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Does actin in the emerging axons of regenerating neurons arise from the assembled or unassembled actin pool in the cell soma? We investigated this question by loading neurons with one of two fluorescently labeled molecules: rhodamine actin (r-actin) and rhodamine phalloidin (r-phalloidin). The assembly behavior of r-actin in vitro was identical to unlabeled actin. R-phalloidin binds tightly only to the filamentous form of actin (F-actin) and stabilizes filaments against disassembly. Hence, r-phalloidin-tagged filaments should be less likely to disassemble than r-actin-tagged filaments. Neurons of 10-d-old chick embryos were loaded with r-actin or r-phalloidin by triturating trypsinized dorsal root ganglia in isotonic sucrose containing the fluorescently tagged molecule. Isolated neurons were plated on glass coverslips in modified L15 medium containing nerve growth factor. Video images of the live cells on a thermoregulated stage were acquired with a computer imaging system. After 24 h in culture, the fluorescence distribution of r-phalloidin and r-actin was examined in live neurons of comparable morphology, neurite outgrowth, and intensity of somal fluorescence. Greater than 90% of the neurons labeled with r-actin (n = 81) contained detectable levels of fluorescence in emerging neurite fibers, often extending to the tip of the growing process. Less than 10% of the neurons labeled with r-phalloidin (n = 53) contained any fluorescence in the neurite fibers. In those that did contain fluorescence, the r-phalloidin usually was confined to the proximal segment of the neurite, and in no case was it found at the growing tip. Confocal microscopy and cooled CCD imaging of fixed neurons showed that all structures that incorporated r-actin or r-phalloidin also stained with bodipy phallacidin. This colocalization confirms the association of rhodamine-tagged species with F-actin. Our data support a model in which actin, needed in early stages of neurite outgrowth, arises from a pool in the soma that is capable of disassembly.
Mol Neurobiol
PMID:Actin in emerging neurites is recruited from a monomer pool. 147 78

The effect of temperature on the velocity of rhodamine phalloidin-labelled F-actin moving in vitro on rabbit skeletal myosin has been studied. Translating actin filaments were visualized by epi-fluorescence in an inverted microscope, equipped with temperature control (+/- 0.2 K) of the stage and objective. Images were recorded in real time at magnifications of 400x or 160x by an intensified CCD camera on video tape. Motion of individual filaments was tracked by hand and velocities determined using frame times recorded simultaneously on the video tape. Velocity changed from 12 microns per second at 42 degrees C to 11 nm per second at 3 degrees C. The Arrhenius plot is non-linear, with the data following a cubic regression curve with no evident breaks or jumps. Data taken over the temperature range from single preparations followed the same curve for both heating and cooling; this indicates reversibility and absence of hysteresis. A hyperbolic model that smoothly translates with temperature between two asymptotic activation energies fits the data above 7 degrees C: these energies are 50(+/- 5) kJ per mole (Q10 = 1.9) at high temperatures and 289(+/- 29) kJ per mole (Q10 = 76.5) at low temperature with a transition temperature of 15.4(+/- 0.6) degrees C. These values are compared with other measurements made in vitro, in solution studies and on muscle fibres. An Arrhenius activation energy of 50 kJ per mole and a transition temperature of 15 degrees C are consistent with previous determinations but 289 kJ per mole is significantly greater than has been seen at low temperatures in other systems. This may indicate a different rate-limiting step in the kinetics of skeletal myosin driving actin filaments in vitro below 15 degrees C. Current determinations of the myosin "step-size" assume that the actin velocity is determined by the rate of ATP hydrolysis; the data confirm similar activation energies above 20 degrees C but they show that the temperature dependencies and activation energies are different at lower temperatures, implying uncoupling of the two processes.
J Mol Biol 1992 Apr 20
PMID:Temperature dependence and Arrhenius activation energy of F-actin velocity generated in vitro by skeletal myosin. 153 50

Ozone (O3) is a powerful oxidizing component of air pollution that may react with other air pollutants before or after inhalation. Because ozonized compounds can be mutagenic to bacteria, we examined whether ambient O3 levels can transform tobacco smoke arylamines into products that are genotoxic to human lung cells. To test this possibility, aqueous solutions of 1-naphthylamine (1-NA) were first exposed to air or O3 in the absence of cells and then used to treat cultured human lung cells, i.e., the diploid fibroblasts CCD-18Lu and the transformed type II epithelial cells A549. DNA single-strand breaks were assayed by DNA alkaline elution. Neither air-exposed 1-NA nor O3-exposed buffer or water were DNA-damaging. However, exposure of 1-NA (15 microM) to O3 (0.1 ppm; 1 h) produced 400 rad equivalents of DNA breaks in either cell type. Although maximal induction of DNA breaks depended upon arylamine concentration, the rates at which DNA-damaging products were formed (activated) and subsequently deactivated depended upon O3 concentration. O3-activated 1-NA was stable for at least 4 h and could damage cellular DNA at 4 degrees C. During ozonization, hydroperoxides were formed at levels equivalent to between 2 and 20 microM of hydrogen peroxide and were eliminated by treatment with catalase. However, failure of catalase and superoxide dismutase to block formation of DNA breaks indicated that neither hydrogen peroxide nor superoxide anions were involved in breaking DNA.(ABSTRACT TRUNCATED AT 250 WORDS)
Am J Respir Cell Mol Biol 1990 Dec
PMID:Induction of DNA damage in cultured human lung cells by tobacco smoke arylamines exposed to ambient levels of ozone. 217 79

Chromosomes were isolated in a preparative scale by synchronisation of CHO cells with a double Thymidine block followed by an arrest in the metaphase by addition of Colcemid. Under proper cultivation conditions a mitotic index of 77% total cells could be routinely achieved. Bulk chromosome preparations free of nuclei and other subcellular particles have been obtained by low speed centrifugation followed by a 60 transfer countercurrent distribution using aqueous two phase systems composed of polyethylenglycol and dextran. The partition of CHO chromosomes previously purified in aqueous two phase systems were studied further to develop a protocol for the separation and isolation of individual chromosomes. Partition experiments with chromosomes changing the electrostatic phase potential by addition of charged PEG-derivatives suggest the existence of relatively highly charged chromosome groups. Most promising results with regard to separation were obtained using two PEG-derivatives, which interact specifically with the bases in DNA. For this affinity partitioning a GC- and AT-specific macroligand were employed. Comparing CCD's using each of these ligands information on the GC and AT content of exposed DNA in the chromosomes groups could be derived, demonstrating that specific sequences of DNA are accessible at the surface of metaphase chromosomes.
Mol Cell Biochem 1986 Feb
PMID:Isolation and fractionation of CHO chromosomes in aqueous two phase systems using charged polymers and base specific macroligands. 242 Nov 51

Cleidocranial dysplasia (CCD) is an autosomal, dominantly inherited disorder of high penetrance affecting skeletal ossification and tooth development. Typically, affected individuals have hypoplastic/aplastic clavicles, patent fontanelles and sutures, supernumerary teeth, and short stature. We have used a candidate locus approach to map the responsible gene in two families with typical features of CCD. Linkage was established between CCD and four loci (D6S426, D6S451, D6S459, TCTE1) that span a region of 10 cM on chromosome 6p. A maximum lod score, Zmax, of 4.1 at a recombination fraction of zero was obtained at D6S451. One highly polymorphic microsatellite from this region (D6S459) showed allelic loss in all affected members of one family with two different sets of primers. The presence of a deletion in this area was confirmed by Southern blot analysis using a probe derived from the amplification product of the D6S459 marker. The data assign a gene for CCD to chromosome 6p21 and suggest that a microdeletion within an area of tight linkage to the CCD-phenotype has been identified.
Hum Mol Genet 1995 Jan
PMID:Genetic mapping of cleidocranial dysplasia and evidence of a microdeletion in one family. 771 36

The predominant immunoregulatory activity of alveolar macrophages (AM) on T lymphocytes is to suppress their responses to antigenic and mitogenic stimuli. The suppressive activity of human AM for T cell responses to phytohemagglutinin (PHA) was further characterized. At ratios of AM to T lymphocytes of 0.4:1 to 1.6:1, AM inhibited the blastogenic response (3H-thymidine uptake into DNA) to PHA by 26 to 87%, respectively. Blood monocytes precultured in vitro for 5 to 7 days inhibited responses to PHA similarly. Freshly isolated blood monocytes, peritoneal macrophages, and A-549 epithelial and CCD-18Lu fibroblast cell lines failed to inhibit T lymphocyte responses. AM were capable of suppressing PHA-induced blastogenesis of purified CD4 cells without the addition of other cells. Cell contact was required for suppression of CD4 cells, as demonstrated using dual chambers. T cells precultured with AM with or without PHA retained the ability to respond to PHA compared with control T cells not precultured with AM. Kinetic experiments showed that AM needed to be added at the initiation of a 3-day culture period for suppression to occur. Analysis of the T cell DNA cycle revealed that AM decreased the percentage of cells entering the synthesis phase of DNA production. Flow cytometry also was used to assess the effect of AM on early markers of T cell activation. AM inhibited the percentage of T cells expressing the interleukin-2 receptor 46 to 83% and the transferrin receptor 58 to 78% at 24 to 48 h after stimulation with PHA. There was no effect of AM on expression of HLA-DR.(ABSTRACT TRUNCATED AT 250 WORDS)
Am J Respir Cell Mol Biol 1993 Jan
PMID:Characterization of suppressor function of human alveolar macrophages for T lymphocyte responses to phytohemagglutinin: cellular selectivity, reversibility, and early events in T cell activation. 809 42

Colored chromosome staining patterns, termed chromosomal 'bar codes' (CBCs), were obtained on human chromosomes by fluorescence in situ hybridization (FISH) with pools of Alu-PCR products from YAC clones containing human DNA inserts ranging from 100 kbp to 1 Mbp. In contrast to conventional G- or R-bands, the chromosomal position, extent, individual color and relative signal intensity of each 'bar' could be modified depending on probe selection and labeling procedures. Alu-PCR amplification products were generated from 31 YAC clones which mapped to 37 different chromosome bands. For multiple color FISH, Alu-PCR amplification products from various clones were either biotinylated or labeled with digoxigenin. Probes from up to twenty YAC clones were used simultaneously to produce CBCs on selected human chromosomes. Evaluation using a cooled CCD camera and digital image analysis confirmed the high reproducibility of the bars from one metaphase spread to another. Combinatorial FISH with mixtures of whole chromosomes paint probes was applied to paint seven chromosomes simultaneously in different colors along with a set of YAC clones which map to these chromosomes. We discuss the potential to construct analytical chromosomal bar codes adapted to particular needs of cytogenetic investigations and automated image analysis.
Hum Mol Genet 1993 May
PMID:Chromosomal bar codes produced by multicolor fluorescence in situ hybridization with multiple YAC clones and whole chromosome painting probes. 851 87

The chromatin in interphase nuclei is much less condensed than are metaphase chromosomes, making the resolving power of fluorescence in situ hybridization (FISH) two orders of magnitude higher in interphase nuclei than on metaphase chromosomes. In mammalian species it has been demonstrated that within a certain range the interphase distance between two FISH sites can be used to estimate the linear DNA distance between the two probes. The interphase mapping strategy has never been applied in plant species, mainly because of the low sensitivity of the FISH technique on plant chromosomes. Using a CCD (charge-coupled device) camera system, we demonstrate that DNA probes in the 4 to 8 kb range can be detected on both metaphase and interphase chromosomes in maize. DNA probes pA1-Lc and pSh2.5.SstISalI, which contain the maize loci a1 and sh2, respectively, and are separated by 140 kb, completely overlapped on metaphase chromosomes. However, when the two probes were mapped in interphase nuclei, the FISH signals were well separated from each other in 86% of the FISH sites analyzed. The average interphase distance between the two probes was 0.50 micron. This result suggests that the resolving power of interphase FISH mapping in plant species can be as little as 100 kb. We also mapped the interphase locations of another pair of probes, ksu3/4 and ksu16, which span the Rp1 complex controlling rust resistance of maize. Probes ksu3/4 and ksu16 were mapped genetically approximately 4 cM apart and their FISH signals were also overlapped on metaphase chromosomes. These two probes were separated by an average of 2.32 microns in interphase nuclei. The possibility of estimating the linear DNA distance between ksu3/4 and ksu16 is discussed.
Mol Gen Genet 1996 Oct 16
PMID:Interphase fluorescence in situ hybridization mapping: a physical mapping strategy for plant species with large complex genomes. 891 10

The 5(1)0 and 5(1)1 bands of the CaCCH A2Pi-X2Sigma+ transition, corresponding to the Ca-C-C bending mode, have been rotationally analyzed through cw dye laser excitation and dispersed fluorescence with a CCD array detector. The upper state is subject to Renner-Teller and spin-orbit couplings, and strong K-type resonance interactions were observed between the nearby 2Delta and 2Sigma vibronic components. A model that invokes a full matrix treatment of these interactions was employed in a least-squares fit of a total of 708 rotational lines of the two bands, recorded with high precision. The fundamental bending frequencies have been determined as nu5 = 101.394(1) and 102.940(1) cm-1 for the A2Pi and X2Sigma+ electronic states, respectively. The Renner-Teller parameter has been determined as epsilon5omega5 = 3.528(14) cm-1. The nonadiabatic parameter for the nu5 mode, gK = 0.6542(10) cm-1, is in accord with the observation that the 2Delta5/2 vibronic component lies above the normally highest kappa2Sigma component.
J Mol Spectrosc 1996 Dec
PMID:The First Excited Ca-C-C Bending Vibration Levels in the A2Pi and X2Sigma+ States of the CaCCH Radical: The Renner-Teller Effect and K-type Resonance 897 85

Nuclear RNA transcripts of split genes and their splicing products, as well as the general population of nuclear polyadenylated RNA are packaged in multi-component large nuclear ribonucleoprotein (lnRNP) particles. These lnRNP particles, which sediment at the 200 S region in sucrose gradients, contain all U small nuclear RNPs required for precursor messenger RNA (pre-mRNA) splicing and several protein splicing factors, including U2AF and the SR proteins. Electron microscopy of lnRNP particles revealed a large compact structure of 50 nm in diameter. In this study we employed automated computed tomography from electron micrographs for the three-dimensional (3D) image reconstruction of individual lnRNP particles isolated from mammalian cells nuclei and negatively stained. For each particle, a tilt series of 71 images was collected by direct digital recording of the images on a CCD camera attached to a computer controlled TEM facility. The 3D image was reconstructed according to the back projection principle. For rendering, real time display and comparison of the reconstructed particles, interactive computer graphics was employed. The reconstructed 3D images show a compact structure composed of four major subunits connected to each other. Comparison of the reconstructed lnRNP particles revealed morphological similarity of the individual particles, as well as similarity among the sub-structures. Based on these observations we propose a model for the packaging of nuclear pre-mRNAs in lnRNP particles where each substructure represents a functional unit. This model is compatible with the requirements for alternative splicing in multi-intronic pre-mRNAs, and with the fact that the splicing of multi-intronic pre-mRNAs does not occur in a sequential manner.
J Mol Biol 1997 Apr 04
PMID:Three-dimensional image reconstruction of large nuclear RNP (lnRNP) particles by automated electron tomography. 912 39


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