Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.1.21 (thymidine kinase)
7,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A method is described to generate microcells from human lymphoblasts for use in microcell-mediated chromosome transfer (MMCT). Micronuclei were induced in cells from a human lymphoblastic cell line by prolonged colcemid treatment, and were separated from these lymphoblasts by: attaching the cells to Concanavalin A coated plastic slides designed for enucleation, and centrifuging the slides in medium containing cytochalasin B. Microcells of less than 3 microns in diameter were fused with thymidine kinase negative mouse fibroblasts (LMTK-). HAT medium (hypoxanthine, aminopterin, and thymidine) was used to select microcell hybrids expressing thymidine kinase activity. Positive clones were isolated and Q-banded for chromosome analysis. Unlike previous methods, this procedure permits microcells to be easily generated from lymphoid cells. The methodology of enucleation of microcells may be extended to a variety of other donor cell types which can be micronucleated but which do not adhere tightly to enucleation slides and do not exhibit extrusion subdivision. This feature makes our methodology particularly useful for constructing a library of hybrid clones containing one or a few human chromosomes.
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PMID:A method to generate microcells from human lymphoblasts for use in microcell mediated chromosome transfer. 353 93

In order to determine the contribution of thymidine (dThd) salvage to intrinsic resistance to antimetabolites (5-fluoropyrimidines, antifolates) in the human colon adenocarcinoma xenograft, H X GC3, a subline deficient in thymidine kinase has been developed. A cell line (GC3/M) was established in continuous culture that demonstrated a karyotype identical to that of the stem line of H X GC3 (46,X, - Y + 12). After inoculation of GC3/M cells into immune-deprived CBA/CaJ mice, the H X GC3/M xenografts retained histological, histochemical, and growth characteristics of the H X GC3 xenograft. To develop a line deficient in dThd salvage, GC3/M cells were selected with BrdUrd (100 micrograms/ml). Three clones characterized were unable to proliferate in HAT medium, and were deficient (less than 10% control) in the cytosolic form of thymidine kinase. Activities of dThd phosphorylase and dTMP synthase were unchanged from parental GC3/M cells. Of the three clones inoculated into mice, GC3/M TK- 100 C3 was tumorigenic, the xenografts demonstrating histological and growth characteristics similar to H X GC3. The in vivo activity of the cytosolic form of dThd kinase was 3.5% of that in H X GC3 xenografts. Incorporation in vivo of [methyl-3H]dThd into acid insoluble material was 14% of that in H X GC3 tumors. Autoradiographs prepared from these tumors demonstrated that incorporation of radiolabel into nuclei occurred only in stromal cells derived from the host. It is anticipated that H X GC3/M TK- 100 C3 will be a line valuable for determining the role of dThd salvage in intrinsic resistance to 5-fluoropyrimidines or antifolates in human colon adenocarcinomas growing as xenografts and also the relevance of dTMp synthase as a target for antimetabolites in this histiotype.
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PMID:Development and characterization of a human colon adenocarcinoma xenograft deficient in thymidine salvage. 382 1

A method for gene transfer by means of interphase nuclei encapsulated within lipid membranes was developed. The method was based on passage of interphase nuclei through a layer of organic solvents containing phospholipids. Evidence was obtained indicating that the nuclei become surrounded by a protective phospholipid membrane: measurements of bound labelled or non-labelled phospholipids; decrease in the permeability of lipid-encapsulated nuclei for high molecular compounds; visualization by direct electron microscopy. Lipid-encapsulated nuclei of mink fibroblasts were used for transformation of mutant mouse LMTK- cells (deficient for thymidine kinase). The frequency of occurrence of HAT-resistant colonies/recipient cell was 1.9 X 10(-5). Biochemical analysis of 14 independent clones demonstrated that they all contained TK1 of mink origin. Analysis of 15 other biochemical markers located on 12 of the mink chromosomes revealed the activities of mink galactokinase (a syntenic marker) in 5 transformed clones, and that of mink aconitase-1 (the marker of mink chromosome 12) in 1 clone. No cytogenetically visible donor chromosomes were identified in the transformed clones. Nine transformed clones were tested for the stability of the TK+ phenotype; of these, the phenotype was expressed stably in 3 and unstably in 6. The method suggested is similar to the gene transfer procedure using total DNA. Its advantage is in ensuring efficient gene transfer and donor DNA integrity.
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PMID:Transfer of mink genes into mouse cells by means of isolated lipid-encapsulated nuclei. 386 8

We have further regionally localized the gene for human acid alpha glucosidase (GAA) to 17q21----q23 by examination of hybrid clones derived from a fusion between human fibroblasts carrying a 17/19 balanced translocation (17pter----17q23::19p13.3----19pter; 19qter----p13.3::17q23----17qter) and a mouse line deficient in thymidine kinase. These hybrids were constantly maintained in HAT selective media in order to select for the presence of the human thymidine kinase gene on the intact chromosome 17 (17q21-q22) or the 17/19 (17pter----17q23::19p13.3----19pter) translocation chromosome. We detected human GAA by rocket immunoelectrophoresis, using a human specific heterologous antibody raised against human acid alpha glucosidase (GAA) (Honig et al. 1984). Three secondary clones, which contained the 17/19 translocation and no intact chromosome 17 or 19, were still positive for GAA. Two of these secondary clones contained the distal portion of the 17/19 translocation chromosome, with a break in the band 17q21 (probably at 17q21.2), attached to a mouse chromosome. Combined with earlier results (Weil et al. 1979; Nickel et al. 1982; Honig et al. 1984), the gene for GAA can be assigned to 17q21.2----17q23. Additionally, these clones were negative for human peptidase D (PEPD), alpha mannosidase B (MANB), and phosphohexose isomerase (PHI). Combined with previous results (Ingram et al. 1977; Bruns et al. 1979), these results exclude the genes for PEPD and MANB from 19pter----19p13.3 and confirm the exclusion of the gene for PHI from this segment of chromosome 19 (Wilson et al. 1984; Ingram et al. 1977).
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PMID:Further regional localization of the genes for human acid alpha glucosidase (GAA), peptidase D (PEPD), and alpha mannosidase B (MANB) by somatic cell hybridization. 388 52

cAMP stimulates the transcription of the gene for the cytosolic form of phosphoenolpyruvate carboxykinase (GTP) (EC 4.1.1.32) (PEPCK) in rat liver. We have investigated the nucleotide sequences required for regulation of PEPCK gene expression by cAMP. A chimeric gene was constructed in which a 620-base pair fragment of the 5'-end of the PEPCK gene (including 547 base pairs of 5'-flanking sequence) was ligated to the herpes simplex virus thymidine kinase (TK) structural gene. The PEPCK promoter fragment was introduced either in the proper orientation for transcription of the TK gene or in the opposite orientation. These fusion genes and the parent vector, pOPF, which contains the intact TK gene, were transfected individually into TK-deficient FTO-2B rat hepatoma cells. FTO-2B cells contain an active endogenous PEPCK gene which is stimulated by cAMP. Cells were selected in HAT medium and grown either as mass cell cultures or as individual clones. Dibutyryl cyclic AMP (Bt2cAMP) plus theophylline (16 h) stimulated TK activity 1.6-6.1-fold in cell lines transfected with the PEPCK-TK fusion gene containing the PEPCK promoter fragment in the correct orientation. However, the intact TK gene was not induced by Bt2cAMP after transfection, nor was there any expression of the PEPCK-TK fusion gene in cells which contained the PEPCK promoter fragment in the wrong transcriptional orientation. Bt2cAMP also increased the levels of TK mRNA in cells transfected with the PEPCK-TK fusion gene, but not in cells transfected with the intact TK gene. The chimeric PEPCK-TK mRNA initiated at the PEPCK start site, as determined by S1 nuclease mapping. There was no relationship between the number of copies of the PEPCK-TK gene integrated in the various cell lines and either the basal level of TK activity or its inducibility of Bt2cAMP.
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PMID:Identification of a cAMP regulatory region in the gene for rat cytosolic phosphoenolpyruvate carboxykinase (GTP). Use of chimeric genes transfected into hepatoma cells. 609 Apr 58

We have introduced the DNA binding protein (DBP) gene of human adenovirus type 5 (Ad5) into high molecular weight DNA of permissive human cells by cotransformation of tk- cells with the cloned DBP and HSV-1 thymidine kinase genes. 110 tk+ cell lines were isolated after selection in HAT medium. The amount and arrangement of adenovirus sequences in the tk+ cell lines were analyzed by restriction endonuclease digestion and filter hybridization. Twelve of the 110 lines carry at least a segment of the DBP gene while only three of these contain the entire DBP gene at approximately one copy per cell. Cytoplasmic, polyadenylated DBP mRNA is made in all three cell lines though the amount is very low compared to that present in infected HeLa cells. The cell line U13-2 which contains approximately 1/30 the steady-state level of DBP mRNA found in infected HeLa cells produces a few percent of the amount of DBP made during the peak period of DBP synthesis in infected cells. The other two lines contain lower levels of DBP mRNA and do not synthesize detectable levels of the protein. When these DBP-tk+ cell lines are infected with adenovirus mutants containing temperature-sensitive (ts) mutations in the DBP gene, only U13-2 permits some viral DNA replication (and hence late gene expression) at the nonpermissive temperature, indicating that sufficient quantities of DBP from the integrated gene are produced to allow complementation of the ts mutation in this cell line. However, growth of these ts mutants (as measured by virus production) is only partially complemented in U13-2 at the nonpermissive temperature.
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PMID:Construction of human cell lines which contain and express the adenovirus DNA binding protein gene by cotransformation with the HSV-1 tk gene. 609 56

Previous work with Chinese hamster cells suggests that thymidine kinase deficiency and loss of potential for plating in HAT medium may arise by a process of mutation coupled with site-specific repression by bromodeoxyuridine at the tk locus. In this study, tk- Chinese hamster cells were exposed to a series of inductors to determine whether revertants for the putative second stage originate by genetic or epigenetic change. Brief exposure to 5-azacytidine resulted in massive conversion to the HAT+ state, and revertants showed levels of thymidine kinase activity intermediate between those of tk- and wild-type cells. By contrast, incidence of HAT+ cells rose only slightly in populations mutagenized with ethyl methanesulfonate. Large increases in frequency of HAT+ cells were obtained by treatment with n-butyrate and L-ethionine, which affect gene expression in other cell systems but have no known mutagenic potential. Induction of HAT+ revertants seems to be mediated by a stable epigenetic shift, which reverses the gradual extinction of thymidine kinase activity in the parent cells. The data support the view that induction in Chinese hamster cells results from changes in DNA methylation patterns, and suggests studies to define the process in molecular terms.
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PMID:Induction of thymidine kinase in enzyme-deficient Chinese hamster cells. 618 Aug 33

During the course of our studies on murine tumor cell metastases, one of our variant lines (called L61-M) was found to be unable to incorporate [methyl-3H]thymidine into DNA, due to a spontaneous deficiency in thymidine kinase (TK) activity. L61-M cells are unable to proliferate in HAT selection medium and are resistant to bromodeoxyuridine (BrdU). TK activity in L61-M cells is 4.2% of that found in the wild-type parental MDAY-D2 cell line. Treatment of L61-M with 5-azacytidine, a known inducer of DNA hypomethylation, resulted in the expression of TK activity. These observations suggest that the TK deficiency in the L61-M cell line was due in part to an alteration in the methylation pattern of DNA, resulting in the diminished expression of the TK gene. These results demonstrate the ability of 5-azacytidine to induce TK activity in a spontaneously enzyme-deficient murine tumor cell line.
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PMID:5-azacytidine induction of thymidine kinase in a spontaneously enzyme-deficient murine tumor line. 619 96

The herpes simplex virus type-2 (HSV-2)-transformed human cell line HB-2-3 was fused with thymidine kinase (TK)-deficient mouse cells [LM(TK-)], and 12 independent hybrids were isolated with the use of the HAT (hypoxanthine, amethopterin, and thymidine)-ouabain selection system. Discontinuous polyacrylamide gel electrophoresis studies demonstrated that the HSV-2-specific TK was the selected enzyme in the hybrids. Isoenzyme analysis and karyotyping were used in the analysis of the hybrids for the presence of human chromosomes. All 12 hybrids contained human chromosome No. 18 and the enzyme peptidase A, which is encoded by a gene on this chromosome. Hybrids were exposed to bromodeoxyuridine (BrdUrd) as a means of selection for cells that had lost HSV-2 TK activity. Isoenzyme and karyotyping data obtained from 33 BrdUrd-resistant sublines were consistent with the hypothesis that the HSV-2 TK gene is associated with chromosome No. 18 in the HB-2-3 cell line.
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PMID:Association of herpes simplex thymidine kinase gene with chromosome No. 18 in transformed human cells. 624 15

We have introduced adenovirus 2 genes into high molecular weight DNA of permissive human cells by co-transformation of tk- human 143 cells with Ad2 restriction enzyme fragments and a cloned Bam HI fragment that carries the HSV-1 thymidine kinase gene. Tk+ cells were isolated after selection and maintenance in HAT medium. Several co-transformed lines are able to complement the growth of Ad5 dl312 (delta 1.2--3.7) and Ad5 dl434 (delta 2.6--8.7), deletion mutants that lack sequences from the left end of the viral genome. The amount and arrangement of viral sequences in the co-transformed cell lines have been analyzed by restriction endonuclease digestion and filter hybridization. Most of the cell lines contain a single insertion of the HSV-1 tk fragment and a single insert of adenoviral DNA. However, one line (B1) contains at least four different insertions, two of which are present in multiple copies. The adenoviral DNA in all cell lines is composed of sequences from the left end of the genome and extends for varying lengths in different lines. Two cell lines that complement deletion mutants efficiently synthesize both early region 1a and 1b mRNAs. The B1 line synthesizes low levels of 1a mRNA, higher levels of 1b mRNA and a unique mRNA that maps to the right of the 1b gene family. When grown continuously in HAT medium, some cell lines are quite stable while others are fairly unstable. Some tk+ subclones support the growth of viral mutants as well as the parental line while others give reduced levels of complementation. For all tk+ subclones examined, the alteration or reduction in viral gene expression is independent of changes in the pattern of integration of viral DNA.
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PMID:Expression of unselected adenovirus genes in human cells co-transformed with the HSV-1 tk gene and adenovirus 2 DNA. 625 Jul 22


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