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901.
Role of protein kinase C (PKC) isotypes in the regulation of neutrophil function are not clearly known. In the present study we purified the -PKC and -PKC isotypes from human neutrophil. Both the isotypes are immunoreactive only to their respective antibodies. -PKC was further confirmed by RT-PCR using specific primer. Co-factor requirements for both the kinases were found to be different when DG and ceramide were used as second messenger. Selective substrate specificities were determined for both and -PKC using isotype specific pseudosubstrates viz., [Ser25]PKC [19-31] and [Ser119]PKC[113-130] respectively. Endogenous protein phosphorylation by purified -PKC and -PKC showed their functional differences in neutrophil. -PKC phosphorylated 13, 15, 19, 33, 36, 47, 80 and 92 kDa proteins and -PKC phosphorylated 19, 22, 42, 47, 75 and 87 kDa proteins, only exception was the phosphorylation of 47 kDa protein which had been phosphorylated by both the kinases. Differences in phosphorylation between -PKC and -PKC clearly indicate the selective role for these PKC isotypes in the activation sequences of neutrophil. 相似文献
902.
Zhao M Boja ES Hoodbhoy T Nawrocki J Kaufman JB Kresge N Ghirlando R Shiloach J Pannell L Levine RL Fales HM Dean J 《Biochemistry》2004,43(38):12090-12104
The zona pellucida is an extracellular matrix that mediates taxon-specific fertilization in which human sperm will not bind to mouse eggs. The mouse zona pellucida is composed of three glycoproteins (ZP1, ZP2, ZP3). The primary structure of each has been deduced from the cDNA nucleic acid sequence, and each has been analyzed by mass spectrometry. However, determination of the secondary structure and processing of the human zona proteins have been hampered by the paucity of biological material. To investigate if taxon-specific sperm-egg recognition was ascribable to structural differences in a zona protein required for matrix formation, recombinant human ZP3 was expressed in CHO-Lec3.2.8.1 cells and compared to mouse ZP3. With nearly complete coverage, LC-QTOF mass spectrometry was used to determine the cleavage of an N-terminal signal peptide (amino acids 1-22) and the release of secreted ZP3 from a C-terminal transmembrane domain (amino acids 379-424). The resultant N-terminal glutamine was cyclized to pyroglutamate (pyrGln(23)), and several C-terminal peptides were detected, including one ending at Asn(350). The disulfide bond linkages of eight cysteine residues in the conserved zona domain were ascertained (Cys(46)/Cys(140), Cys(78)/Cys(99), Cys(217)/Cys(282), Cys(239)/Cys(300)), but the precise linkage of two additional disulfide bonds was indeterminate due to clustering of the remaining four cysteine residues (Cys(319), Cys(321), Cys(322), Cys(327)). Three of the four potential N-linked oligosaccharide binding sites (Asn(125), Asn(147), Asn(272)) were occupied, and clusters of O-glycans were observed within two regions, amino acids 156-173 and 260-281. Taken together, these data indicate that human and mouse ZP3 proteins are quite similar, and alternative explanations of taxon-specific sperm binding warrant exploration. 相似文献
903.
Gould KA Tochacek M Schaffer BS Reindl TM Murrin CR Lachel CM VanderWoude EA Pennington KL Flood LA Bynote KK Meza JL Newton MA Shull JD 《Genetics》2004,168(4):2113-2125
Hormonal, genetic, and environmental factors play major roles in the complex etiology of breast cancer. When treated continuously with 17beta-estradiol (E2), the ACI rat exhibits a genetically conferred propensity to develop mammary cancer. The susceptibility of the ACI rat to E2-induced mammary cancer appears to segregate as an incompletely dominant trait in crosses to the resistant Copenhagen (COP) strain. In both (ACI x COP)F(2) and (COP x ACI)F(2) populations, we find strong evidence for a major genetic determinant of susceptibility to E2-induced mammary cancer on distal rat chromosome 5. Our data are most consistent with a model in which the ACI allele of this locus, termed Emca1 (estrogen-induced mammary cancer 1), acts in an incompletely dominant manner to increase both tumor incidence and tumor multiplicity as well as to reduce tumor latency in these populations. We also find evidence suggestive of a second locus, Emca2, on chromosome 18 in the (ACI x COP)F(2) population. The ACI allele of Emca2 acts in a dominant manner to increase incidence and decrease latency. Together, Emca1 and Emca2 act independently to modify susceptibility to E2-induced mammary cancer. 相似文献
904.
We present an individual-based, spatially-explicit model of the dynamics of a small mammal and its resource. The life histories of each individual animal are modeled separately. The individuals can have the status of residents or wanderers and belong to behaviorally differing groups of juveniles or adults and males or females. Their territory defending and monogamous behavior is taken into consideration. The resource, green vegetation, grows depending on seasonal climatic characteristics and is diminished due to the herbivore's grazing. Other specifics such as a varying personal energetic level due to feeding and starvation of the individuals, mating preferences, avoidance of competitors, dispersal of juveniles, as a result of site overgrazing, etc., are included in the model. We determined model parameters from real data for the species Microtus ochrogaster (prairie vole). The simulations are done for a case of an enclosed habitat without predators or other species competitors. The goal of the study is to find the relation between size of habitat and population persistence. The experiments with the model show the populations go extinct due to severe overgrazing, but that the length of population persistence depends on the area of the habitat as well as on the presence of fragmentation. Additionally, the total population size of the vole population obtained during the simulations exhibits yearly fluctuations as well as multi-yearly peaks of fluctuations. This dynamics is similar to the one observed in prairie vole field studies. 相似文献
905.
Collaboration of Werner syndrome protein and BRCA1 in cellular responses to DNA interstrand cross-links 总被引:5,自引:2,他引:5 下载免费PDF全文
Cheng WH Kusumoto R Opresko PL Sui X Huang S Nicolette ML Paull TT Campisi J Seidman M Bohr VA 《Nucleic acids research》2006,34(9):2751-2760
Cells deficient in the Werner syndrome protein (WRN) or BRCA1 are hypersensitive to DNA interstrand cross-links (ICLs), whose repair requires nucleotide excision repair (NER) and homologous recombination (HR). However, the roles of WRN and BRCA1 in the repair of DNA ICLs are not understood and the molecular mechanisms of ICL repair at the processing stage have not yet been established. This study demonstrates that WRN helicase activity, but not exonuclease activity, is required to process DNA ICLs in cells and that WRN cooperates with BRCA1 in the cellular response to DNA ICLs. BRCA1 interacts directly with WRN and stimulates WRN helicase and exonuclease activities in vitro. The interaction between WRN and BRCA1 increases in cells treated with DNA cross-linking agents. WRN binding to BRCA1 was mapped to BRCA1 452–1079 amino acids. The BRCA1/BARD1 complex also associates with WRN in vivo and stimulates WRN helicase activity on forked and Holliday junction substrates. These findings suggest that WRN and BRCA1 act in a coordinated manner to facilitate repair of DNA ICLs. 相似文献
906.
X-ray crystal structure of MENT: evidence for functional loop-sheet polymers in chromatin condensation 下载免费PDF全文
McGowan S Buckle AM Irving JA Ong PC Bashtannyk-Puhalovich TA Kan WT Henderson KN Bulynko YA Popova EY Smith AI Bottomley SP Rossjohn J Grigoryev SA Pike RN Whisstock JC 《The EMBO journal》2006,25(13):3144-3155
Most serpins are associated with protease inhibition, and their ability to form loop-sheet polymers is linked to conformational disease and the human serpinopathies. Here we describe the structural and functional dissection of how a unique serpin, the non-histone architectural protein, MENT (Myeloid and Erythroid Nuclear Termination stage-specific protein), participates in DNA and chromatin condensation. Our data suggest that MENT contains at least two distinct DNA-binding sites, consistent with its simultaneous binding to the two closely juxtaposed linker DNA segments on a nucleosome. Remarkably, our studies suggest that the reactive centre loop, a region of the MENT molecule essential for chromatin bridging in vivo and in vitro, is able to mediate formation of a loop-sheet oligomer. These data provide mechanistic insight into chromatin compaction by a non-histone architectural protein and suggest how the structural plasticity of serpins has adapted to mediate physiological, rather than pathogenic, loop-sheet linkages. 相似文献
907.
The centromere/kinetochore complex plays an essential role in cell and organismal viability by ensuring chromosome movements during mitosis and meiosis. The kinetochore also mediates the spindle attachment checkpoint (SAC), which delays anaphase initiation until all chromosomes have achieved bipolar attachment of kinetochores to the mitotic spindle. CENP-A proteins are centromere-specific chromatin components that provide both a structural and a functional foundation for kinetochore formation. Here we show that cells in Drosophila embryos homozygous for null mutations in CENP-A (CID) display an early mitotic delay. This mitotic delay is not suppressed by inactivation of the DNA damage checkpoint and is unlikely to be the result of DNA damage. Surprisingly, mutation of the SAC component BUBR1 partially suppresses this mitotic delay. Furthermore, cid mutants retain an intact SAC response to spindle disruption despite the inability of many kinetochore proteins, including SAC components, to target to kinetochores. We propose that SAC components are able to monitor spindle assembly and inhibit cell cycle progression in the absence of sustained kinetochore localization. 相似文献
908.
Pezza JA Choi KH Berardini TZ Beernink PT Allen KN Tolan DR 《The Journal of biological chemistry》2003,278(19):17307-17313
Vertebrate fructose-1,6-bisphosphate aldolase exists as three isozymes (A, B, and C) that demonstrate kinetic properties that are consistent with their physiological role and tissue-specific expression. The isozymes demonstrate specific substrate cleavage efficiencies along with differences in the ability to interact with other proteins; however, it is unknown how these differences are conferred. An alignment of 21 known vertebrate aldolase sequences was used to identify all of the amino acids that are specific to each isozyme, or isozyme-specific residues (ISRs). The location of ISRs on the tertiary and quaternary structures of aldolase reveals that ISRs are found largely on the surface (24 out of 27) and are all outside of hydrogen bonding distance to any active site residue. Moreover, ISRs cluster into two patches on the surface of aldolase with one of these patches, the terminal surface patch, overlapping with the actin-binding site of aldolase A and overlapping an area of higher than average temperature factors derived from the x-ray crystal structures of the isozymes. The other patch, the distal surface patch, comprises an area with a different electrostatic surface potential when comparing isozymes. Despite their location distal to the active site, swapping ISRs between aldolase A and B by multiple site mutagenesis on recombinant expression plasmids is sufficient to convert the kinetic properties of aldolase A to those of aldolase B. This implies that ISRs influence catalysis via changes that alter the structure of the active site from a distance or via changes that alter the interaction of the mobile C-terminal portion with the active site. The methods used in the identification and analysis of ISRs discussed here can be applied to other protein families to reveal functionally relevant residue clusters not accessible by conventional primary sequence alignment methods. 相似文献
909.
David C. Pryde Thien-Duc Tran Iain Gardner Helen Bright Paul Stupple Sebastien Galan Liam Alsop Lesa Watson Donald S. Middleton Satish Dayal Michelle Platts Edward J. Murray Tanya Parkinson Robert Webster 《Bioorganic & medicinal chemistry letters》2013,23(3):827-833
Several non-benzimidazole containing inhibitors of respiratory syncytial virus are described. Core template modification, analysis of antiviral activity, physicochemistry and optimisation of properties led to the thiazole-imidazole 13, that showed a good potency and pharmacokinetic profile in the rat. 相似文献
910.
McLean KJ Carroll P Lewis DG Dunford AJ Seward HE Neeli R Cheesman MR Marsollier L Douglas P Smith WE Rosenkrands I Cole ST Leys D Parish T Munro AW 《The Journal of biological chemistry》2008,283(48):33406-33416
Mycobacterium tuberculosis (Mtb) cytochrome P450 gene CYP121 is shown to be essential for viability of the bacterium in vitro by gene knock-out with complementation. Production of CYP121 protein in Mtb cells is demonstrated. Minimum inhibitory concentration values for azole drugs against Mtb H37Rv were determined, the rank order of which correlated well with Kd values for their binding to CYP121. Solution-state spectroscopic, kinetic, and thermodynamic studies and crystal structure determination for a series of CYP121 active site mutants provide further insights into structure and biophysical features of the enzyme. Pro346 was shown to control heme cofactor conformation, whereas Arg386 is a critical determinant of heme potential, with an unprecedented 280-mV increase in heme iron redox potential in a R386L mutant. A homologous Mtb redox partner system was reconstituted and transported electrons faster to CYP121 R386L than to wild type CYP121. Heme potential was not perturbed in a F338H mutant, suggesting that a proposed P450 superfamily-wide role for the phylogenetically conserved phenylalanine in heme thermodynamic regulation is unlikely. Collectively, data point to an important cellular role for CYP121 and highlight its potential as a novel Mtb drug target. 相似文献