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排序方式: 共有106条查询结果,搜索用时 31 毫秒
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P. Karran M. Bignami 《BioEssays : news and reviews in molecular, cellular and developmental biology》1994,16(11):833-839
DNA mismatch repair is an important pathway of mutation avoidance. It also contributes to the cytotoxic effects of some kinds of DNA damage, and cells defective in mismatch repair are resistant, or tolerant, to the presence of some normally cytotoxic base analogues in their DNA. The absence of a particular mismatch binding function from some mammalian cells confers resistance to the base analogues O6-methylguanine and 6-thioguanine in DNA. Cells also acquire a spontaneous mutator phenotype as a consequence of this defect. Impaired mismatch binding can cause an instability in DNA microsatellite regions that comprise repeated dinucleotides. Microsatellite DNA instability is common in familial and sporadic colon carcinomas as well as in a number of other tumours. Several independent lines of investigation have identified defects in mismatch repair proteins that are causally related to these cancers. 相似文献
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在麻醉的32只猫记录了电刺激颌下腺神经支引起的上涎核平均场电位和单位放电。逆行电刺激颌下腺神经支引起的上涎核平均场电位分布在同侧脑干背面闩部头端5.5—8mm处,与过去的组织学结果大致符合。用微电极在上涎核记录了68个对刺激颌下腺神经支有反应的单位,其中33个单位作了碰撞试验。有9个单位符合逆向反应标准,它们是真正的颌下腺节前神经元,逆行反应的潜伏期为14.4±2.5ms,其轴突传导速度为2.9±0.1m/s。其他不符合逆向反应标准的单位,对刺激颌下腺神经支仍能发生反应,估计多为中间神经元。在一部分单位观察了电刺激舌神经或味觉刺激舌引起的反应。根据这些观察对上涎核内存在复杂神经元回路的可能性作了讨论。 相似文献
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David C. Bicknell Loukas Kaklamanis Richard Hampson Walter F. Bodmer Peter Karran 《Current biology : CB》1996,6(12)
Novel peptide antigens complexed with human leukocyte antigen (HLA) and β2-microglobulin (β2M) molecules are presented at the cell surface to cytotoxic T lymphocytes (CTLs), provoking lysis of the antigen-presenting cell [1]. In tumour cells, genetically altered or abnormally expressed proteins provide a source of peptides that can be presented to CTLs; the resulting anti-tumour CTL responses may provide part of the body's defence against cancer. Disabling mutations in the HLA and β2M proteins required for peptide presentation allow a tumour cell to escape destruction by CTLs. Cells with deficient DNA mismatch repair have high spontaneous mutation rates [2] and produce many altered proteins that are a potential source of numerous unique peptides. Mutator tumour cells might therefore be particularly vulnerable to immune surveillance and CTL attack. Mutator phenotypes [3] and [4] and loss of β2M (or HLA) expression [5] and [6] are both relatively common among sporadic colorectal tumours. We have compared the frequency of β2M mutations in sporadic colorectal and other tumours with and without a mutator phenotype. Mutations were more frequent among colorectal tumours with the microsatellite instability indicative of a defect in DNA mismatch repair. The inactivating β2M mutations were predominantly frameshifts, which is consistent with the underlying mismatch repair defects. Evasion of immune surveillance by acquiring β2M mutations therefore occurs at high frequency in tumour cells with a mutator phenotype due to defective DNA mismatch repair. 相似文献
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C. Stephenson M. Brivet M. Gautier J. Deschatrette R. Gitzelmann P. Karran 《Biochemical genetics》1991,29(3-4):135-144
Expression of the enzymes galactokinase, thymidine kinase, and O6-methylguanine-DNA methyltransferase is occasionally coordinately regulated in human cell lines. We have measured the activities
of these three enzymes in extracts of fibroblasts from individuals with hereditary galactokinase deficiency. These cells do
not express measurable galactokinase activity. The levels of O6-methylguanine-DNA methyltransferase were in the normal range in cells from three galactokinase-deficient individuals. The
activity of thymidine kinase in the affected cells was in the normal range for two of the three individuals. The reduced thymidine
kinase activity in the third individual reflected the extremely poor growth of the cells in culture. Immortalization of one
galactokinase-deficient cell line resulted in loss of O6-methylguanine-DNA methyltransferase activity, but the galactokinase and thymidine kinase levels remained unchanged. The data
indicate that the loss of galactokinase activity in these individuals is the consequence of an alteration of gene expression
which does not involve coordinate silencing with the thymidine kinase and methyltransferase loci. 相似文献
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