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K Hayashi T Kodaira K Baba K Kikuchi 《Nihon saikingaku zasshi. Japanese journal of bacteriology》1966,21(10):633-639
3.
Studies of the Inheritance of Human Ribosomal DNA Variants Detected in Two-Dimensional Separations of Genomic Restriction Fragments 总被引:5,自引:0,他引:5
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R. Kuick J. I. Asakawa J. V. Neel M. Kodaira C. Satoh D. Thoraval I. L. Gonzalez S. M. Hanash 《Genetics》1996,144(1):307-316
We have investigated the variation in human ribosomal DNA repeat units as revealed in two-dimensional electrophoretic separations of genomic restriction fragments that were end-labeled at NotI cleavage sites. The transcribed portion of the ribosomal DNA results in ~20 labeled fragments visible on each gel as multicopy spots. We have mapped these spots to the sequences responsible for their appearance on the gels, based on their migration positions and direct sequencing of spots, and describe several previously unreported sources of variation. By studying mother/father/child families we gained information on how much of the between-repeats variation is due to differences between and within repeat arrays on homologous chromosomes. Two instances in which a child exhibited more copies of a particular fragment than were present in the parents are described and hypothesized to be due to events such as multiple unequal sister-chromatid exchanges or gene conversions. 相似文献
4.
The number of gene copies for tRNA2Gln in λpsu+2 was determined by genetic and biochemical studies. The transducing phage stimulates the production of the su+2 (amber suppressor) and su°2 glutamine tRNAs and methionine tRNAm. When the su+2 amber suppressor was converted to an ochre suppressor by single-base mutation, the phage stimulated ochre-suppressing tRNA2Gln, instead of the amber-suppressing tRNA2Gln. From the transducing phage carrying the ochre-suppressing allele, strains carrying both ochre and amber suppressors were readily obtainable. These phages stimulated both ochre-suppressing and amber-suppressing tRNA2Gln, but not the non-suppressing form. We conclude that the original transducing phage carries two tRNA2Gln genes, one su+2 and one su°2. The transducing phage carrying two suppressors, ochre and amber, segregates one-gene derivatives that encode only one or the other type of suppressor tRNA. These derivatives apparently arise by unequal recombination involving the two glutamine tRNA genes in the parental phage. This segregation is not accompanied by the loss of the tRNAmMet gene. Based on these results, it is suggested that Escherichia coli normally carries in tandem two identical genes specifying tRNA2Gln at 15 minutes on the bacterial chromosome. su+2 mutants may arise by single-base mutations in the anticodon region of either of these two, leaving the other intact. By double mutations, tRNA2Gln genes could also become ochre suppressors. A tRNAmMet gene is located near, but not between, these two tRNA2Gln genes. 相似文献
5.
Host dna functions involved in the replication of microvirid phage phiC DNA were investigated in vivo. Although growth of this phage was markedly inhibited even at 35-37 degrees C even in dna+ host, conversion of the infecting single-stranded DNA into the double-stranded parental replicative form (stage I synthesis) occurred normally at 43 degrees C in dna+, dnaA, dnaB, dnaC(D), and dnaE cells. In dnaG mutant, the stage I synthesis was severely inhibited at 43 degrees C but not at 30 degrees C. The stage I replication of phiC DNA was clearly thermosensitive in dnaZ cells incubated in nutrient broth. In Tris-casamino acids-glucose medium, however, the dnaZ mutant sufficiently supported synthesis of the parental replicative form. At 43 degrees C, synthesis of the progeny replicative form DNA (stage II replication) was significantly inhibited even in dna+ cells and was nearly completely blocked in dnaB or dnaC(D) mutant. At 37 degrees C, the stage II replication proceeded normally in dna+ bacteria. 相似文献
6.
Host functions required for replication of microvirid phage G13 DNA were investigated in vivo, using thermosensitive dna mutants of Escherichia coli. In dna+ bacteria, conversion of viral single-stranded DNA into double-stranded replicative form (stage I synthesis) was resistant to 150 microgram/ml of chloramphenicol or 200 microgram/ml of rifampicin. Although multiplication of G13 phage was severely inhibited at 42--43 degrees C even in dna+ host, considerable amount of parental replicative form was synthesized at 43 degrees C in dna+, dnaA or dnaE bacteria. In dnaB and dnaG mutants, however, synthesis of parental replicative form was severely inhibited at the restrictive temperature. Interestingly enough, stage I replication of G13 DNA was, unlike that of phiX174, dependent on host dnaC(D) function. Moreover, the stage I synthesis of G13 DNA in dnaZ was thermosensitive in nutrient broth but not in Tris/casamino acids/glucose medium. In contrast with the stage I replication, synthesis of G13 progeny replicative form was remarkably thermosensitive even in dna+ or dnA cells. 相似文献
7.
Antigenic analyses of Lactobacillus bulgaricus, Lactobacillus lactis, Lactobacillus brevis and Lactobacillus buchneri were carried out by double immunodiffusion in agar. Antigens were extracted from whole cells and cell wall preparations with cold trichloroacetic acid. Most strains of the four species possessed antigen 9 in their cell walls. Another antigen, antigen 10, was found in the cell walls of all the strains of L. brevis and L. buchneri, and in some strains of L. lactis, but not in L. bulgaricus. Fractionation of the antigens was attempted using the cell wall extracts of L. lactis L-10 with only antigen 9 and of L. brevis X-1 with both antigens 9 and 10. The partially purified fractions of antigen 9 and of the complex of antigens 9 and 10 were obtained by zone electrophoresis. However, antigen 10 from the complex could not be separated by the same method or gel filtration on Sephadex G-100 since the two antigens 9 and 10 of the complex always behaved together. The fraction of antigen 9 consisted almost entirely of glycerol and glucose as sugar components, the molar ratio being 2:1. The complex of antigens 9 and 10 also consisted of the same sugars, and the molar ratio of glycerol: glucose was 4:1. Inhibition tests indicated that the immunodominant component of antigen 9 was α-methylglucoside (glucose), and most probably the determinant is a glucosylated glycerol teichoic acid. It was considered that the determinant of antigen 10 is a glycerol teichoic acid although glucosamine and galactosamine inhibited effectively the reaction between antigen 10 and its antibody. 相似文献
8.
Noriaki Sasai Minori Kadoya Agnes Ong Lee Chen 《Development, growth & differentiation》2021,63(1):26-37
Embryonic stem (ES) cells are a useful experimental material to recapitulate the differentiation steps of early embryos, which are usually invisible and inaccessible from outside of the body, especially in mammals. ES cells have greatly facilitated the analyses of gene expression profiles and cell characteristics. In addition, understanding the mechanisms during neural differentiation is important for clinical purposes, such as developing new therapeutic methods or regenerative medicine. As neurons have very limited regenerative ability, neurodegenerative diseases are usually intractable, and patients suffer from the disease throughout their lifetimes. The functional cells generated from ES cells in vitro could replace degenerative areas by transplantation. In this review, we will first demonstrate the historical views and widely accepted concepts regarding the molecular mechanisms of neural induction and positional information to produce the specific types of neurons in model animals. Next, we will describe how these concepts have recently been applied to the research in the establishment of the methodology of neural differentiation from mammalian ES cells. Finally, we will focus on examples of the applications of differentiation systems to clinical purposes. Overall, the discussion will focus on how historical developmental studies are applied to state‐of‐the‐art stem cell research. 相似文献
9.
Atsuko Miyagi Maki Kawai-Yamada Minori Uchimiya Noriyuki Ojima Koichi Suzuki Hirofumi Uchimiya 《Metabolomics : Official journal of the Metabolomic Society》2013,9(6):1254-1261
Evolution has shown the co-dependency between host plants and predators (insects), especially inevitable dependency of predators on plant biomass for securing their energy sources. It was postulated that NAD+ source used for major energy producing pathway is the glycerol-3-phosphate shuttle in insects. Using high throughput metabolomics approach, we found that larva of leaf beetle (Gastrophysa atrocyanea), which feed oxalate-rich plants (Rumex obtusifolius), possessed a unique mechanism for accumulating unusually high amounts of lactate. Similarly, larva of butterfly (Papilio machaon) fed with fennel (Foeniculum vulgare) accumulated lactate. Same butterfly also showed the elevated level of glycerol-3-phosphate equivalent to lactate. These evidences provide new insights into the mechanism underlying metabolite alteration between host plants and insect herbivores. 相似文献
10.
Takashi Iguchi Riyoji Kodaira Isao Takeda 《Bioscience, biotechnology, and biochemistry》2013,77(8):885-889
Using the adenine auxotroph of hydrocarbonoclastic microorganism, Corynebacterium petrophilum, the effects of glucose on the inosine productivity were investigated. The mutant did not produce inosine from glucose as the sole source of carbon. Production of inosine in n-C16 medium was found to be inhibited by the addition of glucose. To obtain information on such effect of glucose, several characters were compared between the cells grown in glucose medium and those grown in n-C16 medium. Intracellular content of UV-absorbing materials of the glucose-cells was higher than that of hydrocarbon-cells. The glucose-celle could not grow in media containing adenosine or 5′-AMP. On the other hand, hydrocarbon-cells were able to achieve growth, with adenine, adenosine and 5′-AMP contained in the hydrocarbon medium, but, in the case of glucose medium, the cells could grow only in the presence of adenine. Furthermore, the growth of this mutant in n-C16 medium was found to be inhibited by a larger amount of adenine than that required for the maximum growth, and this inhibition was overcome by the addition of guanine. The significance of the effect of guanine was discussed. 相似文献