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排序方式: 共有488条查询结果,搜索用时 31 毫秒
31.
Yang RB Ng CK Wasserman SM Kömüves LG Gerritsen ME Topper JN 《The Journal of biological chemistry》2003,278(35):33232-33238
We have previously utilized a combination of high throughput sequencing and genome-wide microarray profiling analyses to identify novel cell-surface proteins expressed in human umbilical vein endothelial cells. One gene identified by this approach encodes a type I transmembrane receptor that shares sequence homology with the intracellular domain of members of the interleukin-17 (IL-17) receptor family. Real-time quantitative PCR and Northern analyses revealed that this gene is highly expressed in human umbilical vein endothelial cells and in several highly vascularized tissues such as kidney, colon, skeletal muscle, heart, and small intestine. In addition, we also found that it is also highly expressed in the ductal epithelial cells of human salivary glands, seminal vesicles, and the collecting tubules of the kidney by in situ hybridization. This putative receptor, which we have termed human SEF (hSEF), is also expressed in a variety of breast cancer tissues. In co-immunoprecipitation assays, this receptor is capable of forming homomeric complexes and can interact with fibroblast growth factor (FGF) receptor 1. Overexpression of this receptor inhibits FGF induction of an FGF-responsive reporter gene in human 293T cells. This appears to occur as a result of specific inhibition of p42/p44 ERK in the absence of upstream MEK inhibition. This inhibitory effect is dependent upon a functional intracellular domain since deletion mutants missing the IL-17 receptor-like domain lack this inhibitory effect. These findings are consistent with the recent discovery of the zebrafish homologue, Sef (similar expression to fgf genes), which specifically antagonizes FGF signaling when ectopically expressed in zebrafish or Xenopus laevis embryos. Based on sequence and functional similarities, this novel IL-17 receptor homologue represents a potential human SEF and is likely to play critical roles in endothelial or epithelial functions such as proliferation, migration, and angiogenesis. 相似文献
32.
Choi KM Zhong Y Hoit BD Grupp IL Hahn H Dilly KW Guatimosim S Lederer WJ Matlib MA 《American journal of physiology. Heart and circulatory physiology》2002,283(4):H1398-H1408
The goal of the study was to determine whether defects in intracellular Ca(2+) signaling contribute to cardiomyopathy in streptozotocin (STZ)-induced diabetic rats. Depression in cardiac systolic and diastolic function was traced from live diabetic rats to isolated individual myocytes. The depression in contraction and relaxation in myocytes was found in parallel with depression in the rise and decline of intracellular free Ca(2+) concentration ([Ca(2+)](i)). The sarcoplasmic reticulum (SR) Ca(2+) store and rates of Ca(2+) release and resequestration into SR were depressed in diabetic rat myocytes. The rate of Ca(2+) efflux via sarcolemmal Na(+)/Ca(2+) exchanger was also depressed. However, there was no change in the voltage-dependent L-type Ca(2+) channel current that triggers Ca(2+) release from the SR. The depression in SR function was associated with decreased SR Ca(2+)-ATPase and ryanodine receptor proteins and increased total and nonphosphorylated phospholamban proteins. The depression of Na(+)/Ca(2+) exchanger activity was associated with a decrease in its protein level. Thus it is concluded that defects in intracellular Ca(2+) signaling caused by alteration of expression and function of the proteins that regulate [Ca(2+)](i) contribute to cardiomyopathy in STZ-induced diabetic rats. The increase in phospholamban, decrease in Na(+)/Ca(2+) exchanger, and unchanged L-type Ca(2+) channel activity in this model of diabetic cardiomyopathy are distinct from other types of cardiomyopathy. 相似文献
33.
The phase-resetting experiment was applied to human periodic finger tapping to understand how its rhythm is controlled by
the internal neural clock that is assumed to exist. In the experiment, the right periodic tapping movement was disturbed transiently
by a series of left finger taps in response to impulsive auditory cues presented randomly at various phases within the tapping
cycle. After each left finger tap, the original periodic tapping was reestablished within several tapping cycles. Influences
of the disturbance on the periodic right finger tapping varied depending on the phase of the periodic right finger tapping
at which each left finger tap was made. It was confirmed that the periodic tapping was disturbed not by the auditory cues
but by the left finger taps. Based on this fact, in this paper each single left tap was considered as the stimulus, and the
phase of the periodic tapping of the right index finger when the left tap was executed as the phase of the stimulus. Responses
of the neural activities (magnetoencephalography, MEG), the tapping movement, and the corresponding muscle activities (electromyography)
were simultaneously measured. Phase-resetting curves (PRCs) representing the degree of phase reset as a function of the phase
of the stimulus were obtained both for the left sensorimotor cortex MEG response and for the right index finger tapping response.
The shapes of both PRCs were similar, suggesting that the phase reset of the left sensorimotor cortex activities and that
of the finger tapping rhythm were the same. Four out of eight subjects showed type-0 reset in Winfree's definition, and the
others showed type-1 reset. For general limit-cycle oscillators, type-0 reset is obtained for relatively strong perturbations
and type 1 for weak perturbations. It was shown that the transient response of MEG to the single left tap stimuli in type-0
subjects, where the phase was progressively reset, were different from those in type-1 subjects. Based on detailed analysis
of the differences, a neural network model for the phase reset of the tapping rhythm is proposed.
Received: 10 February 2000 / Accepted in revised form: 15 January 2002 相似文献
34.
Lowe ED Tews I Cheng KY Brown NR Gul S Noble ME Gamblin SJ Johnson LN 《Biochemistry》2002,41(52):15625-15634
Progression through S phase of the eukaryotic cell cycle is regulated by the action of the cyclin dependent protein kinase 2 (CDK2) in association with cyclin A. CDK2/cyclin A phosphorylates numerous substrates. Substrate specificity often employs a dual recognition strategy in which the sequence flanking the phospho-acceptor site (Ser.Pro.X.Arg/Lys) is recognized by CDK2, while the cyclin A component of the complex contains a hydrophobic site that binds Arg/Lys.X.Leu ("RXL" or "KXL") substrate recruitment motifs. To determine additional sequence specificity motifs around the RXL sequence, we have performed X-ray crystallographic studies at 2.3 A resolution and isothermal calorimetry measurements on complexes of phospho-CDK2/cyclin A with a recruitment peptide derived from E2F1 and with shorter 11-mer peptides from p53, pRb, p27, E2F1, and p107. The results show that the cyclin recruitment site accommodates a second hydrophobic residue either immediately C-terminal or next adjacent to the leucine of the "RXL" motif and that this site makes important contributions to the recruitment peptide recognition. The arginine of the RXL motif contacts a glutamate, Glu220, on the cyclin. In those substrates that contain a KXL motif, no ionic interactions are observed with the lysine. The sequences N-terminal to the "RXL" motif of the individual peptides show no conservation, but nevertheless make common contacts to the cyclin through main chain interactions. Thus, the recruitment site is able to recognize diverse but conformationally constrained target sequences. The observations have implications for the further identification of physiological substrates of CDK2/cyclin A and the design of specific inhibitors. 相似文献
35.
Sun G Yuen Chan S Yuan Y Wang Chan K Qiu G Sun K Ping Leung M 《Biochimica et biophysica acta》2002,1588(3):241-246
We applied RNA arbitrarily primed-PCR (RAP-PCR) to screen the genes differentially expressed between common congenital heart defects (CHD) [atrial septal defect, ventricular septal defect, Tetrology of Fallot (TOF)] and normal human heart samples. Three of these differentially amplified fragments matched cDNA sequences coding for proteins of unknown function in humans: hCALO (human homologue of calossin), NP79 (coding for a nuclear protein of 79KD) and SUN2 (Sad-1 unc-84 domain protein 2). The other four fragments were from known human genes: apolipoprotein J, titin, dystrophin and protein kinase C-delta. Northern blot analysis confirmed that all of these genes are expressed in the human heart. The results of RAP-PCR were reconfirmed by quantitative RT-PCR in TOF and control heart samples. Both techniques showed the levels of expression of hCALO, NP79 and SUN2 to be comparable in TOF and control samples and the level of expression of dystrophin and titin, both coding for cytoskeletal proteins, to be significantly upregulated in TOF samples. In summary, we have shown that the RAP-PCR technique is useful in the identification of differentially expressed gene from biopsy samples of human CHD tissues. In this manner, we have identified three novel genes implicated in the normal function of the human heart and two known genes upregulated in TOF samples. 相似文献
36.
Brinen LS Canaves JM Dai X Deacon AM Elsliger MA Eshaghi S Floyd R Godzik A Grittini C Grzechnik SK Guda C Jaroszewski L Karlak C Klock HE Koesema E Kovarik JS Kreusch A Kuhn P Lesley SA McMullan D McPhillips TM Miller MA Miller MD Morse A Moy K Ouyang J Robb A Rodrigues K Selby TL Spraggon G Stevens RC van den Bedem H Velasquez J Vincent J Wang X West B Wolf G Taylor SS Hodgson KO Wooley J Wilson IA 《Proteins》2003,50(2):371-374
37.
Calcineurin (CnA) is an important signalling molecule in skeletal muscle, in the promotion of differentiation, slow-fibre phenotype and possibly fibre hypertrophy. We found that stable expression of constitutively active CnA in muscle C2C12 cells strongly activated NF-kappaB, a key mediator of muscle wasting. NF-kappaB activation by CnA was associated with elevated phospho-IkappaBalpha, and could be repressed by specific genetic (porZAKI-4 and porDSCR1) and chemical (cyclosporin A) inhibitors of CnA, but tumour necrosis factor-alpha (TNF-alpha) appeared not to be a key component in the cross-talk. Functionally, CnA-induced NF-kappaB activation seemed to interfere with terminal muscle differentiation. We therefore showed a functional interaction between the CnA and NF-kappaB pathways in skeletal muscle cells, which involved opposing phenotypic effects of CnA. 相似文献
38.
Chrysoula Vasileiou Wenjing Wang Xiaofei Jia Kin Sing Stephen Lee Camille T. Watson James H. Geiger Babak Borhan 《Proteins》2009,77(4):812-822
Cellular Retinoic Acid Binding Protein II (CRABPII) has been reengineered to specifically bind and react with all‐trans‐retinal to form a protonated Schiff base. Each step of this process has been dissected and four residues (Lys132, Tyr134, Arg111, and Glu121) within the CRABPII binding site have been identified as crucial for imine formation and/or protonation. The precise role of each residue has been examined through site directed mutagenesis and crystallographic studies. The crystal structure of the R132K:L121E‐CRABPII (PDB‐3I17) double mutant suggests a direct interaction between engineered Glu121 and the native Arg111, which is critical for both Schiff base formation and protonation. Proteins 2009. © 2009 Wiley‐Liss, Inc. 相似文献
39.
Ryosuke Tateishi Nobuko Akiyama Maki Miyauchi Riko Yoshinaga Hiroki Sasanuma Takashi Kudo Miki Shimbo Masahiro Shinohara Koji Obata Jun-ichiro Inoue Masaki Shirakawa Dai Shiba Hiroshi Asahara Nobuaki Yoshida Satoru Takahashi Hironobu Morita Taishin Akiyama 《PloS one》2015,10(10)
Gravity change affects many immunological systems. We investigated the effects of hypergravity (2G) on murine thymic cells. Exposure of mice to 2G for three days reduced the frequency of CD4+CD8+ thymocytes (DP) and mature medullary thymic epithelial cells (mTECs), accompanied by an increment of keratin-5 and keratin-8 double-positive (K5+K8+) TECs that reportedly contain TEC progenitors. Whereas the reduction of DP was recovered by a 14-day exposure to 2G, the reduction of mature mTECs and the increment of K5+K8+ TEC persisted. Interestingly, a surgical lesion of the inner ear’s vestibular apparatus inhibited these hypergravity effects. Quantitative PCR analysis revealed that the gene expression of Aire and RANK that are critical for mTEC function and development were up-regulated by the 3-day exposure and subsequently down-regulated by the 14-day exposure to 2G. Unexpectedly, this dynamic change in mTEC gene expression was independent of the vestibular apparatus. Overall, data suggest that 2G causes a temporary reduction of DP and a persistent reduction of mature mTECs in a vestibular system-dependent manner, and also dysregulates mTEC gene expression without involving the vestibular system. These data might provide insight on the impact of gravity change on thymic functions during spaceflight and living. 相似文献
40.