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71.
Mapping of neural crest pathways in Xenopus laevis using inter- and intra-specific cell markers 总被引:1,自引:0,他引:1
This study examines the pathways of migration followed by neural crest cells in Xenopus embryos using two recently described cell marking techniques. The first is an interspecific chimera created by grafting Xenopus borealis cells into Xenopus laevis hosts. The cells of these closely related species can be distinguished by their nuclear dimorphism. The second type of marker is created by microinjection of lysinated dextrans into fertilized eggs which can then be used for intraspecific grafting. These recently developed fluorescent dyes are fixable and identifiable in both living and fixed embryos. After grafting labeled donor neural tubes into unlabeled host embryos, the distribution of neural crest cells at various stages after grafting was used to define the pathways of neural crest migration. To control for possible grafting artifacts, fluorescent lysinated dextran was injected into a single blastomere which gives rise to a large number of neural crest cells, thereby labeling the neural crest without grafting. By all three techniques, Xenopus neural crest cells were observed along two predominant pathways in the trunk. The majority of neural crest cells were observed along a "ventral" route, between the neural tube and somite, the notochord and somite, and along the dorsal mesentery. A second group of neural crest cells was observed "dorsally" where they populated the dorsal fin. A third minor "lateral" pathway was observed primarily in borealis/laevis chimerae and in blastomere-injected embryos; some neural crest cells were observed underneath the ectoderm lateral to the neural tube. Along the rostrocaudal axis, neural crest cells were not continuously distributed but were primarily located across from the caudal two-thirds of the somite. Fewer than 3% of the neural crest cells were observed across from the rostral third of each somite. When grafted to ventral locations, neural crest cells were not able to migrate dorsally but migrated laterally along the dorsal mesentery. Labeled neural crest cells gave rise to cells of the spinal, sympathetic, and enteric ganglia as well as to adrenal chromaffin cells, Schwann cells, pigment cells, mesenchymal cells of the dorsal fin, and some cells in the integuments and in the region of the pronephros. These results show that the neural crest migratory pathways in Xenopus differ from those in the avian embryo. In avians NC cells migrate as a closely associated sheet of cells while in Xenopus they migrate as individual cells. Both species exhibit a metamerism in the neural crest cell distribution pattern along the rostrocaudal axis.(ABSTRACT TRUNCATED AT 400 WORDS) 相似文献
72.
Molecular analysis of cDNA coding for ZP3, a sperm binding protein of the mouse zona pellucida 总被引:16,自引:0,他引:16
M J Ringuette M E Chamberlin A W Baur D A Sobieski J Dean 《Developmental biology》1988,127(2):287-295
73.
Isolation, sequencing, and mutagenesis of the nifF gene encoding flavodoxin from Azotobacter vinelandii 总被引:7,自引:0,他引:7
The nifF gene encoding flavodoxin from Azotobacter vinelandii OP was cloned and its DNA sequence determined. It is located adjacent to, or possibly within, the major nif cluster and it is preceded by nif-specific regulatory elements. Southern hybridization analysis revealed that there is only a single copy of the nifF gene on the A. vinelandii OP genome. Mutant strains were constructed which have an insertion mutation or an insertion and a deletion mutation within the nifF gene coding sequence. These mutant strains are capable of diazotrophic growth, indicating that flavodoxin is not the unique physiological electron donor to nitrogenase. The results of nifF-lacZYA gene fusion experiments and Northern hybridization analyses indicated that the nifF gene is both transcribed and translated under nitrogen fixing and non-nitrogen fixing conditions. However, under nitrogen fixing conditions a substantial increase in both nifF synthesis and in accumulation of an approximately 800-base pair nifF-encoding mRNA species was observed. Furthermore, strains mutated within the nifF gene have only 70% of the wild type in vivo nitrogenase activity as determined by whole cell acetylene reduction assays. These data demonstrate that the nifF-encoded flavodoxin of A. vinelandii OP, although not essential for nitrogen fixation, is required for maximum in vivo nitrogenase activity. 相似文献
74.
Dynamic aspects of retinotectal map formation revealed by a vital-dye fiber-tracing technique 总被引:1,自引:0,他引:1
In the visual system of Xenopus laevis, the axons from the retinal ganglion cells of the eye form a topographic projection onto the optic tectum. Many studies have focused on revealing the mechanisms responsible for this precise and regular projection pattern. In contrast to the static view of the system that one might expect from examining the regularity of the projection, recent work on its regeneration and its changes during larval development indicate that part of the patterning process involves the dynamic behavior of optic fibers. Typically, anatomical and electrophysiological techniques have been used to obtain static views of the developing retinotectal projection which then must be complied to provide a glimpse of any dynamic behavior. Here we report on experiments using a newly developed fiber tracing technique to directly follow the emergence of topography in the developing retinotectal projection. Defined halves of the developing eyebud were labeled with a vital fluorescent dye which fills the growing axons, and the projection of the labeled cells was followed for up to 2 weeks in individual animals. The experiments confirm that dorsal and ventral optic nerve fibers sort out into an ordered projection early in development. In contrast, nasal and temporal fibers initially overlap, and the same sets of prelabeled fibers then sort out into the adult topography over a period of days. 相似文献
75.
C M Deber D W Hughes P E Fraser A B Pawagi M A Moscarello 《Archives of biochemistry and biophysics》1986,245(2):455-463
The detailed interaction of human myelin basic protein (MBP) with charged lipids may be critical in organizing the myelin sheath into its biologically functional structure. Carbon-13 and phosphorus-31 nuclear magnetic resonance spectroscopy has been used to study this interaction by examining spectral consequences of additions of MBP to membrane preparations of the negatively charged lipid phosphatidylglycerol (PG). Lipid head group 13C and 31P linewidths were found to narrow upon addition of protein, while concomitant broadening was noted for bilayer carbon resonances. At intermediate MBP/PG ratios, two components in slow exchange on the NMR time scale (bulk PG and a protein-induced PG domain) were observed for the 13C resonance of the head group carbon atom adjacent to phosphate. These results, and other spectral evidence, suggested that head groups in free PG vesicles are motionally restricted by intermolecular interactions which are disrupted by competition with MBP Lys and Arg positively charged side chains. Titration of PG with the homopolypeptide poly-L-lysine produced comparable effects on PG 13C head group spectra, indicating that electrostatic attractions constitute the primary basis of the observed interactions. Vicinal and/or geminal 13C-31P coupling constants measured from the spectra of PG head group carbons were found to be essentially invariant for free PG in dimethyl sulfoxide solution, free PG vesicles, PG vesicles + MBP, and PG vesicles + poly-L-lysine. Comparison of the spectral effects induced in PG head group resonances by normal vs multiple sclerosis-derived MBP (MS-MBP) indicated that the MS-MBP is relatively less effective in converting PG to the protein-induced domain, a result which was attributed to increased protein self-aggregation arising from the reduced net positive character of the MS protein samples. 相似文献
76.
Expression of the c-myc oncogene was determined in pre-confluent early and late passage human (IMR-90) fibroblast by dot blot analysis of cellular mRNA. Significant decreases in c-myc levels were found in late passage when compared to levels found in early passage cells. Cells restimulated with serum after serum restriction also showed reduced levels of c-myc in late passage. Confluent cells expressed levels of c-myc similar to that of pre-confluent cells, when serum stimulation was the same in both cases. Southern blots of Eco R1 digested DNA showed 2 fragments of similar size hybridizing to c-myc sequences in both early and late passage cells. 相似文献
77.
Summary A cDNA clone in pBR322 that cross-hybridizes with a mouse carbonic anhydrase form II (CAII) probe has been sequenced and identified as mouse carbonic anhydrase form I (CAI). The 1224-base-pair clone encodes the entire 260-amino-acid protein and appears to contain an Alu-like element in the 3 untranslated region. The deduced amino acid sequence exhibits 77% homology to human CAI and contains 17 of the 20 residues that are considered unique to and invariant for all mammalian CAI isozymes. The results of a detailed comparison of the nucleic acid sequences spanning the coding regions of mouse CAI and rabbit CAI have been used to calibrate an evolutionary clock for the carbonic anhydrases (CAs). These data have been applied to a comparison of the mouse CAI and CAII nucleic acid sequences to calculate the divergence time between the two genes. The divergence-time calculation provides the first estimation of the evolutionary relationship between CAs based entirely on nucleotide sequence comparison. 相似文献
78.
Chromosomal organization of the herpes simplex virus genome during acute infection of the mouse central nervous system. 总被引:8,自引:6,他引:2 下载免费PDF全文
After corneal inoculation, herpes simplex virus type 1 replicates in the mouse eye, trigeminal ganglia, and brainstem, producing first an acute and then a latent infection. Previous work from this laboratory focused on the structure of the viral DNA in this system. We have now examined the structure of the viral genome at the chromosome level by using micrococcal nuclease digestion. Studies with disaggregated cell preparations made from the brainstems of acutely infected mice show that the majority of the viral DNA is in a nonnucleosomal form; however, a nucleosomelike fraction was also consistently detected. A similar result was obtained for viral DNA in herpes simplex virus type 1-infected C1300 (clone NA) neuroblastoma cells (a neuronal cell line). 相似文献
79.
Summary An indirect test of the relationship between leaf area and the combination of mean size and density is made in stands of lodgepole pine (Pinus contorta Dougl.). Total sapwood cross-sectional area of these stands is a function of the product of density and mean diameter raised to an exponent of about 1.6. Results from other studies, representing four species, suggest that this relationship between sapwood area and the combination of mean size and density may be general. The implications of the relationship are discussed in the context of evapotranspiration, competition and self-thinning.Utah Agricultural Experiment Station Journal Paper No. 3072 相似文献
80.
Activity, reconstitution, and accumulation of nitrogenase components in Azotobacter vinelandii mutant strains containing defined deletions within the nitrogenase structural gene cluster. 总被引:14,自引:12,他引:2 下载免费PDF全文
The Azotobacter vinelandii genes encoding the nitrogenase structural components are clustered and ordered: nifH (Fe protein)-nifD (MoFe protein alpha subunit)-nifK (MoFe protein beta subunit). In this study various A. vinelandii mutant strains which contain defined deletions within the nitrogenase structural genes were isolated and studied. Mutants deleted for the nifD or nifK genes were still able to accumulate significant amounts of the unaltered MoFe protein subunit as well as active Fe protein. Extracts of such nifD or nifK deletion strains had no MoFe protein activity. However, active MoFe protein could be reconstituted by mixing extracts of the mutant strains. These results establish an approach for the purification of the individual MoFe protein subunits. Mutants lacking either or both of the MoFe protein subunits were still able to synthesize the iron-molybdenum cofactor (FeMo-cofactor), indicating that in A. vinelandii the FeMo-cofactor is preassembled and inserted into the MoFe protein. In contrast, a mutant strain lacking both the Fe protein and the MoFe protein failed to accumulate any detectable FeMo-cofactor. The further utility of specifically altered A. vinelandii strains for the study of the assembly, structure, and reactivity of nitrogenase is discussed. 相似文献