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991.
The methodology combining Axisymmetric Drop Shape Analysis (ADSA) with a captive bubble (ADSA-CB) facilitates pulmonary surfactant related studies. The accuracy of ADSA-CB is crucially dependent on the quality of the bubble profile extracted from the raw image. In a previous paper, an image analysis scheme featuring a Canny edge detector and a Axisymmetric Liquid Fluid Interfaces-Smoothing (ALFI-S) algorithm was developed to process captive bubble images under a variety of conditions, including images with extensive noise and/or lack of contrast. A new version of ADSA-CB based on that image analysis scheme is developed and applied to pulmonary surfactant and pulmonary surfactant-polymer systems. The new version is found to be highly noise-resistant and well self-adjusting. 相似文献
992.
The yeast alpha-factor receptor encoded by the STE2 gene is a member of the extended family of G protein coupled receptors (GPCRs) involved in a wide variety of signal transduction pathways. We report here the use of a fluorescent alpha-factor analogue [K(7)(NBD), Nle(12)] alpha-factor (Lys(7) (7-nitrobenz-2-oxa-1,3-diazol-4-yl), norleucine(12) alpha-factor) in conjunction with flow cytometry and fluorescence microscopy to study binding of ligand to the receptor. Internalization of the fluorescent ligand following receptor binding can be monitored by fluorescence microscopy. The use of flow cytometry to detect binding of the fluorescent ligand to intact yeast cells provides a sensitive and reproducible assay that can be conducted at low cell densities and is relatively insensitive to fluorescence of unbound and nonspecifically bound ligand. Using this assay, we determined that some receptor alleles expressed in cells lacking the G protein alpha subunit exhibit a higher equilibrium binding affinity for ligand than the same alleles expressed in isogenic cells containing the normal complement of G protein subunits. On the basis of time-dependent changes in the intensity and shape of the emission spectrum of [K(7)(NBD),Nle(12)] alpha-factor during binding, we infer that the ligand associates with receptors via a two-step process involving an initial interaction that places the fluorophore in a hydrophobic environment, followed by a conversion to a state in which the fluorophore moves to a more polar environment. 相似文献
993.
The mammalian Na(+)/H(+) exchanger is a membrane protein with a C-terminal regulatory cytosolic domain and an N-terminal membrane domain. Na(+)/H(+) exchanger isoform 1 (NHE1) possesses a conserved amino acid sequence of seven consecutive acidic residues in the distal region of the cytosolic tail. We examined the structural and functional role of this acidic sequence. In human NHE1, varying mutations of the sequence (753)EEDEDDD(759) resulted in defective NHE1 activity. Mutation of the core acid sequence, (755)DED(757), or of the entire sequence caused a decrease in the activity of NHE1 in response to acute acid load. This was not due to changes in Na(+) affinity but rather due to decreased maximum velocity of the protein and delayed activation. Mutation of the target sequence did not affect the ability of the cytoplasmic domain to bind carbonic anhydrase II or tescalcin but did affect calmodulin binding. Mutation of the acidic domain also caused altered sensitivity to trypsin and changes in size of the protein in gel-filtration chromatography and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Our results demonstrate that the acidic sequence is critical in maintaining proper conformation of the cytosolic domain, calmodulin binding, and in maintenance of Na(+)/H(+) exchanger activity. 相似文献
994.
Bullard B Ferguson C Minajeva A Leake MC Gautel M Labeit D Ding L Labeit S Horwitz J Leonard KR Linke WA 《The Journal of biological chemistry》2004,279(9):7917-7924
alphaB-crystallin, a major component of the vertebrate lens, is a chaperone belonging to the family of small heat shock proteins. These proteins form oligomers that bind to partially unfolded substrates and prevent denaturation. alphaB-crystallin in cardiac muscle binds to myofibrils under conditions of ischemia, and previous work has shown that the protein binds to titin in the I-band of cardiac fibers (Golenhofen, N., Arbeiter, A., Koob, R., and Drenckhahn, D. (2002) J. Mol. Cell. Cardiol. 34, 309-319). This part of titin extends as muscles are stretched and is made up of immunoglobulin-like modules and two extensible regions (N2B and PEVK) that have no well defined secondary structure. We have followed the position of alphaB-crystallin in stretched cardiac fibers relative to a known part of the titin sequence. alphaB-crystallin bound to a discrete region of the I-band that moved away from the Z-disc as sarcomeres were extended. In the physiological range of sarcomere lengths, alphaB-crystallin bound in the position of the N2B region of titin, but not to PEVK. In overstretched myofibrils, it was also in the Ig region between N2B and the Z-disc. Binding between alphaB-crystallin and N2B was confirmed using recombinant titin fragments. The Ig domains in an eight-domain fragment were stabilized by alphaB-crystallin; atomic force microscopy showed that higher stretching forces were needed to unfold the domains in the presence of the chaperone. Reversible association with alphaB-crystallin would protect I-band titin from stress liable to cause domain unfolding until conditions are favorable for refolding to the native state. 相似文献
995.
He XY Shen J Hu WY Ding X Lu AY Hong JY 《Archives of biochemistry and biophysics》2004,427(2):143-153
Human cytochrome P450 (CYP) 2A6 and 2A13 play an important role in catalyzing the metabolism of many environmental chemicals including coumarin, nicotine, and several tobacco-specific carcinogens. Both CYP2A6 and CYP2A13 proteins are composed of 494 amino acid residues. Although CYP2A13 shares a 93.5% identity with CYP2A6 in the amino acid sequence, it is only about one-tenth as active as CYP2A6 in catalyzing coumarin 7-hydroxylation. To identify the key amino acid residues that account for such a remarkable difference, we generated a series of CYP2A6 and CYP2A13 mutants by site-directed mutagenesis/heterologous expression and compared their coumarin 7-hydroxylation activities. In CYP2A6, the amino acid residues at position 117 and 372 are valine (Val) and arginine (Arg), respectively; whereas in CYP2A13, they are alanine (Ala) and histidine (His). Kinetic analysis revealed that the catalytic efficiency (Vmax/Km) of the CYP2A6 Val(117)--> Ala and Arg(372)--> His mutants was drastically reduced (0.41 and 0.64 versus 3.23 for the wild-type CYP2A6 protein). In contrast, the catalytic efficiency of the CYP2A13 Ala(117) --> Val and His(372) --> Arg mutants was greatly increased (2.65 and 2.60 versus 0.31 for wild-type CYP2A13 protein). These results clearly demonstrate that the Val at position 117 and Arg at position 372 are critical amino acid residues for coumarin 7-hydroxylation. Based on the crystal structure of CYP2C5, we have generated the homology models of CYP2A6 and CYP2A13 and docked the substrate coumarin to the active site. Together with the kinetic characterization, our structural modeling provides explanations for the amino acid substitution results and the insights of detailed enzyme-substrate interactions. 相似文献
996.
997.
Suppression of SARS-CoV entry by peptides corresponding to heptad regions on spike glycoprotein 总被引:11,自引:0,他引:11
Yuan K Yi L Chen J Qu X Qing T Rao X Jiang P Hu J Xiong Z Nie Y Shi X Wang W Ling C Yin X Fan K Lai L Ding M Deng H 《Biochemical and biophysical research communications》2004,319(3):746-752
Heptad repeat regions (HR1 and HR2) are highly conserved sequences located in the glycoproteins of enveloped viruses. They form a six-helix bundle structure and are important in the process of virus fusion. Peptides derived from the HR regions of some viruses have been shown to inhibit the entry of these viruses. SARS-CoV was also predicted to have HR1 and HR2 regions in the S2 protein. Based on this prediction, we designed 25 peptides and screened them using a HIV-luc/SARS pseudotyped virus assay. Two peptides, HR1-1 and HR2-18, were identified as potential inhibitors, with EC(50) values of 0.14 and 1.19microM, respectively. The inhibitory effects of these peptides were validated by the wild-type SARS-CoV assay. HR1-1 and HR2-18 can serve as functional probes for dissecting the fusion mechanism of SARS-CoV and also provide the potential of further identifying potent inhibitors for SARS-CoV entry. 相似文献
998.
999.
Rafaeloff-Phail R Ding L Conner L Yeh WK McClure D Guo H Emerson K Brooks H 《The Journal of biological chemistry》2004,279(51):52934-52939
AMP-activated protein kinase (AMPK) serves as an energy-sensing protein kinase that is activated by a variety of metabolic stresses that lower cellular energy levels. When activated, AMPK modulates a network of metabolic pathways that result in net increased substrate oxidation, generation of reduced nucleotide cofactors, and production of ATP. AMPK is activated by a high AMP:ATP ratio and phosphorylation on threonine 172 by an upstream kinase. Recent studies suggest that mechanisms that do not involve changes in adenine nucleotide levels can activate AMPK. Another sensor of the metabolic state of the cell is the NAD/NADH redox potential. To test whether the redox state might have an effect on AMPK activity, we examined the effect of beta-NAD and NADH on this enzyme. The recombinant T172D-AMPK, which was mutated to mimic the phosphorylated state, was activated by beta-NAD in a dose-dependent manner, whereas NADH inhibited its activity. We explored the effect of NADH on AMPK by systematically varying the concentrations of ATP, NADH, peptide substrate, and AMP. Based on our findings and established activation of AMPK by AMP, we proposed a model for the regulation by NADH. Key features of this model are as follows. (a) NADH has an apparent competitive behavior with respect to ATP and uncompetitive behavior with respect to AMP resulting in improved binding constant in the presence of AMP, and (b) the binding of the peptide is not significantly altered by NADH. In the absence of AMP, the binding constant of NADH becomes higher than physiologically relevant. We conclude that AMPK senses both components of cellular energy status, redox potential, and phosphorylation potential. 相似文献
1000.
Li Y Dudek J Guiard B Pfanner N Rehling P Voos W 《The Journal of biological chemistry》2004,279(36):38047-38054
Transport of preproteins into the mitochondrial matrix requires the presequence translocase of the inner membrane (TIM23 complex) and the presequence translocase-associated motor (PAM). The motor consists of five essential subunits, the mitochondrial heat shock protein 70 (mtHsp70) and four cochaperones, the nucleotide exchange-factor Mge1, the translocase-associated fulcrum Tim44, the J-protein Pam18, and Pam16. Pam16 forms a complex with Pam18 and displays similarity to J-proteins but lacks the canonical tripeptide motif His-Pro-Asp (HPD). We report that Pam16 does not function as a typical J-domain protein but, rather, antagonizes the function of Pam18. Pam16 specifically inhibits the Pam18-mediated stimulation of the ATPase activity of mtHsp70. The inclusion of the HPD motif in Pam16 does not confer the ability to stimulate mtHsp70 activity. Pam16-HPD fully substitutes for wild-type Pam16 in vitro and in vivo but is not able to replace Pam18. Pam16 represents a new type of cochaperone that controls the stimulatory effect of the J-protein Pam18 and regulates the interaction of mtHsp70 with precursor proteins during import into mitochondria. 相似文献