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The influence of chemical modification of separate amino acid residues in ferricytochrome c (Cyt c) on the rate of the redox reaction with MbO2 has been studied at various pH and ionic strength values. It is shown that alkylation of His-33 and Met-65 by bromacetate does not affect the reaction rate. On the contrary, acylation of Tyr-74 or one of the neighbouring lysines, Lys-72 or Lys-73, by the spin-label N-(2,2',5,5'-tetramethyl-3-carboxypyrrolin-1-oxy)-imidazol diminishes sharply the efficiency of electron transfer in the redox system studied. Besides, unlike the reaction between native proteins, the rate of electron transfer in this case does not depend on ionic strength. The modification of Tyr-74 or Lys 72/43 does not alter the midpoint potential and the entire conformation of Cyt c. The observed effects can therefore be explained by essential disturbance of interactions, first of all, the electrostatic ones in the active complex, which is induced by the attachment of the bulky reagent to the site of "active contact" of Cyt c. Based on the obtained findings and the atomic coordinates of Cyt c, the positions of all charge and some uncharged groups on the surface of Cyt c interacting with myoglobin during electron transfer are presented.
Mol Biol (Mosk)
PMID:[Electron transport in hemoproteins. VIII. The effect of chemical modification of ferricytochrome C on the rate of its reduction by oxymyoglobin]. 632 75

Cytochrome proteins perform a broad spectrum of biological functions ranging from oxidative metabolism to electron transport and are thus essential to all organisms. The b-type cytochrome proteins bind heme noncovalently, are expressed in many different forms and are localized to various cellular compartments. We report the characterization of the cytochrome b5 (Cyt-b) gene of Drosophila virilis and compare its structure to the Cyt-b gene of Drosophila melanogaster. As in D. melanogaster, the D. virilis gene is nuclear encoded and single copy. Although the intron/exon structures of these homologues differ, the Cyt-b proteins of D. melanogaster and D. virilis are approximately 75% identical and share the same size coding regions (1,242 nucleotides) and protein products (414 amino acids). The Drosophila Cyt-b proteins show sequence similarity to other b-type cytochromes, especially in the N-terminal heme-binding domain, and may be targeted to the mitochondrial membrane. The greatest levels of similarity are observed in areas of potential importance for protein structure and function. The exon sequences of the D. virilis Cyt-b gene differ by a total of 292 base changes. However, 62% of these changes are silent. The high degree of conservation between species separated by 60 million years of evolution in both the DNA and amino acid sequences suggests this nuclear cytochrome b5 locus encodes an essential product of the Drosophila system.
J Mol Evol 1995 Oct
PMID:Evolutionary divergence of the cytochrome b5 gene of Drosophila. 756 30

Repeat-induced point mutation (RIP) is a process that efficiently detects DNA duplications prior to meiosis in Neurospora crassa and peppers them with G:C to A:T mutations. Cytosine methylation is typically associated with sequences affected by RIP, and methylated cytosines are not limited to CpG dinucleotides. We generated and characterized a collection of methylated and unmethylated amRIP alleles to investigate the connection(s) between DNA methylation and mutations by RIP. Alleles of am harboring 84 to 158 mutations in the 2.6-kb region that was duplicated were heavily methylated and triggered de novo methylation when reintroduced into vegetative N. crassa cells. Alleles containing 45 and 56 mutations were methylated in the strains originally isolated but did not become methylated when reintroduced into vegetative cells. This provides the first evidence for de novo methylation in the sexual cycle and for a maintenance methylation system in Neurospora cells. No methylation was detected in am alleles containing 8 and 21 mutations. All mutations in the eight primary alleles studied were either G to A or C to T, with respect to the coding strand of the am gene, suggesting that RIP results in only one type of mutation. We consider possibilities for how DNA methylation is triggered by some sequences altered by RIP.
Mol Cell Biol 1995 Oct
PMID:DNA methylation associated with repeat-induced point mutation in Neurospora crassa. 756 10

Fragments of mtDNA genes Cyt B, ATPase 6, and ATPase 8 of six cottoid fishes species of Lake Baikal (East Siberia) were amplified and sequenced. In addition mtDNAs of the same fish were subjected to restriction analysis. The data obtained were used to construct phylogenetic trees. The topology of the ATPase tree differs from those of the Res (restriction) and Cyt B trees. Clustering of species within the trees confirms the viewpoint of Taliev (1955, Baicalian Sculpins (Cottoidei)) according to which Baikalian cottoids originate from two ancestral forms. The times of branching obtained do not confirm the existing viewpoint according to which the two golomyankas (Comephorus baicalensis and Comephorus dybowskii) are pre-Baikal (Myocene) relicts: these two species may have originated 1.2-1.8 million years ago in Baikal, and they seem to represent an example of rapid morphological evolution which resulted in the formation of a new family.
J Mol Evol 1995 Apr
PMID:The evolutionary relationships of two families of cottoid fishes of Lake Baikal (east Siberia) as suggested by analysis of mitochondrial DNA. 776 16

The nucleotide sequence of a segment of the mitochondrial DNA (mtDNA) molecule of the sea anemone Metridium senile (phylum Cnidaria, class Anthozoa, order Actiniaria) has been determined, within which have been identified the genes for respiratory chain NADH dehydrogenase subunit 2 (ND2), the small-subunit rRNA (s-rRNA), cytochrome c oxidase subunit II (COII), ND4, ND6, cytochrome b (Cyt b), tRNA(f-Met), and the large-subunit rRNA (1-rRNA). The eight genes are arranged in the order given and are all transcribed from the same strand of the molecule. The overall order of the M. senile mt-genes differs from that of other metazoan mtDNAs. In M. senile mt-protein genes, AGA and AGG codons appear to have the standard genetic code specification of arginine, rather than serine as found for other invertebrate mt-genetic codes. Also, ATA has the standard genetic code specification of isoleucine. TGA occurs in three M. senile mt-protein genes and may specify tryptophan as in other metazoan, protozoan, and some fungal mt-genetic codes. The M. senile mt-rRNA(f-Met) gene has primary and secondary structure features closely resembling those of the Escherichia coli initiator tRNA, including standard dihydrouridine and T psi C loop sequences and a mismatch pair at the top of the aminoacyl stem. Determinations of the 5' and 3' end nucleotides of the M. senile mt-s-rRNAs indicated that these molecules have a homogenous size of 1,081 ntp, larger than any other known metazoan mt-s-rRNAs. Consistent with its larger size, the M. senile mt-s-rRNA can be folded into a secondary structure that more closely resembles that of the E. coli 16S rRNA than can any other metazoan mt-s-rRNA. These findings concerning M. senile mtDNA indicate that most of the unusual features regarding metazoan mt-genetic codes, rRNAs, and probably tRNAs developed after divergence of the Cnidarian line from the ancestral line common to other metazoa.
J Mol Evol 1994 Oct
PMID:Mitochondrial DNA of the sea anemone, Metridium senile (Cnidaria): prokaryote-like genes for tRNA(f-Met) and small-subunit ribosomal RNA, and standard genetic code specificities for AGR and ATA codons. 796 69

Inactive-X-chromosome genes in mammalian females have methylated CpG islands. We have questioned whether there are variable levels of cytosine methylation at different CpG sites within the island that might indicate the presence of primary sites of methylation which may be critical for the maintenance of gene repression and candidate sites for the initiation of inactivation. To address these questions, we have analyzed the methylation patterns of 32 CpG sites of the X-linked hypoxanthine phosphoribosyltransferase (Hprt) gene on the active and inactive X chromosomes of mouse tissues and cell lines, using genomic sequencing of bisulfite-treated genomic DNA. Cytosine is deaminated by bisulfite, but methylcytosine is not affected. Cell lines that were heterozygous for the Hprt deletion mutation (Hprtb-m3) and a functional Hprt allele were selected with 6-thioguanine. The resulting cell populations uniformly carry the intact Hprt allele on the inactive X chromosome. The methylation of these CpG sites was determined either by the direct sequence analysis of bisulfite-treated and amplified DNA or by the sequence analysis of clones derived from the amplified DNA. No CpG methylation was detected on the active Hprt genes from either males or the active X chromosome of females. On average, 22 CpGs were methylated in the other 50% of female DNA, and the level of methylation at individual sites varied from 42 to 100%. Analysis of the inactive Hprt gene in two cell lines showed that averages of 14 and 18 CpGs were methylated and that the frequency of methylation at 32 individual sites ranged from 3 to 100%. The highest frequency of methylation in cell lines coincided with the sequences flanking transcription initiation sites. These results suggest that methylation patterns are heterogeneous within a tissue and even in clonal cell populations and that specific subsets of CpG sites sustain high methylation frequencies which may be critical for the maintenance of X-chromosome inactivation. The bisulfite method identified which CpG sites were methylated on the inactive X chromosome, and it provided a quantitative estimate of the frequency of methylation of these sites in genomic DNA.
Mol Cell Biol 1994 Dec
PMID:CpG island promoter region methylation patterns of the inactive-X-chromosome hypoxanthine phosphoribosyltransferase (Hprt) gene. 796 37

The water structure in three crystal forms of the left-handed Z-DNA hexamer [d(CGCGCG)]2 has been analyzed. Several common motifs have been found in the first hydration shells. On the convex surface, the major groove of the left-handed conformation, water molecules bridge the guanine O-6 keto groups at GpC steps. Cytosine N-4 nitrogens of opposite strands are hydrated by tandem water molecules. At the bottom of the minor groove, a string of water molecules connects the cytosine O-2 keto groups. Across the minor groove guanine N-2 nitrogens are bridged to phosphate oxygens of cytosine and guanine residues by one or two water molecules. In contrast to the very regular geometry of the water structure around the bases, the arrangement of water molecules between phosphate groups appears to be less ordered. However, there is a strong correlation between the interphosphate distances and the number of water molecules or ions which link the phosphate groups. In all three structures various ions, such as sodium and magnesium ions, as well as the protonated amino and imino groups of the polycation spermine displace and replace water molecules in the first hydration shell. Nevertheless, the analysis reveals that numerous first hydration shell water molecules in Z-DNA crystals can be regarded as part of the DNA structure. Their positions and thermal parameters are generally independent of changes in the local crystallographic environment.
J Mol Biol 1994 Mar 04
PMID:Comparative studies of high resolution Z-DNA crystal structures. Part 1: Common hydration patterns of alternating dC-dG. 812 Aug 93

Cytosine methylation at CpG dinucleotides is thought to cause more than one-third of all transition mutations responsible for human genetic diseases and cancer. We investigated the methylation status of the CpG dinucleotide at codon 248 in exon 7 of the p53 gene because this codon is a hot spot for inactivating mutations in the germ line and in most human somatic tissues examined. Codon 248 is contained within an HpaII site (CCGG), and the methylation status of this and flanking CpG sites was analyzed by using the methylation-sensitive enzymes CfoI (GCGC) and HpaII. Codon 248 and the CfoI and HpaII sites in the flanking introns were methylated in every tissue and cell line examined, indicating extensive methylation of this region in the p53 gene. Exhaustive treatment of an osteogenic sarcoma cell line, TE85, with the hypomethylating drug 5-aza-2'-deoxycytidine did not demethylate codon 248 or the CfoI sites in intron 6, although considerable global demethylation of the p53 gene was induced. Constructs containing either exon 7 alone or exon 7 and the flanking introns were transfected into TE85 cells to determine whether de novo methylation would occur. The presence of exon 7 alone caused some de novo methylation to occur at codon 248. More extensive de novo methylation of the CfoI sites in intron 6, which contains an Alu sequence, occurred in cells transfected with a vector containing exon 7 and flanking introns. With longer time in culture, there was increased methylation at the CfoI sites, and de novo methylation of codon 248 and its flanking HpaII sites was observed. These de novo-methylated sites were also resistant to 5-aza-2'-deoxycytidine-induced demethylation. The frequent methylation of codon 248 and adjacent Alu sequence may explain the enhanced mutability of this site as a result of the deamination of the 5-methylcytosine.
Mol Cell Biol 1994 Jun
PMID:Ubiquitous and tenacious methylation of the CpG site in codon 248 of the p53 gene may explain its frequent appearance as a mutational hot spot in human cancer. 819 60

Cytosine deaminase (CD), produced by prokaryotes but not by higher eukaryotes including plants, deaminates cytosine to uracil. The enzyme likewise converts 5-fluorocytosine (5FC), which by itself is not toxic, to 5-fluorouracil (5FU), which is toxic. The Escherichia coli codA-coding sequence encoding CD, together with appropriate regulatory elements, was introduced into Arabidopsis. Neither untransformed controls, nor transgenic plants expressing no CD mRNA, were sensitive to 5FC. Conversely, for most transgenic plants expressing CD mRNA, in the presence of 5FC calli and seedlings failed to proliferate, and seeds failed to germinate. A few transgenic plants with many codA copies expressed less CD mRNA and remained insensitive to 5FC, which likely reflected epigenetic repeat-induced gene silencing. Thus 5FC, presumably through conversion by the enzyme to 5FU, can be used to select against plants that express CD.
Plant Mol Biol 1993 Nov
PMID:Cytosine deaminase as a negative selective marker for Arabidopsis. 825 32

The incorporation of radioactive precursors into pyrimidine nucleotides via de novo and salvage pathways was measured in gravid Angiostrongylus cantonensis by HPLC and thin-layer chromatography. 14C-labelled orotate, uridine, uracil and deoxyuridine were traced to UMP, UDP, UTP, UDP-glucose, dTMP, CMP, CDP and CTP. 3H-labelled cytidine was also incorporated into both uracil and cytosine nucleotides in a ratio of 2:1. Cytosine was a major end-product for all the precursors. Cytosine nucleotides were probably formed from UTP by the action of CTP synthetase whose activity in crude cell-free extract was 31.5 +/- 4.9 pmol min-1 (mg protein)-1. It was dependent on glutamine, ATP and GTP and was inhibited by CTP. The total amount of pyrimidine nucleotides formed from uridine was 3 times of that from uracil. The presence of uracil in the metabolism of uridine indicates that UMP is formed by uracil phosphoribosyltransferase as well as by uridine kinase. UMP is a key intermediate for cytidylate and thymidylate biosynthesis in the gravid worms.
Mol Biochem Parasitol 1993 Jul
PMID:Pathways of pyrimidine nucleotide biosynthesis in gravid Angiostrongylus cantonensis. 836 94

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