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J D Schuetz L H Matherly E H Westin I D Goldman 《The Journal of biological chemistry》1988,263(20):9840-9847
Properties of the methotrexate (MTX) transport carrier were examined in a stable single-step 16-fold MTX-resistant L1210 murine leukemia cell line with unchanged dihydrofolate reductase gene copy and thymidylate synthase and dihydrofolate reductase levels and activities. MTX influx was markedly depressed due to a decrease in Vmax without a change in Km. From this cell line a clonal variant with greater resistance to MTX was identified due solely to a further decrease in influx Vmax. Trans-stimulation of MTX influx by 5-formyltetrahydrofolate was induced in parental but not resistant cells. Analysis of specific MTX surface binding demonstrated a small increase in the number of carriers in the first- and second-step resistant lines. Affinity labeling of cells with an N-hydroxysuccinimide ester derivative of [3H]MTX demonstrated carriers with comparable molecular weights in the parent and second-step transport defective lines. In two partial revertants with increased MTX sensitivity isolated from the second-step resistant lines, MTX influx was increased but surface membrane-binding sites were unchanged suggesting that recovery of transport was due to normalization of carrier function rather than an increase in the number of carriers. These studies suggest that impaired MTX transport in these lines is not due to an alteration in the association of the transport carrier with its substrate at the cell surface. Rather, resistance may be due to an alteration in the mobility of the carrier possibly associated with a protein change in the carrier itself or the cell membrane that surrounds it. 相似文献
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Nuclease S1-sensitive sites in multigene families: human U2 small nuclear RNA genes. 总被引:5,自引:2,他引:3 下载免费PDF全文
We show here that human U2 small nuclear RNA genes contain a 'strong nuclease S1 cleavage site' (SNS1 site), a sequence that is very sensitive to digestion by nuclease S1. This site is located 0.50-0.65 kb downstream of the U2 RNA coding region. It comprises a 0.15-kb region in which (dC-dT)n:(dA-dG)n co-polymeric stretches represent greater than 90% of the sequence. Nuclease S1 is able to excise unit length repeats of the human U2 RNA genes both from cloned fragments and total human genomic DNA. The precise locations of the cleavage sites are dependent on the superhelicity of the substrate DNA. In negatively supercoiled substrates, cleavages are distributed over the entire 0.15-kb region, but in linearized substrates, they occur within a more limited region, mainly at the boundary of the SNS1 site closest to the human U2 RNA coding region. Nuclease S1 cleavage of negatively supercoiled substrates occurs at pHs as high as 7.0; in contrast, cleavage of linearized substrates requires a pH less than 5.0, indicating that supercoiling contributes to the sensitivity of this site. Mung bean nuclease gives results similar to that observed with nuclease S1. 相似文献
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NIH/3T3 cells transfected with human tumor DNA containing activated ras oncogenes express the metastatic phenotype in nude mice. 总被引:20,自引:4,他引:16 下载免费PDF全文
U P Thorgeirsson T Turpeenniemi-Hujanen J E Williams E H Westin C A Heilman J E Talmadge L A Liotta 《Molecular and cellular biology》1985,5(1):259-262
NIH/3T3 cells transfected with DNA from malignant human tumors produced experimental and spontaneous metastases in nude mice. In contrast, parent or spontaneously transformed NIH/3T3 cells failed to metastasize. The transfected clones contained either activated c-Harvey-ras or N-ras oncogenes. A representative clone (T71-17SA2) which was used to assess selected cellular and host factors relevant to the metastatic process produced lung metastases in 100% of the NIH nude mice recipients, secreted augmented levels of type IV collagenase, and invaded human amnion basement membrane in vitro. Expression of the metastatic phenotype was not related to decreased sensitivity to natural killer cells or macrophage-mediated cytotoxicity. Analysis of the cellular DNA from the T71-17SA2 transfectant and its corresponding metastases, both of which contained activated N-ras oncogenes, revealed a twofold increase in the N-ras-specific DNA sequences in the metastatic cells. Thus, transfection with human tumor DNA containing activated ras oncogenes can induce the complete metastatic phenotype in NIH/3T3 cells by a mechanism apparently unrelated to immune cell killing. 相似文献
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Loci for human U1 RNA: structural and evolutionary implications 总被引:9,自引:0,他引:9
H J Monstein K Hammarstr?m G Westin J Zabielski L Philipson U Pettersson 《Journal of molecular biology》1983,167(2):245-257
Three clones U1-1, U1-6, and U1-8 containing sequences related to human U1 RNA have been studied by sequence analysis. The results show that each of the three clones represents a distinct locus. The U1-6 locus is closely related to the HU1-1 locus, which is believed to represent a functional U1 gene. The U1-1 and U1-8 loci are pseudogenes by definition, since they contain sequences that are closely related to but not identical with the human U1 RNA sequence. The U1-6 locus contains the sequence T-A-T-A-T close to the 5'-end of the U1 sequence but it is unclear if this represents the promoter. When the U1-8 locus was compared to the U1-6 locus, it was observed that the 5'-flanking sequences, except in the immediate vicinity of the pseudogene, are as well-conserved as the U1-related sequence itself, at least up to position -220. The high degree of homology in the 5'-flanking region suggests that U1 genes have a much more strict sequence requirement with regard to 5'-flanking sequences than most other eukaryotic genes. The U1-6 and U1-8 loci contain the sequence T-A-T-G-T-A-G-A-T-G-A between positions -211 and -221. An identical sequence is present in the equivalent position in the HU1-1 locus, and may represent the promoter. The high degree of conservation in the postulated promoter region indicates that pseudogenes like U1-8 possibly could be expressed. A truncated U1-related sequence is present between 106 to 150 nucleotides upstream from the U1 gene/pseudogene in the U1-6, the U1-8 and the HU1-1 loci, suggesting that the U1 genes may have been clustered early in evolution. The U1-1 locus has a strikingly different structure from the U1-8 locus; the pseudogene itself is as closely related to the U1 RNA sequence as is the U1-8 pseudogene but the flanking sequences, both on the 5' and the 3' side, share no detectable homology with the corresponding regions in the U1-6 or U1-8 loci. It may therefore be postulated that small nuclear RNA pseudogenes are created by several different mechanisms. 相似文献
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