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181.
Chad A. Brautigam Ranjit K. Deka Zhiming Ouyang Mischa Machius Gregory Knutsen Diana R. Tomchick Michael V. Norgard 《Journal of bacteriology》2012,194(24):6771-6781
Metal ion homeostasis is a critical function of many integral and peripheral membrane proteins. The genome of the etiologic agent of syphilis, Treponema pallidum, is compact and devoid of many metabolic enzyme genes. Nevertheless, it harbors genes coding for homologs of several enzymes that typically require either iron or zinc. The product of the tp0971 gene of T. pallidum, designated Tp34, is a periplasmic lipoprotein that is thought to be tethered to the inner membrane of this organism. Previous work on a water-soluble (nonacylated) recombinant version of Tp34 established that this protein binds to Zn2+, which, like other transition metal ions, stabilizes the dimeric form of the protein. In this study, we employed analytical ultracentrifugation to establish that four transition metal ions (Ni2+, Co2+, Cu2+, and Zn2+) readily induce the dimerization of Tp34; Cu2+ (50% effective concentration [EC50] = 1.7 μM) and Zn2+ (EC50 = 6.2 μM) were the most efficacious of these ions. Mutations of the crystallographically identified metal-binding residues hindered the ability of Tp34 to dimerize. X-ray crystallography performed on crystals of Tp34 that had been incubated with metal ions indicated that the binding site could accommodate the metals examined. The findings presented herein, coupled with bioinformatic analyses of related proteins, point to Tp34''s likely role in metal ion homeostasis in T. pallidum. 相似文献
182.
Carroll CE Marada S Stewart DP Ouyang JX Ogden SK 《Development (Cambridge, England)》2012,139(3):612-621
The Hedgehog (Hh) signaling pathway plays an instructional role during development, and is frequently activated in cancer. Ligand-induced pathway activation requires signaling by the transmembrane protein Smoothened (Smo), a member of the G-protein-coupled receptor (GPCR) superfamily. The extracellular (EC) loops of canonical GPCRs harbor cysteine residues that engage in disulfide bonds, affecting active and inactive signaling states through regulating receptor conformation, dimerization and/or ligand binding. Although a functional importance for cysteines localized to the N-terminal extracellular cysteine-rich domain has been described, a functional role for a set of conserved cysteines in the EC loops of Smo has not yet been established. In this study, we mutated each of the conserved EC cysteines, and tested for effects on Hh signal transduction. Cysteine mutagenesis reveals that previously uncharacterized functional roles exist for Smo EC1 and EC2. We provide in vitro and in vivo evidence that EC1 cysteine mutation induces significant Hh-independent Smo signaling, triggering a level of pathway activation similar to that of a maximal Hh response in Drosophila and mammalian systems. Furthermore, we show that a single amino acid change in EC2 attenuates Hh-induced Smo signaling, whereas deletion of the central region of EC2 renders Smo fully active, suggesting that the conformation of EC2 is crucial for regulated Smo activity. Taken together, these findings are consistent with loop cysteines engaging in disulfide bonds that facilitate a Smo conformation that is silent in the absence of Hh, but can transition to a fully active state in response to ligand. 相似文献
183.
Proteins in human serum are increasingly being studied for their roles in a wide variety of biochemical interactions. To improve the sensitivity of the detection of human serum proteins after native polyacrylamide gel electrophoresis (PAGE), we have developed a fluorescence imaging detection technique for the detection. BSA (bovine serum albumin)-stabilized Au nanoclusters (NCs) were applied as fluorescent probes for imaging, and low-temperature plasma (LTP) treatment of the Au NCs was introduced to enhance the fluorescence imaging. Here, a series of optimization experiments (e.g. those to optimize for pH) were conducted for protein detection after 1-DE and 2-DE, and several types of discharge gases (He, O(2), and N(2)) were selected for the LTP treatment. The possible mechanism of interaction between the proteins and the Au NCs was demonstrated by an isothermal titration calorimetry experiment. Using the present method, a sensitivity of 7-14 times higher than that of traditional staining detection methods was observed in the oxygen LTP-treated Au NCs fluorescence images, and some relatively low abundance proteins (identified by the MS/MS technique) were easily detected. In addition, this fluorescence imaging method was applied to distinguish between the serum samples of patients with liver diseases and those of healthy people. Thus, this fluorescence imaging method is suitable for the highly sensitive detection of various serum proteins, and it shows potential capabilities for clinical diagnosis. 相似文献
184.
Jianwei Xiao Jing Li Min Ouyang Tao Yun Baoye He Daili Ji Jinfang Ma Wei Chi Congming Lu Lixin Zhang 《Plant physiology》2012,160(4):1911-1922
The biogenesis and assembly of photosynthetic multisubunit protein complexes is assisted by a series of nucleus-encoded auxiliary protein factors. In this study, we characterize the dac mutant of Arabidopsis (Arabidopsis thaliana), which shows a severe defect in the accumulation of the cytochrome b6/f complex, and provide evidence suggesting that the efficiency of cytochrome b6/f complex assembly is affected in the mutant. DAC is a thylakoid membrane protein with two predicted transmembrane domains that is conserved from cyanobacteria to vascular plants. Yeast (Saccharomyces cerevisiae) two-hybrid and coimmunoprecipitation analyses revealed a specific interaction between DAC and PetD, a subunit of the cytochrome b6/f complex. However, DAC was found not to be an intrinsic component of the cytochrome b6/f complex. In vivo chloroplast protein labeling experiments showed that the labeling rates of the PetD and cytochrome f proteins were greatly reduced, whereas that of the cytochrome b6 protein remained normal in the dac mutant. DAC appears to be a novel factor involved in the assembly/stabilization of the cytochrome b6/f complex, possibly through interaction with the PetD protein.The cytochrome b6/f (Cyt b6/f) complex is a multisubunit complex that resides in the thylakoid membrane and functions in linear and cyclic electron transport. In the linear process, the complex receives electrons from PSII and transfers them to PSI, a process that is accompanied by the generation of a proton gradient, which is essential for ATP synthesis (Mitchell, 1961; Saraste, 1999). The native form of this complex is present as a dimer with a mass of 310 kD that can be converted into a 140-kD monomer with increasing detergent concentrations (Huang et al., 1994; Breyton et al., 1997; Mosser et al., 1997; Baniulis et al., 2009). In higher plants, the Cyt b6/f monomer contains at least eight subunits: Cyt f, Cyt b6, PetC, PetD, PetM, PetL, PetG, and PetN (Wollman, 2004). PetC and PetM are encoded by nuclear genes, whereas the others are encoded by plastid genes. It has been shown that PetG and PetN are necessary for complex stability in tobacco (Nicotiana tabacum; Schwenkert et al., 2007). By contrast, PetL is not required for the accumulation of other subunits of the Cyt b6/f complex, even though it is involved in the stability and formation of the functional dimer (Bendall et al., 1986; Schwenkert et al., 2007). Inactivation of PetC in Arabidopsis (Arabidopsis thaliana) resulted in significantly reduced amounts of Cyt b6/f subunits and completely blocked linear electron transport, indicating that PetC participates in the formation of the functionally assembled Cyt b6/f complex (Maiwald et al., 2003). In Synechocystis sp. PCC 6803, the PetM subunit has no essential role in Cyt b6/f complex electron transfer or accumulation; however, the absence of this subunit apparently affects the levels of other protein complexes involved in energy transduction (Schneider et al., 2001). In addition to the other proteins, FNR was identified as a subunit of the Cyt b6/f complex isolated from spinach (Spinacia oleracea) thylakoid membranes (Zhang et al., 2001).Previous research has revealed how the Cyt b6/f complex assembles into a functional dimer (Bendall et al., 1986; Lemaire et al., 1986; Kuras and Wollman, 1994). In the Cyt b6/f complex, Cyt b6 and PetD form a mildly protease-resistant subcomplex that serves as a template for the assembly of Cyt f and PetG, producing a protease-resistant cytochrome moiety (Wollman, 2004). The PetC and PetL proteins then participate in the assembly of the functional dimer (Schwenkert et al., 2007). PetD becomes more unstable in the absence of Cyt b6, and the synthesis of Cyt f is greatly reduced when either Cyt b6 or PetD is inactivated, indicating that both Cyt b6 and PetD are prerequisite for the synthesis of Cyt f (Kuras and Wollman, 1994). The reduced synthesis of Cyt f can be explained by the so-called CES (for controlled by epistasy of synthesis) mechanism. It is suggested that, in this mechanism, the synthesis rate of some chloroplast-encoded subunits of photosynthetic protein complexes is regulated by the availability of their assembly partners from the same complexes (Choquet et al., 2001). The mechanism of CES for Cyt f has been studied in detail in Chlamydomonas reinhardtii (Choquet et al., 1998; Choquet and Vallon, 2000). In it, the unassembled Cyt f inhibits its own translation through a negative feedback mechanism, and MCA1 and TCA1 have been demonstrated to be involved in the regulation of Cyt f synthesis (Boulouis et al., 2011).Many studies have focused on understanding the conversion of apocytochrome to holocytochrome via the covalent binding of heme in Cyt f and Cyt b6 during the assembly of Cyt b6/f through the CCS and CCB pathways (Nakamoto et al., 2000; Wollman, 2004; de Vitry, 2011). The CCS pathway was originally discovered in the green alga C. reinhardtii through genetic studies of ccs mutants (for cytochrome c synthesis) that display a specific defect in membrane-bound Cyt f and soluble Cyt c6, two thylakoid lumen-resident c-type cytochromes functioning in photosynthesis (Xie and Merchant, 1998). In the CCS pathway, six loci that include plastid ccsA and nuclear CCS1 to CCS5 have been found in C. reinhardtii (Xie and Merchant, 1998). In these mutants, the apocytochrome is normally synthesized, targeted, and processed, but heme attachment is perturbed. The CCB pathway is involved in the covalent attachment of heme c(i) to Cyt b6 on the stromal side of the thylakoid membranes (Kuras et al., 2007). The ccb mutants show defects in the accumulation of subunits of the Cyt b6/f complex and covalent binding of heme to Cyt b6 (Lyska et al., 2007; Lezhneva et al., 2008). However, heme binding is not a prerequisite for the assembly of Cyt b6 into the Cyt b6/f complex, although the fully formed Cyt b6/f showed an increased sensitivity to protease (Saint-Marcoux et al., 2009).The assembly of the Cyt b6/f complex is a multistep process, and current studies have shown that the covalent binding of heme to Cyt f and Cyt b6 is highly regulated. Thus, it is reasonable to speculate that, similar to the other photosynthetic protein complexes (Mulo et al., 2008; Nixon et al., 2010; Rochaix, 2011), the assembly of the Cyt b6/f complex is also assisted by many nucleus-encoded factors. In this study, we characterized an Arabidopsis protein, DAC (for defective accumulation of Cyt b6/f complex), that seems to be involved in the assembly of the Cyt b6/f complex. In addition, we provide evidence that DAC interacts directly with PetD before it assembles within the Cyt b6/f complex. 相似文献
185.
Cells use biological signal transduction pathways to respond to environmental stimuli and the behavior of many cell types depends on precise sensing and transmission of external information. A notable property of signal transduction that was characterized in the Saccharomyces cerevisiae yeast cell and many mammalian cells is the alignment of dose-response curves. It was found that the dose response of the receptor matches closely the dose responses of the downstream. This dose-response alignment (DoRA) renders equal sensitivities and concordant responses in different parts of signaling system and guarantees a faithful information transmission. The experimental observations raise interesting questions about the nature of the information transmission through DoRA signaling networks and design principles of signaling systems with this function. Here, we performed an exhaustive computational analysis on network architectures that underlie the DoRA function in simple regulatory networks composed of two and three enzymes. The minimal circuits capable of DoRA were examined with Michaelis-Menten kinetics. Several motifs that are essential for the dynamical function of DoRA were identified. Systematic analysis of the topology space of robust DoRA circuits revealed that, rather than fine-tuning the network's parameters, the function is primarily realized by enzymatic regulations on the controlled node that are constrained in limiting regions of saturation or linearity. 相似文献
186.
We wished to study the efficacy and safety of the retrograde ligation of short hepatic veins (SHVs) and the right hepatic
vein (HV) through the retrohepatic tunnel in patients who underwent hemihepatectomy due to large hepatic carcinoma in the
right lobe of the liver. Right hemihepatectomy was performed in 23 patients with tumors larger than 8 cm in diameter. The
liver was separated at the secondary porta, and the interspace between right HVs and middle HVs was expanded. The right hepatic
portal vein and hepatic artery were freed and ligated, followed by the retrograde dissection of SHVs and the right HV along
the right retrohepatic space anterior to the inferior vena cava. A blocking belt was set at the left side of the midline,
after which the right liver was cut off. The procedure was successfully completed in all patients. The average amount of intraoperative
blood loss was 640 ml. The change in hepatic function was observed on the third postoperative day. Twenty-two patients exhibited
satisfactory results; one patient died from postoperative hepatic failure. In conclusion, this procedure can be safely performed
in most hemihepatectomy patients with liver tumors. 相似文献
187.
Hao-Qi Wang Zhong Yao Zhi Zhou Yun Sun Ping Wei Pingkai Ouyang 《Biotechnology and Bioprocess Engineering》2012,17(6):1135-1139
Theanine, a unique amino acid found in tea plants, has many important physiological functions. Theanine can be enzymatically synthesized via the γ-glutamyltranspeptidation reaction. In this study, we described a new method of theanine synthesis using the L-glutamine-Zn(II) (Zn(Gln)2) complex instead of glutamine as the donor, which successfully reduced the side autotranspeptidation reaction and led to higher yield of theanine. We prepared the Zn(Gln)2 complexes and showed that they are stable in liquid bulk under 9.0 pH. After using the Zn(Gln)2 in the γ-glutamyltranspeptidation reaction, we utilized HPLC and Mass spectrometry analysis to demonstrated that Zn(Gln)2 was an more effective γ-glutamyl donor than glutamine. The autotranspeptidation reaction was restrained effectively. As a result, the theanine yield and the conversion rate for glutamine were vastly improved. In a reaction mixture containing 48 mM of Zn(Gln)2, 1.6 M ethylamine, and 0.5 U/mL GGT, the final concentration of theanine obtained was 61.3 mM after incubation at 37°C for three hours. The conversion rate for glutamine was 63.8%, which showed a 16.9% increase as compared to when using glutamine alone as the donor substrate. 相似文献
188.
A major limitation to yeast aging study has been the inability to track mother cells and observe molecular markers during the aging process. The traditional lifespan assay relies on manual micro-manipulation to remove daughter cells from the mother, which is laborious, time consuming, and does not allow long term tracking with high resolution microscopy. Recently, we have developed a microfluidic system capable of retaining mother cells in the microfluidic chambers while removing daughter cells automatically, making it possible to observe fluorescent reporters in single cells throughout their lifespan. Here we report the development of a new generation of microfluidic device that overcomes several limitations of the previous system, making it easier to fabricate and operate, and allowing functions not possible with the previous design. The basic unit of the device consists of microfluidic channels with pensile columns that can physically trap the mother cells while allowing the removal of daughter cells automatically by the flow of the fresh media. The whole microfluidic device contains multiple independent units operating in parallel, allowing simultaneous analysis of multiple strains. Using this system, we have reproduced the lifespan curves for the known long and short-lived mutants, demonstrating the power of the device for automated lifespan measurement. Following fluorescent reporters in single mother cells throughout their lifespan, we discovered a surprising change of expression of the translation elongation factor TEF2 during aging, suggesting altered translational control in aged mother cells. Utilizing the capability of the new device to trap mother-daughter pairs, we analyzed mother-daughter inheritance and found age dependent asymmetric partitioning of a general stress response reporter between mother and daughter cells. 相似文献
189.
L Guo ST Qi DQ Miao XW Liang H Li XH Ou X Huang CR Yang YC Ouyang Y Hou QY Sun Z Han 《PloS one》2012,7(7):e40528
Parathyroid hormone-like hormone (PTHLH) was first identified as a parathyroid hormone (PTH)-like factor responsible for humoral hypercalcemia in malignancies in the 1980s. Previous studies demonstrated that PTHLH is expressed in multiple tissues and is an important regulator of cellular and organ growth, development, migration, differentiation, and survival. However, there is a lack of data on the expression and function of PTHLH during preimplantation embryonic development. In this study, we investigated the expression characteristics and functions of PTHLH during mouse preimplantation embryonic development. The results show that Pthlh is expressed in mouse oocytes and preimplantation embryos at all developmental stages, with the highest expression at the MII stage of the oocytes and the lowest expression at the blastocyst stage of the preimplantation embryos. The siRNA-mediated depletion of Pthlh at the MII stage oocytes or the 1-cell stage embryos significantly decreased the blastocyst formation rate, while this effect could be corrected by culturing the Pthlh depleted embryos in the medium containing PTHLH protein. Moreover, expression of the pluripotency-related genes Nanog and Pou5f1 was significantly reduced in Pthlh-depleted embryos at the morula stage. Additionally, histone acetylation patterns were altered by Pthlh depletion. These results suggest that PTHLH plays important roles during mouse preimplantation embryonic development. 相似文献
190.
Dengfeng Kuang Zhongxun Du Sheng Ouyang Meirui Han Zhiliang Fang 《Plasmonics (Norwell, Mass.)》2012,7(3):383-387
The optical beam generated by a micro triangular prism is presented to excite surface plasmon polaritons (SPPs) on a single silver nano slit. The electromagnetic fields generated by the micro triangular prism and the excited surface plasmon polaritons are simulated with finite-difference time-domain method. Compared with directly normal incident beam, the efficiency of SPPs’ excitation with the beam generated by the micro triangular prism is highly improved. 相似文献