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101.
Hyla chrysoscelis (2n=24) and H. versicolor (2n=48) are a diploid-tetraploid species pair of treefrogs. Restriction endonuclease mapping of ribosomal RNA (rRNA) gene repeat units of diploids collected from eastern and western populations reveals no differences within rRNA gene coding regions but distinctive differences within the nontranscribed spacers. A minimum of two physical maps is required to construct an rRNA gene map for the tetraploid, whose repeat units appear to be a composite, with about 50% of the elements resembling the western diploid population and about 50% resembling the eastern population. These results imply that this population of the tetraploid species may have arisen from a genetically hybrid diploid. Alternatively, the dual level of sequence heterogeneity in H. versicolor may reflect some type of gene flow between the two species. The coding region of the rRNA genes in the tetraploid differs from that in either diploid in about 20% of all repeat units, as exemplified by a BamHI site located near the 5 terminus of the 28 S rRNA gene. If the 20% variant class of 28 S rRNA gene coding sequences is expressed, then there must be two structural classes of ribosomes; if only the 80% sequence class is expressed, then a genetic control mechanism must be capable of distinguishing between the two different sequence variants. It is postulated that the 20% variant sequence class may be correlated with a partial functional diploidization of rRNA genes in the tetraploid species.This research was supported, in part, by NSF Grants CDP-8002341 and PRM-8106947 and by faculty research grants from Miami University to J.C.V. 相似文献
102.
103.
104.
Summary Both simultaneous and consecutive mechanisms for Na+–Ca++ exchange are formulated and the associated systems of steady-state equations are solved numerically, and the net and unidirectional Ca++ fluxes computed for a variety of ionic and electrical boundary conditions. A simultaneous mechanism is shown to be consistent with a broad range of experimental data from the squid giant axon, cardiac muscle and isolated sarcolemmal vesicles. In this mechanism, random binding of three Na+ ions and one Ca++ on apposing sides of a membrane are required before a conformational change can occur, translocating the binding sites to the opposite sides of the membranes. A similar (return) translocation step is also permitted if all the sites are empty. None of the other states of binding can undergo such translocating conformational changes. The resulting reaction scheme has 22 reaction steps involving 16 ion-binding intermediates. The voltage dependence of the equilibrium constant for the overall reaction, required by the 31 Na+Ca++ stoichiometry was obtained by multiplying and dividing, respectively, the forward and reverse rate constants of one of the translocational steps by exp(–FV/2RT). With reasonable values for the membrane density of the enzyme (120 sites m2) and an upper limit for the rate constants of both translocational steps of 105·sec–1, satisfactory behavior was obtainable with identical binding constants for Ca++ on the two sides of the membrane (106
m
–1), similar symmetry also being assumed for the Na+ binding constant (12 to 60m
–1). Introduction of order into the ion-binding process eliminates behavior that is consistent with experimental findings. 相似文献
105.
In extracts of flax seedlings 4 days after imbibition, isocitrate lyase activity is unstable in comparison to that in extracts from 2.5-day seedlings or to malate syntheses analysed at several stages of development. This instability in extracts of 4-day seedlings is especially pronounced when a large number of seedlings is homogenized per unit volume of Tris-Mg2+-EDTA-dithioerythritol buffer. However, isocitrate lyase can be stabilized when the resultant homogenate is diluted soon after seedling breakage. The pronounced instability in more concentrated extracts is not due to inadequate buffering by the homogenization medium, nor can it be due to polyphenols because added polyvinylpyrrolidone has no effect. Mixing of a heated supernatant from concentrated extract with dilute unheated extract yields the units of stable isocitrate lyase expected in the dilute extract, ruling out stoichiometric inactivation by a heat-stable component. The pronounced instability is attributed to the action of proteinases. A theoretical model assuming a decay process that is first order in isocitrate lyase and first-order in one or more proteinases is in reasonable agreement with the results. Malate synthase and NADP+-isocitrate dehydrogenase are much more stable in concentrated extracts prepared from 4-day flax seedlings. Isocitrate lyase is stable in concentrated extracts of 5-day watermelon seedlings, which is a developmental stage analogous to that for 4-day flax seedlings. 相似文献
106.
M. M. Bland D. F. Matzinger C. S. Levings III 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1985,69(5-6):535-541
Summary Mitochondrial DNAs from Nicotiana tabacum, an amphiploid, and its putative progenitor species, N. sylvestris and N. tomentosiformis were compared in structure and organization. By using DNA transfer techniques and cloned fragments of known genes from maize and N. sylvestris as labeled probes, the positions of homologous sequences in restriction digests of the Nicotiana species were analyzed. Results indicate that the mitochondrial DNA of N. tabacum was inherited from N. sylvestris. Conservation in organization and sequence homology between mtDNAs of N. tabacum and the maternal progenitor, N. sylvestris, provide evidence that the mitochondrial genome in these species is evolutionarily stable. Approximately one-third of the probed restriction fragments of N. tomentosiformis mtDNA showed conservation of position with the other two species. Pattern variations indicate that extensive rearrangement of mtDNA has occurred in the evolution of these Nicotiana species. 相似文献
107.
The light energy requirements for photoactivation of two chloroplast enzymes: fructose-1,6-bisphosphatase and NADP-malate dehydrogenase were studied in a reconstituted chloroplast system. This system comprised isolated pea thylakoids, ferredoxin (Fd), ferredoxin-thioredoxin reductase (FTR) thioredoxinm and f (Tdm, Tdf) and the photoactivatable enzyme. Light-saturation curves of the photoactivation process were established with once washed thylakoids which did not require the addition of Td for light activation. They exhibited a plateau at 10 W·m–2 under nitrogen and 50 W·m–2 under air, while NADP photoreduction was saturated at 240 W·m–2. Cyclic and pseudocyclic phosphorylations saturated at identical levels as enzyme photoactivations. All these observations suggested that the shift of the light saturation plateau towards higher values under air was due to competing oxygen-dependent reactions. With twice washed thylakoids, which required Td for enzyme light-activation, photophosphorylation was stimulated under N2 by the addition of the components of the photoactivation system. Its rate increased with increasing Td concentrations, just as did the enzyme photoactivation rate, while varying the target enzyme concentration had only a weak effect. Considering that Td concentrations were in a large excess over target enzyme concentrations, it may be assumed that the observed ATP synthesis was essentially dependent on the rate of Td reduction.Under air, Fd-dependent pseudo-cyclic photophosphorylation was not stimulated by the addition of the other enzyme photoactivation components, suggesting that an important site of action of O2 was located at the level of Fd.Abbreviations Fd
ferredoxin
- FBPase
fructose-1,6-bisphosphatase
- FTR
ferredoxin-thioredoxin reductase
- LEM
light effect mediator
- NADP-MDH
NADP-malate dehydrogenase
- Td
thioredoxin 相似文献
108.
Tim Helentjaris Gretchen King Mary Slocum Chris Siedenstrang Sharon Wegman 《Plant molecular biology》1985,5(2):109-118
Summary Maize and tomato cDNA clones have been hybridized in Southern blotting experiments to plant genomic DNA prepared from different lines to detect restriction fragment polymorphisms (RFPs). In maize we have found that a high degree of genetic variability is present, even among domestic inbred lines. Most randomly chosen maize cDNA clones can be used to detect elements of this variability. Similar levels of polymorphism are observed when genomic DNA is digested with any of a number of different restriction enzymes and probed with individual clones. When a clone is hybridized to genomic DNAs prepared from several different maize lines, a number of different alleles are often detected at a single locus. At the same time one clone can often detect more than one independently segregating locus by cross hybridization to related sequences at other loci. As expected these markers are inherited as simple codominant Mendelian alleles from one generation to the next and colinkage of these markers can be demonstrated in the progeny from a heterozygous parent. In similar studies with tomato, remarkably different results were found. Few RFPs were demonstrable among domestic Lycopersicon esculentum lines although a higher level of variability could be detected when comparing esculentum with its wild Lycopersicon relatives. These results are discussed in relation to the applied uses of RFPs in plant breeding as well as the inherent variability of different plant genomes.This work was supported in part by funds from Sandoz Ltd. (Basel, Switzerland) and its subsidiary company, Northrup King Co. (Minneapolis, Minn., U.S.A.) as well as by NSF SBIR grant #BSR-8360870. 相似文献
109.
A new enzyme, Acetyl Coenzyme A: deacetylvindoline 0-acetyl transferase (EC 2.3.1. -) which catalyses the synthesis of vindoline from acetyl coenzyme A and deacetylvindoline was isolated from the soluble protein extract of Catharanthus roseus leaves and purified approximately 365-fold. The enzyme had an apparent pI of 4.6 upon chromatofocusing, an apparent molecular weight of 45,000 daltons and a pH optimum between 8.0 to 9.0. Dithiothreitol was essential to maintain enzyme activity.Substrate saturation studies of this enzyme resulted in Michaelis Menton kinetics giving Km values of 5.4 and 0.7µM respectively for acetyl coenzyme A and deacetylvindoline. Studies of the forward reaction demonstrated an absolute requirement for acetyl coenzyme A and deacetylvindoline derivatives containing a double bond at positions 6, 7, whereas the reverse reaction occurred only in the presence of free coenzyme A and vindoline derivatives containing the same double bond. The forward reaction was subject to product inhibition by coenzyme A with an apparent Ki of 8 µM, but was not inhibited by up to 2 mM vindoline. The rate of reaction could therefore be regulated by the level of free coenzyme A in the cell, unaffected by the accumulation of indole alkaloid product.It was suggested that this enzyme catalyses a late step in the biosynthesis of vindoline. 相似文献
110.
Previous studies from this laboratory have shown that the thermolysin fragment 121–316, comprising entirely the“all-α” COOH-terminal
structural domain 158–316, as well as fragment 206–316 (fragment FII) are able to refold into a native-like, stable structure
independently from the rest of the protein molecule. The present report describes conformational properties of fragments 228–316
and 255–316 obtained by chemical and enzymatic cleavage of fragment FII, respectively. These subfragments are able to acquire
a stable conformation of native-like characteristics, as judged by quantitative analysis of secondary structure from far-ultra-violet
circular dichroism spectra and immunochemical properties using rabbit anti-thermolysin antibodies. Melting curves of the secondary
structure of the fragments show cooperativity with a temperature of half-denaturationT
mof 65–66°C. The results of this study provide evidence that it is possible to isolate stable supersecondary structures (folding
units) of globular proteins and correlate well with predictions of subdomains of the COOH-terminal structural domain 158–316
of thermolysin. 相似文献