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241.
A new ATP-independent DNA endonuclease from Schizosaccharomyces pombe that recognizes cyclobutane pyrimidine dimers and 6-4 photoproducts. 总被引:7,自引:2,他引:5 下载免费PDF全文
K K Bowman K Sidik C A Smith J S Taylor P W Doetsch G A Freyer 《Nucleic acids research》1994,22(15):3026-3032
We have discovered a new DNA endonuclease in the fission yeast Schizosaccharomyces pombe which recognizes cyclobutane pyrimidine dimers and (6-4) pyrimidine-pyrimidone photoproducts. S. pombe DNA endonuclease (SPDE) catalyzes a single ATP-independent incision immediately 5' to the UV photoproduct and generates termini containing 3' hydroxyl and 5' phosphoryl groups. Based on these properties, we propose that SPDE may function in a DNA repair capacity, representing the initial recognition/cleavage step of a DNA excision repair pathway. 相似文献
242.
Ylenia Capodanno Barbara Altieri Richard Elders Annamaria Colao Antongiulio Faggiano Joerg Schrader 《Translational oncology》2022,15(1)
Insulinomas are considered rare indolent neuroendocrine neoplasms in human medicine, however when metastases occur no curative treatment is available thus, novel therapies are needed. Recently advances have been made in unraveling the pathophysiology of malignant insulinoma still major challenges hinder the development of a functional model to study them. Canine malignant insulinoma have similar recurrence and a poor prognosis as human malignant insulinoma. Additionally, both human and canine patients share extensively the same environment, tend to develop insulinoma seemingly spontaneously with an etiological role for hormones, at a similar incidence and stage of lifespan, with metastasis commonly to liver and regional lymph nodes, which are unresponsive to current therapies. However, the occurrence of metastases in dogs is as high as 95% compared with only 5–16% in human studies. From a comparative oncology perspective, the shared features with human insulinoma but higher incidence of metastasis in canine insulinoma suggests the latter as a model for human malignant insulinomas. With the common purpose of increasing survival rates of human and veterinary patients, in this review we are going to compare and analyze clinical, pathological and molecular aspects of canine and human insulinomas to evaluate the suitability of the canine model for future translational clinical studies. 相似文献
243.
Susan Hoppmann Joerg Steinbach Jens Pietzsch 《The international journal of biochemistry & cell biology》2010,42(5):651-661
Increased plasma levels of S100 proteins and interaction of S100 proteins with receptor for advanced glycation end products (RAGE) have been associated with a number of disease states, including chronic inflammatory processes and atherosclerosis. However, data concerning the role of circulating S100 proteins in these pathologies in vivo are scarce and, furthermore, it is currently not known whether RAGE is the sole receptor for extracellular S100 proteins in vivo. We report a novel methodology using recombinant human S100 proteins radiolabelled with fluorine-18, particularly, 18F-S100A12, in receptor binding studies and cellular association studies in vitro, and in dynamic small animal positron emission tomography (PET) studies in rats in vivo. Association to both human aortic endothelial cells and macrophages revealed specific binding of 18F-S100A12 to RAGE, but, furthermore, provides evidence for interaction of 18F-S100A12 to various scavenger receptors (SR). PET data showed temporary association of 18F-S100A12 with tissues overexpressing RAGE (e.g., lung), and, moreover, accumulation of 18F-S100A12 in tissues enriched in cells overexpressing SR (e.g., liver and spleen). Blockade of overall SR interaction by maleylated BSA (malBSA) clearly shows diminished in vivo association of 18F-S100A12 to these tissues as well as a significant increment of the mean plasma residence time of 18F-S100A12 (4.8 ± 0.4 h vs. 2.3 ± 0.3 h). The present approach first demonstrates that besides RAGE also scavenger receptors contribute to distribution, tissue association and elimination of circulating proinflammatory S100A12. 相似文献
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Aquaporin-0 (AQP0), previously known as major intrinsic protein (MIP), is the only water pore protein expressed in lens fiber cells. AQP0 is highly specific to lens fiber cells and constitutes the most abundant intrinsic membrane protein in these cells. The protein is initially expressed as a full-length protein in young fiber cells in the lens cortex, but becomes increasingly cleaved in the lens core region. Reconstitution of AQP0 isolated from the core of sheep lenses containing a proportion of truncated protein, produced double-layered two-dimensional (2D) crystals, which displayed the same dimensions as the thin 11 nm lens fiber cell junctions, which are prominent in the lens core. In contrast reconstitution of full-length AQP0 isolated from the lens cortex reproducibly yielded single-layered 2D crystals. We present electron diffraction patterns and projection maps of both crystal types. We show that cleavage of the intracellular C terminus enhances the adhesive properties of the extracellular surface of AQP0, indicating a conformational change in the molecule. This change of function of AQP0 from a water pore in the cortex to an adhesion molecule in the lens core constitutes another manifestation of the gene sharing concept originally proposed on the basis of the dual function of crystallins. 相似文献
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248.
Kunz-Schughart LA Doetsch J Mueller-Klieser W Groebe K 《American journal of physiology. Cell physiology》2000,278(4):C765-C780
Oxygen consumption, glucose, lactate, andATP concentrations, as well as glucose and lactate turnover rates, havebeen studied in a three-dimensional carcinogenesis model of differentlytransformed rat embryo fibroblasts (spontaneously immortalized Rat1 andmyc-transfected M1, and the ras-transfected,tumorigenic descendants Rat1-T1 and MR1) to determine metabolicalterations that accompany tumorigenic conversion. Variousbioluminescence techniques, thymidine labeling, measurement ofPO2 distributions withmicroelectrodes, and determination of cellular oxygen uptake rates(cO2)have been applied. In the ras-transfected, tumorigenic spheroidtypes, the size dependencies of some of the measured parametersexhibited sharp breaks at diameters of ~830 µm for Rat1-T1 and~970 µm for MR1 spheroids, respectively, suggesting that somefundamental change in cell metabolism occurred at these characteristicdiameters (denoted as "metabolic switch").cO2decreased and lactate concentration increased as functions of sizebelow the characteristic diameters. Concomitantly, glucose and lactateturnover rates decreased in MR1 spheroids and increased inRat1-T1. Spheroids larger than the characteristic diameters (exhibitingcell quiescence and lactate accumulation) showed an enhancement ofcO2with size. Systematic variations in the ATP and glucose levels in theviable cell rim were observed for Rat1-T1 spheroids only. Proliferativeactivity, cO2,and ATP levels in small, nontumorigenic Rat1 and M1aggregates did not differ systematically from those recorded in thelargest spheroids of the corresponding ras transfectants.Unexpectedly, respiratory activity was present not only in viable butalso in the morphologically disintegrated core regions of M1aggregates. Our data suggest that myc but not rastransfection exerts major impacts on cell metabolism. Moreover, somekind of switch has been detected that triggers profound readjustment oftumor cell metabolism when proliferative activity begins tostagnate, and that is likely to initiate some other, yetunidentified energy-consuming process. 相似文献
249.
Jean Pierre Malval Jean Pierre Morand René Lapouyade Wolfgang Rettig Gediminas Jonusauskas Jean Oberlé Christian Trieflinger Joerg Daub 《Photochemical & photobiological sciences》2004,3(10):939-948
Amino-diphenylanilines and their planarized and twisted model compounds have been investigated by steady state and time-resolved absorption and emission, as well as by spectroelectrochemistry. These polyaniline model compounds show that the observation of excited states with full charge separation is linked to molecular twisting where the diaminobenzene is the donor and the phenyl group the acceptor. The observable charge transfer fluorescence shows the characteristic features of twisted intramolecular charge transfer (TICT) excited states, i.e. forbidden emissive properties and strong solvatochromic red shift. The transient absorption spectrum of the TICT state matches the ground state absorption spectrum of the electrochemically produced radical cation of the molecule. This is the first example where excited-state properties of the neutral and ground state properties of the radical cation are directly linked. 相似文献
250.