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The in vivo dose rate effect of chronic gamma radiation in mice: translocation and micronucleus analyses 总被引:1,自引:0,他引:1
The in vivo effects of chronic, ultra low dose rates of gamma radiation in mice were evaluated using fluorescence in situ hybridization and the in vivo micronucleus test. SWR×C57BL/6 mice were divided into nine exposure groups and continuously exposed to 0.5, 2.0 or 4.0 cGy 137Cs per day for 30, 60 or 90 days; unexposed control mice were also included. Following exposure, blood samples were taken from each animal and the frequencies of micronucleated polychromatic erythrocytes (MPCE) and micronucleated normochromatic erythrocytes (MNCE) were determined using flow cytometry. Peripheral blood lymphocytes were cultured and analyzed by chromosome painting to determine translocation frequencies. A significant dose rate response was seen in translocations and both MPCE and MNCE. Comparisons were made between the three chronic dose rates and it was determined that there was no significant difference among translocation frequencies for each rate. However, a significant difference was found between the chronic exposures reported here and the fractionated daily exposures reported previously. Dose rate reduction effects, ranging from 3 at low doses to 14 at high doses, were found for chronic versus acute exposures. The possibility of gender effects was investigated in both micronucleus and translocation data. No gender effect was found in translocation induction, but a slight effect was suggested in micronucleus induction. 相似文献
104.
Zhou HL Yang HJ Li YM Wang Y Yan L Guo XL Ba YC Liu S Wang TH 《Neurochemical research》2008,33(5):927-937
Limited information is available regarding the role of endogenous Glial cell line-derived neurotrophic factor (GDNF) in the
spinal cord following transection injury. The present study investigated the possible role of GDNF in injured spinal cords
following transection injury (T9–T10) in adult rats. The locomotor function recovery of animals by the BBB (Basso, Beattie, Bresnahan) scale score showed that
hindlimb support and stepping function increased gradually from 7 days post operation (dpo) to 21 dpo. However, the locomotion
function in the hindlimbs decreased effectively in GDNF-antibody treated rats. GDNF immunoreactivty in neurons in the ventral
horn of the rostral stump was stained strongly at 3 and 7 dpo, and in the caudal stump at 14 dpo, while immunostaining in
astrocytes was also seen at all time-points after transection injury. Western blot showed that the level of GDNF protein underwent
a rapid decrease at 7 dpo in both stumps, and was followed by a partial recovery at a later time-point, when compared with
the sham-operated group. GDNF mRNA-positive signals were detected in neurons of the ventral horn, especially in lamina IX.
No regenerative fibers from corticospinal tract can be seen in the caudal segment near the injury site using BDA tracing technique.
No somatosensory evoked potentials (SEP) could be recorded throughout the experimental period as well. These findings suggested
that intrinsic GDNF in the spinal cord could play an essential role in neuroplasticity. The mechanism may be that GDNF is
involved in the regulation of local circuitry in transected spinal cords of adult rats. 相似文献
105.
The interactions between cells and their surrounding microenvironment have functional consequences for cellular behaviour. On the single cell level, distinct microenvironments can impose differentiation, migration, and proliferation phenotypes, and on the tissue level the microenvironment processes as complex as morphogenesis and tumorigenesis1. Not only do the cell and molecular contents of microenvironments impact the cells within, but so do the elasticity2 and geometry3 of the tissue. Defined as the sum total of cell-cell, -ECM, and -soluble factor interactions, in addition to physical characteristics, the microenvironment is complex. The phenotypes of cells within a tissue are partially due to their genomic content and partially due to the combinatorial interactions with the microenviroment. A major challenge is to link specific combinations of microenvironmental components with distinctive behaviours.Here, we present the microenvironment microarray (MEArray) platform for cell-based functional screening of interactions with combinatorial microenvironments4. The method allows for simultaneous control of the molecular composition and the elastic modulus, and combines the use of widely available microarray and micropatterning technologies. MEArray screens require as few as 10,000 cells per array, which facilitates functional studies of rare cell types such as adult progenitor cells. A limitation of the technology is that entire tissue microenvironments cannot be completely recapitulated on MEArrays. However, comparison of responses in the same cell type to numerous related microenvironments, for instance pairwise combinations of ECM proteins that characterize a given tissue, will provide insights into how microenvironmental components elicit tissue-specific functional phenotypes.MEArrays can be printed using a wide variety of recombinant growth factors, cytokines, and purified ECM proteins, and combinations thereof. The platform is limited only by the availability of specific reagents. MEArrays are amenable to time-lapsed analysis, but most often are used for end point analyses of cellular functions that are measureable with fluorescent probes. For instance, DNA synthesis, apoptosis, acquisition of differentiated states, or production of specific gene products are commonly measured. Briefly, the basic flow of an MEArray experiment is to prepare slides coated with printing substrata and to prepare the master plate of proteins that are to be printed. Then the arrays are printed with a microarray robot, cells are allowed to attach, grow in culture, and then are chemically fixed upon reaching the experimental endpoint. Fluorescent or colorimetric assays, imaged with traditional microscopes or microarray scanners, are used to reveal relevant molecular and cellular phenotypes (Figure 1). 相似文献
106.
水曲柳腋芽离体快繁研究初报 总被引:1,自引:0,他引:1
以水曲柳带顶芽、腋芽茎段为外植体进行离体培养,研究其适宜的灭菌方法、基本培养基种类和激素对腋芽萌发、丛芽产生、芽苗增殖的影响。结果表明,水曲柳的腋芽茎段为快繁的适宜外植体,茎段灭菌以用0.05%HgCl2处理2 min最好。在萌芽培养中,BA和2ip均可促进腋芽萌发,但以8 mg·L-1 BA处理时萌发效果最好,萌发率达100%;将腋芽萌发后长成的新枝转入添加ZT的培养基中,出现丛芽,在添加1.0 mg·L-1的ZT的培养基中增殖效果最好,增殖系数达到3.0。无论在萌芽培养还是增殖培养中均发现WPM培养基最适合水曲柳腋芽的离体快繁。 相似文献
107.
Young leaf and internodal stem segments of Gaillardia pulchella, collected from wild species re-established in the greenhouse, were used to initiate callus on Murashige & Skoog medium supplemented
with NAA (2.0 mgl−1) and BA (0.4 mgl−1). Callus formed after 10 to 14 days in the dark. Cultures were transferred to fresh medium and placed under lighted conditions
where shoot formation occurred approximately 14 to 30 days after initiation. Callus sub-cultured at 14 to 21-day intervals
continued to produce primordia for several weeks. Flowers were produced by regenerated shoots maintained on MS medium, but
roots did not develop until the plantlets were transferred to soil conditions. 相似文献
108.
We have developed a rapid screening procedure that enables the screening of hundreds of enzyme samples or variants for epoxide hydrolase activity towards any substrate. The procedure detects the products of the enzymatic reaction via periodate cleavage and remaining fluorescence of carboxyfluorescein. 相似文献
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