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71.
72.
Castellani L Salvati E Alemà S Falcone G 《The Journal of biological chemistry》2006,281(22):15249-15257
The RhoA GTPase controls a variety of cell functions such as cell motility, cell growth, and gene expression. Previous studies suggested that RhoA mediates signaling inputs that promote skeletal myogenic differentiation. We show here that levels and activity of RhoA protein are down-regulated in both primary avian myoblasts and mouse satellite cells undergoing differentiation, suggesting that a fine regulation of this GTPase is required. In addition, ectopic expression of activated RhoA in primary quail myocytes, but not in mouse myocytes, inhibits accumulation of muscle-specific proteins and cell fusion. By disrupting RhoA signaling with specific inhibitors, we have shown that this GTPase, although required for cell identity in proliferating myoblasts, is not essential for commitment to terminal differentiation and muscle gene expression. Ectopic expression of an activated form of its downstream effector, Rock, impairs differentiation of both avian and mouse myoblasts. Conversely, Rock inhibition with specific inhibitors and small interfering RNA-mediated gene silencing leads to accelerated progression in the lineage and enhanced cell fusion, underscoring a negative regulatory function of Rock in myogenesis. Finally, we have reported that Rock acts independently from RhoA in preventing myoblast exit from the cell cycle and commitment to differentiation and may receive signaling inputs from Raf-1 kinase. 相似文献
73.
Falcone V Mihm D Neumann-Haefelin D Costa C Nguyen T Pozzi G Ricci S 《FEMS immunology and medical microbiology》2006,48(1):116-122
A conserved fragment comprising amino acid residues 130-230 of the G glycoprotein of human respiratory syncytial virus subtype A was expressed in the commensal bacterium Streptococcus gordonii. Recombinant streptococci displaying the G domain at the cell surface were used to immunize mice via both parenteral and mucosal routes. Subcutaneous immunization induced respiratory syncytial virus-specific serum immunoglobin G (IgG) capable of partially controlling virus replication in the lungs. Intranasal immunization with live bacteria stimulated the production of IgA against both the whole virus and the G domain in serum and bronchoalveolar fluid. Upon challenge, immunized animals had significantly lower virus titres in the lungs than the controls. Our results show for the first time that the G domain-expressing S. gordonii strain elicits both systemic and mucosal immunity that reduced respiratory syncytial virus replication in the lungs of mice. 相似文献
74.
75.
Pedro Robles Delphine Fleury Héctor Candela Gerda Cnops María Magdalena Alonso-Peral Sylvester Anami Andrea Falcone Camila Caldana Lothar Willmitzer María Rosa Ponce Mieke Van Lijsebettens José Luis Micol 《Plant physiology》2010,152(3):1357-1372
To identify genes involved in vascular patterning in Arabidopsis (Arabidopsis thaliana), we screened for abnormal venation patterns in a large collection of leaf shape mutants isolated in our laboratory. The rotunda1-1 (ron1-1) mutant, initially isolated because of its rounded leaves, exhibited an open venation pattern, which resulted from an increased number of free-ending veins. We positionally cloned the RON1 gene and found it to be identical to FRY1/SAL1, which encodes an enzyme with inositol polyphosphate 1-phosphatase and 3′ (2′),5′-bisphosphate nucleotidase activities and has not, to our knowledge, previously been related to venation patterning. The ron1-1 mutant and mutants affected in auxin homeostasis share perturbations in venation patterning, lateral root formation, root hair length, shoot branching, and apical dominance. These similarities prompted us to monitor the auxin response using a DR5-GUS auxin-responsive reporter transgene, the expression levels of which were increased in roots and reduced in leaves in the ron1-1 background. To gain insight into the function of RON1/FRY1/SAL1 during vascular development, we generated double mutants for genes involved in vein patterning and found that ron1 synergistically interacts with auxin resistant1 and hemivenata-1 but not with cotyledon vascular pattern1 (cvp1) and cvp2. These results suggest a role for inositol metabolism in the regulation of auxin responses. Microarray analysis of gene expression revealed that several hundred genes are misexpressed in ron1-1, which may explain the pleiotropic phenotype of this mutant. Metabolomic profiling of the ron1-1 mutant revealed changes in the levels of 38 metabolites, including myoinositol and indole-3-acetonitrile, a precursor of auxin.During the vegetative development of Arabidopsis (Arabidopsis thaliana), leaves are produced from the shoot apical meristem in an orchestrated program that involves patterning and cell division, expansion, and differentiation. The mature vegetative leaves of Arabidopsis are histologically simple and consist of the outer epidermis and internal mesophyll and vasculature (Tsukaya, 2005). Veins are crucial for normal leaf function, transporting water, minerals, and photosynthate and providing mechanical support to the lamina (Evert and Eichhorn, 2006). The leaves of many vascular plants, such as the angiosperms, exhibit a closed reticulate venation pattern (Roth-Nebelsick et al., 2001). In Arabidopsis, the leaf venation pattern is brochidodromous, with a single primary vein (midvein) and a series of loops formed by secondary veins that connect other secondary and higher order veins (Hickey, 1973; Candela et al., 1999).Vein differentiation must be spatially and temporally regulated throughout leaf development. Many aspects of venation patterning in plant leaves can be explained by the auxin canalization model (Sachs, 1991; Rolland-Lagan and Prusinkiewicz, 2005), which is supported by considerable experimental evidence. The role of auxin in venation pattern formation is supported by the phenotypes of mutants possessing altered auxin biosynthesis or perception (Alonso-Peral et al., 2006; Cheng et al., 2006), experimental perturbation of auxin transport (Mattsson et al., 1999; Sieburth, 1999), and the expression pattern of auxin-responsive reporter transgenes (Mattsson et al., 2003; Scarpella et al., 2006). The phenotypes of mutants impaired in auxin transport, such as scarface (sfc; Deyholos et al., 2000; Sieburth et al., 2006) and pin-formed1 (pin1; Okada et al., 1991; Gälweiler et al., 1998), and perception, such as monopteros (mp; Hardtke and Berleth,1998), are pleiotropic and include defects in vein patterning or differentiation. The sfc mutant exhibits a disconnected venation pattern (Deyholos et al., 2000), and the lateral organs of strong mp mutants display a reduced venation pattern with no peripheral veins (Przemeck et al., 1996). In contrast, the leaf venation pattern of pin1 mutants resembles that of wild-type plants treated with auxin transport inhibitors, exhibiting extra primary and secondary veins and an accumulation of vascular elements along the leaf margin (Mattsson et al., 1999).Unlike sfc, pin1, or mp, other leaf venation mutants are not primarily affected in auxin production, perception, or transport (Carland et al., 1999). Examples include cotyledon vascular pattern1 (cvp1), the cotyledons of which exhibit isolated patches of vascular tissue (Carland et al., 1999, 2002), and cvp2, which exhibits increased numbers of free-ending veins in the cotyledons and leaves (Carland et al., 1999; Carland and Nelson, 2004). CVP1 encodes the STEROL METHYLTRANSFERASE2 (SMT2) protein, an enzyme that functions in the sterol biosynthetic pathway (Carland et al., 2002). CVP2 encodes an inositol polyphosphate 5′-phosphatase (5PTase; Carland and Nelson, 2004), which mediates the hydrolysis of inositol 1,4,5-trisphosphate (IP3), a eukaryotic second messenger with a pivotal role in calcium signaling (Berridge, 2009). IP3 controls cytosolic calcium levels by regulating calcium release from the vacuole and endoplasmic reticulum (Krinke et al., 2007). The disconnected, open venation pattern of cvp2 cotyledons and leaves suggested a role for intracellular IP3 levels in vascular development (Carland and Nelson, 2004). Recently, CVP2 and another 5PTase, CVP2-LIKE1 (CVL1), have been shown to regulate vein patterning through the production of a specific phosphoinositide (PI) that acts as a ligand for SFC/VASCULAR NETWORK3 (VAN3), which in turn controls the traffic of vesicles that accounts for the polar subcellular localization of PIN1 proteins (Carland and Nelson, 2009; Naramoto et al., 2009). Another inositol 5PTase, At5PTase13, has been shown to play a role in auxin-mediated vein development in cotyledons (Lin et al., 2005). Furthermore, the open vein networks present in the leaves of forked and tornado mutants (Steynen and Schultz, 2003; Cnops et al., 2006) may be due to altered auxin perception or distribution.To identify genes required for venation patterning, we screened for naturally occurring variations in the venation pattern of Arabidopsis vegetative leaves (Candela et al., 1999). In this way, we discovered the spontaneously occurring hemivenata-1 (hve-1) mutation, which causes a venation pattern that is significantly simpler than those of other wild types, such as Landsberg erecta (Ler) and Columbia-0 (Col-0). We positionally cloned the HVE gene, which encodes a CAND1 protein involved in ubiquitin-mediated auxin signaling (Alonso-Peral et al., 2006). To identify additional loci necessary for vascular patterning, we screened for venation pattern defects in a collection of leaf shape mutants isolated in our laboratory after ethyl methanesulfonate (EMS) mutagenesis (Berná et al., 1999) and found that the rotunda1-1 (ron1-1) mutant, named after the round laminae of its vegetative leaves, displays disconnected leaf veins. Here, we describe the phenotypic characterization of the ron1-1 mutant and the map-based cloning of RON1, which encodes an inositol polyphosphate 1-phosphatase that plays a role in venation patterning, as determined by morphological, reporter gene, and double mutant analyses. Our results suggest an interplay between inositol and auxin signaling in a number of developmental pathways, including those responsible for leaf venation pattern formation. 相似文献
76.
Zhang Y Manning LR Falcone J Platt O Manning JM 《The Journal of biological chemistry》2003,278(41):39565-39571
Hemoglobin function can be modulated by the red cell membrane but some mechanistic details are incomplete. For example, the 43-kDa chymotryptic fragment of the cytoplasmic portion of red cell membrane Band 3 protein and its corresponding N-terminal 11-residue synthetic peptide lower the oxygen affinity of hemoglobin but effects on cooperativity are unclear. Using highly purified preparations, we also find a lowered Hill coefficient (n values <2) at subequivalent ratios of Band 3 fragment or of synthetic peptide to Hb, resulting in an oxygen affinity that is moderately decreased and a partially hyperbolic shape for the O2 binding curve. Both normal HbA and sickle HbS display this property. Thus, the determinant responsible for the Hb cooperativity decreases by the 43-kDa fragment resides within its first 11 N-terminal residues. This effect is observed in the absence of chloride and is reversed by its addition. As effector to Hb ratios approach equivalence or with saturating chloride normal cooperativity is restored, and oxygen affinity is further lowered because the shape of the oxygen binding curve becomes completely sigmoidal. The relative efficiencies of 2,3-diphosphoglycerate (DPG), the 43-kDa Band 3 fragment, and the 11-residue synthetic peptide in lowering cooperativity are very similar. The findings are explained based on the stereochemical mechanism of cooperativity because of two populations of T-state hemoglobin tetramers, one with bound effector and the other with free (Perutz, M. F. (1989) Q. Rev. Biophys. 22, 139-237). As a result of this property, hemoglobin at the membrane inner surface in contact with the N-terminal region of Band 3 could preferentially bind O2 at low oxygen tension and then release it upon saturation with 2,3-diphosphoglycerate in the interior of the red cell. Membrane modulation of hemoglobin oxygen affinity has particularly interesting implications for the polymerization of hemoglobin S in the sickle red cell. 相似文献
77.
Di Stefano R Scopelliti M Pellerito C Fiore T Vitturi R Colomba MS Gianguzza P Stocco GC Consiglio M Pellerito L 《Journal of inorganic biochemistry》2002,89(3-4):279-292
Novel triorganotin(IV) complexes of two beta-lactamic antibiotics, 6-[D-(-)-beta-amino-p-hydroxyphenyl-acetamido]penicillin (=amoxicillin) and 6-[D-(-)-alpha-aminobenzyl]penicillin (=ampicillin), have been synthesized and investigated both in solid and solution states. The complexes corresponded to the general formula R(3)Sn(IV)antib*H(2)O (R=Me, n-Bu, Ph; antib=amox=amoxicillinate or amp=ampicillinate). Structural investigations about configuration in the solid state have been carried out by interpreting experimental IR and 119Sn M?ssbauer data. In particular, IR results suggested polymeric structures both for R(3)Sn(IV)amox.H(2)O and R(3)Sn(IV)amp*H(2)O. Moreover, both antibiotics appear to behave as monoanionic bidentate ligands coordinating the tin(IV) atom through ester-type carboxylate, as well as through the beta-lactamic carbonyl. Evidence that in none of these compounds water molecules were involved in coordination, was provided by thermogravimetric investigations. On the basis of 119Sn M?ssbauer spectroscopy it can be inferred that tin(IV) was pentacoordinate in all of the complexes in the solid state, showing an equatorial R(3)Sn(IV) trigonal bipyramidal (tbp) configuration. The nature of the complexes in solution state was investigated by using 1H and 13C nuclear magnetic resonance (NMR) spectroscopy, while an 119Sn spectrum was obtained for n-Bu(3)Sn(IV)amp*H(2)O. Although 1H- and 13C-NMR measurements suggested that in dimethyl sulfoxide (DMSO)-d(6) solution the polymeric structure collapsed, due to a solvolysis process of the beta-lactamic carbonyl bonding to the organometallic moiety, the complexes have been shown to maintain the same trigonal bipyramidal configuration at tin(IV) atom by the coordination of a DMSO molecule. Cytotoxic activity of these novel semisynthetic antibiotic derivatives has been tested towards spermatocyte chromosomes of the mussel Brachidontes pharaonis (Mollusca: Bivalvia) using two different chromosome-staining techniques such as Giemsa and CMA(3). The occurrence of typical colchicinized-like (c-like) mitoses on slides obtained from animals exposed to organotin compounds, directly confirmed the high mitotic spindle-inhibiting potency of these chemicals. In addition, by comparative analysis of spermatocyte chromosomes from untreated specimens (negative controls) and specimens treated with the triorganotin(IV) complexes, structural damages such as 'achromatic lesions' and 'chromosome breakages' have been identified. 相似文献
78.
In Balb 3T3 murine fibroblasts infected with retroviruses carrying the v-src oncogene, treatment with the glucocorticoid hormone dexamethasone induces a 10-fold increase in the number of transformed foci and of anchorage-independent colonies. In contrast, in NIH-3T3-infected cells the number of foci and of colonies growing in soft agar is considerably reduced by the addition of the hormone. The effect of dexamethasone on both Balb 3T3 and NIH 3T3 cells is dose-dependent and mediated by specific receptors. The expression of glucocorticoid receptors as well as transactivation of a mouse mammary tumor virus promoter in the presence of dexamethasone is comparable in the two cell lines. Dexamethasone does not change the expression and kinase activity of v-Src proteins either in freshly infected Balb 3T3 and NIH 3T3 cells or in morphologically normal clones or in transformed foci derived from infected Balb 3T3 cells stably expressing v-Src. However, in cocultivation assays of phenotypically normal clones of v-Src expressing Balb 3T3 cells mixed with a large excess of parental Balb 3T3 cells, the hormone is able to rescue the ability to form transformed foci of these otherwise normal cells. The present data point out a new role of glucocorticoid hormones in controlling transformation in a cell-specific manner through epigenetic mechanisms. 相似文献
79.
Expression and regulation of Bradyrhizobium japonicum and Xanthobacter flavus CO2 fixation genes in a photosynthetic bacterial host. 总被引:1,自引:1,他引:0
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Calvin cycle carbon dioxide fixation genes encoded on DNA fragments from two nonphotosynthetic, chemolithoautotrophic bacteria, Bradyrhizobium japonicum and Xanthobacter flavus, were found to complement and support photosynthetic growth of a ribulose 1,5-bisphosphate carboxylase-oxygenase (RubisCO) deletion mutant of the purple nonsulfur bacterium Rhodobacter sphaeroides. The regulation of RubisCO expression was analyzed in the complemented R. sphaeroides RubisCO deletion mutant. Distinct differences in the regulation of RubisCO synthesis were revealed when the complemented R. sphaeroides strains were cultured under photolithoautotrophic and photoheterotrophic growth conditions, e.g., a reversal in the normal pattern of RubisCO gene expression. These studies suggest that sequences and molecular signals which regulate the expression of diverse RubisCO genes may be probed by using the R. sphaeroides complementation system. 相似文献
80.
Reductive pentose phosphate-independent CO2 fixation in Rhodobacter sphaeroides and evidence that ribulose bisphosphate carboxylase/oxygenase activity serves to maintain the redox balance of the cell. 总被引:4,自引:4,他引:0
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Whole-cell CO2 fixation and ribulose 1,5-bisphosphate carboxylase/oxygenase (RubisCO) activity were determined in Rhodobacter sphaeroides wild-type and mutant strains. There is no obvious difference in the levels of whole-cell CO2 fixation for the wild type, a form I RubisCO deletion mutant, and a form II RubisCO deletion mutant. No ribulose 1,5-bisphosphate-dependent CO2 fixation was detected in a form I-form II RubisCO double-deletion mutant (strain 16) or strain 16PHC, a derivative from strain 16 which was selected for the ability to grow photoheterotrophically with CO2 as an electron acceptor. However, significant levels of whole-cell CO2 fixation were detected in both strains 16 and 16PHC. Strain 16PHC exhibited CO2 fixation rates significantly higher than those of strain 16; the rates found for strain 16PHC were 30% of the level found in photoheterotrophically grown wild-type strain HR containing both form I and form II RubisCO and 10% of the level of the wild-type strain grown photolithoautotrophically. Strain 16PHC could not grow photolithoautotrophically in a CO2-H2 atmosphere; however, CO2 fixation catalyzed by photoheterotrophically grown strain 16PHC was repressed by addition of the alternate electron acceptor dimethyl sulfoxide. Dimethyl sulfoxide addition also influenced RubisCO activity under photolithoautotrophic conditions; 40 to 70% of the RubisCO activity was reduced without significantly influencing growth. Strain 16PHC and strain 16 contain nearly equivalent but low levels of pyruvate carboxylase, indicating that CO2 fixation enzymes other than pyruvate carboxylase contribute to the ability of strain 16PHC to grow with CO2 as an electron acceptor. 相似文献