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1.
For Nicotiana tabacum cv. Wis. 38 plants, the capabilities of solutions containing DNA, extracted from either homogenates of stems in a floral state or nuclei of stems in a vegetative state, to effect flowering of vegetative plants have been studied. Previous work indicates that the DNA from homogenates of stems in a floral state is mainly nuclear. If DNA solutions are supplied to axillary buds of vegetative plants and if the axillary buds are defoliated every 4th day for 12 days, the buds supplied a solution of DNA from stems in a floral state initiate flowers under noninductive conditions, and the buds supplied a solution of DNA from stems in a vegetative state remain vegetative. Heating and rapidly cooling a solution of DNA from stems in a floral state enhances its floral activity. Heating and cooling a DNA solution also results in novel flowers showing up in many treated plants. Novel flowers are more striking in the offspring than in the parents. The capabilities of heated-cooled DNA solution to initiate flowers in noninductive conditions and to cause novel flowers are eliminated completely by treating (before heating and cooling) the DNA solution with deoxyribonuclease. Heated-cooled solutions of DNA extracted from nuclei of either vegetative stems or vegetative leaves contain no floral activity.  相似文献   

2.
The deoxyribonucleic acid (DNA) polymerases were partially purified from spores and vegetative cells of Bacillus subtilis. Some biochemical properties of the enzymes from the spores were studied in comparison with those from the vegetative cells. The spores and vegetative cells had at least three species of DNA polymerases (DNA polymerase I, II and III). These DNA polymerases in spores could not be distinguished from those in vegetative cells, respectively, with regard to the reresponses to ionic strength, the sensitivity to thiol-blocking agents, the template specificity, pH and temperature optima in assay, and the sedimentation behavior. It is inferred that DNA polymerases from spores was essentially identical to those from vegetative cells.

The DNA polymerase activity decreased rapidly in the course of sporulation, and only about 20% is recovered in the spores, suggesting that an extentive inactivation mechanism of the enzymes would be involved during sporulation.  相似文献   

3.
为探索纤毛虫在营养及休眠条件下两套遗传系统的作用关系,对膜状急纤虫(Tachysomapellionella)营养细胞和休眠包囊大核DNA、线粒体DNA进行了RAPD比较。结果显示,在所选用的34条随机引物中,大核DNA共扩增出203条片段,其中以休眠包囊大核DNA为模板扩增出45条特有片段,以营养细胞大核DNA为模板扩增出36条特有片段,两者存在40%的差异。在所选用的32条随机引物中,线粒体DNA共扩增出216条片段,其中以休眠包囊线粒体DNA为模板扩增出35条特有片段,以营养细胞线粒体DNA为模板扩增出47条特有片段,两者有38%的差异。结果表明,膜状急纤虫休眠包囊与营养期的大核DNA结构存在显著的差异;两者的线粒体DNA结构也存在较大差异。这表明,膜状急纤虫在包囊形成过程中,大核及线粒体DNA结构可能都发生了一定的变化,并且这些变化可能与包囊形成过程中的形态结构和代谢活动等剧烈变化以及休眠状态下的生理生化变化密切相关。  相似文献   

4.
Spores and vegetative cells of Bacillus subtilis strains with various defects in DNA-repair capacities (hcr-, ssp-, hcr-ssp-) were irradiated with UV radiation or X-rays. Induced mutation frequency was determined from the observed frequency of prototrophic reversion of a suppressible auxotrophic mutation. At equal physical dose, after either UV- or X-irradiation, spores were more resistant to mutations as well as to killing than were vegetative cells. However, quantitative comparison revealed that, at equally lethal doses, spores and vegetative cells were almost equally mutable by X-rays whereas spores were considerably less mutable by UV than were vegetative cells. Thus, as judged from their mutagenic efficiency relative to the lethality, X-ray-induced damage in the spore DNA and the vegetative DNA were equally mutagenic, while UV-induced DNA photoproducts in the spore were less mutagenic than those in vegetative cells. Post-treatment of UV-irradiated cells with caffeine decreased the survival and the induced mutation frequency for either spores or vegetative cells for all the strains. In X-irradiated spores, however, a similar suppressing effect of caffeine was observed only for mutability of a strain lacking DNA polymerase I activity.  相似文献   

5.
A procedure was developed for the isolation of heterocysts from cyanobacterial filaments without recourse to mechanical disruption of the vegetative cells. DNA was then extracted from purified heterocysts by heating with 2% (w/v) SDS at 70 degrees C for 10 min. Following purification, this DNA was used for treatment with a range of restriction endonucleases and the results compared with DNA isolated from vegetative cells. Both heterocyst and vegetative DNAs from Anabaena PCC 7120 and Anabaena CA (ATCC 33047) were cut by XbaI, HindIII, EcoRI, ClaI, HpaII and MspI. However, none of the DNAs were cut by XhoI, SalI or MboI, indicating that the DNA from both organisms is methylated, but that no gross changes in methylation occur during heterocyst formation. Treatment of the DNAs with the former enzymes, followed by separation of the fragments by agarose gel electrophoresis, resulted in most cases in patterns of bands, which allowed a limited comparison of heterocyst and vegetative DNAs. No major differences were seen between the heterocyst and vegetative DNAs of either organism, implying that there are unlikely to be extensive rearrangements or major loss of DNA during heterocyst differentiation.  相似文献   

6.
M. L. Philley  C. Staben 《Genetics》1994,137(3):715-722
The Neurospora crassa mt a-1 gene, encoding the MT a-1 polypeptide, determines a mating type properties: sexual compatibility and vegetative incompatibility with A mating type. We characterized in vivo and in vitro functions of the MT a-1 polypeptide and specific mutant derivatives. MT a-1 polypeptide produced in Escherichia coli bound to specific DNA sequences whose core was 5'-CTTTG-3'. DNA binding was a function of the MT a-1 HMG box domain (a DNA binding motif found in high mobility group proteins and a diverse set of regulatory proteins). Mutation within the HMG box eliminated DNA binding in vitro and eliminated mating in vivo, but did not interfere with vegetative incompatibility function in vivo. Conversely, deletion of amino acids 216-220 of MT a-1 eliminated vegetative incompatibility, but did not affect mating or DNA binding. Deletion of the carboxyl terminal half of MT a-1 eliminated both mating and vegetative incompatibility in vivo, but not DNA binding in vitro. These results suggest that mating depends upon the ability of MT a-1 polypeptide to bind to, and presumably to regulate the activity of, specific DNA sequences. However, the separation of vegetative incompatibility from both mating and DNA binding indicates that vegetative incompatibility functions by a biochemically distinct mechanism.  相似文献   

7.
Summary During pollen development the dry weight, total protein, histone, DNA, arginine, and lysine content were analysed by cytophotometric methods in partially isolated nuclei. The amount of analysed substances increased from the end of the meiosis to the mitosis of the microspores to the double of the initial values. After mitosis the ratio histone/DNA remained almost unchanged in both vegetative and generative nuclei. On the other hand a large difference in the ratio non-histone protein/DNA could be observed, the vegetative nucleus containing more non-histone protein than the generative nucleus. The rate of RNA synthesis being higher in the vegetative nuclei, these non-histone proteins may have some function in nuclear activation. The DNA of the generative nucleus is duplicated before anthesis, whilst in the vegetative nucleus the DNA content remains constant.  相似文献   

8.
Abstract

The genus Allium L. in Italy. IV. A DNA cytophotometric study on the pollen grain of Allium chamaemoly L. — A cytophotometric analysis of DNA contents in pollen generative and vegetative nuclei of Allium chamaemoly L. was carried out. DNA synthesis in both nuclei was confirmed and a lightly higher DNA amount than 2C in the vegetative nucleus was pointed out. An analysis of the Fast-green stainable histones in the generative and vegetative nuclei was also accomplished. While the generative nucleus had a very high content of Fast-green stainable histone, the vegetative one have nearly no stainable histone. The occurrence of DNA synthesis and the very low histone content suggest the vegetative nucleus is functional and biochemically activ. The higher than 2C DNA content supports the possibility of a DNA amplification process including probably the amplification of ribosomal cistrons in the pollen vegetative nucleus.  相似文献   

9.
Summary A DNA protein complex has been isolated from vegetative cells and spores of Bacillus subtilis. Properties of the DNA protein complex prepared from vegetative cells were studied and SDS gel electrophoresis was employed to compare the different DNase-untreated and-treated DNA protein complexes. It is concluded that proteins are associated with the DNA and differences in protein pattern in polyacrylamide gels indicates the involvement of DNA-binding proteins in the regulation of spore formation.  相似文献   

10.
11.
DNA content of the nucleus in the placoderm desmid, Closterium ehrenbergii Meneghini was measured throughout the life cycle by epifluorescence microspectrophotometry after DNA specific dye [4′,6-diamidino-2-phenylindol (DAPI)] staining. Postulating a mean DNA content of gamete nuclei as 1C, the nucleus of a newly divided vegetative cell was 2C. Most vegetative cells in the stage of exponential growth had a DNA content from 2C to 4C, while most in stationary phase, with the highest frequency of zygote formation, were 2C. They became pre-gametes (2C) upon mixing two heterothallic strains. Four gametes were made by a DNA reduction division of each pre-gamete cell. Therefore, there was a nonmeiotic DNA reduction stage by one half. During germination, the zygote underwent meiosis to produce two gones, each of which contained one surviving nucleus (large nucleus) and one degenerating nucleus (small nucleus). The DNA content of these four nuclei was 1C basically. The DNA of the surviving nucleus duplicated to 2C and further quadruplicated to 4C without cell or nuclear division. These two 4C gones had different cell morphology from ordinary vegetative cells. After the first cell division following meiosis, each gone produced two vegetative cells in which the DNA content became 2C to 4C again.  相似文献   

12.
Bacteriophage phi105 is a temperate phage for the transformable Bacillus subtilis 168. The infectivity of deoxyribonucleic acid (DNA) extracted from mature phi105 phage particles, from bacteria lysogenic for phi105 (prophage DNA), and from induced lysogenic bacteria (vegetative DNA) was examined in the B. subtilis transformation system. About one infectious center was formed per 10(8) mature DNA molecules added to competent cells, but single markers could be rescued from mature DNA by a superinfecting phage at a 10(3)- to 10(4)-fold higher frequency. Single markers in mature DNA were inactivated at an exponential rate after uptake by a competent cell. Prophage and vegetative DNA gave about one infectious center per 10(3) molecules added to competent cells. Infectious prophage DNA entered competent cells as a single molecule; it gave a majority of lytic responses. Single markers in sheared prophage DNA were inactivated at the same rate as markers in mature DNA. Prophage DNA was dependent on the bacterial rec-1 function for its infectivity, whereas vegetative DNA was not. The mechanism of transfection of B. subtilis with viral DNA is discussed, and a model for transfection with phi105 DNA is proposed.  相似文献   

13.
The repair of deoxyribonucleic acid (DNA) in germinating spores was studied in comparison with that in vegetative cells. Radiation-induced single-strand breaks in the DNA of spores and of vegetative cells of Bacillus subtilis were rejoined during postirradiation incubation. The molecular weight of single-stranded DNA was restored to the level of nonirradiated cells. The rate of the rejoining of DNA strand breaks in irradiated spores was essentially equal to that in irradiated vegetative cells. The rejoining in spores germinating in nutrient medium occurred in the absence of detectable DNA synthesis. In this state, normal DNA synthesis was not initiated. Very little DNA degradation occurred during the rejoining process. On the other hand, in vegetative cells the rejoining process was accompanied by a relatively large amount of DNA synthesis and DNA degradation in nutrient medium. The rejoining occurred in phosphate buffer in vegetative cells but not in spores in which germination was not induced. Chloramphenicol did not interfere with the rejoining process in either germinating spores or vegetative cells, indicating that the rejoining takes place in the absence of de novo synthesis of repair enzyme. In the radiation-sensitive strain uvs-80, the capacity for rejoining radiation-induced strand breaks was reduced both in spores and in vegetative cells, suggesting that the rejoining mechanism of germinating spores is not specific to the germination process.  相似文献   

14.
The Feulgen-DNA contents of microspores, vegetative and generative nuclei of tobacco pollen grains in vivo and in anther culture have been determined by microphotometry. 1. The values of DNA content of vegetative and generative nuclei of the pollen grains selected at definite developmental stages vary between 1C and 2C levels, which coincide with the role of the dynamics of DNA in haploid cell cycle. This method applied in the study of androgenesis in anther culture is proved successful and valid. 2. By the cytomorphological investigation on androgenesis, the pollen embryoid in this experiment results from repeated divisions of the vegetative cell within the pollen grains. 3. In mature pollen grains of the same variety of tobacco in vivo, DNA replication has not occured in vegetative nuclei, in which the level of DNA remains in 1C. 4. In the cultured anthers after 8 days innoculation, 30% of the total pollen grains measured indicate that the vegetative nuclei have completed DNA replication and show 2C level. The pollen grains which have the potential to differentiate into the embryogenie pollen grains, may be distinguished from non-embryogenie ones by this method before any cytomorphological sign appears. The significance of this method in the study of the mechanism of androgenesis is discussed.  相似文献   

15.
The nucleotide composition of DNA from 12 studied species of anaerobic bacteria belongs to AT type, with G+C varying from 28.4 to 36.8 mole%. In the anaerobic group of Clostridium bifermentans, a correlation has been established between the nucleotide composition of DNA, the type of appendages on spores, and some physiologo-biochemical characteristics. The nucleotide composition of DNA in the spores of four anaerobic species is shifted toward GC type as compared to DNA in the vegetative cells. Data on the content of GC pairs in DNA of the spores may sometimes be of a higher taxonomic value than the corresponding evidence on DNA of the vegetative cells.  相似文献   

16.
Markers in gene L, which maps at the right end of the vegetative and prophage maps, are rescued at a strongly reduced frequency from mature 105 deoxyribonucleic acid (DNA) by superinfecting phage but at high frequency from vegetative and prophage DNA. It is suggested that the ends of mature DNA are degraded when DNA is taken up by competent cells.  相似文献   

17.
The data derived from a chloroplast DNA restriction site analysis of subtribeDendrobiinae (Orchidaceae) indicate that extreme vegetative diversification is concentrated in two limited parts of this group. Overlaying the vegetative character states onto the chloroplast DNA cladogram suggests that several xeromorphic, vegetative characters evolved in the lines leading to the above-mentioned clades. Several anatomical characters are also associated with xeromorphy. These vegetative and anatomical characters facilitated the establishment of this group in various dry habitats. On the other hand, the modifications of size and number of parenchymatous cells substantially contributed to the vegetative diversification. This fact implies that a simple structural adjustment can result in a major modification of growth habits in theDendrobiinae.  相似文献   

18.
19.
Some progeny from a cross of the translocation mutant T(VL→IVL)AR33 with wild-type Neurospora crassa are double nucleolus organizer (DNO) strains, usually displaying two distinct nucleolus organizer regions. The DNO strain is sterile but displays the same growth response as normal laboratory strains of Neurospora. We used DNA-DNA hybridization techniques to quantify the number of rRNA cistrons in the DNO mutant and its vegetative progeny. Comparisons of the rate of hybridization of genomic DNA from the parental AR33 strain and from the DNO strain showed that hybridization was more rapid for the DNO strain than for the parental strain. Successive vegetative progeny of the DNO strain displayed hybridization rates intermediate to those of the original DNO strain and the parental single nucleolus strain, indicating that the number of rRNA cistrons had decreased during vegetative propagation. Estimates of rRNA cistron number obtained from comparisons of the amount of single copy DNA and rDNA hybridized to genomic DNO and AR33 DNA at saturation indicate that the parental AR33 strain contains 225 copies of the rRNA repeat unit, while the DNO strain has approx. 440 copies. The number of rRNA cistrons decreases gradually in the successive vegetative progeny, approximating the parental haploid value by the eleventh vegetative transfer.  相似文献   

20.
Heterocysts and vegetative cells of the filamentous nitrogen-fixing Anabaena azollae isolated from the apex to the basal leaf cavities of Azolla filiculoides were examined by epifluorescent microscope after fluorochrome staining. Acridine orange (AO), DAPI, and chromomycin fluorochromes were used in order to evidence total DNA content and respectively, A + T and G + C bases. Measurements of fluorescence intensities were made on photographic prints by the automatic image analysis system Quantimet 970. Heterocysts contained higher amounts of DNA than did vegetative cells, and their content strongly increased in the basal leaf cavities. The heterocyst DAPI brightness was quite uniform, whereas in vegetative cells DAPI brightness increased from the apex to the basal groups. In vegetative cells from the apex to the median group, the percentage of DAPI brightness was 60-85% with respect to AO brightness, whereas in heterocysts of the same groups DAPI brightness was 40-50% with respect to AO brightness. In the basal group, brightness due to DAPI staining was comparable with those of previous group both in heterocysts and in vegetative cells, whereas chromomycin brightness increased strongly in heterocysts. These data show that heterocyst changes its DNA content and composition in the basal leaf cavities, suggesting that its lifetime is not completely over.  相似文献   

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