testing after 2 g/kg of intraperitoneal ethanol. These findings suggest that the parallel rod floor apparatus provides a useful means for examining ethanol-induced motor incoordination in mice but that specific testing procedures are important for optimizing detection of motor incoordination and genetic influences. 相似文献
19.
Carrera I Sueiro C Molist P Holstein GR Martinelli GP Rodríguez-Moldes I Anadón R 《Cell and tissue research》2006,323(2):273-281
The present immunocytochemical study provides evidence of a previously unrecognized, rich, γ-aminobutyric acid (GABA)-ergic
innervation of the pineal organ in the dogfish (Scyliorhinus canicula). In this elasmobranch, the pineal primordium is initially detected at embryonic stage 24 and grows to form a long pineal
tube by stage 28. Glutamic acid decarboxylase (GAD)-immunoreactive (-ir) fibers were first observed at stage 26, and by stage
28, thin GAD-ir fibers were detectable at the base of the pineal neuroepithelium. In pre-hatchling embryos, most fibers gave
rise to GAD-ir boutons that were localized in the basal region of the neuroepithelium, although a smaller number of labeled
terminals ascended to the pineal lumen. A few pale GAD-ir perikarya were observed within the pineal organ of stage 29 embryos,
but GAD-ir perikarya were not observed at other developing stages or in adults. In contrast, GABA immunocytochemistry revealed
the presence of GABAergic perikarya and fibers in the pineal organ of late stage embryos and adults. Although high densities
of GABAergic cells were observed in the paracommissural pretectum, posterior tubercle, and tegmentum of dogfish embryos (regions
previously demonstrated to contain pinealopetal cells), the presence of GABA-ir perikarya in the pineal organ strongly suggests
that the rich GABAergic innervation of the elasmobranch pineal organ is intrinsic. This contrasts with the central origin
of GABAergic fibers in the pineal gland of some mammals.
This work was supported by the Spanish Education and Science Ministry and FEDER (BXX2000-0453-C02 and BFU2004-03313/BF1),
the Xunta de Galicia (PGIDT99BIO20002), and NIH/NIDCD awards R01 DC01705 and P01 DC01837 (to G.R.H.). 相似文献
20.