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排序方式: 共有140条查询结果,搜索用时 15 毫秒
81.
Anke Wesselius Martijn JL Bours Niklas R Jørgensen James Wiley Ben Gu Svenjhalmar van Helden Lodewijk van Rhijn Pieter C Dagnelie 《Purinergic signalling》2013,9(1):123-130
In the present study we investigated whether single nucleotide polymorphisms (SNPs) in the P2RX4, which alter the P2X4R function, are associated with the development of osteoporosis and whether an interaction between the P2X4R and P2X7R confer a synergistic effect of these two receptors on osteoporosis risk. Patients with fracture (690 females and 231 males, aged ≥50 years) were genotyped for three non-synonymous P2X4R SNPs. Bone mineral density (BMD) was measured at the total hip, lumbar spine, and femoral neck. Subject carrying the variant allele of the Tyr315Cys polymorphism showed a 2.68-fold (95 % CI, 1.20–6.02) higher risk of osteoporosis compared with wild-type subject. Furthermore, significant lower lumbar spine BMD values were observed in subjects carrying the Cys315 allele as compared with wild-type (0.85 ± 0.17 and 0.93 ± 0.17 g/cm2, respectively; p < 0.001). Assuming a recessive model, carriers of the variant allele of the Ser242Gly polymorphism showed increased BMD values at the lumbar spine compare to wild-type subject (1.11 ± 0.35 and 0.92 ± 0.17 g/cm2, respectively; p = 0.0045). This is the first study demonstrating an association of non-synonymous polymorphisms in the P2RX4 and the risk of osteoporosis, suggesting a role of the P2X4R in the regulation of bone mass.
Electronic supplementary material
The online version of this article (doi:10.1007/s11302-012-9337-0) contains supplementary material, which is available to authorized users. 相似文献82.
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SB Lanzavecchia MI Remis JL Cladera RO Zandomeni 《Entomologia Experimentalis et Applicata》2010,136(1):53-65
DNA size polymorphisms were utilized in a study of 24 natural populations of Ceratitis capitata Wiedemann (Diptera: Tephritidae) from Argentina. The first intron of alcohol dehydrogenase 1 gene (Adh1) was amplified using exon priming intron crossing‐polymerase chain reaction. Three size variants were detected among the 307 samples analyzed. To better differentiate the size variants, further digestion of PCR products with the EcoRI restriction enzyme was carried out. Complete nucleotide sequences of the three‐allele variants were obtained and single changes, insertions, deletions, and EcoRI recognition sites were located. Population allele frequencies were analyzed and a global mean heterozygosity (He) of 0.33 was obtained. In most populations, observed allelic frequencies conformed to Hardy–Weinberg expectations. Significant differences between provinces and sampling sites within these provinces, and among some populations were found. The average number of insects exchanged among populations (Nm) was estimated and high values were observed between Argentina and populations from two African countries (Morocco and Kenya), Australia, and Hawaii (Kauai). Pest introduction sources and dispersion patterns in Argentina are discussed based on these results as well as on available bibliographical data. 相似文献
85.
RNA polymerase II primes Polycomb‐repressed developmental genes throughout terminal neuronal differentiation
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86.
K?Zouaoui?BoudjeltiaEmail author Ph?Cauchie Cl?Remacle M?Guillaume D?Brohée JL?Hubert M?Vanhaeverbeek 《BMC biotechnology》2002,2(1):8
Background
Determination of clot lysis times on whole blood, diluted whole blood, plasma or plasma fraction has been used for many years to assess the overall activity of the fibrinolytic system. We designed a completely computerised semi-automatic 8-channel device for measurement and determination of fibrin clot lysis. The lysis time is evaluated by a mathematical analysis of the lysis curve and the results are expressed in minute (range: 5 to 9999). We have used this new device for Euglobulin Clot Lysis Time (ECLT) determination, which is the most common test used in laboratories to estimate plasma fibrinolytic capacity. 相似文献87.
Regulation is a significant developmental event because successful cell proliferation and migration are critical to shaping young embryos. Regulation -- the replacement of undifferentiated embryonic cells by other cells in response to signals received from the environment -- is distinct from wound healing and regeneration. Investigations on regulation of neural crest cells span all vertebrates and have revealed that regulative ability varies both among classes (even species), and spatially and temporally within individuals. In general, there is greatest regulation for cranial neural crest cells, less for trunk, and virtually none forcardiac. Regulation also appears to be more complete at early embryonic stages. Fate-mapping studies have demonstrated that large regions of neural crest cells must be removed to generate missing or morphologically reduced structures. Recent studies reveal that less extensive neural crest cell extirpations result in normal morphology of cartilaginous and neuronal elements in the head, and normal development of pigmentation in the trunk. Ablation of cardiac neural crest cells frequently generates abnormalities of the heart, great vessels and parasympathetic nerve innervation. Decreased cell death, increased division, change in fate and altered migration are possible cellular mechanisms of regulation. In mostcases, the specific mechanisms of regulation are unknown, but a major premise underlying regulation is that cell potential is greater than cell fate. This concept was born from studies which demonstrated that some cells were able to express alternative fates if transplanted to a new environment. Among the potential cellular mechanisms for regulation, cell migration has received the most attention. Following ablation of neural crest cells, replacement neural crest cells migrate into gaps, most frequently from anterior/posterior locations. Cells from surrounding epidermal and neural ectoderm may have limited regulative ability, while compensation by cells from the ventral neural tube has been demonstrated to an even lesser extent. Regulation by such non-crest cells would require their transformation into neural crest cells. The potential for regulation of neural crest by placodal cells supports a closer relationship between neural crest and placodal ectoderm than previously recognized. Decreased cell death has been discussed primarily with reference to (1) cranial ganglia that have dual contributions from neural crest and placodal cells and (2) programmed cell death in rhombomeres three and five. Increased cell division in response to neural crest ablation is likely more common than has been reported, but this mechanism is difficult to interpret without a 3-D context for viewing how patterns of division differ from normal. Lastly, changes in cell fate may be the driving factor in regulation of embryonic cells. It has been repeatedly demonstrated thatcell potential is greaterthan cell fate. Once reliable mechanisms for assessing cell potential are established, we may find that fates are commonly altered in response to environmental signals. Regulation is therefore significant both as a basic developmental mechanism and as a mechanism for evolutionary change. The more labile the fate of embryonic cells, the more potential there is for maintaining existing characters and for generating new ones. According to Ettensohn (1992, p. 50), further analysis of such systems might . With regard to the neural crest, studies on regulation of this vital population of cells provide insight to the origin of the neural crest, to embryonic repair, and to the source of many craniofacial malformations, heart and other embryonic defects. (ABSTRACT TRUNCATED) 相似文献
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Cross-hybridizing snake satellite, Drosophila, and mouse DNA sequences may have arisen independently 总被引:2,自引:0,他引:2
Previous reports have interpreted hybridization between snake satellite DNA
and DNA clones from a variety of distant taxonomic groups as evidence for
evolutionary conservation, which implies common ancestry (homology) and/or
convergence (analogy) to produce the cross- hybridizing sequences. We have
isolated 11 clones from a genomic library of Drosophila melanogaster, using
a cloned 2.5-kb snake satellite probe of known nucleotide sequence. We have
also analysed published sequence data from snakes, mice, and Drosophila.
These data show that (1) all of the cross-hybridization between the snake,
fly, and mouse clones can be accounted for by the presence of either of two
tandem repeats, [GATA]n and [GACA]n and (2) these tandem repeats are
organized differently among the different species. We find no evidence that
these sequences are homologous apart from the existence of the simple
repeat itself, although their divergence from a common ancestral sequence
cannot be ruled out. The sequences contain a variety of homogeneous
clusters of tandem repeats of CATA, GA, TA, and CA, as well as GATA and
GACA. We suggest that these motifs may have arisen by a self-accelerating
process involving slipped-strand mispairing of DNA. Homogeneity of the
clusters might simply be the result of a rate of accumulation of tandem
repeats that exceeds that of other mutations.
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