Sexual and parasexual approaches to the genetic analysis of the laboratory mouse, Mus musculus

The mouse genetic map has been characterized largely through breeding studies based on the principles of Mendelian genetics. More recently, specific genetic information has been obtained from somatic cell studies using the techniques of in situ hybridization and somatic cell hybridization. The genetic analysis possible through these sexual and parasexual approaches is described, and specific linkage information from recent somatic cell studies is reviewed.

Enzymatic basis for the selective inhibition of varicella-zoster virus by 5-halogenated analogues of deoxycytidine

5-Bromodeoxycytidine (BrdC) and 5-iododeoxycytidine, at a concentration of 100 mug/ml, effectively inhibit the replication of varicella-zoster (VZ) virus in tissue culture. No toxicity could be demonstrated in uninfected cells under the same conditions. Studies on the enzymatic basis for this selective inhibition were undertaken. Infection of human embryonic lung cell monolayers with VZ virus-infected cells results in the induction of thymidine (dT), deoxycytidine (dC), and BrdC kinase activities (which are increased 10-, 40-, and 60-fold, respectively) and in a 70-fold stimulation in the incorporation of 3H nucleotide (5-bromodeoxyuridylate) derived from BrdC into DNA. The thermal stability of the VZ virus-induced activities differs significantly from the activities induced by herpes simplex virus type 1 and herpes simplex virus type 2 and those present in uninfected human embryonic lung cells. The VZ virus-induced dT, dC, and BrdC kinase are similarly affected by temperature and cofractionate upon Sephadex gel filtration, findings consistent with the hypothesis that these activities are the function of a single enzyme: a pyrimidine deoxyribonucleoside kinase. The molecular weight, calculated on the basis of the elution pattern on Sephadex G-150, is 70,000. Kinetic studies, demonstrating that dT and dC competively inhibit the phosphorylation of BrdC, are consistent with the phosphorylation of these substrates at a common active site. Kinetic parameters include: KidT = 0.6 MUM; KidC = 60 muM; KmBrdC = 8.5 muM. In contrast to its relatively high affinity for the VZ virus-induced kinase, BrdC is a relatively poor substrate for the host kinases. Therefore, the basis for the selective inhibition of VZ virus by 5-halogenated analogues of dC is reflected in the induction of a pyrimidine deoxyribonucleoside kinase with a high affinity for BrdC.

Herpes simplex virus gene expression in transformed cells. I. Regulation of the viral thymidine kinase gene in transformed L cells by products of superinfecting virus

In this paper we show that the expression of the herpes simplex virus type 1 (HSV-1) gene for thymidine kinase (tk) in HSV-transformed cells is subject to regulation by two viral products synthesized during productive infection of these cells with a tk- mutant of HSV-1. The cell line used in this study is a derivative of tk-deficient mouse L cells that, after exposure to UV-inactivated HSV-1, had acquired the HSV-1 gene for tk (which we term a resident viral gene) and consequently expressed the tk+ phenotype (LVtk+ cells). Productive infection of these cells with HSV-1(tk-) at appropriate multiplicities caused significant enhancement of the viral tk activity. The results of several experiments allow us to conclude that this enhancement was due to increased synthesis of tk specified by the HSV-1 gene resident in the LVtk+ cells and that a specific protein made early after infection with HSV-1(tk-) mediated the enhancement, probably by increasing the production of mRNA from the viral tk gene resident in the LVtk+ cells. Our data also indicate that another HSV-1(tk-) product acted to turn off tk synthesis. The finding that tk activity continued to increase for a longer time after infection of the LVtk+ cells at 2 PFU/cell than after infection at higher multiplicities suggested the synthesis of a product which inhibited tk synthesis and whose concentration reached critical levels earlier at higher multiplicities of infection. Inhibition of DNA synthesis after infection, a treatment that depresses the synthesis of late viral proteins, prolonged the synthesis of tk in LVtk+ cells infected at either 2 or 5 PFU/cell. Infection of the LVtk+ cells with HSV-2(tk-) resulted in only small increases in tk activity, indicating some type specificity in recognition of viral products that can modify the expression of the HSV-1 tk gene resident in these cells.

Genetic analysis by chromosome-mediated gene transfer

A general method is presented for stable transfer of genetic information to eukaryotic cells, utilizing metaphase chromosomes as the vehicle. Recent progress, current problems and large areas of uncertainty in this field are reviewed; particular consideration is given to frequency of transfer, size of the transgenome, evidence of cotransfer of linked genes and serial chromosome transfer. A reasonable model for chromosome transfer is considered with respect to the available information, and various descrepancies are noted. The utility of this method for fine structural mapping, cloning small regions of the eukaryotic genome and other potential applications are discussed.

Effect of iron deficiency and desferrioxamine on DNA synthesis in human cells

Desferrioxamine (10(-3) M) caused a fall in the deoxyadenosine triphosphate level after 4 h incubation in normal phytohaemagglutinin-stimulated lymphocytes. There was a rise in the concentrations of the other three deoxyribonucleoside triphosphates (deoxythymidine-,deoxycytidine-and deoxyguanosine-triphosphate). The changes are similar to those caused by hydroxyurea, a known inhibitor of ribonucleotide reductase. Desferrioxamine (10(-3 M) was found to inhibit human lymphocyte ribonucleotide reductase to a mean of 11% of control activity after 45 min incubation. Both drugs, desferrioxamine and hydroxyurea, inhibited incorporation of [3H]thymidine DNA into lymphocytes in the presence or absence of deoxyuridine, and inhibited production of lymphocytic thymidine kinase, having opposite effects to methotrexate on both [3H]thymidine incorporation and thymidine kinase activity. Phytohaemagglutinin-stimulated lymphocytes from patients with chronic iron deficiency showed lower levels of all our deoxyribonucleoside triphosphates than normal lymphocytes. It is suggested that this may be due to reduced ribnucleotide reductase activity of the iron-deficient cells.

Involvement of cyclic GMP in the initial stage of hepatocytes proliferation

A transient rise in cyclic guanosine 3' : 5' monophosphate (c-GMP) in the liver was observed in rats in vivo 10--20 min after partial hepatectomy. A similar increase in c-GMP in the liver was also found in rats in vivo 15 min after infusion of TGH solution (a mixture of triiodothyronine, glucagon, and heparin). In both cases, inductions of ornithine decarboxylase [EC 4.1.1.17] and tyrosine aminotransferase [EC 2.6.1.5] were found 4 hr after the beginning of the experiments. Later, 22 hr after the surgical intervention or hormone infusion, thymidine kinase [EC 2.7.1.21] was activated and liver slices were able to incorporate [3H]thymidine into DNA. These biochemical phenomena were observed commonly in regenerating liver as well as in the liver of rats infused with TGH solution. c-GMP, but not c-AMP, could induce ornithine decarboxylase and tyrosine aminotransferase in isolated, perfused liver.

Mutant of herpes simplex virus type 1 conditionally able to transform thymidine kinaseless L cells to a tk+ phenotype

After nitrous acid mutagenesis of herpes simplex virus type 1 (HSV-1), a mutant, 1093, was isolated which, during productive infection, induced very low levels of thymidine kinase (tk). The mutant virus was found, after UV irradiation, to be unable to transform L cells lacking tk (Ltk-) to a tk+ phenotype as chararcterized by growth of the cells in a modified HAT-selective medium containing 1.6 X 10(-5) M thymidine. Cells transformed by wild-type virus grew vigorously under the same conditions. The mutant was able to transform Ltk- cells if the medium contained 10(-3) M thymidine. These transformed cells maintained their conditional character and would not grow in low concentrations of thymidine in selective medium. Therefore, this mutant is conditional on the thymidine concentration in the selection medium in its ability to transform Ltk- cells to a tk+ phenotype. The conditionally transformed cells could be supertransformed with wild-type UV-irradiated HSV-1 to a phenotype which would grow in low-thymidine selective medium. The frequency of supertransformation closely approximated the frequency of transformation of Ltk- cells by wild-type virus. Supertransformation at high frequency could not be effected by mutant 1093 or the tk- mutant B2006. These results indicate that the presence of HSV-1 genetic information in HSV-1-transformed cells does not preclude the acquisition by these cells of at least one additional HSV-1 gene, that for tk.

Herpes simplex virus specified deoxypyrimidine kinase and the uptake of exogenous nucleosides by infected cells

Herpes simplex virus can confer to thymidine kinaseless cells the ability to incorporate exogenously supplied thymidine into acid precipitable material. However no incorporation of exogenously supplied deoxycytidine into acid precipitable material can be detected after infection of deoxycytidine kinaseless cells by herpes simplex virus. This failure to incorporate exogenous deoxycytidine is not due to the failure of the deoxycytidine phosphorylating activity of the virus induced deoxycytidine kinase but to a block in the metabolism of deoxycytidine monophosphate in herpes simplex virus infected cells. This block becomes evident with the appearance of the virus induced deoxypyrimidine kinase activity.

Deoxythymidine kinase induced in HeLa TK- cells by herpes simplex virus type I and type II. II. Purification and characterization

Deoxythymidine kinase activities were induced in HeLa TK- (deoxythymidine kinase-deficient) cells infected with either herpes simplex virus type I or herpes simplex virus type II. The herpes simplex virus type I-induced enzyme was found in the cytoplasmic and nuclear fractions of the infected cells, whereas the herpes simplex type II-induced deoxythymidine kinase could only be found in the cytoplasm. Herpes simplex virus type I and II specific deoxythymidine kinases were purified by affinity column chromatography. Both purified deoxythymidine kinases retained the deoxycytidine kinase activity present in the crude preparation. The purified herpes simplex virus type I deoxythymidine kinase had a different mobility on electrophoresis, but the same sedimentation rate on a glycerol gradient as the corresponding unpurified enzyme, whereas the purified herpes simplex virus type II deoxythymidine kinase had the same mobility and sedimentation rate as the corresponding unpurified enzyme. In the presence of Mg2+ATP and dithiothreitol, herpes simplex virus type II deoxythymidine kinase was more stable than herpes simplex virus type I deoxythymidine kinase at both 45 degrees and 4 degrees. The deoxycytidine kinase activity present in the purified preparations was inactivated at the same rate as the deoxythymidine kinase activity. In the presence of the other substrate, deoxythymidine, herpes simplex virus type I deoxythymidine kinase was more stable than herpes simplex virus type II kinase. The purified herpes simplex virus type I and II deoxythymidine kinase had different activation energies when Mg2+ATP and deoxythymidine were used as substrates, but showed the same sensitivity toward ammonium sulfate inhibition.

Genetic homology between man and the chimpanzee: syntenic relationships of genes for galactokinase and thymidine kinase and adenovirus-12-induced gaps using chimpanzee-mouse somatic cell hybrids

The induction by adenovirus-12 of a site-specific gap and assignment of the chimpanzee genes for thymidine kinase and galactokinase were studied by utilizing chimpanzee-mouse hybrid cells. It has been shown that adenovirus-12 induces a specific gap in the long arm of human chromosome 17 (HS 17); with chimpanzee-mouse hybrid cells the specific gap appears on the short arm of the chimpanzee homolog [PTR 19 (HS 17)] of HS 17. This result supports the proposed relationship of HS 17 to PTR 19 (HS 17) by means of a pericentric inversion. The chimpanzee thymidine kinase and galactokinase genes were assigned to PTR 19 (HS 17), further confirming the homology to HS 17. Other syntenic relationships and gene assignments were consistent with proposed homologies between chimpanzee and human chromosomes.

Thymidine uptake and utilization in Escherichia coli: a new gene controlling nucleoside transport

A commonly used strain of Escherichia coli K-12 was shown to be deficient in the transport of a number of nucleosides, including thymidine. Thymidine incorporation was unaffected. Strain AB2497 exhibited a strikingly lower thymidine pulse-label incorporation at low (less than 1 mug/ml) thymidine concentrations than do many other strains. The deficiency appeared to be due to mutation in a single gene. This gene, which we designated nup (for nucleoside uptake), is located at 10 to 13 min on the E. coli linkage map. In nup+ strains, the transport of a given nucleoside was relatively insensitive to large excesses of other nucleosides but was competitively inhibited by the same nucleoside. Mutants deficient inthymidine kinase are deficient in thymidine uptake but normal in deoxyadenosine uptake. A two-step model for nucleoside transport is presented in which the first step, utilizing the nup gene product, is a nonspecific translocation of nucleoside to the interior of the cell. In the second step, the individual nucleosides are modified by cellular enzymes (e.g., nucleosides kinases) facilitate accumulation.

Formation of thymidine kinase and deoxycytidylate deaminase in synchronized cultures of chinese hamster cells temperature-sensitive for DNA synthesis

Cytosol thymidine kinase (TK) and deoxycytidylate (dCMP) deaminase formation was investigated in synchronized cultures of K12 Chinese hamster cells which have a temperature-sensitive lesion affecting the initiation of DNA synthesis. Enzyme formation was found to be cycloheximide-sensitive and also temperature-dependent. Beginning at about six hours after addition of medium with 10% calf serum to serum-depleted K12 cultures, cytosol TK and dCMP deaminase activities increased when the cultures were incubated at 36.5 degrees but not at 40.5 degrees. When cultures were shifted from 36.5 degrees to 40.5 degrees at 4,6, or 8 hours after serum addition, TK activity continued to increase, though not to the level observed at ten hours in cultures maintained at 36.5 degrees. Actinomycin D addition at the time of serum reversal or four hours later blocked the TK increase normally observed at the permissive temperature at ten hours. However, when actinomycin D addition was delayed for six or eight hours after serum addition, the increase in TK measured at ten hours resembled that observed in the temperature shift-up experiments. The results provide evidence that the mutation in K12 Chinese hamster cells most likely blocks the progression through G1 into S and suggest that transcription or post-transcriptional processing required for TK formation is affected.

Utilization of exogenous thymidine by Chlamydia psittaci growing in the thymidine kinase-containing and thymidine kinase-deficient L cells

The incorporation of [3H]thymidine into the deoxyribonucleic acid (DNA) of Chlamydia psittaci (strain 6BC) growing in thymidine kinase (adenosine 5'-triphosphate-thymidine 5'-phosphotransferase, EC 1.7.1.21)-containing L cells, L(TK+), and thymidine kinase-deficient L cells, LM(TK-), was examined by autoradiography. Label was detected over C. psittaci inclusions in L(TK+) but not LM(TK-) cells. No evidence for a chlamydia-specific thymidine kinase activity in either L(TK+) or LM(TK-) cells was obtained. Entry of [3H]thymidine into the DNA of C. psittaci growing in L(TK+) cells was quantitated by measuring label in purified C. psittaci. It was 265 times less efficient than entry into infected host cell DNA. It is concluded that low levels of exogenous thymidine are incorporated into the DNA of C. psittaci and that this incorporation is dependent on a fully competent host thymidine kinase activity. Evidence also is presented that L cells possess at least two thymidine kinase activities, both of which are capable of supplying thymidylate precursors for nuclear DNA synthesis.

Linkage relationship between the genes for thymidine kinase and galactokinase in different primates

In this study we investigated the expression of primate galactokinase in somatic cell hybrids between a thymidine kinase-deficient mouse cell line and two different primate cell lines, one of which was derived from African green monkey kidney cells and the other from chimpanzee fibroblasts. All the African green monkey-mouse hybrid clones, selected in HAT medium, expressed monkey galactokinase activity and contained a monkey chromosome similar to a human E-group chromosome. When these clones were backselected in medium containing 5-bromodeoxyuridine, both this chromosome and the monkey galactokinase activity were lost. All the hybrid clones between mouse and chimpanzee cells, which were selected in HAT medium, contained the chimpanzee chromosome 17 and expressed chimpanzee galactokinase activity. These results indicate that the linkage relationship between galactokinase and thymidine kinase has been maintained in 3 divergent primate species--man, chimpanzee, and Old World monkey.

Induction of interferon and erythropoietic differentiation in cells transformed by Friend virus

Two lines of Friend virus (FV)-transformed mouse spleen cells have been analyzed in respect to their interferon production capacity: neither F4 cells, which liberate infectious FV when kept under tissue culture conditions, nor the thymidine kinase-deficient B8 cells, which do not produce significant amounts of FV, release detectable amounts of autogenous interferon into cell supernatants. However, interferon is produced in these cells in amounts comparable to that in L-929 cells when interferon induction is initiated with UV-inactivated Newcastle disease virus. Conversely poly(I)-poly(C), a potent interferon inducer in L-929 cells, proved ineffective in this capacity in F4 or B8 cells. When erythropoietic differentiation is induced in these cells by dimethyl sulfoxide, no autogenous interferon production occurs, but with NDV-induction a four- to fivefode increase of interferon production is observed. A similar elevation of interferon production is achieved during 5-bromodeoxyuridine stimulation of differentiation in the thymidine kinase-deficient B8 cells. The refractiveness against poly(I)-poly(C) displayed in unstimulated cells is not overcome at any stage of differentiation, indicating major differences of Newcastle disease virus and poly(I)-poly(C) induction mechanisms.

Possible peptide chain termination mutants in thymide kinase gene of a mammalian virus, herpes simplex virus

Mutations in the viral gene coding for the thymidine kinase (ATP:thymidine 5'-phosphotransferase, EC 2.7.1.75) induced by herpes simplex virus have been obtained by selection of virus resistant to bromodeoxyuridine when grown in thymidine-kinase-deficient LMTK- mouse cells. Proteins labeled after infection of Vero (monkey) cells with herpes simplex virus were analyzed by gel electrophoresis and one protein of about 40,000 daltons was consistently altered in a number of thymidine-kinase-deficient mutants. Many viral mutants lacked this peptide and one class of these mutants induced the synthesis of new shorter peptides. Revertant virus could be selected which simultaneously regained the ability to induce thymidine kinase activity, regained the intact thymidine kinase peptide, and lost the ability to synthesize the shorter peptide fragment. These mutants comprise a class of animal virus mutants which have the properties expected of peptide chain termination mutants.

Dystrophic spinal cord transplants induce abnormal thymidine kinase activity in normal muscles

The role of the neural tube in the pathogenesis of muscular dystrophy was tested directly. Neural tubes from chicken embryos with hereditary muscular dystrophy and from genetically normal embryos were transplanted into normal recipient embryos. Dystrophic neural tissue induced in muscles of normal hosts high thymidine kinase activity characteristic of dystrophic muscle; normal neural tubes did not. We propose an early inductive effect of the neural tube on the presumptive myoblasts that sets their subsequent course of development, either normal or dystrophic.

Temperature-sensitive mutants of herpes simplex virus type 1 defective in lysis but not in transformation

Twelve temperature-sensitive (ts) mutants of herpes simplex virus type 1 (HSV-1), representing seven complementation groups, were isolated subsequent to 5-bromodeoxyuridine mutagenesis. These mutants were identified by their inability to replicate in a line of monkey (CV-1) cells at 39 C. Seven of these mutants, representing six complementation groups, induced thymidine kinase (tk) and transformed Ltk- cells, a line of mouse L cells lacking tk, to a tk+ phenotype at both the permissive (34 C) and nonpermissive (39 C) temperatures. Thus, the defective cistrons in these six complementation groups, although necessary for lysis, have no essential function in this transformation system. Transformation by these 12 mutants was dependent on prior UV irradiation. Infection of cells with unirradiated virus under conditions which did not permit virus replication was not sufficient to allow cell transformation. Five mutants, representing two complementation groups, were tk- and were incapable of causing the tk--to-tk+ transformation at either 34 C of 39 C. The tk defects in these mutants are probably unrelated to the ts defects, since one of these complementation groups contains a tk+ member. Therefore, transformation of Ltk- cells to a tk+ phenotype by HSV-1 requires an active viral tk gene. One complementation group was represented by a single tk- member. The role of this cistron in transformation remains undetermined since the primary block to transformation is presumed to be the tk- phenotype. Mutants representing the seven complementation groups were unable to replicate at 39 C in two lines of HSV-1-transformed cells, indicating that the activities of resident wild-type copies of the defective cistrons, if present, could not be detected by complementation.

Induction of rat pituitary thymidine kinase: another physiological response to oestradiol in the male?

Subcutaneous injection of oestradiol-17beta enhanced the thymidine kinase activity in the anterior pituitary of immature male rats, but did not alter the thymidylate synthetase level. The kinase activity reached a sharp maximum 36 hours after injection of the steroid and then decreased to its original value. The estimated minimum active dose was 0.020 mug per rat. The 17alpha isomer was inactive. Cycloheximide and actinomycin D, according to injection schedule, prevented the rise in activity, suggesting a regulation of pituitary thymidine kinase at the level of protein biosynthesis. The induced enzyme exhibited the same Km and the same thermal inactivation profile as the constitutive enzyme. With the doses of oestradiol required for induction of the enzyme, no significant variations of serum and pituitary LH and FSH concentrations were detected. Based on these and previous results it is suggested that, in the male pituitary, the concentration ratio of circulating oestrogens over androgens controls not only the secretory function but also the production of specific enzymes.

Control of thymidine kinase synthesis in IHD vaccinia virus-infected thymidine kinase-deficient LM cells

The synthesis of vaccinia virus-induced thymidine kinase is normally arrested several hours after infection. In thymidine kinase-deficient LM cells infected with IHD strain of vaccinia virus, arrest occurs whether or not viral DNA synthesis is inhibited. With virus inactivated by UV irradiation, enzyme synthesis takes place, but arrest is abolished. It is suggested that an early viral genetic function is responsible for the cessation of thymidine kinase synthesis.

Induction of ornithine decarboxylase, tyrosine aminotransferase, and thymidine kinase by glucocorticoid in isolated, perfused liver after tumor inoculation

A method for producing solid tumors in rat liver or spleen by local inoculation of Yoshida sarcoma or Hirosaki sarcoma was developed by careful selection of rat strains. After development of the tumor, the liver was isolated and perfused with a mixture of calf serum and fluorocarbon. Addition of corticoid hormone to the perfusion fluid induced tyrosine aminotransferase in normal tissue of the liver and to a lesser degree in the tumor tissue. Corticoid did not cause any detectable induction of thymidine kinase in normal tissue of the liver, but caused slight but definite induction of the enzyme in the tumor tissue. Ornithine decarboxylase was induced in the normal tissue by perfusion with serum alone, even without corticoid, but no enzyme induction was observed in the tumor tissue. The low level of this enzyme found in solid tumor tissue might be due to the fact that the enzyme was measured in the late period of tumor growth, because, in experiments with ascites tumor cells, higher enzyme activities were observed in the early period of growth.

Influence of double infections on the induction of thymidine kinase by UV-irradiated herpes simplex virus types 1 and 2 and pseudorabies virus

Simultaneous infection of primary rabbit kidney cells with HSV type 1 TK+ and a TK- strain results in a mutual influence of both viruses on the induction of thymidine kinase (TK). TK+ virus has an enhancing and TK- virus a depressing effect on TK induction by a superinfecting TK+ virus. The enzyme induction depends on the ratio of multiplicities of both viruses. The mutual influence on TK induction depends further on the time of addition of the superinfecting virus: the effect of the second virus can still be observed when given 6 hours after primary infection. Identical phenomena can be observed using combinations with HSV type 2 or Pseudorabies viruses. The ability of HSV to induce TK is progressively inactivated with increasing the time of UV-irradiation. The depressing effect of a TK- strain and the stimulating effect of a TK+ strain on superinfecting TK+ strains is UV-sensitive: after 6 minutes of UV-irradiation neither inhibition nor stimulation of TK induction by a superinfecting TK+ strain can be observed. Infection by long-term (20 minutes) UV-irradiated TK+ strains results in a depression of TK induction by a superinfecting TK+ virus. Long-term irradiation of the TK- virus does not show this effect. Cytosine-arabinoside has no effect on the mutual influence of TK induction by TK+ and TK-strains; the phenomenon of mutual depression therefore has to be considered an early process.

Control of the expression of a herpes simplex virus thymidine kinase gene incorporated into thymidine kinase-deficient mouse cells

When thymidine kinase-deficient mouse cells "transformed" by in activated herpes simplex virus and expressing the viral thymidine kinase (TK) are grown in nonselective medium, there is an exponential decay in the proportion of cells that continue to express the viral enzyme. However, the viral TK can be reactivated at a frequency of approximately 1 cell in 10(6) in every population that has lost TK activity. When cells in which the viral TK has been reactivated are grown in nonselective medium, a decay in the expression of the viral enzyme occurs again at the same rate as in the initial transformed population. Studies on the reactivation of viral TK indicate that reappearance of the enzyme is not induced by the selective medium (HAT) used to detect cells in which the enzyme has reappeared. Furthermore, treatments known to induce latent viruses in other systems--eg, exposure of the cells to mutagens or cell fusion--do not affect the frequency with which viral TK is reactivated.

Isolation of mutants of bacteriophage T4 unable to induce thymidine kinase activity. II. Location of the structural gene for thymidine kinase

Amber mutants of bacteriophage T4 have been isolated that induce thymidine kinase activity only after infection of a strain of Escherichia coli carrying a suppressor mutation. The activity induced when one of these mutants infected this suppressor strain is much more heat sensitive than the activity induced by wild-type T4. This indicates that this amber mutation lies within the structural gene for thymidine kinase. This gene is between fI and v on the standard T4 genetic map. A mutant of tt4 that is unable to induce thymidine kinase activity incorporates only about one-eighth as much thymidine into its DNA as phage that do induce thymidine kinase. This contrasts to the findings that the total thymidine kinase activity in extracts prepared from cells infected with phage able to induce thymidine kinase in only twice as great as the activity in cells infected with the mutant unable to induce the enzyme.

Does phospholipase C stimulate thymide kinase activity of rat liver extracts prepared after partial hepatectomy

Our purpose was to determine whether phospholipase C stimulated thymidine kinase activity of regenerating rat liver. We determined effects of phospholipase C upon TMP formation by rat liver extracts prepared at 0, 12, 24, 36 and 48 hr following partial hepatectomy. Data were obtained which supported these conclusions: (a) Commercial preparations of phospholipase C contained nucleoside phosphotransferase activity; (b) phospholipase C exerted no appreciable stimulatory influence upon thymidine kinase activity of regenerating rat liver; and (c), apparent stimulation of thymidine kinase was associated with linked activities of two enzymes, viz., liver extract-ATPase activity and nucleoside phosphotransferase activity.

Deoxypyrimidine kinases of herpes simplex viruses types 1 and 2: comparison of serological and structural properties

The kinetics of formation, the stability at 40 degrees C and the serological properties of thymidine kinase and deoxycytidine kinase activities induced by herpes simplex virus have been examined. The results are consistent with the hypothesis that both activities are carried on the same molecule-a deoxypyrimidine kinase. Mutants deficient in deoxypyrimidine kinase have been used to produce, by absorption of general antisera, deoxypyrimidine kinase-specific antisera. Using immunoprecipitation and SDS-polyacrylamide gel electrophoresis, only one size of polypeptide (mol. wt. 42400 plus or minus 200) has been found, constituting the type 2 enzyme. This is close to published values for the type i enzyme but co-electrophoresis demonstrated that the polypeptide of the type i enzyme was slightly bigger.

An unusual defective genotype derived from herpes simplex virus strain ANG

A defective genotype of herpes simplex virus strain Angelotti (HSV ANG) accumulates in the course of controlled serial high MOI virus passages representing 50-60% of the total number of mature virions in the seventh of these passages. Defective HSV ANG significantly differs from other defective HSV genotypes described so far: the DNA of the defective particles has the same buoyant density as nondefective DNA. In contrast to non-defective HSV ANG DNA, it is not attacked by the restriction endonucleases Eco R I, Hpa I and Hind III. Defective virions strongly suppress the formation of progeny virus. They do not interfere, however, with the synthesis of HSV-specified thymidine (TdR) kinase.

Expression of the viral thymidine kinase gene in herpes simplex virus-transformed L cells

In these studies, the expression of thymidine kinase (TK) in normal and herpes simplex virus (HSV)-transformed L cells has been compared. In asynchronously dividing cultures of L cells, the TK activity rose and declined rapidly and coordinately with DNA synthesis. When net cell increase stopped, TK activity was at a minimum. In contrast, TK activity of HSV-transformed cells remained at a minimum during rapid DNA synthesis and gradually increased as the rate of DNA synthesis decreased. When net cell increase stopped, TK activity was at a maximum. In synchronous cultures of L cells, TK activity rose and fell coordinately with the rate of DNA synthesis. In synchronous cultures of HSV-transformed cells, no increase in TK activity was observed during the period of rapid DNA synthesis, i.e., the S phase. These findings indicated that the viral TK gene in HSV-transformed cells was not placed under the control of the cellular mechanisms which normally modulate the host cell TK gene. Lytic infection of HSV-transformed cells with a TK(-) mutant of HSV-1 induced a four-to fivefold increase in viral TK. The TK of HSV-1 was induced in the HSV-1-transformed cells and HSV-2 in the HSV-2-transformed cells by this TK(-) mutant. The same infection of normal L cells decreased the cellular TK activity by 80%. This stimulation, rather than inhibition, suggest that the viral gene in HSV-transformed cells retain some of its original viral characteristics.

Genetic control of mitochondrial thymidine kinase in human-mouse and monkey-mouse somatic cell hybrids

Distinctive thymidine (dT) kinase molecular forms are present in mouse, human, and monkey mitochondria. Disk polyacrylamide gel electrophoresis (disk PAGE) analyses have shown that the mitochondrial-specific dT kinases differ from cytosol dT kinases in relative electrophoretic mobilities (Rm). Furthermore, the mouse mitochondrial dT kinase differs in Rm value from primate mitochondrial dT kinases. The mouse and primate cytosol dT kinases can also be distinguished. Disk PAGE analyses have been carried out on the cytosol and mitochondrial dT kinases of human-mouse (WIL-8) and monkey-mouse (mK.CV(III)) somatic cell hybrids in order to learn whether the mitochondria of the hybrid cells contained murine mitochondrial-specific, primate mitochondrial-specific, or both dT kinases. WIL-8 cells were derived from cytosol dT kinase-negative, mitochondrial dT kinase-positive mouse fibro blasts and from cytosol dT kinase-positive, mitochondrial dT kinase-positive human embryonic lung cells; they contained mostly mouse chromosomes and a few human chromosomes, including the determinant for human cytosol dT kinase. The mK.CV(III) cells were derived from cytosol dT kinase-negative, mitochondrial dT kinase-positive mouse kidney cells and from cytosol dT kinase-positive, mitochondrial dT kinase-positive monkey kidney cells; they contained mostly mouse chromosomes and a few monkey chromosomes, including the determinant for monkey cytosol dT kinase. Disk PAGE analyses demonstrated that the mitochondria of human-mouse and monkey-mouse somatic cell hybrids contained the mouse-specific mitochondrial dT kinase but not the human- or monkey-specific mitochondrial dT kinase. These findings suggest that primate cytosol and mitochondrial thymidine kinase genes are coded on different chromosomes.

Viral gene functions expressed and detected by temperature-sensitive mutants of herpes simplex virus

The expression of HSV-specific gene functions by 22 ts mutants of HSV-1 in 15 complementation groups and 8 ts mutants of HSV-2 in 7 complementation groups has been studied at the nonpermissive temperature. Four cistrons of HSV-1 and three cistrons of HSV-2 with defects in viral DNA and DAN polymerase synthesis were identified. DNA-mutants of HSV-1 revealed a greater alteration in HSV polypeptide synthesis and viral assembly than DNA- mutants of HSV-2. Mutants with apparent defects in structural proteins have been identified for both HSV-1 and HSV-2 as demonstrated by their increased themolability. The general organization of the provisional HSV-1 and HSV-2 linkage maps revealed a similarity in the arrangement of functionally related cistrons, with DNA- mutants being located on the left-hand side of each map and mutants with phenotypic properties similar to those of the wild-type virus, on the right-hand side. An early polypeptide of HSV (VP175, MW 175,000) was found to accumulate in cells infected at the nonpermissive temperature withts mutants of HSV-1 in complementation group B. The VP175 polypeptide was isolated from such cells by a combination of SDS-preparative and analytical disc gel electrophoresis. Antiserum prepared to this polypeptide was found to descriminate between HSV-1 and HSV-2 by immunofluorescence. On the other hand, type-specific gene functions of HSV-1 and HSV-2 were not demonstrated through intertypic complementation and recombination tests with heterologous mutant pairs, whereas mutually exchangeable or common gene functions were readily identified. Eight ts mutants of HSV-2 were used to detect functional HSV genes in hamster embryo cells transformed by HSV-2. Normal hamster cells and SV40-transformed hamster cells failed to support the replication of the mutants at the nonpermissive temperature. However, the replication of two mutants, defective in late functions, was significantly enhanced in two independently derived HSV-2-transformed cell lines. Thus functional HSV genetic information was detected in HSV-2-transformed cells through the use of ts mutants. Moreover, it appears that the information present in both cell lines is not only specific but involves late HSV functions.

Lambda-chain production in human lymphoblast-mouse fibroblast hybrids

Mutant human lymphoblast cells deficient in hypoxanthine phosphoribosyltransferase (EC 2.4.2.8) activity were hybridized with thymidine kinase (EC 2.7.1.21)-deficient mouse fibroblasts. Hybrid cells were readily selected, as both parental lines were nonreverting and eliminated by hypoxanthine-amethopterinthymidine medium. Human lambda (lambda) chain was the only immunoglobulin chain produced by the lymphoblast parent, as determined by immunofluorescent techniques. Two independent hybrid clones chosen for detailed study synthesized human lambda chain, and continued to do so after prolonged culture. As in both parental lines, no human immunoglobulin heavy chains, complements C3 or C4, or alpha(1)-antitrypsin, or mouse immunoglobulin chains or complement C5 were detectable in the hybrids. Selection against thymidine kinase-containing hybrid cells with 5-bromodeoxyuridine did not eliminate positive lambda-chain reactivity, suggesting that the kinase and lambda-chain loci are not linked. The continued production of an immunoglobulin chain by human lymphoblast-mouse fibroblast hybrids contrasts with the extinction of other differentiated functions in several hybrid systems, and indicates that gene localization and linkage analysis for human immunoglobulin chains should be feasible with this system.

Isolation of mutants of bacteriophage T4 unable to induce thymidine kinase activity

New mutants of T4 have been isolated by using a strain of Escherichia coli lacking thymidine kinase activity. These T4 mutants, designated tk, are able to grow on this E. coli strain under light on plates containing 5-bromodeoxyuridine and were all found to be unable to induce thymidine kinase (ATP: thymidine 5'-phosphotransferase, EC 2.7.1.21). All of these tk mutants fall into one complementation group which maps just to the right of rI on the standard T4 genetic map, far from most other genes coding for enzymes involved in pyrimidine metabolism. The tk mutants grow as well as wild-type T4, indicating that thymidine kinase is a non-essential enzyme.