Epigallocatechin-3-gallate modulates anti-oxidant defense enzyme expression in murine submandibular and pancreatic exocrine gland cells and human HSG cells.

Sjogren's syndrome (SS) and type-1 diabetes are prevalent autoimmune diseases in the USA. We reported previously that epigallocatechin-3-gallate (EGCG) prevented and delayed the onset of autoimmune disease in non-obese diabetic (NOD) mice, a model for both SS and type-1 diabetes. EGCG also normalized the levels of proteins related to DNA repair and anti-oxidant activity in NOD.

Genome-wide association study for Crohn's disease in the Quebec Founder Population identifies multiple validated disease loci.

Genome-wide association (GWA) studies offer a powerful unbiased method for the identification of multiple susceptibility genes for complex diseases. Here we report the results of a GWA study for Crohn's disease (CD) using family trios from the Quebec Founder Population (QFP). Haplotype-based association analyses identified multiple regions associated with the disease that met the criteria for genome-wide significance, with many containing a gene whose function appears relevant to CD.

Delivering cognitive-behavior therapy for panic disorder with agoraphobia in videoconference.

Delivering psychotherapy by videoconference could significantly increase the accessibility of empirically validated treatments. The aim of this study was to compare the effectiveness of cognitive-behavior therapy (CBT) for panic disorder with agoraphobia (PDA) when the therapy is delivered either face-to-face or by videoconference. A sample of 21 participants was treated either face-to-face or by videoconference.

Generation of amplifiable genome-specific oligonucleotide probes and libraries.

Here we describe a process for the generation of oligonucleotide libraries representative of a given nucleic acid. Starting from at random pool of DNA oligonucleotides, the technique selects only those that hybridize to the nucleic acid template. This selection yields a highly specific library that represents an oligonucleotide image of the chosen template.

Cleavage of mitochondria-like transfer RNAs expressed in Escherichia coli.

Mitochondrial (mt) transfer RNAs (tRNAs) often harbor unusual structural features causing their secondary structure to differ from the conventional cloverleaf. tRNAs designed with such irregularities, termed mt-like tRNAs, are active in Escherichia coli as suppressors of reporter genes, although they display low steady-state levels. Characterization of fragments produced during mt-like tRNA processing in vitro and in vivo suggests that these RNAs are not fully processed at their 5' ends and are cleaved internally.

Double-hairpin elements in the mitochondrial DNA of allomyces: evidence for mobility.

The mitochondrial DNA (mtDNA) of the chytridiomycete fungus Allomyces macrogynus contains 81 G+C-rich sequence elements that are 26-79 bases long and can be folded into a unique secondary structure consisting of two stem-loops. At the primary sequence level, the conservation of these double-hairpin elements (DHEs) is variable, ranging from marginal to complete identity. Forty of these DHEs are inserted in intergenic regions, 35 in introns, and 6 in variable regions of rRNA genes.

Hammerhead-mediated processing of satellite pDo500 family transcripts from Dolichopoda cave crickets.

This work reports the discovery and functional characterization of catalytically active hammerhead motifs within satellite DNA of the pDo500 family from several DOLICHOPODA: cave cricket species. We show that in vitro transcribed RNA of some members of this satellite DNA family do self-cleave in vitro. This self-cleavage activity is correlated with the efficient in vivo processing of long primary transcripts into monomer-sized RNA.

The distribution of RNA motifs in natural sequences.

Functional analysis of genome sequences has largely ignored RNA genes and their structures. We introduce here the notion of 'ribonomics' to describe the search for the distribution of and eventually the determination of the physiological roles of these RNA structures found in the sequence databases. The utility of this approach is illustrated here by the identification in the GenBank database of RNA motifs having known binding or chemical activity.

The recognition of a noncanonical RNA base pair by a zinc finger protein.

Background: The zinc finger (ZF) is the most abundant nucleic-acid-interacting protein motif. Although the interaction of ZFs with DNA is reasonably well understood, little is known about the RNA-binding mechanism. We investigated RNA binding to ZFs using the Zif268-DNA complex as a model system.

Sporadic distribution of tRNA(Arg)CCU introns among alpha-purple bacteria: evidence for horizontal transmission and transposition of a group I intron.

A group I intron interrupts the tRNA(Arg)CCU gene of the alpha-purple bacterium Agrobacterium tumefaciens (B. Reinhold-Hurek and D. A.

Origin and evolution of group I introns in cyanobacterial tRNA genes.

Many tRNA(Leu)UAA genes from plastids contain a group I intron. An intron is also inserted in the same gene at the same position in cyanobacteria, the bacterial progenitors of plastids, suggesting an ancient bacterial origin for this intron. A group I intron has also been found in the tRNA(fMet) gene of some cyanobacteria but not in plastids, suggesting a more recent origin for this intron.

The fungal mitochondrial genome project: evolution of fungal mitochondrial genomes and their gene expression.

The goal of the fungal mitochondrial genome project (FMGP) is to sequence complete mitochondrial genomes for a representative sample of the major fungal lineages; to analyze the genome structure, gene content, and conserved sequence elements of these sequences; and to study the evolution of gene expression in fungal mitochondria. By using our new sequence data for evolutionary studies, we were able to construct phylogenetic trees that provide further solid evidence that animals and fungi share a common ancestor to the exclusion of chlorophytes and protists. With a database comprising multiple mitochondrial gene sequences, the level of support for our mitochondrial phylogenies is unprecedented, in comparison to trees inferred with nuclear ribosomal RNA sequences.

The mitochondrial DNA of Allomyces macrogynus: the complete genomic sequence from an ancestral fungus.

We have determined the complete nucleotide sequence of the circular mitochondrial DNA (mtDNA) of the chytridiomycete fungus, Allomyces macrogynus (57,473 bp; A + T content 60.5%). The identified genes that are typical for most fungal mitochondria include those for the large (rnl) and small subunit (rns) ribosomal RNAs, a complete set of 25 tRNAs, three ATPase subunits (atp6, atp8 and atp9), apocytochrome b(cob), three subunits of the cytochrome oxidase complex (cox1, cox2 and cox3), and seven subunits of the NADH dehydrogenase complex (nad1, nad2, nad3, nad4, nad4L, nad5 and nad6).

Molecular phylogeny of Allomyces macrogynus: congruency between nuclear ribosomal RNA- and mitochondrial protein-based trees.

We have sequenced the nuclear and mitochondrial small subunit rRNA genes (rns) and the mitochondrial genes coding for subunits 1 and 3 of the cytochrome oxidase (cox1 and cox3, respectively) of the chytridiomycete Allomyces macrogynus. Phylogenetic trees inferred from the derived COX1 and COX3 proteins and the nuclear rns sequences show with good bootstrap support that A. macrogynus is an early diverging fungus.

Intron-encoded open reading frame of the GIY-YIG subclass in a plastid gene.

Group-I introns, containing open reading frames (ORFs) that code for homing endonucleases, are widely distributed amongst eukaryotic organellar genomes. However, endonucleases of the GIY-YIG subclass have a restricted distribution in mitochondria and bacteriophages, and have never been observed in plastids. We have found the GIY-YIG motif in an intronic ORF within the previously published psbA gene sequence from Chlamydomonas reinhardtii chloroplasts.

Interspecific transfer of mitochondrial genes in fungi and creation of a homologous hybrid gene.

In eukaryotes, horizontal gene transfer is a rare event. Here we show that the mitochondrial genome of a lower fungus, Allomyces macrogynus, has an extra DNA segment not present in a close relative, Allomyces arbusculus. This insert consists of the C terminus of a foreign gene encoding a subunit of the ATP synthetase complex (atp6) plus an open reading frame encoding an endonuclease.

Gene order comparisons for phylogenetic inference: evolution of the mitochondrial genome.

Detailed knowledge of gene maps or even complete nucleotide sequences for small genomes leads to the feasibility of evolutionary inference based on the macrostructure of entire genomes, rather than on the traditional comparison of homologous versions of a single gene in different organisms. The mathematical modeling of evolution at the genomic level, however, and the associated inferential apparatus are qualitatively different from the usual sequence comparison theory developed to study evolution at the level of individual gene sequences. We describe the construction of a database of 16 mitochondrial gene orders from fungi and other eukaryotes by using complete or nearly complete genomic sequences; propose a measure of gene order rearrangement based on the minimal set of chromosomal inversions, transpositions, insertions, and deletions necessary to convert the order in one genome to that of the other; report on algorithm design and the development of the DERANGE software for the calculation of this measure; and present the results of analyzing the mitochondrial data with the aid of this tool.