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991.
1-15N-L-Tryptophan (1-15N-L-Trp) was synthesized from 15N-aniline by a Sandmeyer reaction, followed by cyclization to isatin, reduction to indole with LiAlH4, and condensation of the 15N-indole with L-serine, catalyzed by tryptophan synthase. 1-15N-L-Trp was complexed with wild-type tryptophan synthase and beta-subunit mutants, betaK87T, betaD305A, and betaE109D, in the absence or presence of the allosteric ligands sodium chloride and disodium alpha-glycerophosphate. The enzyme complexes were observed by 15N-heteronuclear single-quantum coherence nuclear magnetic resonance (15N-HSQC NMR) spectroscopy for the presence of 1-15N-L-Trp bound to the beta-active site. No 15N-HSQC signal was detected for 1-15N-L-Trp in 10 mm triethanolamine hydrochloride buffer at pH 8. 1-15N-L-Trp in the presence of wild-type tryptophan synthase in the absence or presence of 50 mm sodium chloride showed a cross peak at 10.25 ppm on the 1H axis and 129 ppm on the 15N axis as a result of reduced solvent exchange for the bound 1-15N-L-Trp, consistent with formation of a closed conformation of the active site. The addition of disodium alpha-glycerophosphate produced a signal twice as intense, suggesting that the equilibrium favors the closed conformation. 15N-HSQC NMR spectra of betaK87T and betaE109D mutant Trp synthase with 1-15N-L-Trp showed a similar cross peak either in the presence or absence of disodium alpha-glycerophosphate, indicating the preference for a closed conformation for these mutant proteins. In contrast, the betaD305A Trp synthase mutant only showed a 15N-HSQC signal in the presence of disodium alpha-glycerophosphate. Thus, this mutant Trp synthase favored an open conformation in the absence of disodium alpha-glycerophosphate but was able to form a closed conformation in the presence of disodium alpha-glycerophosphate. Our results demonstrate that the 15N-HSQC NMR spectra of 1-15N-L-Trp bound to Trp synthase can be used to determine the conformational state of mutant forms in solution rapidly. In contrast, UV-visible spectra of wild-type and mutant Trp synthase in the presence of L-Trp with NaCl and/or disodium alpha-glycerophosphate are more difficult to interpret in terms of altered conformational equilibria. 相似文献
992.
The liver is responsible for key metabolic functions, including control of normal homoeostasis in response to diet and xenobiotic metabolism/detoxification. We have shown previously that inactivation of the hepatic cytochrome P450 system through conditional deletion of POR (P450 oxidoreductase) induces hepatic steatosis, liver growth and P450 expression. We have exploited a new conditional model of POR deletion to investigate the mechanism underlying these changes. We demonstrate that P450 induction, liver growth and hepatic triacylglycerol (triglyceride) homoeostasis are intimately linked and provide evidence that the observed phenotypes result from hepatic accumulation of unsaturated fatty acids, which mediate these phenotypes by activation of the nuclear receptor CAR (constitutive androstane receptor) and, to a lesser degree, PXR (pregnane X receptor). To our knowledge this is the first direct evidence that P450s play a major role in controlling unsaturated fatty acid homoeostasis via CAR. The regulation of P450s involved in xenobiotic metabolism by this mechanism has potentially significant implications for individual responses to drugs and environmental chemicals. 相似文献
993.
An SEM study of the surface morphology of the major stages of mature and developing teeth of the leopard frog was made using anorganic preparations of the teeth and jaws. After initial development, the crown area changed little during subsequent tooth eruption, ankylosis and maturation. The thin enamel covering extended further down the shaft than expected. After ankylosis, the surfaces of the tooth continued to mature. The unmineralized gap between the crown and the pedestal, which is prominent in most amphibians, gradually filled in as the ankylosed tooth aged. The upper portion of the pedestal initially formed a dentine surface which was globular in appearance due to partial calcification of the surface collagen fibres but became smooth with uniformly calcified fibres as the ankylosed tooth matured. The lower portion of the pedestal was more variable and there was a gradual transition of dentine into a more cellular, bone-like tissue which contained lacunae and larger fibre bundles. This bone-like tissue was very distinct in surface morphology from the bone of the adjacent jaw, and as the tooth matured it changed from a coarse, woven appearance to one more like lamellar bone. Resorption bays were present in both the dentine and bony areas of teeth which were being shed. During development, the pedestal, which attaches the tooth to the jaw, formed as a separate calcification site and did not form a complete ring until fusion of its buccal surface with that of the overlying crown. A bony buccal lip formed early as part of the pedestal. 相似文献
994.
Yang X Harkins LK Zubanova O Harrington A Kovalenko D Nadeau RJ Chen PY Toher JL Lindner V Liaw L Friesel R 《Developmental biology》2008,321(1):64-76
The FGF signaling pathway plays essential roles in endochondral ossification by regulating osteoblast proliferation and differentiation, chondrocyte proliferation, hypertrophy, and apoptosis. FGF signaling is controlled by the complementary action of both positive and negative regulators of the signal transduction pathway. The Spry proteins are crucial regulators of receptor tyrosine kinase-mediated MAPK signaling activity. Sprys are expressed in close proximity to FGF signaling centers and regulate FGFR-ERK-mediated organogenesis. During endochondral ossification, Spry genes are expressed in prehypertrophic and hypertrophic chondrocytes. Using a conditional transgenic approach in chondrocytes in vivo, the forced expression of Spry1 resulted in neonatal lethality with accompanying skeletal abnormalities resembling thanatophoric dysplasia II, including increased apoptosis and decreased chondrocyte proliferation in the presumptive reserve and proliferating zones. In vitro chondrocyte cultures recapitulated the inhibitory effect of Spry1 on chondrocyte proliferation. In addition, overexpression of Spry1 resulted in sustained ERK activation and increased expression of p21 and STAT1. Immunoprecipitation experiments revealed that Spry1 expression in chondrocyte cultures resulted in decreased FGFR2 ubiquitination and increased FGFR2 stability. These results suggest that constitutive expression of Spry1 in chondrocytes results in attenuated FGFR2 degradation, sustained ERK activation, and up-regulation of p21Cip and STAT1 causing dysregulated chondrocyte proliferation and terminal differentiation. 相似文献
995.
Robert S. Weibust 《Genetics》1973,73(2):303-312
Mean plasma cholesterol levels were determined at two ages in mice from eight unrelated inbred strains (BALB/cJ, BDP/J, CBA/J, C57BL/6J, LP/J, RF/J, SJL/J, and 129/J). Significant strain, sex, and age differences were observed. Estimates of the degree of genetic determination of the trait obtained from an analysis of the strain data averaged 58 +/- 4% for the males and 54 +/- 8% for the females.-Selection for high and low plasma cholesterol levels produced two significantly different and distinct lines. Selection was initiated in a genetically heterogeneous population derived from an eight-way cross of the inbred strains listed above. After five generations of selection the divergence of the high and low lines amounted to 4 phenotypic standard deviations of the foundation population. Realized heritability estimated from the regression of divergence on the combined cumulative selection differential was 51 +/- 5% for the males and 50 +/- 3% for the females. The results indicate that genetic factors are important in controlling plasma cholesterol levels in the mouse and that the majority of these factors act additively. 相似文献
996.
Ablation of PRC1 by small interfering RNA demonstrates that cytokinetic abscission requires a central spindle bundle in mammalian cells, whereas completion of furrowing does not 下载免费PDF全文
Mollinari C Kleman JP Saoudi Y Jablonski SA Perard J Yen TJ Margolis RL 《Molecular biology of the cell》2005,16(3):1043-1055
The temporal and spatial regulation of cytokinesis requires an interaction between the anaphase mitotic spindle and the cell cortex. However, the relative roles of the spindle asters or the central spindle bundle are not clear in mammalian cells. The central spindle normally serves as a platform to localize key regulators of cell cleavage, including passenger proteins. Using time-lapse and immunofluorescence analysis, we have addressed the consequences of eliminating the central spindle by ablation of PRC1, a microtubule bundling protein that is critical to the formation of the central spindle. Without a central spindle, the asters guide the equatorial cortical accumulation of anillin and actin, and of the passenger proteins, which organize into a subcortical ring in anaphase. Furrowing goes to completion, but abscission to create two daughter cells fails. We conclude the central spindle bundle is required for abscission but not for furrowing in mammalian cells. 相似文献
997.
Christine Neuveut Robert M. Scoggins David Camerini Richard B. Markham Kuan-Teh Jeang 《Journal of biomedical science》2003,10(6):651-660
HIV-1 Tat is essential for virus replication and is a potent transactivator of viral gene expression. Evidence suggests that Tat also influences virus infectivity and cytopathicity. Here, we find that the second coding exon of Tat contributes a novel function for the replication/infectivity of macrophage-tropic HIV-1. We show that macrophage-tropic HIV-1 which expresses the full-length two-exon form of Tat replicates better in monocyte-derived macrophages (MDM) than an otherwise isogenic virus which expresses only the one-exon form of Tat. Similarly, two-exon Tat expressing HIV-1 also replicates better than one-exon Tat expressing HIV-1 in two different models of human cells/tissue reconstituted SCID mice. 相似文献
998.
McKimmie CS Fraser AR Hansell C Gutiérrez L Philipsen S Connell L Rot A Kurowska-Stolarska M Carreno P Pruenster M Chu CC Lombardi G Halsey C McInnes IB Liew FY Nibbs RJ Graham GJ 《Journal of immunology (Baltimore, Md. : 1950)》2008,181(5):3353-3363
D6 scavenges inflammatory chemokines and is essential for the regulation of inflammatory and immune responses. Mechanisms explaining the cellular basis for D6 function have been based on D6 expression by lymphatic endothelial cells. In this study, we demonstrate that functional D6 is also expressed by murine and human hemopoietic cells and that this expression can be regulated by pro- and anti-inflammatory agents. D6 expression was highest in B cells and dendritic cells (DCs). In myeloid cells, LPS down-regulated expression, while TGF-beta up-regulated expression. Activation of T cells with anti-CD3 and soluble CD28 up-regulated mRNA expression 20-fold, while maturation of human macrophage and megakaryocyte precursors also up-regulated D6 expression. Competition assays demonstrated that chemokine uptake was D6 dependent in human leukocytes, whereas mouse D6-null cells failed to uptake and clear inflammatory chemokines. Furthermore, we present evidence indicating that D6 expression is GATA1 dependent, thus explaining D6 expression in myeloid progenitor cells, mast cells, megakaryocytes, and DCs. We propose a model for D6 function in which leukocytes, within inflamed sites, activate D6 expression and thus trigger resolution of inflammatory responses. Our data on D6 expression by circulating DCs and B cells also suggest alternative roles for D6, perhaps in the coordination of innate and adaptive immune responses. These data therefore alter our models of in vivo D6 function and suggest possible discrete, and novel, roles for D6 on lymphatic endothelial cells and leukocytes. 相似文献
999.
1000.
Helen M Hull-Sanders Robert H Johnson Heather A Owen Gretchen A Meyer 《Plant signaling & behavior》2009,4(9):893-895
Herbivores are sensitive to the genetic structure of plant populations, as genetics underlies plant phenotype and host quality. Polyploidy is a widespread feature of angiosperm genomes, yet few studies have examined how polyploidy influences herbivores. Introduction to new ranges, with consequent changes in selective regimes, can lead to evolution of changes in plant defensive characteristics and also affect herbivores. Here, we examine how insect herbivores respond to polyploidy in Solidago gigantea, using plants derived from both the native range (USA) and introduced range (Europe). S. gigantea has three cytotypes in the US, with two of these present in Europe. We performed bioassays with generalist (Spodoptera exigua) and specialist (Trirhabda virgata) leaf-feeding insects. Insects were reared on detached leaves (Spodoptera) or potted host plants (Trirhabda) and mortality and mass were measured. Trirhabda larvae showed little variation in survival or pupal mass attributable to either cytotype or plant origin. Spodoptera larvae were more sensitive to both cytotype and plant origin: they grew best on European tetraploids and poorly on US diploids (high mortality) and US tetraploids (low larval mass). These results show that both cytotype and plant origin influence insect herbivores, but that generalist and specialist insects may respond differently.Key words: polyploidy, cytotype, Solidago gigantea, insect herbivore, herbivory, invasive plant, introduced plantPolyploidy, or the possession of more than two sets of homologous chromosomes, is a fundamental force in angiosperm evolution.1,2 Many plant species or species complexes consist of multiple cytotypes that may occur sympatrically;3 this is an important source of genetic structure in plant populations that is often overlooked.4 Possession of multiple genomes may confer advantages to polyploid plants such as increased heterozygosity, a decreased probability of inbreeding depression, or a greater gene pool available for selection; these traits contribute to the widespread success of polyploids and may make them prone to invasiveness.5,6 In a recent article,7 we examined the functional consequences of polyploidy for different cytotypes of Solidago gigantea Ait. (Asteraceae), collected from both its native range (North America) and its introduced range (Europe). In this addendum, we show how cytotype and continent of origin influence interactions of S. gigantea with insect herbivores. Interactions with herbivores are expected to vary with cytotype because of phenotypic changes associated with polyploidy, but this area has received little study (reviewed in refs. 8–11). Plant origin, from either the native range or an introduced range, should also influence herbivores. Plants may escape from their specialist natural enemies in the introduced range, thereby experiencing reduced herbivore pressure from an insect community dominated by generalists.12,13 Given sufficient time, plants from the introduced range may evolve to decrease investment in anti-herbivore defenses, particularly those effective against specialists.14 While a growing body of research has addressed whether plant defenses against herbivory are lower in the introduced range,12,15,16 few of these studies have also examined the influence of cytotype.17Three cytotypes of S. gigantea can be found in its native range in North America (diploid, tetraploid and hexaploid, 2n = 18, 36 and 54 respectively). These are morphologically indistinguishable and not generally treated as separate species.18 In Europe, where S. gigantea was introduced in the mid 18th century,19 tetraploids are the dominant cytotype but diploids also occur. S. gigantea supports a diverse array of insect herbivores in its native range, but has few natural enemies in its introduced range.20 We report here on experiments using both a generalist and a specialist leaf-chewing insect. The generalist, Spodoptera exigua (Lepidoptera: Noctuidae) is widely distributed and highly polyphagous, while the specialist Trirhabda virgata (Coleoptera: Chrysomelidae) feeds only on closely-related species within the genus Solidago. T. virgata is an outbreak insect that can be a major defoliator of S. gigantea and related species in North America.21 We grew plants originating from 10 populations in the US and 20 populations in Europe in common gardens at the University of Wisconsin-Milwaukee Field Station in Saukville, Wisconsin. There were five plant origin-cytotype combinations: three cytotypes from the US and two from Europe. Insects were reared on detached leaves from a single plant (Spodoptera) or on potted host plants (Trirhabda), for a set period of 21 d (Spodoptera) or until pupation (Trirhabda). We recorded insect survival and mass at the end of 21 d (Spodoptera) or at pupation (Trirhabda) (reviewed in ref. 22).Overall survival was much better for the specialist Trirhabda than for the generalist Spodoptera (91% vs. 72%). Spodoptera larvae are not generally found on S. gigantea in the field, and while they are able to complete development, we found that this plant was not an ideal host. Spodoptera larvae were more sensitive to differences among cytotype and plant origin than were Trirhabda larvae. Percent survival was particularly poor for Spodoptera larvae reared on diploids from the US, where slightly more than half of the caterpillars survived for 21 days (Fig. 1). Trirhabda pupal mass was remarkably consistent across the five ploidy-plant origin combinations. In contrast, Spodoptera larvae responded to both cytotype and continent of origin. Surviving Spodoptera larvae did particularly well on tetraploid plants from the introduced range (Europe), and particularly poorly on tetraploids from the US (Fig. 1). We have previously reported that Spodoptera grow better on plants from Europe;22 our current results reveal that this difference is due exclusively to better growth on tetraploid plants. However, our results also show that both diploids and tetraploids from the US were poor hosts for Spodoptera: diploids because they caused high mortality and tetraploids because they resulted in poor growth. These results indicate that plants from the introduced range have reduced defenses against herbivores, even when accounting for polyploidy.Open in a separate windowFigure 1Mass ± se of S. exigua (A) and T. virgata (B) larvae reared on host plants of different cytotypes of Solidago gigantea originating from the US (native range) or europe (introduced range). Means in A followed by different letters are significantly different at p < 0.05 (ANOVA followed by multiple Student''s t-tests with Bonferroni correction). There were no significant differences in (B). Sample sizes for (A and B) shown in Spodoptera Trirhabda No. Surviving Initial No. % Survival No. Surviving Initial No. % Survival US-Diploid 21 39 54 37 39 95 US-Tetraploid 70 93 75 82 92 89 US-Hexaploid 16 24 67 23 24 96 EU-Diploid 15 23 65 23 24 96 EU-Tetraploid 101 129 78 114 129 88