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Intergenic Regions (intergenic + regions)
Selected AbstractsUnexpected complexity of the budding yeast transcriptomeIUBMB LIFE, Issue 12 2008Takashi Ito Abstract The genome of the budding yeast Saccharomyces cerevisiae was sequenced over a decade ago and has been annotated to encode ,6,000 genes. However, recent high throughput studies using tiling array hybridization and cDNA sequencing have revealed an unexpectedly large number of previously undescribed transcripts. They largely lack protein-coding capacity and are transcribed from both strands of intragenic and intergenic regions in the genome. Accordingly, pervasive transcription leading to a plethora of noncoding RNAs, which was first revealed for mammalian genomes to attract intense attentions, is likely an intrinsic feature of eukaryotic genomes. Although it is not clear what fraction of these transcription events are functional, some were shown to induce transcriptional interference or histone modifications to regulate gene expression. The budding yeast may serve as an excellent model to study pervasive transcription and noncoding RNAs. © 2008 IUBMB IUBMB Life, 60(12): 775,781, 2008 [source] Regulation of Dlx gene expression in the zebrafish pharyngeal arches: from conserved enhancer sequences to conserved activityJOURNAL OF APPLIED ICHTHYOLOGY, Issue 2 2010R. B. MacDonald Summary The Dlx genes play an important role in the development of the pharyngeal arches and the structures derived from these tissues, including the craniofacial skeleton. They are typically expressed in a nested pattern along the proximo-distal axis of the branchial arches in mice. This pattern is known as the "Dlx code" and has been proposed to be responsible for an early regional patterning of branchial arches in mammals. A number of cis - regulatory elements (CREs) have been identified within the Dlx loci, which target reporter expression to the developing pharyngeal arches of the mouse. Most of these CREs are located in the intergenic regions between the two genes constituting a Dlx bigene cluster. Therefore, the regionalized dlx expression in the branchial arches could be the result of the shared activities of these regulatory regions. Here we analyze previously published and new results showing these CREs are highly conserved in both their sequence and their activity in the pharyngeal arches of two distantly related vertebrates, the zebrafish and the mouse. A better understanding of Dlx gene regulation of the Dlx genes and of the genetic cascades in which they are involved can lead to clues explaining variations in morphology of the craniofacial regions of vertebrates. [source] A highly efficient gene-targeting system for Aspergillus parasiticusLETTERS IN APPLIED MICROBIOLOGY, Issue 5 2008P.-K. Chang Abstract Aims:, To establish a system that greatly increases the gene-targeting frequency in Aspergillus parasiticus. Methods and Results:, The ku70 gene, a gene of the nonhomologous end-joining (NHEJ) pathway, was replaced by the nitrate reductase gene (niaD) in A. parasiticus RHN1 that accumulates O -methylsterigmatocystin (OMST). The NHEJ-deficient strain, RH,ku70, produced conidia, sclerotia and OMST normally. It had identical sensitivity as RHN1 to the DNA-topoisomerase I complex inhibitor, camptothecin, and the DNA-damaging agent, melphalan. For targeting an aflatoxin biosynthetic pathway gene, adhA, partial restriction enzyme recognition sequences in its flanking regions were manipulated to create homologous ends for integration. Using a linearized DNA fragment that contained Aspergillus oryzae pyrithiamine resistance gene (ptr) marker the adhA -targeting frequency in RH,ku70 reached 96%. Conclusions:, The homologous recombination pathway is primarily responsible for repair of DNA damages in A. parasiticus. The NHEJ-deficient RH,ku70, easy creation of homologous ends for integration, and the ptr -based selection form a highly efficient gene-targeting system. It substantially reduces the time and workload necessary to obtain knockout strains for functional studies. Significance and Impact of the Study:, The developed system not only streamlines targeted gene replacement and disruption but also can be used to target specific chromosomal locations like promoters or intergenic regions. It will expedite the progresses in the functional genomic studies of A. parasiticus and Aspergilllus flavus. [source] Tryptophanase in sRNA control of the Escherichia coli cell cycleMOLECULAR MICROBIOLOGY, Issue 1 2007Dhruba K. Chattoraj Summary The field of gene regulation underwent a major revolution with the discovery of small non-coding RNAs (sRNAs) and the various roles they play in organisms from bacteria to man. Escherichia coli has more than 60 sRNAs that are transcribed primarily from intergenic regions. They usually target the leader region of mRNAs and prevent their translation. Protein targets are relatively rare. In this issue of Molecular Microbiology, Chant and Summers provide an example of a totally unexpected protein target. They show that dimers of plasmid ColE1 make an sRNA that interacts directly with the enzyme tryptophanase and enhances its affinity for its substrate, tryptophan. A breakdown product, indole, then arrests cell division until the dimers are resolved to monomers. The monomerization helps to prevent plasmid loss. Targeting a catabolic enzyme to buy time for recombination is an amazing example of adaptation, which illustrates the power of a selfish element (a plasmid in this case) to exploit the host cell machinery to its advantage. [source] Phage ,C31 integrase-mediated genomic integration of the common cytokine receptor gamma chain in human T-cell linesTHE JOURNAL OF GENE MEDICINE, Issue 5 2006Yoshinori Ishikawa Abstract Background X-linked severe combined immunodeficiency (SCID-X1, X-SCID) is a life-threatening disease caused by a mutated common cytokine receptor , chain (,c) gene. Although ex vivo gene therapy, i.e., transduction of the ,c gene into autologous CD34+ cells, has been successful for treating SCID-X1, the retrovirus vector-mediated transfer allowed dysregulated integration, causing leukemias. Here, to explore an alternative gene transfer methodology that may offer less risk of insertional mutagenesis, we employed the ,C31 integrase-based integration system using human T-cell lines, including the ,c-deficient ED40515(-). Methods A ,C31 integrase and a neor gene expression plasmid containing the ,C31 attB sequence were co-delivered by electroporation into Jurkat cells. After G418 selection, integration site analyses were performed using linear amplification mediated-polymerase chain reaction (LAM-PCR). ED40515(-) cells were also transfected with a ,c expression plasmid containing attB, and the integration sites were determined. IL-2 stimulation was used to assess the functionality of the transduced ,c in an ED40515(-)-derived clone. Results Following co-introduction of the ,C31 integrase expression plasmid and the plasmid carrying attB, the efficiency of integration into the unmodified human genome was assessed. Several integration sites were characterized, including new integration sites in intergenic regions on chromosomes 13 and 18 that may be preferred in hematopoietic cells. An ED40515(-) line bearing the integrated ,c gene exhibited stable expression of the ,c protein, with normal IL-2 signaling, as assessed by STAT5 activation. Conclusions This study supports the possible future use of this ,C31 integrase-mediated genomic integration strategy as an alternative gene therapy approach for treating SCID-X1. Copyright © 2006 John Wiley & Sons, Ltd. [source] Cytoplasmic phylogeny and evidence of cyto-nuclear co-adaptation in Arabidopsis thalianaTHE PLANT JOURNAL, Issue 5 2010Michaël Moison Summary In recent years Arabidopsis thaliana has become a model species for genomic variability and adaptation studies. Although impressive quantities of data have been gathered on the nuclear genomic diversity of this species, little has been published regarding its cytoplasmic diversity. We analyzed the diversity of plastid (pt) and mitochondrial (mt) genomes among 95 accessions, covering most Arabidopsis geographic origins. Four intergenic regions of the pt genome were sequenced, and a total of 68 polymorphisms and 65 pt haplotypes were identified. Several strategies were developed to identify mt polymorphisms among a subset of 14 accessions. Fifteen polymorphisms were further developed as PCR-based markers and used to analyze the whole set of 95 accessions. Using statistical parsimony, we built pt and mt phylogenetic networks of haplotype groups. To root the pt network, the pt intergenic regions of two related Arabidopsis species, Arabidopsis lyrata and Arabidopsis arenosa, were also sequenced. The mt and pt phylogenies are highly congruent and could be combined into a single cytoplasmic phylogeny. To estimate whether co-adaptation between nuclear and cytoplasmic genomes exists in A. thaliana, we tested the germination capacity in challenging conditions of 27 pairs of reciprocal F2 families. We found that the cytoplasm donor had a significant effect on the germination capacity of some F2 families. [source] Generation of a flanking sequence-tag database for activation-tagging lines in japonica riceTHE PLANT JOURNAL, Issue 1 2006Dong-Hoon Jeong Summary We have generated 47 932 T-DNA tag lines in japonica rice using activation-tagging vectors that contain tetramerized 35S enhancer sequences. To facilitate use of those lines, we isolated the genomic sequences flanking the inserted T-DNA via inverse polymerase chain reaction. For most of the lines, we performed four sets of amplifications using two different restriction enzymes toward both directions. In analyzing 41 234 lines, we obtained 27 621 flanking sequence tags (FSTs), among which 12 505 were integrated into genic regions and 15 116 into intergenic regions. Mapping of the FSTs on chromosomes revealed that T-DNA integration frequency was generally proportional to chromosome size. However, T-DNA insertions were non-uniformly distributed on each chromosome: higher at the distal ends and lower in regions close to the centromeres. In addition, several regions showed extreme peaks and valleys of insertion frequency, suggesting hot and cold spots for T-DNA integration. The density of insertion events was somewhat correlated with expressed, rather than predicted, gene density along each chromosome. Analyses of expression patterns near the inserted enhancer showed that at least half the test lines displayed greater expression of the tagged genes. Whereas in most of the increased lines expression patterns after activation were similar to those in the wild type, thereby maintaining the endogenous patterns, the remaining lines showed changes in expression in the activation tagged lines. In this case, ectopic expression was most frequently observed in mature leaves. Currently, the database can be searched with the gene locus number or location on the chromosome at http://www.postech.ac.kr/life/pfg/risd. On request, seeds of the T1 or T2 plants will be provided to the scientific community. [source] Linkage disequilibrium in the North American Holstein populationANIMAL GENETICS, Issue 3 2009E.-S. Kim Summary Linkage disequilibrium was estimated using 7119 single nucleotide polymorphism markers across the genome and 200 animals from the North American Holstein cattle population. The analysis of maternally inherited haplotypes revealed strong linkage disequilibrium (r2 > 0.8) in genomic regions of ,50 kb or less. While linkage disequilibrium decays as a function of genomic distance, genomic regions within genes showed greater linkage disequilibrium and greater variation in linkage disequilibrium compared with intergenic regions. Identification of haplotype blocks could characterize the most common haplotypes. Although maximum haplotype block size was over 1 Mb, mean block size was 26,113 kb by various definitions, which was larger than that observed in humans (,10 kb). Effective population size of the dairy cattle population was estimated from linkage disequilibrium between single nucleotide polymorphism marker pairs in various haplotype ranges. Rapid reduction of effective population size of dairy cattle was inferred from linkage disequilibrium in recent generations. This result implies a loss of genetic diversity because of the high rate of inbreeding and high selection intensity in dairy cattle. The pattern observed in this study indicated linkage disequilibrium in the current dairy cattle population could be exploited to refine mapping resolution. Changes in effective population size during past generations imply a necessity of plans to maintain polymorphism in the Holstein population. [source] Global analysis of siRNA-mediated transcriptional gene silencingBIOESSAYS, Issue 12 2005Harsh H. Kavi The RNAi machinery is not only involved with post-transcriptional degradation of messenger RNAs, but also used for targeting of chromatin changes associated with transcriptional silencing. Two recent papers determine the global patterns of gene expression and chromatin modifications produced by the RNAi machinery in fission yeast.(9, 10) The major sites include the outer centromere repeats, the mating-type locus and subtelomeric regions. By comparison, studies of Arabidopsis heterochromatin also implicate transposons as a major target for silencing. Analyses of siRNA libraries from Drosophila, nematodes and Arabidopsis indicate that major repeats at centromeres, telomeres and transposable elements are likely targets of RNAi. Also, intergenic regions are implicated as targets in Arabidopsis. BioEssays 27:1209,1212, 2005. © 2005 Wiley Periodicals, Inc. [source] | ||||||||||