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Tomizawa Ken-ichi; Ito Naoko; Komeda Yoshibumi; Uyeda Taro Q. P.; Takio Koji; Furuya Masaki 《Plant & cell physiology》1991,32(1):95-102
The pea phytochrome I (PI) cDNA clone, pPP1001, was expressedin E. coli. The plasmid pPP1001 contains pea PI cDNA which coversthe entire coding region with the Shine-Dalgarno consensus sequencejoined upstream of the cDNA in an expression vector pNUT6. ThepPP1001 transformants formed typical inclusion bodies when culturedat 32?C. However, when cultured at 37?C or in the presence ofisopropyl-ß-D-thiogalactopyranoside (IPTG) at 32?C,the bacteria lysed before inclusion body formation. Immuno-stainingwith anti-PI monoclonal antibody, mAP5, of transformants fixedby cold methanol showed that stainable materials were distributedin whole cytoplasmic region. When the inclusion bodies wereobserved clearly, the regions corresponding to the inclusionbodies became difficult to stain. Western blot analysis, however,showed that a ca. 100 kDa PI polypeptide was detected in thefraction from inclusion bodies and a ca. 90 kDa PI polypeptidefrom the soluble fraction. The amino acid sequence analysisof purified 100 kDa PI sample indicated that its amino terminusis blocked. However, minor signals in one experiment yieldeda sequence corresponding to the expected amino terminus of peaPI except for the initiation methionine. One of the anti-peaPI monoclonal antibodies, mAP9, that recognizes the near N-terminusof pea phytochrome was reactive to the 100 kDa polypeptide. (Received June 22, 1990; Accepted November 18, 1990) 相似文献
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The physical properties of human platelet myosin in crude extracts were studied by means of Sepharose 4B gel filtration and sucrose density gradient centrifugation in the presence or absence of Mg-ATP. Platelet myosin extracted with a buffer containing 0-0.15 M KCl gave a Stokes radius of about 12.0-12.5 nm irrespective of the presence or absence of Mg-ATP. The sedimentation coefficients obtained in the presence of Mg-ATP were about 10-11 and 8.5S at 0.05-0.10 and 0.15 M KCl, respectively, whereas the values obtained in the absence of Mg-ATP were about 16, 9-12, and 8.5S at 0.05, 0.10, and 0.15 M KCl, respectively. The apparent molecular weight in the presence of Mg-ATP, therefore, was about 500,000 and 420,000 at 0.05-0.10 and 0.15 M KCl, respectively, while the molecular weight in the absence of Mg-ATP was about 790,000, 460,000-620,000, and 440,000 at 0.05, 0.10, and 0.15 M KCl, respectively. The purified monomeric platelet myosin that had been solubilized with Mg-ATP at 0.10 M KCl had a Stokes radius of about 12.5 nm, a sedimentation coefficient of about 9S, and an apparent molecular weight of 460,000. On the other hand, while crude platelet myosin extracted at 0.6 M KCl with Mg-ATP gave a Stokes radius of about 20 nm, a sedimentation coefficient of about of 6S, and an apparent molecular weight of about 490,000, each of these physical parameters obtained in the absence of Mg-ATP was much larger than that obtained in the presence of Mg-ATP because the myosin was associated with F-actin.(ABSTRACT TRUNCATED AT 250 WORDS) 相似文献
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Aldehyde reductases from several mammalian and avian tissues transferred the pro-4R hydrogen of NADPH to the substrate, whereas the stereospecificity of carbonyl reductases was not uniform being correlated with the ability to catalyze the oxidoreduction of hydroxysteroids. 相似文献
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Summary Changes in the intracellular distribution of microtubules and microfilaments during amoeba-to-flagellate and flagellate-to-amoeba transformations inPhysarum polycephalum were examined by fluorescence microscopy using anti-tubulin antibody and NBD-phallacidin, respectively. Amoebae contained an extensive microtubular cytoskeleton, which was converted to a flagellar cone structure during transformation to flagellates in liquid medium. When flagellates reverted back to amoebae, this conical structure disintegrated prior to flagella resorption. Amoebae showed some microfilament-enriched domains along the periphery, from which numerous filamentous extrusions, probably pseudopods and filopods, emanated. Flagellates contained a ridge, a sheet-like structure, along their dorsal axis, especially in the earlier stages of flagellation. Another microfilament-enriched thick filamentous structure ran along the dorsal axis, starting from the anterior tip of the cell. This structure apparently coincided spatially with one of the bundles of microtubules. During the reversion to amoebae, other localized microfilaments were transiently observed at the posterior end. A model of cytoskeletal changes in the transformations between these two cell types was proposed. 相似文献
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12-O-Tetradecanoylphorbol-13-acetate (TPA) is a well-known tumor promoter in mouse-skin carcinogenesis. Its effects on mutagenesis in a soybean test system were examined, and the effects were judged from the appearance of spots of various colors on the leaves. When soybean seeds were treated with TPA plus 0.03% caffeine, the frequency of spots per leaf decreased significantly and in proportion to the concentration of TPA. TPA alone at concentrations of 1–20 μg/ml did not induce any mutations. Mutations induced by γ-rays were not affected by administration of TPA either before or after exposure to γ-rays. The mechanism of suppression by TPA of mutations induced by caffeine is discussed. 相似文献
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Taro Q. P. Uyeda 《Journal of plant research》1996,109(3):231-239
Recent breakthroughs and technological improvements are rapidly generating evidence supporting the “swinging lever arm model”
for force production by myosin. Unlike previous models, this model posits that the globular domain of the myosin motor binds
to actin with a constant orientation during force generation. Movement of the neck domain of the motor is hypothesized to
occur relative to the globular domain much like a lever arm. This intramolecular conformational change drives the movement
of the bound actin. The swinging lever arm model is supported by or consistent with a large number of experimental data obtained
with skeletal muscle or slime mold myosins, all of which move actin filaments at rates between 1 and 10 μm/sin vitro. Recently myosin was purified, fromChara internodal cells.In vitro the purifiedChara myosin moves actin filaments at rates one order of magnitude faster than the “fast” skeletal muscle myosin. While this ultra
fast movement is not necessarily inconsistent with the swinging lever arm model, one or more specific facets of the motor
must be altered in theChara motor in order to accommodate such rapid movement. These characteristics are experimentally testable, thus the ultra fast
movement byChara myosin represents a powerful and compelling test of the swinging lever arm model. 相似文献