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41.
Marcelo L Laia Leandro M Moreira Juliana Dezajacomo Joice B Brigati Cristiano B Ferreira Maria IT Ferro Ana CR Silva Jesus A Ferro Julio CF Oliveira 《BMC microbiology》2009,9(1):12-17
Background
Citrus canker is a disease caused by the phytopathogens Xanthomonas citri subsp. citri, Xanthomonas fuscans subsp. aurantifolli and Xanthomonas alfalfae subsp. citrumelonis. The first of the three species, which causes citrus bacterial canker type A, is the most widely spread and severe, attacking all citrus species. In Brazil, this species is the most important, being found in practically all areas where citrus canker has been detected. Like most phytobacterioses, there is no efficient way to control citrus canker. Considering the importance of the disease worldwide, investigation is needed to accurately detect which genes are related to the pathogen-host adaptation process and which are associated with pathogenesis. 相似文献42.
43.
44.
High nucleotide sequence variation in a region of low recombination in Drosophila simulans is consistent with the background selection model 总被引:2,自引:0,他引:2
We surveyed nucleotide sequence variation at glucose dehydrogenase (Gld),
in a region of low recombination on chromosome 3R, from a population sample
of Drosophila simulans. The levels of nucleotide variation were
surprisingly high. There was no departure from the expectation of a neutral
model for the level of polymorphism, indicating no evidence of a selective
sweep in this region. There was a significant deficiency of singleton
polymorphisms according to the Fu and Li test, although Tajima and Hudson,
Kreitman, and Aguade (HKA) tests do not provide evidence of a significant
elevation of variation due to balancing selection. Genetic map data for the
D. simulans third chromosome were used to calculate expected values of pi
for Gld under a current model of background selection, varying the values
for the parameter sh (selection coefficient against deleterious mutations).
We show that the recombinational landscape of D. simulans is sufficiently
different from that of D. melanogaster that we expect higher variation
under the background selection model, even when effective population sizes
are assumed to be equal. The data for Gld were tested against the
predictions using computer simulations of the distribution of the number of
segregating sites conditioned on pi. Background selection alone can explain
our observations as long as sh is larger than 0.005 and species-level
effective population size is assumed to be several- fold larger than in D.
melanogaster. Alternatively, the deleterious mutation rate may be smaller
in D. simulans, or balancing selection may be acting nearby, thereby
reducing the effect of background selection.
相似文献
45.
Spermatogenic cells of the prepuberal mouse: isolation and morphological characterization 总被引:62,自引:6,他引:56
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AR Bellve JC Cavicchia CF Millette DA O'Brien YM Bhatnagar M Dym 《The Journal of cell biology》1977,74(1):68-85
A procedure is described which permits the isolation from the prepuberal mouse testis of highly purified populations of primitive type A spermatogonia, type A spermatogonia, type B spermatogonia, preleptotene primary spermatocytes, leptotene and zygotene primary spermatocytes, pachytene primary spermatocytes and Sertoli cells. The successful isolation of these prepuberal cell types was accomplished by: (a) defining distinctive morphological characteristics of the cells, (b) determining the temporal appearance of spermatogenic cells during prepuberal development, (c) isolating purified seminiferous cords, after dissociation of the testis with collagenase, (d) separating the trypsin-dispersed seminiferous cells by sedimentation velocity at unit gravity, and (e) assessing the identity and purity of the isolated cell types by microscopy. The seminiferous epithelium from day 6 animals contains only primitive type A spermatogonia and Sertoli cells. Type A and type B spermatogonia are present by day 8. At day 10, meiotic prophase is initiated, with the germ cells reaching the early and late pachytene stages by 14 and 18, respectively. Secondary spermatocytes and haploid spermatids appear throughout this developmental period. The purity and optimum day for the recovery of specific cell types are as follows: day 6, Sertoli cells (purity>99 percent) and primitive type A spermatogonia (90 percent); day 8, type A spermatogonia (91 percent) and type B spermatogonia (76 percent); day 18, preleptotene spermatocytes (93 percent), leptotene/zygotene spermatocytes (52 percent), and pachytene spermatocytes (89 percent), leptotene/zygotene spermatocytes (52 percent), and pachytene spermatocytes (89 percent). 相似文献
46.
Rates of DNA sequence evolution are not sex-biased in Drosophila melanogaster and D. simulans 总被引:2,自引:0,他引:2
To determine whether male- or female-biased mutation rates have affected
the molecular evolution of Drosophila melanogaster and D. simulans, we
calculated the male-to-female ratio of germline cell divisions ([symbol:
see text]) from germline generation data and the male-to-female ratio of
mutation rate ([symbol: see text]) by comparing chromosomal levels of
nucleotide divergence. We found that the ratio of germline cell divisions
changes from indicating a weak female bias to indicating a weak male bias
as the age of reproduction increases. The range of [symbol: see text]
values that we observed, however, does not lead us to expect much, if any,
difference in mutation rate between the sexes. Silent and intron nucleotide
divergence were compared between nine loci on the X chromosome and nine
loci on the second and third chromosomes. The average levels of nucleotide
divergence were not significantly different across the chromosomes,
although both silent and intron sites show a trend toward slightly more
divergence on the X. These results indicate a lack of sex- or
chromosome-biased molecular evolution in D. melanogaster and D. simulans.
相似文献
47.
48.
Immunohistochemistry (IHC) is used to detect antibody-specific antigens in tissues; the results depend on the ability of the primary antibodies to bind to their antigens. Therefore, results depend on the quality of preservation of the specimen. Many investigators have overcome the deleterious effects of over-fixation on the binding of primary antibodies to specimen antigens using IHC, but if the specimen is under-fixed or fixation is delayed, false negative results could be obtained despite certified laboratory practices. Microtubule-associated protein 2 (MAP2) is an abundant microtubule-associate protein that participates in the outgrowth of neuronal processes and synaptic plasticity; it is localized primarily in cell bodies and dendrites of neurons. MAP2 immunolabeling has been reported to be absent in areas of the entorhinal cortex and hippocampus of Alzheimer’s disease brains that were co-localized with the dense-core type of amyloid plaques. It was hypothesized that the lack of MAP2 immunolabeling in these structures was due to the degradation of the MAP2 antigen by the neuronal proteases that were released as the neurons lysed leading to the formation of these plaques. Because MAP2 is sensitive to proteolysis, we hypothesized that changes in MAP2 immunolabeling may be correlated with the degree of fixation of central nervous system (CNS) tissues. We detected normal MAP2 immunolabeling in fixed rat brain tissues, but MAP2 immunolabeling was decreased or lost in unfixed and delayed-fixed rat brain tissues. By contrast, two ubiquitous CNS-specific markers, myelin basic protein and glial fibrillary acidic protein, were unaffected by the degree of fixation in the same tissues. Our observations suggest that preservation of various CNS-specific antigens differs with the degree of fixation and that the lack of MAP2 immunolabeling in the rat brain may indicate inadequate tissue fixation. We recommend applying MAP2 IHC for all CNS tissues as a pre-screen to assess the quality of the tissue preservation and to avoid potentially false negative IHC results. 相似文献
49.
Background
Genetically based body size differences are naturally occurring in populations of Drosophila melanogaster, with bigger flies in the cold. Despite the cosmopolitan nature of body size clines in more than one Drosophila species, the actual selective mechanisms controlling the genetic basis of body size variation are not fully understood. In particular, it is not clear what the selective value of cell size and cell area variation exactly is. In the present work we determined variation in viability, developmental time and larval competitive ability in response to crowding at two temperatures after artificial selection for reduced cell area, cell number and wing area in four different natural populations of D. melanogaster.Results
No correlated effect of selection on viability or developmental time was observed among all selected populations. An increase in competitive ability in one thermal environment (18°C) under high larval crowding was observed as a correlated response to artificial selection for cell size.Conclusion
Viability and developmental time are not affected by selection for the cellular component of body size, suggesting that these traits only depend on the contingent genetic makeup of a population. The higher larval competitive ability shown by populations selected for reduced cell area seems to confirm the hypothesis that cell area mediated changes have a relationship with fitness, and might be the preferential way to change body size under specific circumstances.50.
W. E. Stumpf C. Heiss M. Sar G. E. Duncan C. Craver 《Histochemistry and cell biology》1989,92(3):201-210
Summary High resolution light microscopic autoradiography was used, together with regional surveys and combined aeridine orange staining, to define in rat hippocampus cellular and subcellular sites of concentration and retention of 3H dexamethasone and to compare the topographic pattern of labeling with that of 3H corticosterone. Nuclear uptake of 3H dexamethasone in the hippocampus is demonstrated for the first time in vivo. With 3H dexamethasone, strongest nuclear radioactive labeling was observed in certain glial cells throughout the hippocampus, followed by strong nuclear labeling in most neurons in area CA1 and in the adjacent dorsolateral subiculum and weak nuclear labeling in granule cells of the dentate gyrus. Neurons in areas CA2, CA3, CA4, and in the dorsomedial subiculum and indusium griseum showed little or no nuclear labeling after 3H dexamethasone. With 3H corticosterone, strongest nuclear labeling was observed in neurons in area CA2 and in the dorsomedial subiculum and indusium griseum, followed by area CA1, then CA3 and CA4; the dentate gyrus contained scattered strongly labeled cells among cells with intermediate nuclear labeling. At the subcellular level, evidence for both nuclear and cytoplasmic accumulation of label was found. The results indicate that dexamethasone and corticosterone have both nuclear and cytoplasmic binding sites and that particular patterns of target cell distribution exist, characteristic for each agent. This suggests a differential regulation of cellular functions for the two compounds. Corticosterone nuclear binding appears to be more extensive and encompasses regions with dexamethasone binding. Whether in certain of these common regions corticosterone binds to the same receptor as dexamethasone, which seems possible, or to different receptors, remains to be clarified. 相似文献