首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 62 毫秒
1.
Only one copy of the cell adhesion molecule L1 gene is present in the mouse genome, and only one mRNA of 6 kilobases (kb) is expressed in mouse brain [1987, Neurosci. Lett. 82, 89-94]. We have constructed 5 synthetic oligonucleotide probes covering different parts of the published mouse L1 cDNA sequence. Using these probes 3 distinct mRNAs of 9.0, 7.0 and 6.0 kb in rat brain could be demonstrated. Hybridizations performed at different stringency conditions indicated that the 9.0 and 7.0 kb mRNAs were highly related to the L1 mRNA of 6.0 kb expressed in rat brain. The 7.0 kb mRNA is possibly coding for a rat homologue of chicken Nr-CAM, whereas the 9.0 kb mRNA may code for a new member of the L1 family.  相似文献   

2.
The tissue specific expression of peptidylglycine alpha-amidating monooxygenase [(PAM) EC 1.14.17.3], an enzyme which catalyzes the formation of amidated bioactive peptides from their glycine-extended precursors, was examined in adult rat. Soluble and membrane-associated PAM enzymatic activities were determined, and the levels and size classes of PAM mRNA were examined by Northern blot analysis. PAM specific activity varied 1000-fold in the tissues examined, with highest levels in heart atrium, pituitary and salivary glands, and hypothalamus. The fraction of total PAM activity that was membrane associated varied from approximately 70% in heart atrium to 10% in neurointermediate pituitary lobe and thyroid gland. Levels of PAM mRNA varied over 300-fold. In the heart atrium, PAM mRNA accounts for more than 0.1% of the mRNA. For many tissues the ratio of total PAM specific activity to PAM mRNA levels was similar; however, PAM activity was higher than expected from mRNA levels in the salivary glands and lower than expected in several tissues, including heart ventricle. Three major size classes of PAM mRNA were identified among the tissues. Use of RNAse H indicated that differences in size were not due to the length of the poly(A) tail. The heart and central nervous system expressed PAM mRNA of the 4.2 kilobase (kb) and 3.8 kb size classes, while the remaining tissues expressed predominantly 3.8 kb and 3.6 kb classes; few tissues contained only one size class of PAM mRNA. The two major forms of PAM mRNA in adult heart atrium differ by the presence or absence of a 315 nucleotide segment in the protein coding region. Using a cDNA probe from within this segment, the 4.2 kb and 3.8 kb size classes of PAM mRNA in the central nervous system appeared to resemble those in the heart atrium. In the remaining tissues, a subset of PAM mRNAs in the 3.8 kb and 3.6 kb size classes hybridized with this probe, suggesting that additional forms of PAM mRNA are present.  相似文献   

3.
Ectopic expression of N-cadherin perturbs histogenesis in Xenopus embryos   总被引:8,自引:0,他引:8  
Xenopus embryos express N-cadherin in a pattern similar to that observed in other species, and cells expressing Xenopus N-cadherin can bind to cells expressing chicken N-cadherin in vitro. To investigate the developmental role of this molecule, we injected mRNA encoding chicken N-cadherin into one blastomere of 2-cell-stage Xenopus embryos and examined the effect of its expression on their development. The ectopic expression of N-cadherin occurred in various regions of the injected embryos and induced abnormal histogenesis, such as thickening, clumping or fusion of cell layers. These results suggest that the precise quantitative and qualitative regulation of the expression of cadherins is essential to embryonic morphogenesis.  相似文献   

4.
T Ebendal  D Larhammar    H Persson 《The EMBO journal》1986,5(7):1483-1487
The 3' exon of the chicken beta nerve growth factor (NGF) gene was isolated by the use of a murine cDNA probe. DNA sequence analysis of the clone suggests a mature chicken NGF protein of 118 amino acids, showing approximately 85% homology to mouse and human NGF. In addition to this conservation of the mature NGF, parts of the propeptide and the untranslated 3' end of the NGF gene are also highly homologous in chicken, human and mouse. Therefore, these sequences probably subserve important functions. Expression of NGF mRNA in various chicken tissues was examined by RNA blot analysis with a chicken NGF probe. A single mRNA of 1.3 kb was detected at high levels in heart and brain of 10-week-old roosters, and, at lower levels in spleen, liver and skeletal muscle. These data suggest a correlation between NGF expression and the density of sympathetic innervation in peripheral organs, in analogy with findings for mammalian tissues. In the adult avian brain, NGF mRNA is found at higher concentration in the optic tectum and cerebellum than in the cortex and hippocampus. This pattern of NGF expression differs from that previously described for the rat brain. During late stages of development (day 18), NGF mRNA was expressed both in heart and brain of embryos but at lower levels than in the adult.  相似文献   

5.
1. Human APP cDNA hybridized to a 3.5 kb mRNA in liver and brain RNA from chickens, pigeons, quail and ducks as well as in RNA from choroid plexus of chicken and quail. In contrast to all other species hitherto examined a 1.6 kb mRNA hybridizing to APP cDNA was found in abundant amounts in RNA from chicken and quail livers. 2. In the chicken, before hatching, the levels of APP mRNA in total RNA from liver and choroid plexus were higher than those in RNA from liver and choroid plexus of adults. However, RNA from the rest of the brain of chicken embryos contained less APP mRNA than RNA from brain of adults. 3. In the chicken, between 10 and 40 days after hatching, APP mRNA levels in RNA from liver were higher than adult levels, APP mRNA levels in RNA from choroid plexus were similar to adult levels and APP mRNA levels in RNA from the rest of brain were below the adult levels.  相似文献   

6.
A series of overlapping recombinant clones, which cover the vitellogenin gene, has been isolated from a phage-lambda linked chicken gene library. The DNA of the overlapping clones spans 28 kb of contiguous DNA sequences in the chicken genome. Electron microscopic analysis of hybrids between vitellogenin mRNA and the genomic clones indicates that the chicken vitellogenin gene has a length of approximately 22 kb, about 3.8 times the size of the mRNA. The mRNA sequence is interrupted by at least 33 intervening sequences (introns). Comparison with the vitellogenin gene A2 from Xenopus laevis (Wahli et al., 1980, Cell 20: 107-117) indicates conservation of the number and length of the exons during evolution. Heteroduplex analysis reveals a short stretch of sequence homology between the genes from chicken and frog.  相似文献   

7.
A Carrier  M D Devignes  M F Rosier  C Auffray 《Gene》1992,116(2):173-179
An NGF cDNA containing the 5' exons of the nerve growth factor (NGF) messenger was obtained from chicken heart mRNA using the anchored polymerase chain reaction technique. Alignment of the chicken with the corresponding murine and human sequences reveals interspecies similarities. A sequence corresponding to an exon found only in the NGF messenger, which is abundant in the submaxillary gland of the male mouse, is present in the chicken NGF cDNA. The first non-coding exons of the NGF gene are much less conserved between chicken and mouse or human than the region of the last exon encoding the mature protein. After the cloning of the chicken NGF gene from a cosmid library, the chicken NGF exons have been located within 20 kb of DNA. The chicken NGF gene is therefore shorter than its murine counterpart which spans more than 43 kb. Furthermore, the organization of the chicken and murine NGF genes markedly differs in their 5' portion.  相似文献   

8.
Constitutive overexpression of N-cadherin in mouse embryonic stem cells led to marked changes in the phenotype and adhesion properties of these cells. The changes included the formation of smaller embryonic bodies, elevated mRNA and total protein levels of N-cadherin, and increased amounts of p120 catenin and connexin-43. N-cadherin cells exhibited decreased attachment to non-cell surfaces, while their adhesiveness to each other and to rat neonatal cardiomyocytes was significantly elevated. The findings suggest that N-cadherin overexpression can facilitate electromechanical integration of stem cells into excitable tissues with endogenously high levels of N-cadherin, such as the heart and brain.  相似文献   

9.
We have characterized cDNAs coding for three Na,K-ATPase alpha subunit isoforms from the rat, a species resistant to ouabain. Northern blot and S1-nuclease mapping analyses revealed that these alpha subunit mRNAs are expressed in a tissue-specific and developmentally regulated fashion. The mRNA for the alpha 1 isoform, approximately equal to 4.5 kb long, is expressed in all fetal and adult rat tissues examined. The alpha 2 mRNA, also approximately equal to 4.5 kb long, is expressed predominantly in brain and fetal heart. The alpha 3 cDNA detected two mRNA species: a approximately equal to 4.5 kb mRNA present in most tissues and a approximately equal to 6 kb mRNA, found only in fetal brain, adult brain, heart, and skeletal muscle. The deduced amino acid sequences of these isoforms are highly conserved. However, significant differences in codon usage and patterns of genomic DNA hybridization indicate that the alpha subunits are encoded by a multigene family. Structural analysis of the alpha subunits from rat and other species predicts a polytopic protein with seven membrane-spanning regions. Isoform diversity of the alpha subunit may provide a biochemical basis for Na,K-ATPase functional diversity.  相似文献   

10.
cDNA clones encoding the human N-cadherin cell adhesion molecule have been isolated from an embryonic muscle library by screening with an oligonucleotide probe complementary to the chick brain sequence and chick brain cDNA probe lambda N2. Comparison of the predicted protein sequences revealed greater than 91% homology between chick brain, mouse brain, and human muscle N-cadherin cDNAs over the 748 amino acids of the mature, processed protein. A single polyadenylation site in the chick clone was also present and duplicated in the human muscle sequence. Immediately 3' of the recognition site in chick a poly(A) tail ensued; however, in human an additional 800 bp of 3' untranslated sequence followed. Northern analysis identified a number of major N-cadherin mRNAs. These were of 5.2, 4.3, and 4.0 kb in C6 glioma, 4.3 and 4.0 kb in human foetal muscle cultures, and 4.3 kb in human embryonic brain and mouse brain with minor bands of 5.2 kb in human muscle and embryonic brain. Southern analysis of a panel of somatic cell hybrids allowed the human N-cadherin gene to be mapped to chromosome 18. This is distinct from the E-cadherin locus on chromosome 16. Therefore, it is likely that the cadherins have evolved from a common precursor gene that has undergone duplication and migration to other chromosomal locations.  相似文献   

11.
12.
Constitutive overexpression of N-cadherin in mouse embryonic stem cells led to marked changes in the phenotype and adhesion properties of these cells. The changes included the formation of smaller embryonic bodies, elevated mRNA and total protein levels of N-cadherin, and increased amounts of p120 catenin and connexin-43. N-cadherin cells exhibited decreased attachment to non-cell surfaces, while their adhesiveness to each other and to rat neonatal cardiomyocytes was significantly elevated. The findings suggest that N-cadherin overexpression can facilitate electromechanical integration of stem cells into excitable tissues with endogenously high levels of N-cadherin, such as the heart and brain.Key words: stem cells, cardiomyocytes, N-cadherin, connexin 43, gap junctions  相似文献   

13.
Reports to date have led to the conclusion that there are isozymes for 5-aminolevulinate synthase in the liver and erythroid tissue of chicken. Indeed, the existence of a multigene family for chicken 5-aminolevulinate synthase has been proposed. We find no evidence to support these proposals. In this work we show that 5-aminolevulinate synthase mRNA from chicken liver and reticulocytes is identical as determined by RNase mapping and primer extension studies and that the 5-aminolevulinate synthase protein from these tissues is the same size as judged by immunoblot analysis. We also show that a single mRNA species for 5-aminolevulinate synthase is present in chicken liver, reticulocytes, brain, and heart and an avian erythroblastosis virus-transformed chicken erythroblast cell line. Southern analysis shows the presence of only one gene copy for 5-aminolevulinate synthase in the chicken haploid genome. Overall, these results lead to the conclusion that in chickens 5-aminolevulinate synthase is encoded by a unique gene and is expressed as a single mRNA species in all tissues.  相似文献   

14.
15.
16.
Neural plate and sensory placodes share the expression of N-cadherin and Group B1 Sox genes, represented by Sox2. A 219-kb region of the chicken genome centered by the N-cadherin gene was scanned for neural and placodal enhancers. Random subfragments of 4.5 kb average length were prepared and inserted into tkEGFP reporter vector to construct a library with threefold coverage of the region. Each clone was then transfected into N-cadherin-positive (lens, retina and forebrain) or -negative embryonic cells, or electroporated into early chicken embryos to examine enhancer activity. Enhancers 1-4 active in the CNS/placode derivatives and non-specific Enhancer 5 were identified by transfection, while electroporation of early embryos confirmed enhancers 2-4 as having activity in the early CNS and/or sensory placodes but with unique spatiotemporal specificities. Enhancers 2-4 are dependent on SOX-binding sites, and misexpression of Group B1 Sox genes in the head ectoderm caused ectopic development of placodes expressing N-cadherin, indicating the involvement of Group B1 Sox functions in N-cadherin regulation. Enhancers 1, 2 and 4 correspond to sequence blocks conserved between the chicken and mammalian genomes, but enhancers 3 and 5 are unique to the chicken.  相似文献   

17.
R-cadherin is a newly identified member of the cadherin family of cell adhesion receptors. The expression of R-cadherin in early chicken embryos was studied using affinity-purified antibodies to this molecule, comparing it with that of N-cadherin. Immunoblot analysis of various organs of 10.5-day embryos showed that R-cadherin is most abundantly expressed in the retina and brain. Immunostaining of the cervical and thoracic regions of embryos revealed that R- and N-cadherin are expressed in all neural tissues. In the neural tube, R-cadherin appears at around stage 21, although N-cadherin expression begins at a much earlier stage. The distribution of R-cadherin in the neural tube differs from that of N-cadherin; for example, some regions of the tube express only R-cadherin, and other regions only N-cadherin. In the peripheral ganglia, these two cadherins are also expressed in different patterns which change during development. Some mesenchymal tissues including the notochord, the myotome, myotubes and perichondria also express these cadherins, again in different patterns. Thus, R- and N-cadherin are differentially expressed in all the tissues examined, and they may contribute to the spatial segregation of heterogeneous cells in a tissue.  相似文献   

18.
19.
20.
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号