Meiotic DNA synthesis during mouse spermatogenesis

Effect of ethylnitrosourea and methyl methanesulfonate on mutation frequency in Muta Mouse germ cells (seminiferous tubule cells and epididymis spermatozoa)

As part of the Germ Cell Collaborative Study, we used the positive-selection Muta Mouse model to evaluate the effects of two direct alkylating agents, ethylnitrosourea (ENU) and methyl methanesulfonate (MMS), on male germ cells. The LacZ mutation frequency in seminiferous tubule cells and epididymis spermatozoa was measured 3, 14, 25 and 50 days after a single intraperitoneal (i.p.) administration of 150 mg/kg ENU and 3 and 14 days after a single i.p. administration of 40 mg/kg MMS. Three and 14 days after ENU treatment, the mutation frequency was slightly but significantly increased in seminiferous tubule cells (3.5- and 3.6-fold, respectively), while it remained unchanged in epididymis spermatozoa. After 25 and 50 days, time-dependent increase in the mutation frequency was observed in seminiferous tubule cells (8.9- and 14.3-fold, respectively) and epididymis spermatozoa (3.4- and 7.9-fold, respectively), confirming the sensitivity of premeiotic cells to the mutagenic activity of ENU. Three and 14 days after MMS administration, the mutation frequency remained unchanged in seminiferous tubule cells and epididymis spermatozoa. The inability of Muta Mouse model to reveal the mutagenic activity of MMS was confirmed in bone marrow cells, 14 days after treatment. These data indicate that the Muta Mouse model can be used to detect the induction of gene mutations but not chromosome damage in germ cells.

Characterization of the S-phase-specific transcription regulatory elements in a DNA replication-independent testis-specific H2B (TH2B) histone gene

The testis-specific H2B histone (TH2B) gene is expressed in pachytene spermatocytes of meiotic prophase I during rat spermatogenesis. The TH2B RNA and histones are not synthesized in any other tissues, and the synthesis is independent of DNA replication. However, the cloned TH2B gene has two DNA sequence elements which stimulate transcription of the cloned gene in an S-phase-dependent manner when introduced into somatic cells. The factors interacting with the two elements, CCAAT at -127 base pairs and octamer ATTTGCAT at -93 base pairs, interact with each other to bring about a maximum stimulation of S-phase-dependent transcription. The level of CCAAT and octamer-binding proteins is unchanged during the cell cycle, and the S-phase-dependent transcription of TH2B and endogenous mouse H2B genes does not require synthesis of new proteins during the S phase. Cell cycle-specific posttranslational modification of regulatory proteins may be responsible for the S-phase-dependent transcription of H2B histone genes. The biological significance of the presence of S-phase-specific transcription regulatory elements in the DNA replication-independent and tissue-specific TH2B gene is not known.

Characterization of the S-phase-specific transcription regulatory elements in a DNA replication-independent testis-specific H2B (TH2B) histone gene

The testis-specific H2B histone (TH2B) gene is expressed in pachytene spermatocytes of meiotic prophase I during rat spermatogenesis. The TH2B RNA and histones are not synthesized in any other tissues, and the synthesis is independent of DNA replication. However, the cloned TH2B gene has two DNA sequence elements which stimulate transcription of the cloned gene in an S-phase-dependent manner when introduced into somatic cells. The factors interacting with the two elements, CCAAT at -127 base pairs and octamer ATTTGCAT at -93 base pairs, interact with each other to bring about a maximum stimulation of S-phase-dependent transcription. The level of CCAAT and octamer-binding proteins is unchanged during the cell cycle, and the S-phase-dependent transcription of TH2B and endogenous mouse H2B genes does not require synthesis of new proteins during the S phase. Cell cycle-specific posttranslational modification of regulatory proteins may be responsible for the S-phase-dependent transcription of H2B histone genes. The biological significance of the presence of S-phase-specific transcription regulatory elements in the DNA replication-independent and tissue-specific TH2B gene is not known.

Deoxyribonucleic acid polymerase activity in the testes of infertile men with varicocele

Activities of deoxyribonucleic acid (DNA) polymerase alpha, beta, and gamma were measured in extracts of testicular biopsy specimen obtained from 37 cases of male infertility with left varicocele and compared with those of 6 normal controls. It was observed that levels of DNA polymerase alpha, beta, and gamma were significantly lower in infertile men than normal controls on both sides of testes. Among three DNA polymerases, the level of DNA polymerase beta activity well correlated with the histological findings (Johnsen's score), i.e., the extent of differentiation of germinal cells. DNA polymerase beta activity appeared to be the lowest in the patients whose sperm density was less than 5 X 10(6)/ml. On the other hand, no correlation was apparent between levels of DNA polymerases and other clinical parameters, e.g., testicular volume, sperm motility, grade of varicocele, and serum hormone levels. These results suggest that the combined decrease in the DNA polymerase activities may be one of the factors that have deleterious effects on spermatogenesis in varicocele patients.

Germ and somatic cell abnormalities following in vivo administration of thymidine and adenine

It is known that an excess of or a depletion in bases and nucleosides produce genetic effects in vitro, and a similar effect has been found with the nucleoside thymidine in this laboratory in vivo. To confirm this effect and to see if this occurs with the base adenine, thymidine and adenine were administered to male mice by i.p. injection and the sperm examined for head-shape abnormalities 4 and 5 weeks later. Treated males also were mated to untreated females for the provision of an F1 generation. The F1 males were subjected to the sperm morphology assay when they reached 14 weeks of age. Amongst those F0 males given adenine, there was a dose-related increase in the frequency of abnormal sperm and the group given thymidine also showed increases, confirming the results of previous studies in this laboratory. In the F1 generation, the fraction of mice from treated males showing increases in numbers of abnormal sperm was greater than that of the controls. In a micronucleus test with mice treated with thymidine, mitosis was delayed and there was a marginal increase in micronuclei, suggesting that an imbalance in nucleoside pools may be responsible for chromosomal damage in somatic cells in vivo. Therefore it is considered that similar effects to those produced in vitro can be demonstrated in vivo. Furthermore, the results of the sperm morphology assay show that the damage is transmissible.

Molecular cloning and differential expression of somatic and testis-specific H2B histone genes during rat spermatogenesis

We have cloned cDNA of a testis-specific histone, TH2B (a variant of H2B), and rat somatic H2B gene to investigate regulation of testis-specific histone genes during rat spermatogenesis. The amino acid sequences deduced from DNA sequences show extensive sequence divergence in the N-terminal third of the two histones. The rest is highly conserved. One cysteine residue was found in TH2B. No cysteine is present in somatic histones except in H3 histone. We investigated the expression of TH2B and H2B genes using the regions of sequence divergence as hybridization probes. The TH2B gene is expressed only in the testis, and the expression of this gene is detected 14 days after birth, reaching a maximum at Day 20. The level of H2B mRNA shows a reciprocal pattern. This contrasting pattern can be explained by the gradually changing proportion of spermatogonia and spermatocytes with testicular maturation. In situ cytohybridization studies show that H2B gene is expressed primarily in proliferating spermatogonia and preleptotene spermatocytes, whereas TH2B gene is expressed exclusively in pachytene spermatocytes which first appear in testis about 14 days after birth. H2B and TH2B genes appear to be ideal markers for the study of proliferation and differentiation events in spermatogenesis and their regulatory mechanisms.

DNA repair synthesis-related enzymes during spermatogenesis in the mouse

To assess whether uracil DNA glycosylase and dUTP nucleotidohydrolase (dUTPase) can be involved in repair-type DNA synthesis associated to crossing-over or induced by UV and X-ray treatments, we have studied these enzyme activities in male mouse germ cells at specific stages of differentiation. Although the highest uracil DNA glycosylase activity was observed in dividing germ cells (spermatogonia and preleptotene spermatocytes), some activity was also detected in meiotic (3.5%) and post-meiotic (1.0%) cells with a relative maximum of activity at pachytene stage (4.7%) when meiotic crossing-over takes place. These findings suggest that uracil DNA glycosylase is involved, in this biological system, in DNA replication and in repair-type DNA synthesis. dUTPase is present at all the stages of spermatogenesis studied but, unlike thymidylate synthetase which is mainly associated with replicating germ cells, dUTPase activity is maximal in spermatocytes at pachytene stages. The data reported suggest that, in this biological system, the main role of dUTPase is to degrade dUTP to prevent misincorporation of uracil into DNA during crossing-over, rather than to participate in the biosynthetic pathway of dTTP.

An assay to detect chemically induced DNA repair in rat spermatocytes

An in vivo/in vitro DNA repair assay has been developed to quantitate chemically induced unscheduled DNA synthesis (UDS) in rat spermatocytes utilizing autoradiography. Male Fischer-344 rats were treated by i.p. injection or gavage with a variety of genotoxic agents dissolved in dimethyl sulfoxide, corn oil, or water. At selected times after treatment, spermatocytes were isolated by trypsin digestion of testes and cultured for 24 hr in the presence of 3H-thymidine. The direct-acting genotoxicants methyl methanesulfonate (MMS) and ethyl methanesulfonate and the chemotherapeutic agent cyclophosphamide (CPA) produced positive UDS responses in spermatocytes isolated 1 hr after i.p. injection. The UDS response evoked by either CPA or MMS was maximal within 1 hr after injection and declined rapidly thereafter to control levels. Other known genotoxicants--including dimethylnitrosamine, aflatoxin B1, 2-acetylaminofluorene, 2,6-dinitrotoluene, and 1,6-dinitropyrene--failed to induce UDS, even with routes of administration and at times of exposure known to produce a positive response in hepatocytes. This negative response is consistent with these genotoxicants lack of mutagenic effect in rodent germ cells. These results demonstrate that the in vivo/in vitro spermatocyte DNA repair assay may be useful as a predictive screen for germ cell mutagens. Moreover, by its compatibility with similar assays which utilize other tissues from the same treated animal, this assay permits assessment of the organ specificity of the genotoxic response.

Viability of rat spermatogenic cells in vitro is facilitated by their coculture with Sertoli cells in serum-free hormone-supplemented medium

Spermatogenic cells from 20- to 35-day-old rats were grown in vitro in the presence of Sertoli cells maintained in serum-free hormone/growth factor-supplemented medium and alternating high/low concentrations of follicle-stimulating hormone in the medium. In cell reaggregation experiments, spermatogenic cells reassociate with Sertoli cells but not with peritubular cells or cell-free substrate. Autoradiographic experiments using [3H]thymidine as a labeled precursor for DNA synthesis show that spermatogonia and preleptotene spermatocytes, connected by cytoplasmic bridges, have a synchronous S phase. [3H]Thymidine-labeled preleptotene spermatocytes progress until later stages of meiotic prophase. Time-lapse cinematographic studies of Sertoli/spermatogenic cell cocultures show three major movement patterns. While Sertoli cell cytoplasmic processes between adjacent cells display tensional forces, spermatogonia are engaged in oscillatory cell movements different from the nuclear rotation observed in meiotic prophase spermatocytes. Results of this study show that the proliferation of premeiotic cells and the differentiation of meiotic prophase cells do occur in vitro in association with Sertoli cells maintained in a medium that allows differentiated cell functions.

Is Haploid gene expression possible for sperm antigens?

The development of spermatozoon (sperm) from a spermatid involves a complex process of differentiation during which a variety of new gene products appear. It has been generally assumed that no genetic transcription occurs after meiosis and, if this were so, that all the new sperm proteins would have to to be transcribed from stored messenger RNA. However, the biochemical evidence suggests that there is no abrupt change in the rate of RNA synthesis during meiosis and that qualitative changes in RNA synthesis, to the extent that they are known, favor the likelihood of continuing messenger RNA synthesis. Experimental analyses of distorted transmission ratios of t-alleles and unbalanced chromosomal states in makes also suggest that genes are expressed in haploid nuclei after meiosis. It is probable that spermatozoa are functionally equivalent in most respects because of intercellular bridges that create a continuous cytoplasm between developing spermatozoa, facilitating an exchange of most postmeiotic gene products. Plasma membrane proteins which are potential antigens might not be shared across the intercellular bridges but the evidence to date for haploid expression of sperm antigens is poor.

X chromosome reactivation in oocytes of Mus caroli

Mature mammalian oocytes have both of their X chromosomes active, while somatic cells from the same individual have one of their X chromosomes in an inactive state. We asked whether the X chromosomes of the germ cells never undergo inactivation in their ontogeny or whether inactivation of an X chromosome does occur but is followed by a subsequent reactivation event. Our approach has used an electrophoretic polymorphism for the X-linked enzyme glucose-6-phosphate dehydrogenase (G6PD) in the mouse species Mus caroli. G6PD is dimeric, and a heterodimer is produced in cells from heterozygous females if and only if both X chromosomes are active. Ovaries from heterozygous fetuses at different gestational ages were dissected and either studied cytologically or pressed between microscopy slides to obtain germ cell-rich and germ cell-poor preparations. No heterodimer band was detected on the 10th day of development in germ cell-rich preparations. On subsequent days, an increasingly intense heterodimer band was detected, which, by the 13th day, was approximately twice as intense as the corresponding homodimer bands. Consideration of (i) the G6PD activity per germ cell and per somatic cell and (ii) the percentage of germ cells in the germ cell-rich preparations indicated that a heterodimer band should have been visible on the 10th day had both X chromosomes been active. Cytological examinations showed that the earliest germ cells enter meiotic prophase on the eleventh day. These results demonstrate that oogonia have a single active X chromosome and that the inactive X chromosome is reactivated at or, more likely, shortly before entry into meiotic prophase.

Changes in DNA during meiosis in a repair-deficient mutant (rad 52) of yeast

The kinetic patterns of DNA synthesis in wild-type (RAD+) and rad 52 mutants of yeast, which exhibit high levels of synchrony during meiosis, are comparable. However, RAD 52 mutants accumulate single-strand breaks in parental DNA during the DNA synthesis period. Thus, the product of the RAD 52 gene has a role in meiotic DNA metabolism, as well as in the repair of DNA damage during mitotic growth. The observed breaks may be unresolved recombination intermediates.

Identification of living spermatogenic cells of the mouse by transillumination-phase contrast microscopic technique for 'in situ' analyses of DNA polymerase activities

The stages of spermatogenesis can be identified in freshly isolated, unstained adult mouse seminiferous tubules using a transillumination method. Late acrosome- and maturation phase spermatids, arranged in bundles at stages XII-VI give rise to a spotty transillumination pattern. Before spermiation, these cells form a continuous layer on the top of the seminiferous epithelium, recognized by a strong homogeneous central light absorption in the freshly isolated seminiferous tubules at stages VII and VIII. Other stages have a pale light absorption pattern. The accurate determination of the developmental stages of the germ cells was based on the morphology of the developing acrosomic system and of the nuclei of the spermatids, as revealed by phase contrast microscopy. Using this procedure, the activity levels of DNA polymerases alpha and beta have been studied by autoradiography of squash preparations. Using endogenous templates, assay conditions that differentiate between the solubilized DNA polymerases alpha and beta in vitro, were used to distinguish between these activities in situ in different stages of mouse spermatogenesis. Except in very late spermatids shortly before spermiation, DNA polymerases alpha and beta were detectable in all cell types examined. Coinciding with the nuclear protein transitions, elongating spermatids at steps 10-12 and maturation phase spermatids at steps 13-14 showed high DNA polymerase activities. As no replication occurs in these cells, the observations support the view that both DNA polymerases alpha and beta could be involved in repair DNA synthesis.

Unscheduled DNA synthesis in the testis, a secondary test for the evaluation of chemical mutagens

DNA damage induced by methylmethane sulfonate, cyclophosphamide, doxorubicin and procarbazine in male germ cells was assessed in rabbits by the demonstration of unscheduled DNA synthesis (UDS), in meiotic and postmeiotic phases of maturation. Immediately after treatment by the intravenous route tritiated thymidine was injected into both testicles. Subsequently, rabbits were ejaculated serially, sperm heads were isolated and assayed for radioactivity by liquid scintillation counting. Dose-dependent UDS was demonstrated in late spermatocytes and early spermatids. High doses of hycanthone also induced UDS, but isoniazid and metronidazole had no effect. The rabbit testis UDS test takes into account metabolic and pharmacokinetic aspects of the test substances and provides information about their penetration through the blood-testicular barrier. It is therefore useful for secondary evaluation of potential mutagens. UDS induced by procarbazine was abolished by simultaneous treatment with Ara-C. Thus, the test also recognizes substances that inhibit DNA repair synthesis.

Meiotic synthesis of testis histones in the rat

The distribution and synthesis of the testis-specific variants of histones H1 and H2B, TH1 and TH2B, respectively, and of the somatic histones were studied in rat testis cells. Rat testis cells were labeled in vivo with intratesticular injections of [3H]lysine. The cells and nuclei were then separated into different developmental classes by velocity sedimentation and the histones were analyzed. TH1 and TH2B, as well as the somatic histones, were present in spermatocytes and round spermatids, but none of them were detectable in elongated spermatids. The synthesis and nuclear accumulation of TH1 and TH2B took place throughout pachytene, as well as in earlier stages, but not in the round spermatids. In addition, there was synthesis during pachytene of a histone that migrates electrophoretically with H2A. However, somatic histone synthesis, with the possible exception of H2A and H2B, was not detectable at the pachytene stage. In vivo treatment of rats with hydroxyurea reduced DNA synthesis in the testis to 1% of control values and significantly reduced the synthesis of H3, H2B, H2A, and H4, with the greatest effect being on H3 and H4. However, the hydroxyurea treatment did not significantly decrease the synthesis of TH1, H1, or TH2B. These results prove that the synthesis of several histones during the meiotic prophase is not dependent upon concurrent S-phase DNA synthesis.

An autoradiographic study of unscheduled DNA synthesis in the germ cells of male mice treated with X-rays and methyl methanesulfonate

Unscheduled DNA synthesis (UDS) in the germ cells of male mice after in vivo treatment with X-rays or methyl methanesulfonate (MMS) was assayed by use of a quantitative autoradiographic procedure. MMS induced UDS in meiotic through type III elongating spermatid stages, whereas X-rays induced UDS in meiotic through round spermatid stages. No UDS was detected in the most mature spermatid stages present in the testis with either MMS or X-rays. Taking into account differences in DNA content of the various germ-cell stages studied, we concluded that X-rays induced a maximum UDS response in spermatocytes at diakinesis--metaphase I. The level of UDS induced by MMS was about the same in all the stages capable of repair. Chromosome damage and UDS were measured simultaneously in the same spermatocytes at diakinesis 90 min after X-irradiation or MMS treatment. The level of UDS in most of the X-irradiated cells paralleled the extent of chromosome damage induced. A statistical analysis of these results revealed a positive correlation. As expected, MMS induced no chromosome aberrations above control levels. Therefore no correlation was determined between UDS and chromosome damage in this case. The distribution of UDS over the chromosomes treated at diakinesis with MMS or X-rays was studied. It was found that UDS occurred in clusters in the irradiated cells, whereas it was uniformly distributed in the MMS-treated cells.

Isolation and characterization of germ line DNA from mouse sperm

Mouse germ line DNA was isolated from sperm by a physicochemical procedure that preferentially destroys contaminating somatic cell DNA. The use of reducing conditions and chelating agents in combination with phenol permitted extraction of molecular weight DNA from mature sperm nuclei with approximately 80% efficiency. Less than 0.1% somatic cell DNA contamination remained in sperm DNA prepared by this method. Germ line DNA was characterized by determination of its ultraviolet absorbance spectrum, buoyant density in cesium chloride, and melting profile on a hydroxyapatite column. Contamination by mitochondrial DNA was assessed by cesium chloride/ethidium bromide gradient centrifugation. The significance of the mouse germ line DNA isolation procedure is discussed with respect to the possible genetic transmission of mammary tumor virus and leukemia virus, the origin of antibody diversity, and the origin of testicular teratomas.

Assessment of DNA damage in germ cells of male rabbits treated with isoniazid and procarbazine

The 2 hydrazine derivatives isoniazid (INH) and procarbazine hydrochloride (P) were injected intravenously into rabbits. Radioactive thymidine was injected into both testicles. Rabbits were ejaculated repeatedly, sperms were counted and incorporation of [3H] thymidine into sperm head DNA was determined by liquid scintillation counting. In P-treated rabbits (5 and 50 mg/kg) radioactivity was significantly increased in sperms that were in late phases of spermatocyte and early phases of spermatid maturation at the time of treatment. This indicates that DNA repair synthesis, (unscheduled DNA synthesis, UDS) occurred following drug-induced DNA damage in these germ cells. Normal DNA synthesis in spermatogonia was inhibited by the high dose only. INH (50 and 125 mg/kg) did not cause UDS in spermatocytes and spermatids and did not affect normal DNA synthesis in spermatogonia. The results are in agreement with literature data indicating that P is a potent mutagen and carcinogen. INH, on the other hand, has weak mutagenic and carcinogenic activities that are most apparent in mice.

DNA polymerases in mouse spermatogenic cells separated by sedimentation velocity

Activity levels of DNA polymerase alpha and DNA polymerase beta have been measured in mouse spermatogenic cells separated by sedimentation velocity. Testes from prepuberal (17 day old) and sexually mature mice were dissociated and separated by unit gravity sedimentation into 6 populations of cells. Phase contrast microscopy and [3H]thymidine labeling kinetics revealed that at least 85% of the cells in fraction A were pachytene-stage primary spermatocytes, fraction B was enriched for primary spermatocytes and round spermatids, fraction C contained spermatogonia and/or pre-leptotene primary spermatocytes and later stages of spermatids (no spermatids were present in fraction C from the testes of 17 day old mice) and fractions D to F contained mixed populations of cells, many in later stages of spermiogenesis. When expressed as activity in 10(6) cells or as a specific activity, fractions A, B, and C from mature animals population initially loaded onto the gradient while fractions D, E and F had activity levels similar to or below the population of dissociated cells. The ratio of activity between the DNA polymerases was constant in fractions A, B, and C, but in fractions D, E, and F, the ratio decreased due to a more rapid decline of activity of polymerase alpha. A comparison of activity levels in fraction C from prepuberal and sexually mature mice revealed an increase in DNA polymerase alpha activity and a decrease in the activity of DNA polymerase beta in the cells from the 17 day old animals.

DNA-dependent DNA polymerase species in male germ cells of the mouse

Quasi-homogeneous fractions of male mouse germ cells at definite stages of meiosis and spermiogenesis were obtained by using a separation method based on sedimentation velocity in an albumin gradient. In the various cell types, the total DNA-dependent DNA polymerase activity was determined, and the major enzymatic forms were characterized. The DNA polymerase species present in premeiotic, meiotic and post-meiotic cells were analyzed by glycerol gradient sedimentation. Two types of DNA polymerase were identified in fractions enriched in spermatogonia and preleptotene spermatocytes. One showed a sedimentation coefficient of about 7.5 S and was sensitive to N-ethylmaleimide (NEM); the other exhibited a sedimentation coefficient between 3 and 4 S and was resistant to NEM. On the basis of their sedimentation coefficients, their sensitivity to NEM and their template specificities, these 2 enzymes were identified respectively as alpha and beta DNA polymerases as reported in mammals. The gradient analysis performed on fractions enriched in meiotic and post-meiotic cells revealed the presence of DNA polymerase beta only. A quantitative analysis showed that the activity of the DNA polymerase beta reaches a maximum at middle-late pachytene stage and then drops gradually during spermiogenesis. Although any conclusion as to the biological role of this high level of DNA polymerase activity in pachytene spermatocytes is premature, it is tempting to suggest that this enzyme is involved in meiotic recombination.

DNA repair processes in germ cells demonstrated in ejaculated sperms of rabbits treated with methyl methane sulfonate

Male rabbits were treated with a single i.v. injection of 22.5 mg/kg methyl methane sulfonate (MMS). 0--24 h later [3H]-thymidine was injected in both testicles. Incorporation of the isotope in germ cell DNA was demonstrated in ejaculated sperms. In controls labeled sperms were demonstrated first on day 40--43. These cells were in the preleptotene spermatocyte phase at the time of [3H]-thmidine injection. In rabbits treated with MMS significant radioactivity occurred in sperms collected from day 19 onwards. These cells were in late spermatocyte and early spermatid phase of maturation when [3H]-thymidine was injected. Incorporation of thymidine in these cell populations is interpreted as an expression of unscheduled DNA synthesis, a repair process initiated after chemical damage of germ cell DNA by MMS. The usefulness of the rabbit test system within the framework of conventional mutagenicity screening tests is discussed.

DNA synthetic capabilities of differentiating sperm cells

Spermatogenic cells separated by velocity sedimentation were analysed by a micro-procedure for differentiation-associated changes in DNA synthetic capabilities. DNA-dependent DNA polymerase activity is maximal in premeiotic and meiotic cells, sequentially declines in progressively more differentiated spermiogenic cells to a minimum value in testicular spermatozoa which is 1/14 of the maximum. No further decrease of activity is observed during the subsequent process of sperm cell maturation and, at the end-differentiated state, the potential of sperm cells for DNA synthesis is demonstrated by the presence of substantial activities of thymidine and thymidylate kinases as well as DNA polymerase activity, as determined by in vitro assay, are polymerase. Although levels of DNA polymerase activity, as determined by in vitro assay, are negatively correlated with the state of differentiation, the findings support the hypothesis that, in this cell system, DNA synthetic enzymes may not be limiting factors in the control of DNA synthesis.

Biochemical analysis of genetic recombination in eukaryotes

Recent studies concerning molecular mechanisms of genetic recombination in eukaryotes are reviewed. Since many of these studies have focused on the testable predictions arising from the hybrid DNA theory of genetic recombination, this theory is summarised. Experiments to determine the time of meiotic crossing-over and the structure of the synaptonemal complex which facilitates meiotic crossing-over are described. Investigations of DNA nicking and repair events implicated in recombination are discussed. Properties of proteins which may facilitate hybrid DNA formation, and biochemical evidence for hybrid DNA formation are presented. Finally, a nuclease which has been implicated in gene conversion is described.

Biochemical analysis of meiosis in the male mouse. II. DNA metabolism at pachytene

The DNA metabolism of mouse spermatogenic cells was investigated by intravenous administration of isotope and Staput fractionation of the cells. The pattern of metabolism is virtually identical with that observed in Lilium microsporocytes. A programmed single strand nicking of DNA occure at pachytene such that at least 50% of the DNA is in the form of 62S fragments. Repair replication of endogenously nicked sites is fully achieved during pachytene. The sites of nicking and repair are preferentially located in sequences that are repeated about 400 times. These results are considered as strong evidence for a universal pattern of meiotic prophase DNA metabolism which is associated with crossing-over.

Synaptonemal complex karyotyping in spermatocytes of the Chinese hamster (Cricetulus griseus). III. Quantitative evaluation

Relative length is a constant and distinctive characteristic for each autosomal SC, despite variations in absolute length from cell to cell. Arm ratio is distinctive for each SC except for two of the three sub-acrocentrics, and serves, together with relative length, for identification. The constancy of relative length and arm ratios indicates biological stability and lack of physical distortion in these spread preparations. There is a 1:1 relationship between relative lengths of autosomal SCs and mitotic autosomes: their arm ratios are similar. These close parallels provide strikingly similar SC and somatic karyotypes. Variability was observed in sub-acrocentric arm ratios and in lengths of unpaired X and Y axes, correlated with the presence of constitutive heterochromatin. - Utilizing progressive differentiations of the X and Y chromosomes for staging, it is demonstrated that autosomal SCs decrease in length from late zygotene to mid-pachytene, and then increase at late pachytene. Within a nucleus, synchrony of length changes is maintained. It is concluded that the factors governing autosomal SC length are regular for any given bivalent from cell to cell and may be related to those that control somatic autosome length relationships. - The X and Y axes differ quantitatively as well as qualitatively from autosomal SCs. The SC portion of the X and Y is constant in length through most of pachytene; the unpaired axes shorten and lengthen, but not in proportion to autosomal SCs. X and Y relative lengths ard arm ratios vary throughout pachytene and do not maintain proportionality with somatic values. The evidence suggests, but does not prove, that the long arm of the X is paired with the short arm of the Y.-Twists occur in autosomal SCs at increasing frequencies throughout pachytene but cannot account for length changes. The number of twists per SC is directly proportional to SC length. Intertwining of SCs is random and proportional to SC length. End-to-end associations of autosomal SCs appear to be random; however, the ends of the X and Y are less often involved in such connections. - The length of axial material in all chromosomes at pachytene, expressed as an equivalent length of DNA double helix, represents 0.013% of the diploid DNA complement.

Premeiotic and early meiotic stages in the pollen mother cells of Eremurus and in human embryonic oocytes

The premeiotic and meiotic stages are described in the pollen mother cells of the liliaceous plant Eremurus. In human oocytes from embryonic ovaries, the premeiotic and early meiotic stages up to dictyotene have been identified on morphological grounds. In Eremurus, in which each stage can be independently verified by the sequence of buds situated in a spiral, there is no indication of somatic pairing of homologous chromosomes, nor is there any sign of a premeiotic contraction of the chromosomes. The interphase following this mitosis is, in turn, succeeded by leptotene in which the DNA synthesis occurs, as determined by using autoradiography. This stage is followed by a "distance pairing" stage in which the homologous chromosomes lie parallel to each other at a distance. In typical zygotene, segments of chromosomes are paired intimately, others are unpaired, and the points at which pairing begins and ends are clearly visible. Each bivalent shows several pairing blocks. Pairing is completed at pachytene; diplotene which is characterized by the separation of the chromosomes follows. In mid-diplotene the chromosomes collect together in the so-called second contraction stage. The same meiotic prophase stages that occur in Eremurus, including the "distance pairing" stage, are found in the embryonic human oocytes. In the last premeiotic interphase, the chromosomes appear as condensed prochromosomes which unravel directly to form the leptotene chromosomes. In the oocytes, too, DNA synthesis seems to take place in leptotene.

Physical characteristics of mouse sperm nuclei

The nuclei of epididymal sperm, isolated from C57BL/6J and CBA/J inbred mice by their resistance to trypsin digestion, retain the shape differences of the intact sperm head. Various physical characteristics of these nuclei were measured and compared. The measurement of the projected dimensions of nuclei showed that the CBA nuclei are 13.5% longer than C57BL/6 nuclei (8.64 +/- 0.02 mum compared with 7.61 +/- 0.02 mum), 0.8% narrower (3.51 +/- 0.01 vs. 3.54 +/-0.01 mum) with 6.8% more area (22.34 +/- 0.10 vs. 20.91 +/- 0.09 mum2). However, the volumes of the nuclei as based on reconstructing calibrated electronmicrographs of serial sections of the nuclei indicated that CBA are about 7% smaller than C57BL/6 nuclei (3.72 +/- 0.08 vs. 4.01 +/- 0.03 mum3). The buoyant density of the CBA nuclei is 1.435 +/- 0.002 g/cm3 compared with 1.433 +/- 0.002 g/cm3 for the C57BL/6 nuclei as determined on linear CsCl and Renografin-76 density gradients and confirmed by a technique utilizing physiological tonicities. Therefore, the average mass of the CBA nuclei is less than that of the C57BL/6 nuclei (5.34 +/- 0.12 vs. 5.75 +/- 0.05 pg). The sedimentation velocities at unit gravity of nuclei from 11 inbred strains differ over a range of more than 6% with CBA nuclei sedimenting about 2.0% more slowly than C57BL/6 nuclei. We show that for these nuclei the sedimentation velocity can be related to their buoyant density, volume and a sedimentation shape factor. Within the errors of our measurements of these various characteristics, it was found that C57BL/6 and CBA nuclei have similar sedimentation shape factors. Therefore, the difference in sedimentation velocity between these nuclei appears to be primarily a result of differences in volume. The possible applications of these techniques to the physical separation of sperm are evaluated in the discussion.

Flow microfluorometric analysis of sperm DNA content: effect of cell shape on the fluorescence distribution

The DNA content of individual sperm from populations of acriflavine-stained cells was investigated by analysis of fluorescence frequency distributions obtained with high-resolution flow-systems instruments. Sperm with spherical or cylindrical heads from three mollusk species produce narrow, symmetric fluorescence distributions. Flat sperm heads from six eutherian species produce asymmetric distributions consisting of a peak with a lateral extension to higher fluorescence values. The unexpected shape of these distributions was shown to be due to the flat geometry and high refractive index of the sperm heads in conjunction with the orthogonal axes of flow, excitation, and detection in the flow-systems instruments. The theoretical and experimeytal results indicate that the lateral extension can be eliminated either by controlling the sperm orientation with planar flow conditions or by accounting for sperm orientation by means of orientation sensing.