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941.
Sequences of the nuclear encoded small subunit (SSU) rRNA were determined for Pirsonia diadema, P. guinardiae, P. punctigerae, P. verrucosa, P. mucosa and three newly isolated strains 99-1, 99-2, 99-S. Based on phylogenetic analysis all Pirsonia strains, except P. mucosa, clustered together in one clade, most closely related to Hyphochytrium catenoides within the group of stramenopiles. However, P. mucosa was most closely related to Cercomonas sp. SIC 7235 and Heteromita globosa and belongs to the heterogenic group of Cercozoa. In addition to the SSU rDNA sequences, P. mucosa differs from the stramenopile Pirsonia species in some characteristics and was therefore redescribed in this paper as Pseudopirsonia mucosa. The three newly isolated strains 99-1, 99-2, and 99-S differed by 28 bp in their SSU rDNA sequences from their closest neighbour P. diadema and only 1 to 3 bp among themselves. These base differences and a host range similar to P. formosa were sufficient to assign them as new strains of P. formosa. 相似文献
942.
943.
944.
To date, there are no vaccines against any of the major parasitic diseases, and chemotherapy is the main weapon in our arsenal. There is an urgent need for better drugs against Leishmania. With the completion of the human genome sequence and soon that of Leishmania, for the first time we have the opportunity to identify novel chemotherapeutic treatments. This requires the exploitation of a variety of technologies. The major challenge is to take the process from discovery of drug candidates all the way along the arduous path to the marketplace. A crucial component will be the forging of partnerships between the pharmaceutical industry and publicly funded scientists to ensure that the promise of the current revolution in biology lives up to our hopes and expectations. 相似文献
945.
Linda?B?LesterEmail author Hung-Chih?Kuo Laura?Andrews Brian?Nauert Don?P?Wolf 《Reproductive biology and endocrinology : RB&E》2004,2(1):42
Embryonic stem cells (ES) can self-replicate and differentiate into all cell types including insulin-producing, beta-like
cells and could, therefore, be used to treat diabetes mellitus. To date, results of stem cell differentiation into beta cells
have been debated, largely due to difficulties in defining the identity of a beta cell. We have recently differentiated non-human
primate (rhesus) embryonic stem (rES) cell lines into insulin producing, beta-like cells with the beta cell growth factor,
Exendin-4 and using C-peptide as a phenotype marker. Cell development was characterized at each stage by gene and protein
expression. Insulin, NKX6.1 and glucagon mRNA were expressed in stage 4 cells but not in early undifferentiated cells. We
concluded that rES cells could be differentiated ex vivo to insulin producing cells. These differentiated rES cells could be used to develop a non-human primate model for evaluating
cell therapy to treat diabetes. To facilitate the identification of beta-like cells and to track the cells post-transplantation,
we have developed a marker gene construct: fusing the human insulin promoter (HIP) to the green fluorescent protein (GFP)
gene. This construct was transfected into stage 3 rES derived cells and subsequent GFP expression was identified in C-peptide
positive cells, thereby substantiating endogenous insulin production by rES derived cells. Using this GFP detection system,
we will enrich our population of insulin producing rES derived cells and track these cells post-transplantation in the non-human
primate model. 相似文献
946.
Ctenophores undergo locomotion via the metachronal beating of eight longitudinally arrayed rows of comb plate cilia. These cilia are normally derived from two embryonic lineages, which include both daughters of the four e1 micromeres (e11 and e12) and a single daughter of the four m1 micromeres (the m12 micromeres). Although the e1 lineage is established autonomously, the m1 lineage requires an inductive interaction from the e1 lineage to contribute to comb plate formation. Successive removal of the e1 progeny at later stages of development indicates that this interaction takes place after the 32-cell stage and likely proceeds over a prolonged period of development. Normally, the e1, cell lies in closest proximity to the m12 cell that generates comb plate cilia; however, either of the e1 daughters (e11 or e12) is capable of emitting the signal required for m1 descendants to form comb plates. Previous cell lineage analyses indicate that the two e1 daughters generate the same suite of cell fates. On the other hand, the m1 daughters (m11 and m12) normally give rise to different cell fates. Reciprocal m1 daughter deletions show that in the absence of one daughter, the other cell can generate all the cell types normally formed by the missing cell. Together, these findings demonstrate that the two m1 daughters (m11 and m12) represent an embryonic equivalence group or field and that differences in the fates of the two m1 daughters are normally controlled by cell-cell interactions. These combined properties of ctenophore development, including the utilization of deterministic cleavage divisions, inductive interactions, and the establishment of embryonic fields or equivalence groups, are remarkably similar to those present in the development of various bilaterian metazoans. 相似文献
947.
Expression of lung uncoupling protein-2 mRNA is modulated developmentally and by caloric intake 总被引:3,自引:0,他引:3
Xiao H Massaro D Massaro GD Clerch LB 《Experimental biology and medicine (Maywood, N.J.)》2004,229(6):479-485
Lung expresses a high concentration of uncoupling protein-2 (UCP-2) mRNA, but neither its pulmonary regulation nor function is known. We measured lung UCP-2 mRNA expression in two animal models: in neonatal rats when both the metabolic rate, as measured by oxygen consumption, and levels of serum free fatty acids (FFAs) increase and in adult mice during decreased food intake, when levels of serum FFAs increase but the metabolic rate decreases. In rat lung, the concentration of UCP-2 mRNA was low and unchanged during late gestation, increased approximately twofold within 6 hrs after birth, and, compared with late gestation, remained approximately threefold higher from day 1 to adulthood. The early postnatal rise in the lung UCP-2 mRNA concentration was partially blocked by an antithyroid drug and was increased by treatment with triiodothyronine. Unlike lung, heart UCP-2 mRNA levels were lower during adulthood than at day 15. In adult mice, lung UCP-2 mRNA concentrations increased approximately fivefold within 12 hrs of 67% calorie restriction (CR), remained elevated during 2 weeks of CR, fell to control levels within 24 hrs of refeeding (CR-RF), and positively correlated with serum FFA concentrations. Heart UCP-2 expression during CR and CR-RF was similar to that of lung; liver UCP-2 mRNA levels were slightly lower during CR and returned to control levels during CR-RF. These data suggest that the regulation of UCP-2 is at least partly tissue-specific and that, in the adult mouse, lung UCP-2 is regulated not by oxygen consumption but by FFAs. Moreover, lung UCP-2 mRNA levels in mice fed ad libitum was increased by the intraperitoneal administration of Intralipid, a 20% fat emulsion. On the basis of these data in adult mice, together with the findings of others that levels of FFAs increase by 2 hrs after birth, we propose lung UCP-2 is regulated by FFA. 相似文献
948.
Andrews PD Ovechkina Y Morrice N Wagenbach M Duncan K Wordeman L Swedlow JR 《Developmental cell》2004,6(2):253-268
Chromosome orientation and alignment within the mitotic spindle requires the Aurora B protein kinase and the mitotic centromere-associated kinesin (MCAK). Here, we report the regulation of MCAK by Aurora B. Aurora B inhibited MCAK's microtubule depolymerizing activity in vitro, and phospho-mimic (S/E) mutants of MCAK inhibited depolymerization in vivo. Expression of either MCAK (S/E) or MCAK (S/A) mutants increased the frequency of syntelic microtubule-kinetochore attachments and mono-oriented chromosomes. MCAK phosphorylation also regulates MCAK localization: the MCAK (S/E) mutant frequently localized to the inner centromere while the (S/A) mutant concentrated at kinetochores. We also detected two different binding sites for MCAK using FRAP analysis of the different MCAK mutants. Moreover, disruption of Aurora B function by expression of a kinase-dead mutant or RNAi prevented centromeric targeting of MCAK. These results link Aurora B activity to MCAK function, with Aurora B regulating MCAK's activity and its localization at the centromere and kinetochore. 相似文献
949.
Cell movement is characterized by anterior-posterior polarization of multiple cell structures. We show here that the plasma membrane is polarized in moving endothelial cells (EC); in particular, plasma membrane microviscosity (PMM) is increased at the cell leading edge. Our studies indicate that cholesterol has an important role in generation of this microviscosity gradient. In vitro studies using synthetic lipid vesicles show that membrane microviscosity has a substantial and biphasic influence on actin dynamics; a small amount of cholesterol increases actin-mediated vesicle deformation, whereas a large amount completely inhibits deformation. Experiments in migrating ECs confirm the important role of PMM on actin dynamics. Angiogenic growth factor-stimulated cells exhibit substantially increased membrane microviscosity at the cell front but, unexpectedly, show decreased rates of actin polymerization. Our results suggest that increased PMM in lamellipodia may permit more productive actin filament and meshwork formation, resulting in enhanced rates of cell movement. 相似文献
950.
Abstract The respective role of factors acting on population functioning can be inferred from a variety of approaches, including population genetics and demography. We here investigated the role of four of these factors (mating systems, population size, bottlenecks and migration) in the hermaphroditic freshwater snail Physa acuta. Twenty-four populations were sampled either around Montpellier (local scale), or at the scale of France (global scale). At local scale, eight populations were sampled twice, before and after summer drying out. The genetic structure of these populations was studied using microsatellite loci. Populations were classified according to openness (ponds vs. rivers) and water regime (permanent vs. temporary) allowing predictions on genetic patterns (e.g. diversity within populations and differentiation). At local scale, progeny-arrays analysis of the selfing rate was conducted, and size distributions of individuals were followed over two years. Results with regard to the four factors mentioned above were: (i) Estimates of population selfing rates derived from inbreeding coefficients were only slightly higher than those from progeny-arrays. (ii) More variation was detected in rivers than in ponds, but no influence of water regime was detected. One reason might be that permanent populations are not going less often through low densities than those from temporary habitats at the time scale studied. (iii) There was limited evidence for genetic bottlenecks which is compatible with the fact that even marked reduction in water availability was not necessarily associated with demographic bottlenecks. More generally, bottlenecks reducing genetic variation probably occur at population foundation. (iv) Lower genetic differentiation was detected among rivers than among ponds which might be related to limitations on gene flow. Demographic and temporal genetic data further indicates that flooding in rivers is unlikely to induce marked gene flow explaining the strong genetic differentiation at short geographical scale in such habitats. Finally, the demographic data suggest that some populations are transitory and subject to recurrent recolonization, a pattern that was also detected through genetic data. 相似文献