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G.O. Osuji W.C. Madu C. Braithwaite A. Beyene P.S. Roberts A. Bulgin V. Wright 《Biologia Plantarum》2003,47(2):195-202
The physiological function of glutamate dehydrogenase (GDH) was investigated by treating germinating peanut (Arachis hypogaea L.) seeds with nucleoside triphosphate (NTP) solutions in order to alter the isoenzyme distribution patterns. The free nucleosides
and nucleotides of the GTP-treated peanut were the highest [8.7 μmol g−1(f.m.)], and they decreased through the ATP-treated peanut [5.8 μmol g−1(f.m.)], and CTP-treated peanut [5.5 μmol g−1(f.m.)], to the UTP-treated peanut [4.1 μmol g−1(f.m.)]. The combination of 4 NTPs induced 20 % higher content of Pi [173 nmol g−1(f.m.)] than in the control, but the combined ATP+UTP treatment induced the lowest (93.0 nmol g−1(f.m.)] Pi. The 4 NTP treatment also induced the highest number of GDH isoenzymes (28) followed by the purine NTP treatments
(15 to 20), but the pyrimidine NTP treatments and the combined purine + pyrimidine NTP treatments induced the lowest numbers
(<15) of isoenzymes. The deamination/amination ratios were generally higher in the UTP (0.11), and CTP (0.06) treated peanuts
than in the GTP (0.04), and ATP (0.07) treated peanuts. There were mutual relationships between higher numbers of GDH isoenzymes
present in the GTP-, and ATP-treated peanuts and higher RNA (236.5 and 239.4 μg g−1, respectively) contents on one hand, and between the lower numbers of isoenzymes in the CTP-, and UTP-treated peanuts and
lower RNA (162.0 and 152.5 μg g−1, respectively) contents. The recurrent relationships of the effects of the NTP treatments of peanut were UTP > ATP > CTP
> GTP.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
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Pierangela Ciuffreda Laura Alessandrini Enzo Santaniello 《Nucleosides, nucleotides & nucleic acids》2013,32(10-12):1311-1313
2 ′,3 ′-Isopropylidene group can be used as a molecular scaffold for the introduction of modifications at 5 ′ and 1 ′ positions of adenosine and these modified nucleosides are used to evaluate the biocatalytic activity of adenosine and adenylate deaminase. 相似文献
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《Cell cycle (Georgetown, Tex.)》2013,12(18):3345-3346
Comment on: Maiti A, et al. Proc Natl Acad Sci USA 2012; 109:8091-6. 相似文献
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Gwenaël Piganeau Dominique Mouchiroud Laurent Duret Christian Gautier 《Journal of molecular evolution》2002,54(1):129-133
The relationship between the silent substitution rate (K
s) and the GC content along the genome is a focal point of the debate about the origin of the isochore structure in vertebrates.
Recent estimation of the silent substitution rate showed a positive correlation between K
s and GC content, in contradiction with the predictions of both the regional mutation bias model and the selection or biased
gene conversion model. The aim of this paper is to help resolve this contradiction between theoretical studies and data. We
analyzed the relationship between K
s and GC content under (1) uniform mutation bias, (2) a regional mutation bias, and (3) mutation bias and selection. We report
that an increase in K
s with GC content is expected under mutation bias because of either nonequilibrium of the isochore structure or an increasing
mutation rate from AT toward GC nucleotides in GC-richer isochores. We show by simulations that CpG deamination tends to increase
the mutation rate with GC content in a regional mutation bias model. We also demonstrate that the relationship between K
s and GC under the selectionist or biased gene conversion model is positive under weak selection if the mutation selection
equilibrium GC frequency is less than 0.5.
Received: 28 March 2001 / Accepted: 16 May 2001 相似文献
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The carbohydrate residues of collagen were selectively released in high yield by nitrosation of the hydroxylysines of the intact collagen or peptides derived from collagen. The carbohydrate residues (Glc-Gal and Gal) released were separated from the modified protein or peptide by gel chromatography and were assayed by gas-liquid chromatography of their trimethylsilyl derivatives. The results agreed closely with those obtained from methanolysis-gas chromatography or from alkaline hydrolysis followed by amino acid analysis of the hydroxylysyl glycosides. With a more sensitive perbenzoylation-high-performance liquid chromatography method and uv detection at 230 nm, the carbohydrates released by nitrosation of submilligram quantities of collagen or peptide could be assayed accurately. 相似文献
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Several second-generation inhibitors of DNA (cytosine-5) methyltransferases based on studies of modified synthetic oligodeoxynucleoides have been described. As an aid to studies of these inhibitors, we present an electronic structure-based algorithm that can be used as a method for predicting the nature of the expected inhibition by any noncytosine nucleotide target. Targeting by the major human enzyme (hDnmt1) is governed by the presence of a three-nucleotide motif. In hemimethylated DNA, this motif consists of a 5-methylcytosine targeting signal that causes the enzyme to probe the opposite strand for a normally paired guanosine or inosine residue and attempt to methylate the residue 5' to that site. As a demonstration of the method, we apply these rules to the design and characterization of a novel oligodeoxynucleotide inhibitor of hDnmt1. This inhibitor takes advantage of the three-nucleotide recognition motif characteristic of hDnmt1 and shows that the enzyme is inhibited in vitro by non-CG methylation which targets the enzyme to normally basepaired but unproductive nucleotides such as dG, dA, and dT. Kinetic analysis at constant S-adenosyl-L-methionine concentration shows that representative inhibitory oligodeoxynucleotides are best viewed as weakly productive components of systems containing two DNA substrates. This model suggests that the most effective inhibitors are those with very low apparent Vmax and very low Km values. Oligodeoxynucleotides containing mispaired and unproductive targets such as dG, dA, dT, and dU are also inhibitory as secondary substrates for the human enzyme. Biologically, fail-safe mechanisms identified by the ab initio approach appear to be active in preventing potentially mutagenic deamination of dihydrocytosine and enzymatic methylation of dU. 相似文献
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Noriyuki Fuku Yoshiharu Oshida Takeshi Takeyasu Li-Jun Guo Miyuki Kurata Yoshiji Yamada Yuzo Sato Masashi Tanaka 《Biochemical and biophysical research communications》2002,290(4):1199-1205
We hypothesized that the mutational strand asymmetry is more strongly exerted upon the mitochondrial cytochrome b (Cytb) gene, which is distant from the origin of the light-strand replication (Ori(L)), than upon the ATPase subunit 6 (ATP6) gene, which is close to the Ori(L). To test this hypothesis, we determined the sequences of these two genes in 96 Japanese young obese adults. The frequency of G-->A transitions was significantly higher than that of C-->T transitions in the Cytb gene, whereas the frequencies of G-->A and C-->T transitions were not significantly different in the ATP6 gene. The marked mutational strand asymmetry in the Cytb gene can be explained by the deamination of C to uracil in the long single-stranded state of the heavy strand during replication. The ratio of the nonsynonymous substitutions at the second codon positions to those at the first codon positions was significantly lower in the Cytb gene than in the ATP6 gene. The physicochemical differences between the standard and the replaced amino acid residues were significantly smaller in the Cytb gene than in ATP6 one. The present study indicates that amino acid sequences are less variable for Cytb than for ATP6 in spite of the strong mutational strand asymmetry for the Cytb gene. 相似文献