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1.
The activation properties of Clostridium perfringens NCTC 8679 spores were demonstrated by increases in CFU after heating in water or aqueous alcohols. The temperature range for maximum activation, which was 70 to 80 degrees C in water, was lowered by the addition of alcohols. The response at a given temperature was dependent on the time of exposure and the alcohol concentration. The monohydric alcohols and some, but not all, of the polyhydric alcohols could activate spores at 37 degrees C. The concentration of a monohydric alcohol that produced optimal spore activation was inversely related to its lipophilic character. Spore injury, which was manifested as a dependence on lysozyme for germination and colony formation, occurred under some conditions of alcohol treatment that exceeded those for optimal spore activation. Treatment with aqueous solutions of monohydric alcohols effectively activated C. perfringens spores and suggests a hydrophobic site for spore activation. 相似文献
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Male voles were reared from birth to age 28 days in 6L:18D. Pairs of animals showing similar sexual development were assigned at random to 16L:8D or 6L:18D. Treatments continued for a further 56 days. Increase in the activity of the hypothalamo-hypophysial system occurred within 4 days of exposure to 16L:8D, as shown by significant elevation of plasma LH and FSH. Pituitary LH did not increase until Day 7, and pituitary FSH did not increase until Day 21. After exposure to 16L:8D for 4 days, pituitary FSH was lower than in corresponding animals in 6L:18D. These discrepancies between pituitary and plasma values of gonadotrophins indicate that increase in hormone release occurs before synthesis is fully stimulated. Enhanced output of testicular hormones probably began between Day 7 and Day 14, as indicated by an increase in seminal vesicle weight, yet plasma and pituitary concentrations of LH and FSH remained elevated. This suggests that long photoperiods may cause direct stimulation of the hypothalamo-hypophysial system which increasing values of testicular hormones are initially unable to inhibit. The response of this system in voles to an abrupt change from a non-stimulating to a stimulating photoperiod has a time course resembling that for the Soay ram but appreciably slower than for the Japanese quail. 相似文献
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Our previous studies have shown that 16 S RNA can assume two different conformational forms as detected by agarose gel electrophoresis, and that these two forms vary in their ability to bind individual 30 S ribosomal proteins specifically. In this paper we show that the faster electrophoretic form can be converted to the slower electrophoretic form by the binding of either protein S4, S8, S7 or S15. The slower form can then be transformed into a fast form by heat-activating the reconstitution intermediate (RI) particle, which has been constructed under reconstitution conditions at 0 °C, to RI1. We demonstrate that the transformation of the 16 S RNA conformation by binding of protein S7 permits the subsequent binding of protein S9 following deproteination. We propose that many of the classical assembly-dependent relationships are due to induced changes in the 16 S RNA conformation. 相似文献
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Cholesteryl decanoate (C37H64O2) is monoclinic, space group P2I, with cell dimensions a = 12.931 (6), b = 9.066 (2), c = 30.22 (1) A, beta = 91.14 (4) degrees, and Z = 4. The atomic coordinates from cholesteryl laurate were used in an initial trial structure which was refined by block diagonal least-squares methods with 1846 observed X-ray reflections (R = 0.129). Molecules A and B have almost fully extended conformations, except at the ester bonds and towards the end of the decanoate B chain. The molecules are arranged in antiparallel array forming monolayers of thickness d001 = 30.22 A, with the molecular long axis making an angle of about 67 degrees with the layer interface. The crystal structure is very similar to that of cholesteryl nonanoate and cholesteryl laurate. 相似文献
7.
Apparent association constants for E. coli ribosomal proteins S4, S7, S8, S15, S17 and S20 binding to 16S RNA. 总被引:7,自引:4,他引:3 下载免费PDF全文
We have previously reported the development of a technique utilizing nitrocellulose filters, which rapidly separates ribosomal protein-ribosomal RNA complexes from unbound protein. We have used this technique to obtain binding data for the association of proteins S4, S7, S8, S15, S17, and S20 with 16S RNA. With the exception of protein S17, the association behavior for each of these proteins exhibits a single binding site with a unique binding constant. The apparent association constants have been calculated and have been found to have a range from 1.6 x 10(6) M-1 for protein S7 to 7.1 x 10(7) M-1 for protein S17. The Scatchard plot for the protein S17 binding data is biphasic, suggesting that within the RNA population two different binding sites exist, each with a different apparent association constant. 相似文献
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Summary
E. coli ribosomal 16S RNA preparted by an acetic acid-urea extraction technique individually binds, in addition to the seven established proteins, 6 new 30S ribosomal proteins (S3, S5, S9, S12, S18 and S11) (Hochkeppel et al., 1976). In this communication we demonstrate the site specificity of these proteins. Binding curves of the individual proteins with acetic acid-urea 16S RNA show that the binding of all six proteins to the RNA reaches a plateau at 0.3–0.97 copies per 16S RNA molecule. No significant binding of these proteins to classical phenol extracted 16S RNA is observed, with the exception of S13 which binds 0.2 copies of protein per molecule of 16S RNA. Specificity of binding of these proteins is also demonstrated in chase experiments. The site specificity of individual [3H]-labeled 30S proteins bound to 16S RNA is tested by the addition of non-radioactive 30S total protein to the reaction mixture. 相似文献
10.
We have described previously the isolation of a large fragment of 30 S ribosomal protein S4 (Changchien &; Craven, 1976). This S4-fragment is produced by the digestion of the S4–16S RNA complex with trypsin and it retains a full capacity to associate specifically with 16S RNA. It was also demonstrated that the S4-fragment has approximately 46 amino acid residues missing from the N-terminus and an intact C-terminus (also shown by Newberry et al., 1977). Preliminary experiments with this S4-fragment indicated that it could not fully replace the intact protein S4 in the process of 30 S ribosome assembly in vitro.We have also recently reported (Changchien et al., 1978) the preparation of a new fragment of protein S4 which has only 30 amino acid residues cleaved from the N-terminus. This was achieved by the use of the reagent 2-nitro-5-thiocyanobenzoic acid which selectively modifies the cysteine residue at position 31 followed by a cleavage of the adjacent peptide bond.We have now fully characterized the capacity of these two fragments, S4-fragment (47–203) and S4-fragment(31–203), to participate in the 30 S ribosome assembly process in vitro. Using 2-dimensional polyacrylamide gel electrophoresis, we find that when S4-fragment(47–203) is a component of the in vitro assembly reaction, proteins S1, S2, S10, S18 and S21 fail to become incorporated into the final particle. In contrast, S4-fragment(31–203) appears to participate in the reconstitution reaction without impairment allowing the complete incorporation of all 20 proteins of the 30 S subunit. The resultant particle, containing the S4-fragment (31–203), is fully active in the binding of poly(U), but is completely inactive for non-enzymatic poly(U)-directed binding of Phe-tRNA (Changchien et al., 1978). These results suggest that residues 1 through 30 of protein S4 are not involved in the assembly of the 30 S ribosome, but are required for the proper construction of the tRNA binding site. In addition residues 31 through 46 must be somehow critically important for the assembly of proteins S1, S2, S10, S18 and S21. We present evidence to show that the absence of residues 31 through 46 of protein S4 prevents a conformational change in the structure of 16 S RNA which normally accompanies the RI to RI transition and that this results in the inability of these proteins to participate in the assembly process. 相似文献