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73 results on '"Genetic transcription -- Evaluation"'

1. VirB alleviates H-NS repression of the icsP promoter in Shigella flexneri from sites more than one kilobase upstream of the transcription start site

Author

Castellanos, Maria I., Harrison, Dustin J., Smith, Jennifer M., Labahn, Stephanie K., Levy, Karen M., and Wing, Helen J.

Subjects
Bacterial proteins -- Genetic aspects, Shigella flexneri -- Chemical properties, Shigella flexneri -- Genetic aspects, Genetic transcription -- Evaluation, Biological sciences
Abstract

The icsP promoter of Shigella spp. is repressed by H-NS and derepressed by VirB. Here, we show that an inverted repeat located between positions -1144 and -1130 relative to the icsP transcription start site is necessary for VirB-dependent derepression. The atypical location of this cis-acting site is discussed.

Published
2009

2. Transcriptomic analysis of Rhizobium leguminosarum biovar viciae in symbiosis with host plants Pisum sativum and Vicia cracca

Author

Karunakaran, R., Ramachandran, V.K., Seaman, J.C., East, A.K., Mouhsine, B., Mauchline, T.H., Prell, J., Skeffington, A., and Poole, P.S.

Subjects
DNA microarrays -- Methods, Genetic transcription -- Evaluation, Rhizobium -- Varieties, Rhizobium -- Genetic aspects, Host-bacteria relationships -- Genetic aspects, Beans -- Environmental aspects, Legumes -- Environmental aspects, Mimosaceae -- Environmental aspects, Biological sciences
Abstract

Rhizobium leguminosarum bv. viciae forms nitrogen-fixing nodules on several legumes, including pea (Pisum sativum) and vetch (Vicia cracca), and has been widely used as a model to study nodule biochemistry. To understand the complex biochemical and developmental changes undergone by R. leguminosarum bv. viciae during bacteroid development, microarray experiments were first performed with cultured bacteria grown on a variety of carbon substrates (glucose, pyruvate, succinate, inositol, acetate, and acetoacetate) and then compared to bacteroids. Bacteroid metabolism is essentially that of dicarboxylate-grown cells (i.e., induction of dicarboxylate transport, gluconeogenesis and alanine synthesis, and repression of sugar utilization). The decarboxylating arm of the tricarboxylic acid cycle is highly induced, as is [gamma]-aminobutyrate metabolism, particularly in bacteroids from early (7-day) nodules. To investigate bacteroid development, gene expression in bacteroids was analyzed at 7, 15, and 21 days postinoculation of peas. This revealed that bacterial rRNA isolated from pea, but not vetch, is extensively processed in mature bacteroids. In early development (7 days), there were large changes in the expression of regulators, exported and cell surface molecules, multidrug exporters, and heat and cold shock proteins. fix genes were induced early but continued to increase in mature bacteroids, while nif genes were induced strongly in older bacteroids. Mutation of 37 genes that were strongly upregulated in mature bacteroids revealed that none were essential for nitrogen fixation. However, screening of 3,072 mini-Tn5 mutants on peas revealed previously uncharacterized genes essential for nitrogen fixation. These encoded a potential magnesium transporter, an AAA domain protein, and proteins involved in cytochrome synthesis.

Published
2009

3. Rrp2, a [[sigma].sup.54]-dependent transcriptional activator of Borrelia burgdorferi, activates rpoS in an enhancer-independent manner

Author

Blevins, Jon S., Xu, Haijun, He, Ming, Norgard, Michael V., Reitzer, Larry, and Yang, X. Frank

Subjects
DNA binding proteins -- Properties, Genetic transcription -- Evaluation, Bacterial proteins -- Genetic aspects, Borrelia burgdorferi -- Genetic aspects, Borrelia burgdorferi -- Chemical properties, Bacteria, Pathogenic -- Genetic aspects, Bacteria, Pathogenic -- Chemical properties, Biological sciences
Abstract

Rrp2 is the sole [[sigma].sup.54]-dependent transcriptional activator present in the Borrelia burgdorferi genome. We showed that recombinant Rrp2 binds to DNA in a sequence-nonspecific manner. During infection, Rrp2 activates [[sigma].sup.54]-dependent rpoS expression without an apparent upstream enhancer element commonly associated with other [[sigma].sup.54]-dependent transcriptional activators.

Published
2009

4. Bacteriocin activity of streptococcus pneumoniae is controlled by the serine protease HtrA via posttranscriptional regulation

Author

Dawid, Suzanne, Sebert, Michael E., and Weiser, Jeffrey N.

Subjects
Bacteriocins -- Properties, Bacteriocins -- Genetic aspects, Streptococcus pneumoniae -- Chemical properties, Streptococcus pneumoniae -- Genetic aspects, Genetic transcription -- Evaluation, Proteases -- Properties, Biological sciences
Abstract

The blp locus of a type 6A strain of Streptococcus pneumoniae encodes a two-peptide bacteriocin, pneumocin MN, which mediates intraspecies competition during mouse nasopharyngeal colonization. This locus is regulated by a quorum-sensing mechanism consisting of a dedicated two-component regulatory system and a peptide pheromone. Like most clinical isolates, this type 6A strain can be separated into opaque and transparent colony variants, each playing a different role during pneumococcal infection. In this study, we show that the blp locus is differentially regulated at the posttranscriptional level in pneumococcal opacity variants. Transparent and opaque variants produce equivalent amounts of blpMNPO transcript when stimulated with a synthetic pheromone, but transparent variants have no pneumocin MN-mediated inhibitory activity while opaque variants produce large zones of inhibitory activity. The differential regulation in opacity variants is driven by the two-component regulatory system CiaRH via its regulation of the serine protease HtrA. Transparent mutants deficient in CiaH or HtrA show increased pneumocin MN-mediated inhibition. In addition, these mutants demonstrate alterations in their dose response to a synthetic peptide pheromone, suggesting that HtrA activity impacts pneumocin MN production at the level of signaling. This, in addition to its known effects on competence, suggests that HtrA is a pleiotropic regulator whose protease activity affects several important bacterial pathways. The complex regulation of pneumocins may allow the pneumococcus to reserve the secretion of active peptides for situations where the benefit of their inhibitory activity outweighs the cost of their production.

Published
2009

5. KANADI1 regulates adaxial--abaxial polarity in Arabidopsis by directly repressing the transcription of ASYMMETRIC LEAVES2

Author

Wu, Gang, Lin, Wan-ching, Huang, Tengbo, Poethig, R. Scott, Springer, Patricia S., and Kerstetter, Randall A.

Subjects
Arabidopsis -- Genetic aspects, Genes -- Properties, Genetic transcription -- Evaluation, Polarity (Biology) -- Genetic aspects, Science and technology
Abstract

Lateral organ polarity in Arabidopsis is regulated by antagonistic interactions between genes that promote either adaxial or abaxial identity, but the molecular basis of this interaction is largely unknown. We show that the adaxial regulator ASYMMETRIC LEAVES2 (AS2) is a direct target of the abaxial regulator KANADI1 (KAN1), and that KAN1 represses the transcription of AS2 in abaxial cells. Mutation of a single nucleotide in a KAN1 binding site in the AS2 promoter causes AS2 to be ectopically expressed in abaxial cells, resulting in a dominant, adaxialized phenotype. We also show that the abaxial expression of KAN1 is mediated directly or indirectly by AS2. These results demonstrate that KAN1 acts as a transcriptional repressor and that mutually repressive interactions between KAN1 and AS2 contribute to the establishment of adaxial-abaxial polarity in plants.

Published
2008

6. The transcriptome of Plasmodium vivax reveals divergence and diversity of transcriptional regulation in malaria parasites

Author

Bozdech, Zbynek, Mok, Sachel, Hu, Guangan, Imwong, Mallika, Jaidee, Anchalee, Russell, Bruce, Ginsburg, Hagai, Nosten, Francois, Day, Nicholas P.J., White, Nicholas J., Carlton, Jane M., and Preiser, Peter R.

Subjects
Parasitology -- Research, Plasmodium vivax -- Natural history, Plasmodium vivax -- Genetic aspects, Gene expression -- Evaluation, Genes -- Properties, Genetic transcription -- Evaluation, Science and technology
Abstract

Plasmodium vivax causes over 100 million clinical infections each year. Primarily because of the lack of a suitable culture system, our understanding of the biology of this parasite lags significantly behind that of the more deadly species P. falciparum. Here, we present the complete transcriptional profile throughout the 48-h intraerythrocytic cycle of three distinct P. vivax isolates. This approach identifies strain specific patterns of expression for subsets of genes predicted to encode proteins associated with virulence and host pathogen interactions. Comparison to P. falciparum revealed significant differences in the expression of genes involved in crucial cellular functions that underpin the biological differences between the two parasite species. These data provide insights into the biology of P. vivax and constitute an important resource for the development of therapeutic approaches. comparative genomics | Plasmodium falciparum

Published
2008

7. MicroRNA-directed transcriptional gene silencing in mammalian cells

Author

Kim, Daniel H., Saetrom, Pal, Snove, Ola, Jr., and Rossi, John J.

Subjects
RNA -- Properties, Gene silencing -- Research, Genetic transcription -- Evaluation, Mammals -- Genetic aspects, Science and technology
Abstract

MicroRNAs (miRNAs) regulate gene expression at the posttranscriptional level in the cytoplasm, but recent findings suggest additional roles for miRNAs in the nucleus. To address whether miRNAs might transcriptionally silence gene expression, we searched for miRNA target sites proximal to known gene transcription start sites in the human genome. One conserved miRNA, miR-320, is encoded within the promoter region of the cell cycle gene POLR3D in the antisense orientation. We provide evidence of a cis-regulatory role for miR-320 in transcriptional silencing of POLR3D expression, miR-320 directs the association of RNA interference (RNAi) protein Argonaute-1 (AGO1), Polycomb group (PcG) component EZH2, and tri-methyl histone H3 lysine 27 (H3K27me3) with the POLR3D promoter. Our results suggest the existence of an epigenetic mechanism of miRNA-directed transcriptional gene silencing (TGS) in mammalian cells. miRNA | POLR3D | RNAi | Argonaute | epigenetic

Published
2008

8. Genotype-dependent variation of mitochondrial transcriptional profiles in interpopulation hybrids

Author

Ellison, Christopher K. and Burton, Ronald S.

Subjects
Genetic transcription -- Evaluation, Genotype -- Evaluation, Mitochondrial DNA -- Properties, RNA polymerases -- Properties, Hybrid animals -- Genetic aspects, Science and technology
Abstract

Hybridization between populations can disrupt gene expression, frequently resulting in deleterious hybrid phenotypes. Reduced fitness in interpopulation hybrids of the marine copepod Tigriopus californicus has been traced to interactions between the nuclear and mitochondrial genomes. Here, we determine transcript levels of four to six genes involved in the mitochondrial oxidative phosphorylation pathway for a series of parental and inbred hybrid lines using RT-qPCR. Both nuclear and mitochondrial-encoded genes are included in the analysis. Although all genes studied are up-regulated under salinity stress, only expression of genes located on the mtDNA differed among lines. Because mitochondrial genes are transcribed by a dedicated RNA polymerase encoded in the nuclear genome, we compare transcript levels among hybrid lines with different combinations of mitochondrial RNA polymerase and mtDNA genotypes. Lines bearing certain mtDNA-mitochondrial RNA polymerase genotypic combinations show a diminished capacity to up-regulate mitochondrial genes in response to hypoosmotic stress. Effects on the transcriptional profile depend on the specific interpopulation cross and are correlated with viability effects. We hypothesize that disruption of the mitochondrial transcriptional system in F2 hybrids may play a central role in hybrid breakdown. hybrid breakdown | mitochondria | Tigriopus californicus | transcription

Published
2008

9. Regulation of the SigH stress response regulon by an essential protein kinase in Mycobacterium tuberculosis

Author

Park, Sang Tae, Kang, Choong-Min, and Husson, Robert N.

Subjects
Mycobacterium tuberculosis -- Physiological aspects, Mycobacterium tuberculosis -- Genetic aspects, Oxidative stress -- Evaluation, Genetic transcription -- Evaluation, Genetic regulation -- Evaluation, Tuberculosis -- Genetic aspects, Protein kinases -- Physiological aspects, Protein kinases -- Health aspects, Science and technology
Abstract

SigH is a key regulator of an extensive transcriptional network that responds to oxidative, nitrosative, and heat stresses in Mycobacterium tuberculosis, and this sigma factor is required for virulence in animal models of infection. SigH is negatively regulated by RshA, its cognate anti-sigma factor, which functions as a stress sensor and redox switch. While RshA provides a direct mechanism for sensing stress and activating transcription, bacteria use several types of signal transduction systems to sense the external environment. M. tuberculosis encodes several serine-threonine protein kinase signaling molecules, 2 of which, PknA and PknB, are essential and have been shown to regulate cell morphology and cell wall synthesis. In this work, we demonstrate that SigH and RshA are phosphorylated in vitro and in vivo by PknB. We show that phosphorylation of RshA, but not SigH, interferes with the interaction of these 2 proteins in vitro. Consistent with this finding, negative regulation of SigH activity by RshA in vivo is partially relieved in strains in which pknB is over-expressed, resulting in increased resistance to oxidative stress. These findings demonstrate an interaction between the signaling pathways mediated by PknB and the stress response regulon controlled by SigH. The intersection of these apparently discrete regulatory systems provides a mechanism by which limited activation of the SigH-dependent stress response in M. tuberculosis can be achieved. Coordination of the PknB and SigH regulatory pathways through phosphorylation of RshA may lead to adaptive responses that are important in the pathogenesis of M. tuberculosis infection. anti-sigma factor | sigma factor | transcription regulation | phosphorylation

Published
2008

10. Transcriptomic and genomic evolution under constant cold in Antarctic notothenioid fish

Author

Chen, Zuozhou, Cheng, C.-H. Christina, Zhang, Junfang, Cao, Lixue, Chen, Lei, Zhou, Longhai, Jin, Yudong, Ye, Hua, Deng, Cheng, Dai, Zhonghua, Xu, Qianghua, Hu, Peng, Sun, Shouhong, Shen, Yu, and Liangbiao, Chen

Subjects
Notothenioids -- Genetic aspects, Notothenioids -- Natural history, Notothenioids -- Physiological aspects, Cold adaptation -- Genetic aspects, Genetic transcription -- Evaluation, Adaptation (Physiology) -- Genetic aspects, Science and technology
Abstract

The antifreeze glycoprotein-fortified Antarctic notothenioid fishes comprise the predominant fish suborder in the isolated frigid Southern Ocean. Their ecological success undoubtedly entailed evolutionary acquisition of a full suite of cold-stable functions besides antifreeze protection. Prior studies of adaptive changes in these teleost fishes generally examined a single genotype or phenotype. We report here the genome-wide investigations of transcriptional and genomic changes associated with Antarctic notothenioid cold adaptation. We sequenced and characterized 33,560 ESTs from four tissues of the Antarctic notothenioid Dissostichus mawsoni and derived 3,114 nonredundant protein gene families and their expression profiles. Through comparative analyses of same-tissue transcriptome profiles of D. mawsoni and temperate/tropical teleost fishes, we identified 177 notothenioid protein families that were expressed many fold over the latter, indicating cold-related up-regulation. These up-regulated gene families operate in protein biosynthesis, protein folding and degradation, lipid metabolism, antioxidation, antiapoptosis, innate immunity, choriongenesis, and others, all of recognizable functional importance in mitigating stresses in freezing temperatures during notothenioid life histories. We further examined the genomic and evolutionary bases for this expressional up-regulation by comparative genomic hybridization of DNA from four pairs of Antarctic and basal non-Antarctic notothenioids to 10,700 D. mawsoni cDNA probes and discovered significant to astounding (3-to >300-fold, P < 0.05) Antarctic-specific duplications of 118 protein-coding genes, many of which correspond to the up-regulated gene families. Results of our integrative tripartite study strongly suggest that evolution under constant cold has resulted in dramatic genomic expansions of specific protein gene families, augmenting gene expression and gene functions contributing to physiological fitness of Antarctic notothenioids in freezing polar conditions. cold adaptation | comparative genomics | gene duplication | genome evolution | retrotransposon

Published
2008

11. Stress resistance and signal fidelity independent of nuclear MAPK function

Author

Westfall, Patrick J., Patterson, Jesse C., Chen, Raymond E., and Thorner, Jeremy

Subjects
Protein kinases -- Health aspects, Osmosis -- Evaluation, Glycerin -- Physiological aspects, Glycerol -- Physiological aspects, Genetic transcription -- Evaluation, Osmotic pressure -- Physiological aspects, Science and technology
Abstract

Elevated external solute stimulates a conserved MAPK cascade that elicits responses that maintain osmotic balance. The yeast high-osmolarity glycerol (HOG) pathway activates Hog1 MAPK (mammalian ortholog p38[alpha]/SAPK[alpha]), which enters the nucleus and induces expression of >50 genes, implying that transcriptional upregulation is necessary to cope with hyperosmotic stress. Contrary to this expectation, we show here that cells lacking the karyopherin required for Hog1 nuclear import or in which Hog1 is anchored at the plasma membrane (or both) can withstand longterm hyperosmotic challenge by ionic and nonionic solutes without exhibiting the normal change in transcriptional program (comparable with hog1[DELTA] cells), as judged by mRNA hybridization and microarray analysis. For such cells to survive hyperosmotic stress, systematic genetic analysis ruled out the need for any Hog1-dependent transcription factor, the Hog1-activated MAPKAP kinases, or ion, glycerol, and water channels. By contrast, enzymes needed for glycerol production were essential for viability. Thus, control of intracellular glycerol formation by Hog1 is critical for maintenance of osmotic balance but not transcriptional induction of any gene. hyperosmotic stress | mutants | protein kinase | signal transduction | yeast

Published
2008

12. Quercetin enhances epithelial, barrier function and increases claudin-4 expression in caco-2 cells

Author

Amasheh, Maren, Schlichter, Susanne, Amasheh, Salah, Mankertz, Joachim, Zeitz, Martin, Fromm, Michael, and Schulzke, Jorg D.

Subjects
Quercetin -- Health aspects, Quercetin -- Genetic aspects, Intestinal mucosa -- Properties, Intestinal mucosa -- Health aspects, Genetic transcription -- Evaluation, Food/cooking/nutrition
Abstract

Quercetin is the most abundant flavonoid and is assumed to have positive effects on the gastrointestinal mucosa after dietary intake. The aim of the study was to analyze the influence of quercetin on intestinal barrier function using the human colonic epithelial cell line Caco-2. Transepithelial resistance (Rt), tracer fluxes of [[sup.3]H]-mannitol, [sup.22][Na.sup.+], and [sup.36][Cl.sup.-] as well as electrogenic ion transport were determined in Ussing chambers. Expression of tight junction (T J) proteins and mRNA was analyzed in Western blots and quantitative RT-PCR, respectively. Regulation of transcription was analyzed by reporter gene assay. Cellular distribution of TJ proteins was examined by confocal laser scanning microscopy (LSM). Apoptotic rate was determined by terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling staining. Quercetin induced a dose-dependent increase of [R.sup.t] persisting for >2 d. Daily addition of quercetin was able to perpetuate the effect, which was seen whether quercetin was added apically or to the basolateral compartment. Parallel to the [R.sup.t] increase, quercetin induced a strong increase of the TJ protein claudin-4 but not of other claudins. Confocal LSM showed a localization of claudin-4 in TJ. Apoptotic rate was not affected by quercetin. Consistent with these changes, fluxes of [Na.sup.+] and [Cl.sup.-], but not of mannitol, were reduced. Reporter gene assays revealed a stimulatory effect of quercetin on claudin-4 transcription. The flavonoid quercetin enhances barrier function via transcriptional expression regulation of the TJ protein claudin-4, which represents an important protective effect of this food component against barrier disturbance in intestinal inflammation.

Published
2008

13. The UP element is necessary but not sufficient for growth rate-dependent control of the Escherichia coli guaB promoter

Author

Husnain, Seyyed I. and Thomas, Mark S.

Subjects
Escherichia coli -- Growth, Escherichia coli -- Genetic aspects, Genetic transcription -- Evaluation, Genetic regulation -- Evaluation, Bacterial genetics -- Research, Company growth, Biological sciences
Abstract

The Escherichia coli guaB promoter ([P.sub.guaB]) regulates the transcription of two genes, guaB and guaA, that are required for de novo synthesis of GMP, a precursor for the synthesis of guanine nucleoside triphosphates. The activity of [P.sub.guaB] is subject to growth rate-dependent control (GRDC). Here we show that the A+T-rich sequence located between positions -59 and -38 relative to the guaB transcription start site stimulates transcription from [P.sub.guaB] ~8- to 10-fold and, in common with other UP elements, requires the C-terminal domain of the RNA polymerase [alpha] subunit for activity. Like the rrnB P1 UP element, the [P.sub.guaB] UP element contains two independently acting subsites located at positions -59 to -47 and -46 to -38 and can stimulate transcription when placed upstream of the lacP1 promoter. We reveal a novel role for the [P.sub.guaB] UP element by demonstrating that it is required for GRDC. The involvement of the UP element in GRDC also requires the participation of sequences located at least 100 bp upstream of the guaB transcription start site. These sequences are required for down-regulation of [P.sub.guaB] activity at lower growth rates.

Published
2008

14. Genomic structure, transcriptional control, and tissue distribution of HERG1 and KCNQ1 genes

Author

Luo, Xiaobin, Xiao, Jiening, Lin, Huixian, Lu, Yanjie, Yang, Baofeng, and Wang, Zhiguo

Subjects
Potassium channels -- Genetic aspects, Arrhythmia -- Genetic aspects, Arrhythmia -- Development and progression, Genetic transcription -- Evaluation, Heart -- Physiological aspects, Heart -- Genetic aspects, Heart -- Health aspects, Biological sciences
Abstract

The long QT syndrome genes human ether-a-go-go-related gene (HERG1) and voltage-gated [K.sup.+] channel, KQT-like subfamily, member 1, gene (KCNQ1), encoding [K.sup.+] channels critical to the repolarization rate and repolarization reserve in cardiac cells, and thereby the likelihood of arrhythmias, are both composed of two isoforms: HERG1a and HERG1b and KCNQ1a and KCNQ1b, respectively. Expression of these genes is dynamic, depending on the differentiation status and disease states. We identified their core promoter regions and transcription start sites. Our data suggest that HERG1a and HERG1b, and KCNQ1a and KCNQ1b, represent independent transcripts instead of being alternatively spliced variants of the same gene, for they each have their own transcription start sites and their own promoter regions. We obtained data pointing to the potential role of stimulating protein 1 (Sp1) in the transactivation of these genes. We compared expression profiling of these genes across a variety of human tissues. Consistent with the general lack of cis elements for cardiac-specific transcription factors and the presence of multiple sites for ubiquitous Sp1 sites in the core promoter regions of HERG1a/HERG1b and KCNQ1a/KCNQ1b genes, the transcripts demonstrated widespread distribution across a variety of human tissues. We further revealed that the mRNA levels of all HERG1 and KCNQ1 isoforms were asymmetrically distributed within the heart, being more abundant in the right atria and ventricles relative to the left atria and ventricles. These findings open up an opportunity for studying interventricular gradients of slow and rapid delayed rectifier [K.sup.+] current and of cardiac repolarization as well. Our study might help us understand the molecular mechanisms for arrhythmias since heterogeneity of ion channel activities is an important substrate for arrhythmogenesis. potassium channels; promoter; transcription; human ether-a-go-go-related gene; voltage-gated potassium channel, KQT-like subfamily, member 1; stimulating protein 1

Published
2008

15. Specific expression of long noncoding RNAs in the mouse brain

Author

Mercer, Tim R., Dinger, Marcel E., Sunkin, Susan M., Mehler, Mark F., and Mattick, John S.

Subjects
Genomics -- Research, Neurogenetics -- Research, Genetic transcription -- Evaluation, Genomic imprinting -- Evaluation, RNA -- Properties, Brain -- Genetic aspects, Mice -- Genetic aspects, Science and technology
Abstract

A major proportion of the mammalian transcriptome comprises long RNAs that have little or no protein-coding capacity (ncRNAs). Only a handful of such transcripts have been examined in detail, and it is unknown whether this class of transcript is generally functional or merely artifact. Using in situ hybridization data from the Allen Brain Atlas, we identified 849 ncRNAs (of 1,328 examined) that are expressed in the adult mouse brain and found that the majority were associated with specific neuroanatomical regions, cell types, or subcellular compartments. Examination of their genomic context revealed that the ncRNAs were expressed from diverse places including intergenic, intronic, and imprinted loci and that many overlap with, or are transcribed antisense to, proteincoding genes of neurological importance. Comparisons between the expression profiles of ncRNAs and their associated proteincoding genes revealed complex relationships that, in combination with the specific expression profiles exhibited at both regional and subcellular levels, are inconsistent with the notion that they are transcriptional noise or artifacts of chromatin remodeling. Our results show that the majority of ncRNAs are expressed in the brain and provide strong evidence that the majority of processed transcripts with no protein-coding capacity function intrinsically as RNAs. genomics | neuroscience | transcriptomics | imprinting | subcellular

Published
2008

16. Intergenic transcription and developmental regulation of cardiac myosin heavy chain genes

Author

Haddad, Fadia, Qin, Anqi X., Bodell, Paul W., Jiang, Weihua, Giger, Julia M., and Baldwin, Kenneth M.

Subjects
Heart muscle -- Chemical properties, Myosin -- Genetic aspects, Genetic transcription -- Evaluation, Genetic regulation -- Evaluation, Biological sciences
Abstract

Cardiac myosin heavy chain (MHC) gene expression undergoes a rapid transition from [beta]- to [alpha]-MHC during early rodent neonatal development (0-21 days of age). Thyroid hormone (3,5,3'-triiodothyronine, [T.sub.3]) is a major player in this developmental shift; however, the exact mechanism underlying this transition is poorly understood. The goal of this study was to conduct a more thorough analysis of transcriptional activity of the cardiac MHC gene locus during the early postnatal period in the rodent, in order to gain further insight on the regulation of cardiac MHC genes. We analyzed the expression of ct- and [beta]-MHC at protein, mRNA, and pre-mRNA levels at birth and 7, 10, 15, and 21 days after birth in euthyroid and hypothyroid rodents. Using novel technology, we also analyzed RNA expression across the cardiac gene locus, and we discovered that the intergenic (IG) region between the two cardiac genes possesses bidirectional transcriptional activity. This IG transcription results in an antisense RNA product as described previously, which is thought to exert an inhibitory effect on [beta]-MHC gene transcription. On the second half of the IG region, sense transcription occurs, resulting in expression of a sense IG RNA that merges with the [alpha]-MHC pre-mRNA. This sense IG RNA transcription was detected in the [alpha]-MHC gene promoter, approximately -1.8 kb relative to the [alpha]-MHC transcription start site. Both sense and antisense IG RNAs were developmentally regulated and responsive to a hypothyroid state (11, 14). This novel observation provides more complexity to the cooperative regulation of the two genes, suggesting the involvement of epigenetic processes in the regulation of cardiac MHC gene locus. gene transcription; antisense RNA; pre-mRNA; thyroid hormone; reverse transcriptase-polymerase chain reaction; bidirectional promoter; epigenetic regulation; Sprague-Dawley rats

Published
2008

18. Novel plant transformation vectors containing the superpromoter (1)([OA])

Author

Lee, Lan-Ying, Kononov, Maria E., Bassuner, Burgund, Frame, Bronwyn R., Wang, Kan, and Gelvin, Stanton B.

Subjects
Corn -- Genetic aspects, Corn -- Growth, Genetic transformation -- Evaluation, Genetic transcription -- Evaluation, Plants -- Physiological aspects, Plants -- Genetic aspects, Tobacco (Plant) -- Growth, Tobacco (Plant) -- Genetic aspects, Plant physiology -- Genetic aspects, Company growth, Biological sciences, Science and technology
Published
2007

19. PRR3 is a vascular regulator of TOC1 stability in the Arabidopsis circadian clock ([W])([OA])

Author

Para, Alessia, Farre, Eva M., Imaizumi, Takato, Pruneda-Paz, Jose L., Harmon, Franklin G., and Kay, Steve A.

Subjects
Arabidopsis thaliana -- Physiological aspects, Arabidopsis thaliana -- Genetic aspects, Circadian rhythms -- Genetic aspects, Genetic transcription -- Evaluation, Post-translational modification -- Evaluation, Biological sciences, Science and technology
Published
2007

20. A feedback regulatory module formed by LITTLE ZIPPER and HD-ZIPIII genes ([W])([OA])

Author

Wenkel, Stephan, Emery, John, Hou, Bi-Huei, Evans, Matthew M.S., and Barton, M.K.

Subjects
Arabidopsis thaliana -- Genetic aspects, Arabidopsis thaliana -- Chemical properties, Arabidopsis thaliana -- Growth, Plant proteins -- Genetic aspects, Plant cellular control mechanisms -- Genetic aspects, Leaves -- Growth, Genetic transcription -- Evaluation, Company growth, Biological sciences, Science and technology
Published
2007

21. Quantitative proteomics and transcriptomics of anaerobic and aerobic yeast cultures reveals post-transcriptional regulation of key cellular processes

Author

Groot, Marco J.L. de, Daran-Lapujade, Pascale, van Breukelen, Bas, Knijnenburg, Theo A., Hulster, Erik A.F. de, Reinders, Marcel J.T., Pronk, Jack T., Heck, Albert J.R., and Slijper, Monique

Subjects
Proteomics -- Research, Genetic transcription -- Evaluation, Brewer's yeast -- Genetic aspects, Genetic regulation -- Research, Biological sciences
Abstract

Saccharomyces cerevisiae is unique among yeasts in its ability to grow rapidly in the complete absence of oxygen. S. cerevisiae is therefore an ideal eukaryotic model to study physiological adaptation to anaerobiosis. Recent transcriptome analyses have identified hundreds of genes that are transcriptionally regulated by oxygen availability but the relevance of this cellular response has not been systematically investigated at the key control level of the proteome. Therefore, the proteomic response of S. cerevisiae to anaerobiosis was investigated using metabolic stable-isotope labelling in aerobic and anaerobic glucose-limited chemostat cultures, followed by relative quantification of protein expression. Using independent replicate cultures and stringent statistical filtering, a robust dataset of 474 quantified proteins was generated, of which 249 showed differential expression levels. While some of these changes were consistent with previous transcriptome studies, many of the responses of S. cerevisiae to oxygen availability were, to our knowledge, previously unreported. Comparison of transcriptomes and proteomes from identical cultivations yielded strong evidence for post-transcriptional regulation of key cellular processes, including glycolysis, amino-acyl-tRNA synthesis, purine nucleotide synthesis and amino acid biosynthesis. The use of chemostat cultures provided well-controlled and reproducible culture conditions, which are essential for generating robust datasets at different cellular information levels. Integration of transcriptome and proteome data led to new insights into the physiology of anaerobically growing yeast that would not have been apparent from differential analyses at either the mRNA or protein level alone, thus illustrating the power of multi-level studies in yeast systems biology.

Published
2007

22. Phylogenomic analysis of the emergence of GC-rich transcription elements

Author

Khuu, Patricia, Sandor, Maurice, DeYoung, Jennifer, and Ho, P. Shing

Subjects
Genomics -- Research, DNA binding proteins -- Properties, Genetic transcription -- Evaluation, Phylogeny -- Research, Eukaryotes -- Genetic aspects, Eukaryotes -- Natural history, Science and technology
Abstract

We have applied a comparative phylogenomic analysis to study the evolutionary relationships between GC content, CpG-dinucleotide content (CpGs), potential nuclear factor I (NFI) binding sites, and potential Z-DNA forming regions (ZDRs) as representative structural and functional GC-rich genomic elements. Our analysis indicates that CpG and NFI sites emerged with a general accretion of GC-rich sequences downstream of the eukaryotic transcription start site (TSS). Two distinct classes of ZDRs are observed at different locations proximal to the eukaryotic TSS. A robust CA/TG class of ZDRs was seen to emerge upstream of the TSS and independently of GC content, CpGs, and NFIs, whereas a second, weaker CG type appears to have evolved along with these downstream GC-rich elements. Taken together, the results provide a model for how GC-rich structural and functional eukaryotic markers emerge relative to each other, and indicate two distinct transition points for their occurrence: the first at the pro/eukaryotic boundary, and the second at or near the amniotic boundary. evolution | genomic analysis | Z-DNA

Published
2007

23. SALT TOLERANCE HOMOLOG2, a B-Box protein in Arabidopsis that activates transcription and positively regulates light-mediated development ([W])

Author

Datta, Sourav, Hettiarachchi, Chamari, Johansson, Henrik, and Holm, Magnus

Subjects
Halophytes -- Genetic aspects, Halophytes -- Physiological aspects, Arabidopsis thaliana -- Physiological aspects, Arabidopsis thaliana -- Genetic aspects, Genetic transcription -- Evaluation, Plants -- Photorespiration, Plants -- Evaluation, Plants -- Genetic aspects, Biological sciences, Science and technology
Published
2007

24. Global transcriptional responses to cisplatin in Dictyostelium discoideum identify potential drug targets

Author

Van Driessche, Nancy, Alexander, Hannah, Min, Junxia, Kuspa, Adam, Alexander, Stephen, and Shaulsky, Gad

Subjects
Cisplatin -- Physiological aspects, Dictyostelium -- Genetic aspects, Dictyostelium -- Physiological aspects, Drug resistance -- Genetic aspects, Genetic transcription -- Evaluation, Science and technology
Abstract

Dictyostelium discoideum is a useful model for studying mechanisms of cisplatin drug sensitivity. Our previous findings, that mutations in sphingolipid metabolism genes confer cisplatin resistance in D. discoideum and in human cells, raised interest in the resistance mechanisms and their implications for cisplatin chemotherapy. Here we used expression microarrays to monitor physiological changes and to identify pathways that are affected by cisplatin treatment of D. discoideum. We found >400 genes whose regulation was altered by cisplatin treatment of wild-type cells, including groups of genes that participate in cell proliferation and in nucleotide and protein metabolism, showing that the cisplatin response is orderly and multifaceted. Transcriptional profiling of two isogenic cisplatin-resistant mutants, impaired in different sphingolipid metabolism steps, showed that the effect of cisplatin treatment was greater than the effect of the mutations, indicating that cisplatin resistance in the mutants is due to specific abilities to overcome the drug effects rather than to general drug insensitivity. Nevertheless, the mutants exhibited significantly different responses to cisplatin compared with the parent, and >200 genes accounted for that difference. Mutations in five cisplatin response genes (sgkB, csbA, acbA, sm1A, and atg8) resulted in altered drug sensitivity, implicating novel pathways in cisplatin response. Our data illustrate how modeling complex cellular responses to drugs in genetically stable and tractable systems can uncover new targets with the potential for improving chemotherapy. drug resistance | sphingolipids | sphingosine kinase | sphingosine-1-phosphate lyase | transcriptional profiling

Published
2007

25. The E-protein Tcf4 interacts with Math1 to regulate differentiation of a specific subset of neuronal progenitors

Author

Flora, Adriano, Garcia, Jesus J., Thaller, Christina, and Zoghbi, Huda Y.

Subjects
Genetic regulation -- Evaluation, Genetic transcription -- Evaluation, Nervous system -- Genetic aspects, Nervous system -- Evaluation, DNA binding proteins -- Physiological aspects, DNA binding proteins -- Properties, Genetic code -- Evaluation, Science and technology
Abstract

Proneural factors represent basic helix-loop-helix | mental retardation | neural development proneural

Published
2007

26. Orphan nuclear receptor TLX recruits histone deacetylases to repress transcription and regulate neural stem cell proliferation

Author

Sun, GuoQiang, Yu, Ruth T., Evans, Ronald M., and Shi, Yanhong

Subjects
DNA binding proteins -- Physiological aspects, Stem cells -- Evaluation, Histones -- Physiological aspects, Histones -- Genetic aspects, Cellular control mechanisms -- Evaluation, Genetic transcription -- Evaluation, Genetic regulation -- Evaluation, Cell proliferation -- Evaluation, Science and technology
Abstract

TLX is a transcription factor that is essential for neural stem cell proliferation and self-renewal. However, the molecular mechanism of TLX-mediated neural stem cell proliferation and self-renewal is largely unknown. We show here that TLX recruits histone deacetylases (HDACs) to its downstream target genes to repress their transcription, which in turn regulates neural stern cell proliferation. TLX interacts with HDAC3 and HDAC5 in neural stem cells. The HDACS-interaction domain was mapped to TLX residues 359-385, which contains a conserved nuclear receptor-coregulator interaction motif IXXLL. Both HDAC3 and HDAC5 have been shown to be recruited to the promoters of TLX target genes along with TLX in neural stem cells. Recruitment of HDACs led to transcriptional repression of TLX target genes, the cyclin-dependent kinase inhibitor, [p21.sup.CIP1/WAF1](p21), and the tumor suppressor gene, pten. Either inhibition of HDAC activity or knockdown of HDAC expression led to marked induction of p21 and pten gene expression and dramatically reduced neural stem cell proliferation, suggesting that the TLX-interacting HDACs play an important role in neural stem cell proliferation. Moreover, expression of a TLX peptide containing the minimal HDAC5 interaction domain disrupted the TLX-HDAC5 interaction. Disruption of this interaction led to significant induction of p21 and pten gene expression and to dramatic inhibition of neural stem cell proliferation. Taken together, these findings demonstrate a mechanism for neural stem cell proliferation through transcriptional repression of p21 and pten gene expression by TLX-HDAC interactions. coregulators | NR2E1 | self-renewal

Published
2007

27. Dual-specificity splice sites function alternatively as 5' and 3' splice sites

Author

Zhang, Chaolin, Hastings, Michelle L., Krainer, Adrian R., and Zhang, Michael Q.

Subjects
Genetic engineering -- Evaluation, Genetic engineering -- Methods, Genetic transcription -- Evaluation, Genetic regulation -- Research, Science and technology
Abstract

As a result of large-scale sequencing projects and recent splicing-microarray studies, estimates of mammalian genes expressing multiple transcripts continue to increase. This expansion of transcript information makes it possible to better characterize alternative splicing events and gain insights into splicing mechanisms and regulation. Here, we describe a class of splice sites that we call dual-specificity splice sites, which we identified through genome-wide, high-quality alignment of mRNA/EST and genome sequences and experimentally verified by RT-PCR. These splice sites can be alternatively recognized as either 5' or 3' splice sites, and the dual splicing is conceptually similar to a pair of mutually exclusive exons separated by a zero-length intron. The dual-splice-site sequences are essentially a composite of canonical 5' and 3' splice-site consensus sequences, with a CAG|GURAG core. The relative use of a dual site as a 5' or 3' splice site can be accurately predicted by assuming competition for specific binding between spliceosomal components involved in recognition of 5' and 3' splice sites, respectively. Dual-specificity splice sites exist in human and mouse, and possibly in other vertebrate species, although most sites are not conserved, suggesting that their origin is recent. We discuss the implications of this unusual splicing pattern for the diverse mechanisms of exon recognition and for gene evolution. alternative splicing | competition | mRNA/EST

Published
2007

28. TRRAP and GCN5 are used by c-Myc to activate RNA polymerase III transcription

Author

Kenneth, Niall S., Ramsbottom, Ben A., Gomez-Roman, Natividad, Marshall, Lynne, Cole, Philip A., and White, Robert J.

Subjects
RNA polymerases -- Physiological aspects, Genetic transcription -- Evaluation, Histones -- Physiological aspects, Post-translational modification -- Evaluation, Acylation -- Influence, Acylation -- Physiological aspects, Science and technology
Abstract

Activation of RNA polymerase (pol) II transcription by c-Myc generally involves recruitment of histone acetyltransferases and acetylation of histones H3 and H4. Here, we describe the mechanism used by c-Myc to activate pol III transcription of tRNA and 5S rRNA genes. Within 2 h of its induction, c-Myc appears at these genes along with the histone acetyltransferase GCN5 and the cofactor TRRAP. At the same time, occupancy of the pol Ill-specific factor TFIIIB increases and histone H3 becomes hyperacetylated, but increased histone H4 acetylation is not detected at these genes. The rapid acetylation of histone H3 and promoter assembly of TFIIIB, c-Myc, GCN5, and TRRAP are followed by recruitment of pol III and transcriptional induction. The selective acetylation of histone H3 distinguishes pol III activation by c-Myc from mechanisms observed in other systems. acetyltransferase | chromatin | histone | TFIIIB | TFIIIC

Published
2007

29. Mei4p coordinates the onset of meiosis I by regulating cdc[25.sup.+] in fission yeast

Author

Murakami-Tonami, Yuko, Yamada-Namikawa, Chisato, Tochigi, Akiko, Hasegawa, Norio, Kojima, Hisae, Kunimatsu, Mitoshi, Nakanishi, Makoto, and Murakami, Hiroshi

Subjects
DNA binding proteins -- Physiological aspects, Meiosis -- Evaluation, Cyclic adenylic acid -- Physiological aspects, Protein kinases -- Physiological aspects, Genetic transcription -- Evaluation, Cyclic adenosine monophosphate response element-binding protein -- Physiological aspects, Science and technology
Abstract

The kinase Cdc2p is a central regulator of entry into and progression through nuclear division during mitosis and meiosis in eukaryotes. Cdc2p is activated at the onset of mitosis by dephosphorylation on tyrosine-15, the phosphorylation status of which is determined mainly by the kinase Weelp and the phosphatase Cdc25p. In fission yeast, the forkhead-type transcription factor Mei4p is required for expression of many genes during meiosis, with mei4 mutant cells arresting before meiosis I. The mechanism of cell cycle arrest in mei4 cells has remained unknown, however. We now show that cdc2[5.sup.+] is an important target of Mei4p in control of entry into meiosis I. Forced dephosphorylation of Cdc2p on tyrosine-15 thus induced meiosis I in mei4 mutant cells without a delay, although no spores were formed. We propose that Mei4p acts as a rate-limiting regulator of meiosis I by activating cdc2[5.sup.+] transcription in coordination with other meiotic events. cell cycle | transcription

Published
2007

30. Analysis of potential transcriptomic biomarkers for Huntington's disease in peripheral blood

Author

Runne, Heike, Kuhn, Alexandre, Wild, Edward J., Pratyaksha, Wirahpati, Kristiansen, Mark, Isaacs, Jeremy D., Regulier, Etienne, Delorenzi, Mauro, Tabrizi, Sarah J., and Luthi-Carter, Ruth

Subjects
Huntington's chorea -- Genetic aspects, Huntington's chorea -- Diagnosis, Genetic markers -- Chemical properties, Genetic markers -- Physiological aspects, Genetic transcription -- Evaluation, Messenger RNA -- Evaluation, Diagnosis -- Research, Science and technology
Abstract

Highly quantitative biomarkers of neurodegenerative disease remain an important need in the urgent quest for disease-modifying therapies. For Huntington's disease (HD), a genetic test is available (trait marker), but necessary state markers are still in development. In this report, we describe a large battery of transcriptomic tests explored as state biomarker candidates. In an attempt to exploit the known neuroinflammatory and transcriptional perturbations of disease, we measured relevant mRNAs in peripheral blood cells. The performance of these potential markers was weak overall, with only one mRNA, immediate early response 3 (IER3), showing a modest but significant increase of 32% in HD samples compared with controls. No statistically significant differences were found for any other mRNAs tested, including a panel of 12 RNA biomarkers identified in a previous report [Borovecki F, Lovrecic L, Zhou J, Jeong H, Then F, Rosas HD, Hersch SM, Hogarth P, Bouzou B, Jensen RV, et al. (2005) Proc Natl Acad Sci USA 102:11023-11028]. The present results may nonetheless inform the future design and testing of HD biomarker strategies. state biomarker | RNA biomarker | gene expression profiling | polyglutamine disease | neurodegenerative disease

Published
2007

31. Structure of the Cyclin T binding domain of Hexim1 and molecular basis for its recognition of P-TEFb

Author

Dames, Sonja A., Schonichen, Andre, Schulte, Antje, Barboric, Matjaz, Peterlin, B. Matija, Grzesiek, Stephan, and Geyer, Matthias

Subjects
Cellular proteins -- Genetic aspects, RNA polymerases -- Physiological aspects, DNA binding proteins -- Chemical properties, DNA binding proteins -- Physiological aspects, Genetic transcription -- Evaluation, Science and technology
Abstract

Hexim1 is a cellular protein that associates with the positive transcription elongation factor b (P-TEFb) to regulate RNA polymerase II elongation of nascent mRNA transcripts. It directly binds to Cyclin T1 of P-TEFb and inhibits the kinase activity of Cdk9, leading to an arrest of transcription elongation. Here, we report the solution structure of the Cyclin T binding domain (TBD) of Hexim1 that forms a parallel coiled-coil homodimer composed of two segments and a preceding alpha helix that folds back onto the first coiled-coil unit. NMR titration, fluorescence, and immunoprecipitation experiments revealed the binding interface to Cyclin T1, which covers a large surface on the first coiled-coil segment. Electrostatic interactions between an acidic patch on Hexim1 and positively charged residues of Cyclin T1 drive the complex formation that is confirmed by mutagenesis data on Hexim1 mediated transcription regulation in cells. Thus, our studies provide structural insights how Hexim1 recognizes the Cyclin T1 subunit of P-TEFb, which is a key step toward the regulation of transcription elongation. Cyclin T1 | NMR spectroscopy | transcription elongation

Published
2007

32. Evidence that the localization of the elongation factor Spt16 across transcribed genes is dependent upon histone H3 integrity in Saccharomyces cerevisiae

Author

Duina, Andrea A., Rufiange, Anne, Bracey, John, Hall, Jeffrey, Nourani, Amine, and Winston, Fred

Subjects
Genetic transcription -- Evaluation, Histones -- Influence, Brewer's yeast -- Genetic aspects, Biological sciences
Abstract

A previous study of histone H3 in Saccharomyces cerevisiae identified a mutant with a single amino acid change, leucine 61 to tryptophan, that confers several transcriptional defects. We now present several lines of evidence that this H3 mutant, H3-L61W, is impaired at the level of transcription elongation, likely by altered interactions with the conserved factor Spt16, a subunit of the transcription elongation complex yFACT. First, a selection for suppressors of the H3-L61W cold-sensitive phenotype has identified novel mutations in the gene encoding Spt16. These genetic interactions are allele specific, suggesting a direct interaction between H3 and Spt16. Second, similar to several other elongation and chromatin mutants, including spt16 mutants, an H3-L61W mutant allows transcription from a cryptic promoter within the FLO8 coding region. Finally, chromatin-immunoprecipitation experiments show that in an H3-L61W mutant there is a dramatically altered profile of Spt16 association over transcribed regions, with reduced levels over 5'-coding regions and elevated levels over the 3' regions. Taken together, these and other results provide strong evidence that the integrity of histone H3 is crucial for ensuring proper distribution of Spt16 across transcribed genes and suggest a model for the mechanism by which Spt16 normally dissociates from DNA following transcription.

Published
2007

33. A SAGA-independent function of SPT3 mediates transcriptional deregulation in a mutant of the Ccr4-Not complex in Saccharomyces cerevisiae

Author

James, Nicole, Landrieux, Emilie, and Collart, Martine A.

Subjects
Brewer's yeast -- Genetic aspects, Genetic transcription -- Evaluation, Gene mutations -- Research, Biological sciences
Abstract

The conserved multi-subunit Ccr4-Not complex regulates gene expression in diverse ways. In this work, we characterize the suppression of temperature sensitivity associated with a mutation in the gene encoding the scaffold subunit of the Ccr4-Not complex, NOT1, by the deletion of SPT3. We determine that the deletion of SPT3, but not the deletion of genes encoding other subunits of the SAGA complex, globally suppresses transcriptional defects of not1-2. We find that transcriptional activation in not1-2 is associated with increased binding of TFIID and SAGA at promoters of upregulated genes, and this is suppressed by the deletion of SPT3. Interestingly, Spt3p-dependent activation of transcription occurs in not1-2 even if the SAGA complex is disrupted by the deletion of SPT7 that encodes a subunit of SAGA required for its integrity. Consistent with a SAGA-independent function of Spt3p, the deletion of SPT3 displays synthetic phenotypes when combined with a deletion of SPT7 Taken together, our results provide a new view of the Spt3 protein by identifying a SAGA-independent function of this protein that is functionally linked to the Ccr4-Not complex.

Published
2007

34. How gene order is influenced by the biophysics of transcription regulation

Author

Kolesov, Grigory, Wunderlicht, Zeba, Laikova, Olga N., Gelfand, Mikhail S., and Mirny, Leonid A.

Subjects
Genomes -- Evaluation, Genetic code -- Evaluation, DNA binding proteins -- Evaluation, Genetic regulation -- Influence, Genetic transcription -- Evaluation, Science and technology
Abstract

What are the forces that shape the structure of prokaryotic genomes: the order of genes, their proximity, and their orientation? Coregulation and coordinated horizontal gene transfer are believed to promote the proximity of functionally related genes and the formation of operons. However, forces that influence the structure of the genome beyond the level of a single operon remain unknown. Here, we show that the biophysical mechanism by which regulatory proteins search for their sites on DNA can impose constraints on genome structure. Using simulations, we demonstrate that rapid and reliable gene regulation requires that the transcription factor (TF) gene be close to the site on DNA the TF has to bind, thus promoting the colocalization of TF genes and their targets on the genome. We use parameters that have been measured in recent experiments to estimate the relevant length and times scales of this process and demonstrate that the search for a cognate site may be prohibitively slow if a TF has a low copy number and is not colocalized. We also analyze TFs and their sites in a number of bacterial genomes, confirm that they are colocalized significantly more often than expected, and show that this observation cannot be attributed to the pressure for coregulation or formation of selfish gene clusters, thus supporting the role of the biophysical constraint in shaping the structure of prokaryotic genomes. Our results demonstrate how spatial organization can influence timing and noise in gene expression. diffusion | genetics | genomics | protein-DNA interactions | spatial effects

Published
2007

35. DNA transposition target immunity and the determinants of the MuB distribution patterns on DNA

Author

Tan, Xin, Mizuuchi, Michiyo, and Mizuuchi, Kiyoshi

Subjects
Cyclic adenosine monophosphate response element-binding protein -- Physiological aspects, Genetic transcription -- Evaluation, Immunity -- Genetic aspects, Polymers -- Chemical properties, Genetic recombination -- Evaluation, Science and technology
Abstract

MuB, an ATP-dependent DNA-binding protein, is critical for the selection of target sites on the host chromosome during the phage Mu transposition. We developed a multichannel fluidic system to study the MuB-DNA interaction dynamics at the single DNA molecule level by total internal reflection fluorescence microscopy. We analyzed the distribution of MuB along DNA during the assembly and disassembly of MuB polymers on immobilized DNA molecules. The results reveal the absence of a significant correlation of MuB polymer distribution between the assembly and disassembly phases. These observations argue against a model in which MuB polymers on DNA represent a mixture of higher and lower affinity forms, with higher affinity forms being the first to appear and the last to disappear. Instead, assembly and disassembly of MuB polymers involve independent stochastic events. Additionally, we demonstrate that MuB disassembles from the polymer ends at a higher rate than from internal regions of the polymer and MuA stimulates MuB disassembly both at the polymer ends and internally. phage Mu | recombination | DNA-binding protein | biomolecular patterning

Published
2007

36. Mechanism of and requirement for estrogen-regulated MYB expression in estrogen-receptor-positive breast cancer cells

Author

Drabsch, Yvette, Hugo, Honor, Zhang, Rui, Dowhan, Dennis H., Miao, Yu Rebecca, Gewirtz, Alan M., Barry, Simon C., Ramsay, Robert G., and Gonda, Thomas J.

Subjects
Breast tumors -- Genetic aspects, Genetic regulation -- Evaluation, Cell proliferation -- Evaluation, Genetic transcription -- Evaluation, Estrogen -- Receptors, Estrogen -- Genetic aspects, Science and technology
Abstract

MYB (the human ortholog of c-myb) is expressed in a high proportion of human breast tumors, and that expression correlates strongly with estrogen receptor (ER) positivity. This may reflect the fact that MYB is a target of estrogen/ER signaling. Because in many cases MYB expression appears to be regulated by transcriptional attenuation or pausing in the first intron, we first investigated whether this mechanism was involved in estrogen/ER modulation of MYB. We found that this was the case and that estrogen acted directly to relieve attenuation due to sequences within the first intron, specifically, a region potentially capable of forming a stem-loop structure in the transcript and an adjacent poly(dT) tract. Secondly, given the involvement of MYB in hematopoietic and colon tumors, we also asked whether MYB was required for the proliferation of breast cancer cells. We found that proliferation of [ER.sup.+] but not [ER.sup.-] breast cancer cell lines was inhibited when MYB expression was suppressed by using either antisense oligo-nucleotides or RNA interference. Our results show that MYB is an effector of estrogen/ER signaling and provide demonstration of a functional role of MYB in breast cancer. antisense | cell cycle | proliferation | short hairpin RNA | transcriptional attenuation

Published
2007

37. Conserved P-TEFb-interacting domain of BRD4 inhibits HIV transcription

Author

Bisgrove, Dwayne A., Mahmoudi, Tokameh, Henklein, Peter, and Verdin, Eric

Subjects
Genetic code -- Evaluation, Cellular proteins -- Chemical properties, Cellular proteins -- Physiological aspects, HIV (Viruses) -- Genetic aspects, Genetic transcription -- Evaluation, Cyclic adenylic acid -- Physiological aspects, Protein kinases -- Physiological aspects, DNA binding proteins -- Chemical properties, DNA binding proteins -- Physiological aspects, Science and technology
Abstract

We have identified a conserved region in the C-terminal domain of bromodomain-containing protein 4 (BRD4) that mediates its specific interaction with positive transcription elongation factor b (P-TEFb). This domain is highly conserved in testis-specific bromo-domain protein (BRDT) and Drosophila fs(1)h. Both BRDT and fs(1)h specifically interact with P-TEFb in mammalian cells, and this interaction depends on their C-terminal domains. Overexpression of the BRD4 P-TEFb-interacting domain disrupts the interaction between the HIV transactivator Tat and P-TEFb and suppresses the ability of Tat to transactivate the HIV promoter. Incubation of cells with a synthetic peptide containing the C-terminal domain of BRD4 interferes with transactivation of the HIV promoter by the Tat protein. cyclin-dependent kinase 9

Published
2007

38. LIM-homeodomain proteins Lhxl and Lhx5, and their cofactor Ldb1, control Purkinje cell differentiation in the developing cerebellum

Author

Zhao, Yangu, Kwan, Kin-Ming, Mailloux, Christina M., Lee, Woon-Kyu, Grinberg, Alexander, Wurst, Wolfgang, Behringer, Richard R., and Westphal, Heiner

Subjects
Purkinje cells -- Chemical properties, Purkinje cells -- Genetic aspects, Neural circuitry -- Evaluation, Cerebellum -- Evaluation, Cell differentiation -- Evaluation, Genetic transcription -- Evaluation, Science and technology
Abstract

Purkinje cells are one of the major types of neurons that form the neural circuitry in the cerebellum essential for fine control of movement and posture. During development, Purkinje cells also are critically involved in the regulation of proliferation of progenitors of granule cells, the other major type of neurons in the cerebellum. The process that controls differentiation of Purkinje cells from their early precursors is poorly understood. Here we report that two closely related LIM-homeobox genes, Lhx1 and Lhx5, were expressed in the developing Purkinje cells soon after they exited the cell cycle and migrated out of the cerebellar ventricular zone. Double-mutant mice lacking function of both Lhx1 and Lhx5 showed a severe reduction in the number of Purkinje cells. In addition, targeted inactivation of Ldb1, which encodes a cofactor for all LIM-homeodomain proteins, resulted in a similar phenotype. Our studies thus provide evidence that these transcription regulators are essential for controlling Purkinje cell differentiation in the developing mammalian cerebellum. CNS | development | embryo | mouse | transcription

Published
2007

39. HIPK2 represses [beta]-catenin-mediated transcription, epidermal stem cell expansion, and skin tumorigenesis

Author

Wei, Guangwei, Ku, Stephen, Ma, Gene K., Saito, Shin'ichi, Tang, Amy A., Zhang, Jiasheng, Mao, Jian-Hua, Appella, Ettore, Balmain, Allan, and Huang, Eric J.

Subjects
Genetic transcription -- Evaluation, Cell proliferation -- Evaluation, Protein kinases -- Physiological aspects, Protein kinases -- Genetic aspects, Stem cells -- Genetic aspects, Tumor suppressor genes -- Physiological aspects, Tumors -- Prevention, Science and technology
Abstract

Transcriptional control by [beta]-catenin and lymphoid enhancer-binding factor 1 (LEF1)/T cell factor regulates proliferation in stem cells and tumorigenesis. Here we provide evidence that transcriptional corepressor homeodomain interacting protein kinase 2 (HIPK2) controls the number of stem and progenitor cells in the skin and the susceptibility to develop squamous cell carcinoma. Loss of HIPK2 leads to increased proliferative potential, more rapid [G.sub.1]-S transition in cell cycle, and expansion of the epidermal stem cell compartment. Among the critical regulators of [G.sub.1]-S transition in the cell cycle, only cyclin D1 is selectively up-regulated in cells lacking HIPK2. Conversely, overexpression of HIPK2 suppresses LEF1/[beta]-catenin-mediated transcriptional activation of cyclin D1 expression. However, deletion of the C-terminal YH domain of HIPK2 completely abolishes its ability to recruit another transcriptional corepressor CtBP and suppress LEF1/ [beta]-catenin-mediated transcription. To determine whether loss of HIPK2 leads to increased susceptibility to tumorigenesis, we treat wild-type, Hipk[2.sup.+/-], and Hipk[2.sup.-/-] mice with the two-stage carcinogenesis protocol. Our results indicate that more skin tumors are induced in Hipk[2.sup.+/-] and Hipk[2.sup.-/-] mutants, with most of the tumors showing shortened incubation time and malignant progression. Together, our results indicate that HIPK2 is a tumor suppressor that controls proliferation by antagonizing LEF1/[beta]-catenin-mediated transcription. Loss of HIPK2 synergizes with activation of H-ras to induce tumorigenesis. cell cycle | proliferation | Wnt | corepressor

Published
2007

40. Distinct roles of E2F proteins in vascular smooth muscle cell proliferation and intimal hyperplasia

Author

Giangrande, Paloma H., Zhangt, JianXin, Tanner, Alice, Eckhart, Andrea D., Rempel, Rachel E., Andrechek, Eran R., Layzer, Juliana M., Keys, Janelle R., Hagen, Per-Otto, Nevins, Joseph R., Koch, Walter J., and Sullenger, Bruce A.

Subjects
Hyperplasia -- Physiological aspects, Stenosis -- Physiological aspects, Vascular smooth muscle -- Evaluation, DNA binding proteins -- Physiological aspects, Genetic transcription -- Evaluation, Cell proliferation -- Evaluation, Science and technology
Abstract

Intimal hyperplasia (IH) and restenosis limit the long-term utility of bypass surgery and angioplasty due to pathological proliferation and migration of vascular smooth muscle cells (VSMCs) into the intima of treated vessels. Consequently, much attention has been focused on developing inhibitory agents that reduce this pathogenic process. The E2F transcription factors are key cell cycle regulators that play important roles in modulating cell proliferation and cell fate. Nonselective E2F inhibitors have thus been extensively evaluated for this purpose. Surprisingly, these E2F inhibitors have failed to reduce IH. These findings prompted us to evaluate the roles of different E2Fs during IH to determine how selective targeting of E2F isoforms impacts VSMC proliferation. Importantly, we show that E2F3 promotes proliferation of VSMCs leading to increased IH, whereas E2F4 inhibits this pathological response. Furthermore, we use RNA probes to show that selective inhibition of E2F3, not global inhibition of E2F activity, significantly reduces VSMC proliferation and limits IH in murine bypass grafts. cell cycle | RNA therapeutics

Published
2007

41. Phenotypic and transcriptomic changes associated with potato autopolyploidization

Author

Stupar, Robert M., Bhaskar, Pudota B., Yandell, Brian S., Rensink, Willem A., Hart, Amy L., Ouyang, Shu, Veilleux, Richard E., Busse, James S., Erhardt, Robert J., Buell, C. Robin, and Jiang, Jiming

Subjects
Genetic transcription -- Evaluation, Phenotype -- Properties, Autopolyploidy -- Research, Potatoes -- Genetic aspects, Biological sciences
Abstract

Polyploidy is remarkably common in the plant kingdom and polyploidization is a major driving force for plant genome evolution. Polyploids may contain genomes from different parental species (allopolyploidy) or include multiple sets of the same genome (autopolyploidy). Genetic and epigenetic changes associated with allopolyploidization have been a major research subject in recent years. However, we know little about the genetic impact imposed by autopolyploidization. We developed a synthetic autopolyploid series in potato (Solanum phureja) that includes one monoploid (1x) clone, two diploid (2x) clones, and one tetraploid (4x) clone. Cell size and organ thickness were positively correlated with the ploidy level. However, the 2x plants were generally the most vigorous and the lx plants exhibited less vigor compared to the 2x and 4x individuals. We analyzed the transcriptomic variation associated with this autopolyploid series using a potato cDNA microarray containing ~9000 genes. Statistically significant expression changes were observed among the ploidies for ~10% of the genes in both leaflet and root tip tissues. However, most changes were associated with the monoploid and were within the twofold level. Thus, alteration of pioidy caused subtle expression changes of a substantial percentage of genes in the potato genome. We demonstrated that there are few genes, if any, whose expression is linearly correlated with the ploidy and can be dramatically changed because of ploidy alteration.

Published
2007

42. RPA and ATR link transcriptional stress to p53

Author

Derheimer, Frederick A., O'Hagan, Heather M., Krueger, Heather M., Hanasoge, Sheela, Paulsen, Michelle T., and Ljungman, Mats

Subjects
DNA damage -- Physiological aspects, Tumor suppressor genes -- Chemical properties, DNA binding proteins -- Chemical properties, DNA binding proteins -- Physiological aspects, Genetic transcription -- Evaluation, Science and technology
Abstract

The mechanisms by which DNA-damaging agents trigger the induction of the stress response protein p53 are poorly understood but may involve alterations of chromatin structure or blockage of either transcription or replication. Here we show that transcription-blocking agents can induce phosphorylation of the Ser-15 site of p53 in a replication-independent manner. Furthermore, microinjection of anti-RNA polymerase II antibodies into the nuclei of cells showed that blockage of transcription is sufficient for p53 accumulation even in the absence of DNA damage. This induction of p53 occurs by two independent mechanisms. First, accumulation of p53 is linked to diminished nuclear export of mRNA; and second, inhibition specifically of elongating RNA polymerase II complexes results in the phosphorylation of the Ser-15 site of p53 in a replication protein A (RPA)- and ATM and Rad3-related (ATR)-dependent manner. We propose that this transcription-based stress response involving RPA, ATR, and p53 has evolved as a DNA damage-sensing mechanism to safeguard cells against DNA damage-induced mutagenesis. antibody microinjection | DNA damage response | RNA polymerase II | nuclear export | phosphorylation

Published
2007

43. Combinatorial promoter design for engineering noisy gene expression

Author

Murphy, Kevin F., Balazsi, Gabor, and Collins, James J.

Subjects
Gene expression -- Models, Gene expression -- Evaluation, Brewer's yeast -- Genetic aspects, Genetic transcription -- Evaluation, Genetic regulation -- Evaluation, Genetic research -- Methods, Science and technology
Abstract

Understanding the behavior of basic biomolecular components as parts of larger systems is one of the goals of the developing field of synthetic biology. A multidisciplinary approach, involving mathematical and computational modeling in parallel with experimentation, is often crucial for gaining such insights and improving the efficiency of artificial gene network design. Here we used such an approach and developed a combinatorial promoter design strategy to characterize how the position and multiplicity of [tetO.sub.2] operator sites within the GAL1 promoter affect gene expression levels and gene expression noise in Saccharomyces cerevisiae. We observed stronger transcriptional repression and higher gene expression noise as a single operator site was moved closer to the TATA box, whereas for multiple operator-containing promoters, we found that the position and number of operator sites together determined the dose-response curve and gene expression noise. We developed a generic computational model that captured the experimentally observed differences for each of the promoters, and more detailed models to successively predict the behavior of multiple operator-containing promoters from single operator-containing promoters. Our results suggest that the independent binding of single repressors is not sufficient to explain the more complex behavior of the multiple operator-containing promoters. Taken together, our findings highlight the importance of joint experimental-computational efforts and some of the challenges of using a bottom-up approach based on well characterized, isolated biomolecular components for predicting the behavior of complex, synthetic gene networks, e.g., the whole can be different from the sum of its parts. combinatorial design | mathematical modeling | promoter engineering stochastic gene expression | synthetic biology

Published
2007

44. Probing nucleation, reverse annealing, and chaperone function along the reaction path of HIV-1 single-strand transfer

Author

Zeng, Yining, Liu, Hsiao-Wei, Landes, Christy F., Kim, Yoen Joo, Ma, Xiaojing, Zhu, Yongjin, Musier-Forsyth, Karin, and Barbara, Paul F.

Subjects
Genetic transcription -- Evaluation, HIV (Viruses) -- Genetic aspects, Nucleoproteins -- Chemical properties, Nucleoproteins -- Genetic aspects, Fluorescence spectroscopy -- Usage, Science and technology
Abstract

Reverse transcription of the HIV-1 genome involves several nucleic acid rearrangement steps that are catalyzed (chaperoned) by the nucleocapsid protein (NC), including the annealing of the transactivation response region (TAR) RNA of the genome to the complementary sequence (TAR DNA) in minus-strand strong-stop DNA. It has been extremely challenging to obtain unambiguous mechanistic details on the annealing process at the molecular level because of the kinetic involvement of a complex and heterogeneous set of nucleic acid/protein complexes of variable structure and variable composition. Here, we investigate the in vitro annealing mechanism using a multistep single-molecule spectroscopy kinetic method. In this approach, an immobilized hairpin is exposed to a multistep programmed concentration sequence of NC, model complementary targeted-oligonucleotides, and buffer-only solutions. The sequence controllably 'drags' single immobilized TAR hairpins among the kinetic stable states of the reaction mechanism; i.e., reactants, intermediates, and products. This single-molecule spectroscopy method directly probes kinetic reversibility and the chaperone (catalytic) role of NC at various stages along the reaction sequence, giving access to previously inaccessible kinetic processes and rate constants. By employing target oligonucleotides for specific TAR regions, we kinetically trap and investigate structural models for putative nucleation complexes for the annealing process. The new results lead to a more complete and detailed understanding of the ability of NC to promote nucleic acid/nucleic acid rearrangement processes. This includes information on the ability of NC to chaperone 'reverse annealing' in single-strand transfer and the first observation of partially annealed, conformational substates in the annealing mechanism. HIV-1 nucleocapsid protein | transactivation response element

Published
2007

45. Phosphorylation-mediated inactivation of coactivator-associated arginine methyltransferase 1

Author

Higashimoto, Ken, Kuhn, Peter, Desai, Dhaval, Cheng, Xiaodong, and Xu, Wei

Subjects
Arginine -- Physiological aspects, Arginine -- Genetic aspects, Methyltransferases -- Physiological aspects, Methyltransferases -- Genetic aspects, Genetic transcription -- Evaluation, Phosphorylation -- Physiological aspects, Estrogen -- Receptors, Estrogen -- Genetic aspects, Science and technology
Abstract

Multiple protein arginine methyltransferases are involved in transcriptional activation of nuclear receptors. Coactivator-associated arginine methyltransferase 1 (CARM1)-mediated histone methylation has been shown to activate nuclear receptor-dependent transcription; however, little is known about the regulation of its enzymatic activity. Here, we report that the methyltransferase activity of CARM1 is negatively regulated through phosphorylation at a conserved serine residue. When the serine residue is mutated to glutamic acid, which mimics the phosphorylated serine residue, the mutant CARM1 exhibits diminished ability to bind the methyl donor adenosylmethionine and diminished histone methylation activity. Moreover, such mutation leads to the inhibition of CARM1 transactivation of estrogen receptor-dependent transcription. Our results provide an example for the regulation of protein arginine methyltransferase activity by phosphorylation. As CARM1 is a potent transcriptional coactivator of estrogen receptor, our results suggest that phosphorylation of CARM1 serves as a unique mechanism for inactivating CARM1-regulated estrogen-dependent gene expression. estrogen receptor | methylation | transcription | histone

Published
2007

46. A mutation in a chromosome condensin II subunit, kleisin [beta], specifically disrupts T cell development

Author

Gosling, Katherine M., Makaroff, Lydia E., Theodoratos, Angelo, Kim, Yong-Hee, Whittle, Belinda, Rui, Lixin, Wu, Hua, Hong, Nancy A., Kennedy, Gavin C., Fritz, Julie-Anne, Yates, Adele L., Goodnow, Christopher C., and Fahrer, Aude M.

Subjects
Genetic transcription -- Evaluation, Genetic regulation -- Evaluation, Proteins -- Genetic aspects, T cells -- Evaluation, Cell differentiation -- Evaluation, Science and technology
Abstract

Condensins are ubiquitously expressed multiprotein complexes that are important for chromosome condensation and epigenetic regulation of gene transcription, but whose specific roles in vertebrates are poorly understood. We describe a mouse strain, nessy, isolated during an ethylnitrosourea screen for recessive immunological mutations. The nessy mouse has a defect in T lymphocyte development that decreases circulating T cell numbers, increases their expression of the activation/memory marker CD44, and dramatically decreases the numbers of [CD4.sup.+][CD8.sup.+] thymocytes and their immediate DN4 precursors. A missense mutation in an unusual alternatively spliced first exon of the kleisin [beta] gene, a member of the condensin II complex, was shown to be responsible and act in a T cell-autonomous manner. Despite the ubiquitous expression and role of condensins, kleisin [[beta].sup.nes/nes] mice were viable, fertile, and showed no defects even in the parallel pathway of B cell lymphocyte differentiation. These data define a unique lineage-specific requirement for kleisin [beta] in mammalian T cell differentiation. Ncaph2 | splice variation

Published
2007

47. Identification of a bipartite jasmonate-responsive promoter element in the Catharanthus roseus ORCA3 transcription factor gene that interacts specifically with AT-hook DNA-binding proteins (1)([W])

Author

Vom Endt, Debora, Silva, Marina Soares, Kijne, Jan W., Pasquali, Giancarlo, and Memelink, Johan

Subjects
Jasmonates -- Properties, Catharanthus -- Genetic aspects, Madagascar periwinkle -- Genetic aspects, Genetic transcription -- Evaluation, DNA binding proteins -- Properties, Biological sciences, Science and technology
Published
2007

50. Transcriptionally active heterochromatin in Rye B Chromosomes ([W])

Author

Carchilan, Mariana, Delgado, Margarida, Ribeiro, Teresa, Costa-Nunes, Pedro, Caperta, Ana, Morais-Cecilio, Leonor, Jones, R. Neil, Viegas, Wanda, and Houben, Andreas

Subjects
Plant chromosomes -- Physiological aspects, Interphase -- Evaluation, Genetic transcription -- Evaluation, RNA -- Evaluation, Biological sciences, Science and technology
Published
2007

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