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81.
Microtubules Orient the Mitotic Spindle in Yeast through Dynein-dependent Interactions with the Cell Cortex 总被引:31,自引:9,他引:22 下载免费PDF全文
Proper orientation of the mitotic spindle is critical for successful cell division in budding yeast. To investigate the mechanism of spindle orientation, we used a green fluorescent protein (GFP)–tubulin fusion protein to observe microtubules in living yeast cells. GFP–tubulin is incorporated into microtubules, allowing visualization of both cytoplasmic and spindle microtubules, and does not interfere with normal microtubule function. Microtubules in yeast cells exhibit dynamic instability, although they grow and shrink more slowly than microtubules in animal cells. The dynamic properties of yeast microtubules are modulated during the cell cycle. The behavior of cytoplasmic microtubules revealed distinct interactions with the cell cortex that result in associated spindle movement and orientation. Dynein-mutant cells had defects in these cortical interactions, resulting in misoriented spindles. In addition, microtubule dynamics were altered in the absence of dynein. These results indicate that microtubules and dynein interact to produce dynamic cortical interactions, and that these interactions result in the force driving spindle orientation. 相似文献
82.
George A. Carlson Benjamin A. Taylor Susan T. Marshall Arnold H. Greenberg 《Immunogenetics》1984,20(3):287-300
The genetic control of natural resistance in vivo to four natural killer (NK) cell-resistant H-2 homozygous lymphoid tumor cell lines was investigated by following the survival and organ distribution of cells prelabeled with radioactive iododeoxyuridine. Backcross mice derived from DBA/2J and CBA/J parents were injected with H-2
dtumor cells and tumor cell elimination was lowest in H-2
dhomozygotes. Natural killer cell activity was also reduced in mice with the H-2
dhaplotype, but no direct correlation between NK cell levels against YAC-1 or SL2-5 lymphoma cells and natural resistance in vivo was demonstrable. Analysis of 23 BXD recombinant inbred strains indicated that natural resistance to H-2
dtumors was restricted to H-2
bstrains. There was no direct association of NK cell activity with H-2 type in the BXD strains and NK cell levels did not correlate with tumor survival in vivo. By comparing natural resistance to H-2
dand H-2
btumors in DBA/2, C57BL/6, B6D2F1, and B10.D2 mice we found that H-2 nonidentity between the tumor and the host, rather than the host H-2 haplotype, determined whether natural resistance occurred. Again, NK cell activity against YAC-1 cells was not predictive of tumor survival in these strains. These results provide genetic evidence that NK cells alone cannot account for natural resistance to H-2 nonidentical cells of hemopoietic origin. 相似文献
83.
B M Carlson 《Developmental biology》1984,101(1):97-105
Wedges of anterior quail mesoderm grafted into posterior slits in the wing buds of chick embryo hosts result in the formation of rods and nodules of supernumerary cartilage in a high percentage of cases. Identifiable digits do not form unless the ectoderm is allowed to remain on the grafts. Control experiments have shown that wedges of anterior or posterior wing mesoderm placed into homologous locations of host wing buds produce few or no supernumerary skeletal structures. Anterior-to-posterior grafts of stage 17 mesoderm evoke a 71.4% incidence of supernumerary cartilage. This percentage increases to 100% with stage 22 donor mesoderm. The percentage of supernumerary structures formed declines markedly with donor mesoderm of stages 24-30. By stages 35-36, only 10% of the grafts result in the formation of supernumerary structures. The period of decline coincides with the onset of overt cytodifferentiation within the donor mesoderm. 相似文献
84.
B M Carlson 《Developmental biology》1984,101(1):106-115
A previous study showed that grafting wedges of fresh anterior quail wing mesoderm into posterior slits of chick wing buds resulted in the formation of rods and nodules of cartilage in a high percentage of cases (B. Carlson, 1983, Dev. Biol. 101, 97-105). The purpose of the present study was to determine if a similar response could be elicited by grafting pieces of mesoderm that had been cultured in vitro. When pieces of 1-day cultured anterior mesoderm from stage 17-24 donors were grafted into standard posterior slits of chick wing buds, the percentages of supernumerary structures differed little from those which formed after the grafting of pieces of fresh mesoderm. In a time series, grafts of stage 22-23 anterior mesoderm which had been cultured for 1-4 days retained the ability to form cartilage after being grafted into posterior locations. A time series showed that the duration of this retention was longer in cultured mesoderm than it was in mesoderm that remains in the donor wing bud. 相似文献
85.
86.
87.
Subcellular localization of RNAs in transfected cells: role of sequences at the 5' terminus 总被引:4,自引:2,他引:2 下载免费PDF全文
We have investigated the intracellular location of RNAs transcribed from transfected DNA. COS cells transfected with a clone containing the human adult beta globin gene contain three classes of globin RNAs. Their 3' termini and splice sites are indistinguishable from those of mature reticulocyte beta globin mRNA, and they are polyadenylated. However, as determined by S1 mapping, their 5' sequences are different. The 5' terminus of one is the same as that of mature beta globin mRNA (+1, cap site). The presumed 5' terminus of the second is located 30 nucleotides downstream from the cap site (+30). The third class contains additional nucleotides transcribed from sequences located 5' to the cap site (5' upstream RNA). The 5' upstream RNA molecules are restricted to the nucleus and are more stable than heterogeneous nuclear RNA. The +30 and +1 RNAs are located primarily in the cytoplasm. The data support the notion that nucleotide sequences and/or secondary modifications in the 5' region determine if an RNA is to be transported. 相似文献
88.
Anaphase chromosome movement in the unequally dividing grasshopper neuroblast and its relation to anaphases of other cells 总被引:1,自引:1,他引:0
J. Gordon Carlson 《Chromosoma》1977,64(3):191-206
The positions of the two sets of chromosome kinetochores, the spindle poles, cell membrane adjacent to the poles, and cleavage furrow of grasshopper neuroblasts in culture at 38°C were determined at short-time intervals during anaphase. The percent of motion due to poleward movement and spindle elongation, which coincide in time, were calculated for each minute, the former falling from 61% in the first minute to 15% in the seventh minute, and increasing to 86% in the final minute, probably as a result of pressure and bending of the spindle. Of the total chromosome movement during anaphase 44.6% is due to poleward movement of the daughter kinetochores and 55.4% to spindle elongation. The maximum velocity of a set of kinetochores is 3.41 m/min and the mean velocity 1.86 m/min (one-half the rate of separation). Various studies of anaphase chromosome movement in different cells and different species suggest certain generalizations, some of which are based on very small samples and so must be considered quite tentative: (1) The combination of poleward movement and spindle elongation is much more frequent than either acting alone. (2) These components of movement may coincide in time, overlap, or spindle elongation may follow poleward movement, but spindle elongation never begins before poleward chromosome movement. (3) There is an optimum temperature for the rate of chromosome movement, above and below which the rate gradually decreases. (4) In homoiothermic animals this optimum occurs at normal body temperature. (5) In homoiothermic animals the velocity falls more rapidly with a decrease in temperature than in poikilothermic animals. (6) Animals with large chromosomes (amphibia, grasshoppers) have higher chromosome velocities than those with small chromosomes. (7) Non-meiotic cells and secondary spermatocytes have higher velocities than primary spermatocytes of the same species. (8) Chromosome velocity is lower in malignant than non-malignant cells. (9) Chromosome velocity tends to be positively correlated with the distance the chromosomes travel during anaphase. 相似文献
89.
90.
Two major mechanisms regulating cholesterol biosynthesis exist in a human renal cancer cell line, Caki-1. Caki-1 is a newly established cell line whose characteristics of rapid growth and active cholesterol synthesis qualify it as a potentially valuable tool for elucidation of regulatory mechanism of cholesterol synthesis and transport. In the absence of exogenous cholesterol, cholesterol is the dominant sterol arising from labeled acetate and mevalonate. As expected, in the presence of exogenous cholesterol, the conversion of acetate to cholesterol and the activity of 3-hydroxy-3-methylglutaryl coenzyme A reductase (EC 1.1.1.34) is markedly reduced and this inhibition is released when cholesterol is removed from the medium. An unexpected and possibly unique finding is the inhibition of the conversion of mevalonate to cholesterol in the presence of exogenous cholesterol. This second major control process results in the accumulation of squalene and may involve additional late steps in cholesterol biosynthesis or metabolism. The occurrence of two major mechanisms regulating cholesterol synthesis may be a unique property of renal cancer cells or a previously unrecognized characteristic of a variety of cultured cells. 相似文献