Your search keyword '"Massively parallel signature sequencing"' showing total 378 results

351. Analysis of tag-position bias in MPSS technology

Author

Junfeng Chen and Magnus Rattray

Subjects

lcsh:QH426-470, lcsh:Biotechnology, Arabidopsis, Computational biology, Biology, Positive correlation, Massively parallel signature sequencing, Sequence-tagged site, Bias, lcsh:TP248.13-248.65, mental disorders, Genetics, Humans, Position bias, RNA, Messenger, Bias (Epidemiology), Conserved Sequence, Sequence Tagged Sites, Gene Expression Profiling, Oryza, Exons, Gene expression profiling, lcsh:Genetics, Nonlinear Dynamics, Regression Analysis, DNA microarray, Biotechnology, Research Article

Abstract

Background Massively Parallel Signature Sequencing (MPSS) technology was recently developed as a high-throughput technology for measuring the concentration of mRNA transcripts in a sample. It has previously been observed that the position of the signature tag in a transcript (distance from 3' end) can affect the measurement, but this effect has not been studied in detail. Results We quantify the effect of tag-position bias in Classic and Signature MPSS technology using published data from Arabidopsis, rice and human. We investigate the relationship between measured concentration and tag-position using nonlinear regression methods. The observed relationship is shown to be broadly consistent across different data sets. We find that there exist different and significant biases in both Classic and Signature MPSS data. For Classic MPSS data, genes with tag-position in the middle-range have highest measured abundance on average while genes with tag-position in the high-range, far from the 3' end, show a significant decrease. For Signature MPSS data, high-range tag-position genes tend to have a flatter relationship between tag-position and measured abundance. Thus, our results confirm that the Signature MPSS method fixes a substantial problem with the Classic MPSS method. For both Classic and Signature MPSS data there is a positive correlation between measured abundance and tag-position for low-range tag-position genes. Compared with the effects of mRNA length and number of exons, tag-position bias seems to be more significant in Arabadopsis. The tag-position bias is reflected both in the measured abundance of genes with a significant tag count and in the proportion of unexpressed genes identified. Conclusion Tag-position bias should be taken into consideration when measuring mRNA transcript abundance using MPSS technology, both in Classic and Signature MPSS methods.

Published

2006

352. [Untitled]

Author

Terry Gaasterland, Xiu-Jie Wang, and Nam-Hai Chua

Subjects

0106 biological sciences, Genetics, endocrine system, 0303 health sciences, fungi, Alternative splicing, Biology, biology.organism_classification, 01 natural sciences, Genome, Massively parallel signature sequencing, Conserved sequence, body regions, 03 medical and health sciences, Nat, Arabidopsis, Genomic imprinting, Gene, 030304 developmental biology, 010606 plant biology & botany

Abstract

Natural antisense transcripts (NAT) are a class of endogenous coding or non-protein-coding RNAs with sequence complementarity to other transcripts. Several lines of evidence have shown that cis- and trans-NATs may participate in a broad range of gene regulatory events. Genome-wide identification of cis-NATs in human, mouse and rice has revealed their widespread occurrence in eukaryotes. However, little is known about cis-NATs in the model plant Arabidopsis thaliana. We developed a new computational method to predict and identify cis-encoded NATs in Arabidopsis and found 1,340 potential NAT pairs. The expression of both sense and antisense transcripts of 957 NAT pairs was confirmed using Arabidopsis full-length cDNAs and public massively parallel signature sequencing (MPSS) data. Three known or putative Arabidopsis imprinted genes have cis-antisense transcripts. Sequences and the genomic arrangement of two Arabidopsis NAT pairs are conserved in rice. We combined information from full-length cDNAs and Arabidopsis genome annotation in our NAT prediction work and reported cis-NAT pairs that could not otherwise be identified by using one of the two datasets only. Analysis of MPSS data suggested that for most Arabidopsis cis-NAT pairs, there is predominant expression of one of the two transcripts in a tissue-specific manner.

Published

2005

353. Direct sequencing versus cloned amplicon sequencing in HIV-1 diagnosis

Author

K. Wäse, Wolfgang Lüke, Harald Petry, Katja Pekrun, I. Schedel, and Gerhard Hunsmann

Subjects

Pharmacology, Cloning, Genetics, Cell Biology, Amplicon, Biology, Reverse transcriptase, Massively parallel signature sequencing, Sequencing by ligation, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Single cell sequencing, chemistry, Molecular Medicine, Molecular Biology, Exome sequencing, DNA

Abstract

HIV-1-specific sequences could easily be amplified from the DNA of peripheral blood lymphocytes or from the viral RNA present in the plasma. A detailed characterization of the resulting amplicons requires sequencing. Here we have shown that the sequencing strategy depends on the variability of the region of interest. The higher the variability of a distinct region the more a cloning step is necessary prior to sequencing to obtain reliable information. Conversely, direct sequencing analysis is usually sufficient to record changes of conserved viral sequences, e.g. during therapy with reverse transcriptase inhibitors.

Published

1996

354. [Untitled]

Author

Ricardo Z. N. Vêncio, Diogo F. C. Patrão, Helena Brentani, and Carlos Eduardo Pereira

Subjects

Genetics, Applied Mathematics, SAGE, Computational biology, Biology, Bayesian inference, Biochemistry, Computer Science Applications, Massively parallel signature sequencing, Gene expression profiling, Bayes' theorem, Structural Biology, Genetic variation, Serial analysis of gene expression, DNA microarray, Molecular Biology

Abstract

Background An important challenge for transcript counting methods such as Serial Analysis of Gene Expression (SAGE), "Digital Northern" or Massively Parallel Signature Sequencing (MPSS), is to carry out statistical analyses that account for the within-class variability, i.e., variability due to the intrinsic biological differences among sampled individuals of the same class, and not only variability due to technical sampling error.

Published

2004

355. [Untitled]

Author

Xiu-Jie Wang, Nam-Hai Chua, Terry Gaasterland, and José L. Reyes

Subjects

0106 biological sciences, Genetics, Regulation of gene expression, 0303 health sciences, Messenger RNA, Sequence analysis, food and beverages, RNA, Biology, biology.organism_classification, 01 natural sciences, Conserved sequence, Massively parallel signature sequencing, 03 medical and health sciences, Arabidopsis, microRNA, 030304 developmental biology, 010606 plant biology & botany

Abstract

Background A class of eukaryotic non-coding RNAs termed microRNAs (miRNAs) interact with target mRNAs by sequence complementarity to regulate their expression. The low abundance of some miRNAs and their time- and tissue-specific expression patterns make experimental miRNA identification difficult. We present here a computational method for genome-wide prediction of Arabidopsis thaliana microRNAs and their target mRNAs. This method uses characteristic features of known plant miRNAs as criteria to search for miRNAs conserved between Arabidopsis and Oryza sativa. Extensive sequence complementarity between miRNAs and their target mRNAs is used to predict miRNA-regulated Arabidopsis transcripts.

Published

2004

356. Cloning and sequencing of two genes from

Author

Wolfgang Hengstenberg and Ingo Christiansen

Subjects

Cloning, Cancer genome sequencing, Bacterial artificial chromosome, Single cell sequencing, Shotgun sequencing, Genetics, Computational biology, Biology, Molecular Biology, Exome sequencing, Illumina dye sequencing, Massively parallel signature sequencing

Published

1996

357. A novel type of cloning vectors for ultrarapid chemical degradation sequencing of DNA

Author

H. Blöcker, E. De Vleeschouwer, G. Volckaert, and R. Frank

Subjects

Cloning vector, Computational biology, Biology, Molecular biology, Massively parallel signature sequencing, Sequencing by ligation, Restriction site, chemistry.chemical_compound, Subcloning, Plasmid, chemistry, Genetics, Nucleoside triphosphate, DNA

Abstract

The construction and evaluation of a novel type of chemical sequencing vectors (pCSV) is described. These small plasmids bear a unique asymmetric restriction site suitable for direct single-end labeling by filling-in polymerization with a selected radiolabeled nucleoside triphosphate. Thus, a secondary cleavage reaction or segregation step is rendered superfluous. Sequencing gels can be read unambiguously starting from the 3′ penultimate nucleotide. pCSV03 and pCSV27 are prototypes of such sequencing plasmids based on Bst EII as the labeling site. In its proximity, restriction sites are present that allow subcloning of the DNA fragments to be sequenced. Approaches to random and progressive sequencing using these vectors are discussed. pCSV31 has two Tth 111I sites that allow single-end labeling of inserts on either strand by the use of different labeled nucleoside triphosphates. Thus, bidirectional sequencing of larger inserts (>500 bp) is possible.

Published

1984

358. Signatures from tissue-specific MPSS libraries identify transcripts preferentially expressed in the mouse inner ear

Author

Linda M. Peters, Inna A. Belyantseva, Ayala Lagziel, Thomas B. Friedman, Robert J. Morell, and James F. Battey

Subjects

Male, Cell type, Gene Expression, Genomics, Biology, Article, Massively parallel signature sequencing, Transcriptome, Mice, Slc26a5, Gene expression, Ear, inner, Genetics, Animals, Tissue Distribution, Genomic library, RNA, Messenger, Transcription, genetic, Gene, In Situ Hybridization, Gene Library, Base Sequence, Reverse Transcriptase Polymerase Chain Reaction, cDNA library, DNA, Mice, Inbred C57BL, Vmo1, Female, MPSS

Abstract

Specialization in cell function and morphology is influenced by the differential expression of mRNAs, many of which are expressed at low abundance and restricted to certain cell types. Detecting such transcripts in cDNA libraries may require sequencing millions of clones. Massively parallel signature sequencing (MPSS) is well suited to identifying transcripts that are expressed in discrete cell types and in low abundance. We have made MPSS libraries from microdissections of three inner ear tissues. By comparing these MPSS libraries to those of 87 other tissues included in the Mouse Reference Transcriptome online resource, we have identified genes that are highly enriched in, or specific to, the inner ear. We show by RT-PCR and in situ hybridization that signatures unique to the inner ear libraries identify transcripts with highly specific cell-type localizations. These transcripts serve to illustrate the utility of a resource that is available to the research community. Utilization of these resources will increase the number of known transcription units and expand our knowledge of the tissue-specific regulation of the transcriptome.

359. In-depth cDNA Library Sequencing Provides Quantitative Gene Expression Profiling in Cancer Biomarker Discovery

Author

Wanling Yang, Yu-Lung Lau, and Dingge Ying

Subjects

Cancer genome sequencing, DNA, Complementary, cDNA sequencing, mutation detection, expressed sequence tag, RNA-Seq, Biology, Biochemistry, Deep sequencing, Article, Massively parallel signature sequencing, sequencing depth, Neoplasms, sequence-specific subtraction, Genetics, Biomarkers, Tumor, Animals, Humans, Molecular Biology, Exome sequencing, Gene Library, Expressed Sequence Tags, Expressed sequence tag, Gene expression profiling in cancer, Gene Expression Profiling, Sequence Analysis, DNA, Gene Expression Regulation, Neoplastic, Computational Mathematics, Single cell sequencing, biomarker

Abstract

Quantitative gene expression analysis plays an important role in identifying differentially expressed genes in various pathological states, gene expression regulation and co-regulation, shedding light on gene functions. Although microarray is widely used as a powerful tool in this regard, it is suboptimal quantitatively and unable to detect unknown gene variants. Here we demonstrated effective detection of differential expression and co-regulation of certain genes by expressed sequence tag analysis using a selected subset of cDNA libraries. We discussed the issues of sequencing depth and library preparation, and propose that increased sequencing depth and improved preparation procedures may allow detection of many expression features for less abundant gene variants. With the reduction of sequencing cost and the emerging of new generation sequencing technology, in-depth sequencing of cDNA pools or libraries may represent a better and powerful tool in gene expression profiling and cancer biomarker detection. We also propose using sequence-specific subtraction to remove hundreds of the most abundant housekeeping genes to increase sequencing depth without affecting relative expression ratio of other genes, as transcripts from as few as 300 most abundantly expressed genes constitute about 20% of the total transcriptome. In-depth sequencing also represents a unique advantage of detecting unknown forms of transcripts, such as alternative splicing variants, fusion genes, and regulatory RNAs, as well as detecting mutations and polymorphisms that may play important roles in disease pathogenesis.

360. Application of partial restriction procedure in both shotgun and non-random strategies for nucleotide sequencing

Author

Bing Zhou, Qiliang Li, and Nongan Chen

Subjects

Genetics, biology, Base Sequence, Shotgun sequencing, Goats, EcoRI, Sequence assembly, General Medicine, DNA, DNA Restriction Enzymes, Molecular cloning, Sequencing by ligation, Massively parallel signature sequencing, Restriction enzyme, Genetic Techniques, biology.protein, Animals, Genomic library, Cloning, Molecular

Abstract

Partial digestion of a target DNA fragment with 4-bp-recognition restriction enzymes followed by a forced ligation to an M13 vector was employed for the construction of a subfragment library. The library can be used for either shotgun or non-random nucleotide sequencing. Application of the partial digests generated with the 4-bp recognition restriction enzymes instead of DNase I in the improved non-random strategy for nucleotide sequencing (Li and Wu, 1987) made the procedure as easy as that of the random strategy. The library can also be used in shotgun nucleotide sequencing directly, and few self-ligated subfragments were found. The usefulness of this procedure was demonstrated by the sequencing of a goat 6.5-kb EcoRI fragment, which is located 5' to the epsilon globin gene.

Published

1988

361. Evaluation of the performance of a p53 sequencing microarray chip using 140 previously sequenced bladder tumor samples

Author

Torben F. Ørntoft, Sanne H. Olesen, Thomas Thykjaer, Carlos Cordon-Cardo, Lars Dyrskjot Andersen, Friedrik P. Wikman, and Ming-Lan Lu

Subjects

Sanger sequencing, Genetics, Microarray, Biochemistry (medical), Clinical Biochemistry, Biology, law.invention, Massively parallel signature sequencing, symbols.namesake, Single cell sequencing, law, TheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITY, Gene chip analysis, symbols, DNA microarray, Polymerase chain reaction, Exome sequencing

Abstract

Udgivelsesdato: October Background: Testing for mutations of the TP53 gene in tumors is a valuable predictor for disease outcome in certain cancers, but the time and cost of conventional sequencing limit its use. The present study compares traditional sequencing with the much faster microarray sequencing on a commercially available chip and describes a method to increase the specificity of the chip. Methods: DNA from 140 human bladder tumors was extracted and subjected to a multiplex-PCR before loading onto the p53 GeneChip from Affymetrix. The same samples were previously sequenced by manual dideoxy sequencing. In addition, two cell lines with two different homozygous mutations at the TP53 gene locus were analyzed. Results: Of 1464 gene chip positions, each of which corresponded to an analyzed nucleotide in the sequence, 251 had background signals that were not attributable to mutations, causing the specificity of mutation calling without mathematical correction to be low. This problem was solved by regarding each chip position as a separate entity with its own noise and threshold characteristics. The use of background plus 2 SD as the cutoff improved the specificity from 0.34 to 0.86 at the cost of a reduced sensitivity, from 0.92 to 0.84, leading to a much better concordance (92%) with results obtained by traditional sequencing. The chip method detected as little as 1% mutated DNA. Conclusions: Microarray-based sequencing is a novel option to assess TP53 mutations, representing a fast and inexpensive method compared with conventional sequencing.

362. Comparison of sequencing by hybridization and cycle sequencing for genotyping of human immunodeficiency virus type 1 reverse transcriptase

Author

George J. Hanna, Daniel R. Kuritzkes, Victoria A. Johnson, Lorraine Sutton, Javier Martinez-Picado, J. Darren Hazelwood, Richard T. D'Aquila, and Douglas D. Richman

Subjects

Microbiology (medical), Genotype, Anti-HIV Agents, Population, Molecular Sequence Data, HIV Infections, Biology, Polymerase Chain Reaction, law.invention, Massively parallel signature sequencing, Sequencing by hybridization, Double-Blind Method, law, Virology, Humans, education, Codon, Genotyping, Polymerase chain reaction, Exome sequencing, Genetics, education.field_of_study, Nucleic Acid Hybridization, Drug Resistance, Microbial, Sequence Analysis, DNA, Reverse transcriptase, HIV Reverse Transcriptase, HIV-1, Reverse Transcriptase Inhibitors

Abstract

The performances of two methods of nucleotide sequencing were compared for the detection of drug resistance mutations in human immunodeficiency virus type 1 reverse transcriptase (RT) in viruses isolated from highly RT inhibitor-experienced individuals. Of 11,677 amino acids deduced from population PCR products by both cycle sequencing and sequencing by hybridization to high-density arrays of oligonucleotide probes, 97.4% were concordant by both methods, 0.8% were discordant, and 1.7% had an ambiguous determination by at least one method. A higher rate of discordance (3.9%) was observed among RT inhibitor resistance-associated codons. In 45% of the isolates, RT codon 67 was deduced as the wild-type Asp by hybridization sequencing but as the zidovudine resistance-associated Asn by cycle sequencing. In other resistance-associated codon discordances, cycle sequencing also more commonly called a known resistance-associated amino acid than hybridization sequencing did. The nucleotide sequence in the vicinity of several codons with discordant calls influenced population-based hybridization sequencing. For isolates evaluated by additional sequencing of molecular clones of PCR products by both methods, the discordance between methods was less frequent (0.4% of all 5,994 amino acids and 0 of 494 drug resistance-associated codons). At positions which were discordant or ambiguous in the population sequences, the results of sequencing of clones by both methods were usually in agreement with the population cycle sequencing result. In summary, most RT codons were highly concordant by both methods of population-based sequencing, with discordances due in large part to genetic mixtures within or adjacent to discordant codons.

363. Transcriptome profile analysis of flowering molecular processes of early flowering trifoliate orange mutant and the wild-type [Poncirus trifoliata (L.) Raf.] by massively parallel signature sequencing

Author

Dong-Liang Zhang, Chun-Gen Hu, Wen-Wu Guo, Lei-Ming Sun, Jin-Zhi Zhang, Xiao-Yan Ai, and Xiuxin Deng

Subjects

Genetics, lcsh:QH426-470, lcsh:Biotechnology, Gene Expression Profiling, Mutant, Wild type, High-Throughput Nucleotide Sequencing, food and beverages, Flowers, Biology, Herbaceous plant, biology.organism_classification, Plants, Genetically Modified, Massively parallel signature sequencing, Trifoliate orange, Transcriptome, lcsh:Genetics, lcsh:TP248.13-248.65, Botany, Poncirus, Gene, Woody plant, Research Article, Biotechnology

Abstract

Background After several years in the juvenile phase, trees undergo flowering transition to become mature (florally competent) trees. This transition depends on the balanced expression of a complex network of genes that is regulated by both endogenous and environmental factors. However, relatively little is known about the molecular processes regulating flowering transition in woody plants compared with herbaceous plants. Results Comparative transcript profiling of spring shoots after self-pruning was performed on a spontaneously early flowering trifoliate orange mutant (precocious trifoliate orange, Poncirus trifoliata) with a short juvenile phase and the wild-type (WT) tree by using massively parallel signature sequencing (MPSS). A total of 16,564,500 and 16,235,952 high quality reads were obtained for the WT and the mutant (MT), respectively. Interpretation of the MPSS signatures revealed that the total number of transcribed genes in the MT (31,468) was larger than in the WT (29,864), suggesting that newly initiated transcription occurs in the MT. Further comparison of the transcripts revealed that 2735 genes had more than twofold expression difference in the MT compared with the WT. In addition, we identified 110 citrus flowering-time genes homologous with known elements of flowering-time pathways through sequencing and bioinformatics analysis. These genes are highly conserved in citrus and other species, suggesting that the functions of the related proteins in controlling reproductive development may be conserved as well. Conclusion Our results provide a foundation for comparative gene expression studies between WT and precocious trifoliate orange. Additionally, a number of candidate genes required for the early flowering process of precocious trifoliate orange were identified. These results provide new insight into the molecular processes regulating flowering time in citrus.

364. A general method to eliminate laboratory induced recombinants during massive, parallel sequencing of cDNA library

Author

Abha Chopra, Johnson Mak, Simon Mallal, Deborah Cromer, Caryll Waugh, Miles P. Davenport, and Andrew J. Grimm

Subjects

Mutation rate, HIV Infections, Biology, Transfection, Polymerase Chain Reaction, Cell Line, Massively parallel signature sequencing, Rapid amplification of cDNA ends, Complementary DNA, Virology, Humans, Recombination rate, Polymerase, Gene Library, Massive parallel sequencing, Reverse Transcriptase Polymerase Chain Reaction, Methodology, High-Throughput Nucleotide Sequencing, HIV, RNA, RNA virus, biology.organism_classification, Molecular biology, Reverse transcriptase, Infectious Diseases, HIV-1, biology.protein, Artifacts, Reassortant Viruses

Abstract

Background Massive, parallel sequencing is a potent tool for dissecting the regulation of biological processes by revealing the dynamics of the cellular RNA profile under different conditions. Similarly, massive, parallel sequencing can be used to reveal the complexity of viral quasispecies that are often found in the RNA virus infected host. However, the production of cDNA libraries for next-generation sequencing (NGS) necessitates the reverse transcription of RNA into cDNA and the amplification of the cDNA template using PCR, which may introduce artefact in the form of phantom nucleic acids species that can bias the composition and interpretation of original RNA profiles. Method Using HIV as a model we have characterised the major sources of error during the conversion of viral RNA to cDNA, namely excess RNA template and the RNaseH activity of the polymerase enzyme, reverse transcriptase. In addition we have analysed the effect of PCR cycle on detection of recombinants and assessed the contribution of transfection of highly similar plasmid DNA to the formation of recombinant species during the production of our control viruses. Results We have identified RNA template concentrations, RNaseH activity of reverse transcriptase, and PCR conditions as key parameters that must be carefully optimised to minimise chimeric artefacts. Conclusions Using our optimised RT-PCR conditions, in combination with our modified PCR amplification procedure, we have developed a reliable technique for accurate determination of RNA species using NGS technology.

365. Long-read direct infrared sequencing of crude PCR products for prediction of resistance to HIV-1 reverse transcriptase and protease inhibitors

Author

Maurizio Zazzi, Laura Romano, A. De Milito, M. Catucci, Pier Egisto Valensin, Maria Letizia Riccio, and Giulietta Venturi

Subjects

Electrophoresis, Molecular Sequence Data, Bioengineering, Drug resistance, Biology, Polymerase Chain Reaction, Applied Microbiology and Biotechnology, Biochemistry, Massively parallel signature sequencing, law.invention, HIV Protease, law, Genotype, Humans, Protease Inhibitors, Molecular Biology, Polymerase chain reaction, Base Sequence, RNA-Directed DNA Polymerase, Drug Resistance, Microbial, Sequence Analysis, DNA, Templates, Genetic, Virology, HIV Reverse Transcriptase, Reverse transcriptase, HIV-1, RNA, Viral, RNA extraction, Nested polymerase chain reaction, Biotechnology

Abstract

Patients infected with human irnmunodeficiency virus type 1 (H1V-1) are being treated with a number of different combinations of antiretroviral compounds that target the essential viral enzymes reverse transcriptase and protease. Different sets of HIV-1 mutations that confer drug resistance have been well defined; they allow reasonabe prediction of the drug sensitivity pattern from analysis of the HIV-1 genotype in vivo. Since periodical monitoring of genotypic resistance is expected to improve clinical management in a large number of infected patients, practical and cost-effective methods are highly desirable to set at least medium-scale sequencing in clinical diagnostic settings. We present a complete protocol for direct sequencing of HIV-1 reverse transcriptase and protease-coding regions. Features making the system amenable to routine clinical use include: 1. Highly robust presequencing steps (plasma RNA extraction, reverse transcription, and nested PCR); 2. Direct use of the crude unpurified PCR product as the sequencing template; and 3. Use of infrared-labeled sequencing primers consistently allowing long reads, thus obviating the need for sequencing of both DNA strands.

366. Serial analysis of gene expression

Author

Bert Vogelstein, Kenneth W. Kinzler, Lin Zhang, and Victor Velculescu

Subjects

Restriction enzyme, chemistry.chemical_compound, Multidisciplinary, chemistry, Oligonucleotide, Complementary DNA, Nucleic acid sequence, Genomic library, Serial analysis of gene expression, Biology, Molecular biology, DNA, Massively parallel signature sequencing

Abstract

PROBLEM TO BE SOLVED: To provide a method for preparing a short nucleotide sequence (tag) which is useful to identify a cDNA oligonucleotide and is derived from a restricted position in a mRNA or a cDNA. SOLUTION: This is the method of preparing a tag for identifying the cDNA oligonucleotide. The above method comprises preparing the cDNA oligonucleotide bearing 5' and 3' terminals, collecting cDNA fragments by cutting the cDNA oligonucleotide with a restriction enzyme at the first restriction endonuclease site, separating a cDNA oligonucleotide bearing 5' or 3' terminal and connecting an oligonucleotide linker to the isolated cDNA fragment bearing the cDNA oligonucleotide 5' or 3' terminal. Here, the oligonucleotide linker contains the recognition site of the second restriction endonuclease enzyme and the isolated cDNA fragment is cut with the second restriction endonuclease enzyme which cuts the cDNA fragment in a section separated from the recognition site to obtain the tag for identifying the cDNA oligonucleotide.

367. Rapid RNA sequencing

Author

Maria Szekeley

Subjects

Multidisciplinary, Massive parallel sequencing, Single cell sequencing, RNA, Computational biology, Biology, Illumina dye sequencing, ABI Solid Sequencing, Massively parallel signature sequencing

Published

1977

368. Improved RNA sequencing method to determine immunoglobulin mRNA sequence

Author

Teresa Gilbert, F J Grant, Steven D. Levin, and Wayne R. Kindsvogel

Subjects

Messenger RNA, Base Sequence, Protein primary structure, Antibodies, Monoclonal, Immunoglobulins, RNA, Biology, Immunoglobulin E, Molecular biology, Massively parallel signature sequencing, Mice, Genetics, biology.protein, Animals, Amino Acid Sequence, RNA, Messenger, Antibody, Melanoma, Peptide sequence, Sequence (medicine)

Published

1987

369. Sense-antisense pairs in mammals: functional and evolutionary considerations

Author

Jorge Estefano Santana de Souza, Anamaria A. Camargo, Sandro J. de Souza, Pedro A. F. Galante, and Daniel O. Vidal

Subjects

Genetics, Regulation of gene expression, Mammals, Genome, Polyadenylation, Retroelements, Research, Computational Biology, CDNA Library Construction, Computational biology, Biology, Biological Evolution, Human genetics, Massively parallel signature sequencing, Mice, Gene Expression Regulation, Animals, Humans, Genomic library, RNA, Antisense, RNA, Messenger, Gene, Gene Library

Abstract

Analysis of a catalog of S-AS pairs in the human and mouse genomes revealed several putative roles for natural antisense transcripts and showed that some are artifacts of cDNA library construction., Background A significant number of genes in mammalian genomes are being found to have natural antisense transcripts (NATs). These sense-antisense (S-AS) pairs are believed to be involved in several cellular phenomena. Results Here, we generated a catalog of S-AS pairs occurring in the human and mouse genomes by analyzing different sources of expressed sequences available in the public domain plus 122 massively parallel signature sequencing (MPSS) libraries from a variety of human and mouse tissues. Using this dataset of almost 20,000 S-AS pairs in both genomes we investigated, in a computational and experimental way, several putative roles that have been assigned to NATs, including gene expression regulation. Furthermore, these global analyses allowed us to better dissect and propose new roles for NATs. Surprisingly, we found that a significant fraction of NATs are artifacts produced by genomic priming during cDNA library construction. Conclusion We propose an evolutionary and functional model in which alternative polyadenylation and retroposition account for the origin of a significant number of functional S-AS pairs in mammalian genomes.

370. A comparison of microarray and MPSS technology platforms for expression analysis of Arabidopsis

Author

Sean J. Coughlan, Marilyn A. L. West, Richard W Michelmore, Blake C. Meyers, Vikas Agrawal, Magnus Rattray, Junfeng Chen, and Dina A. St. Clair

Subjects

Microarray, lcsh:QH426-470, Sequence analysis, Bioinformatics, lcsh:Biotechnology, Arabidopsis, Gene Expression, Bioengineering, Computational biology, Biology, Proteomics, Genes, Plant, Medical and Health Sciences, Massively parallel signature sequencing, Genetic, Abundance (ecology), lcsh:TP248.13-248.65, Information and Computing Sciences, Gene expression, Genetics, Microarray databases, Cluster Analysis, Oligonucleotide Array Sequence Analysis, Electronic Data Processing, Gene Expression Profiling, Automatic Data Processing, Sequence Analysis, DNA, Templates, Genetic, DNA, Plant, Biological Sciences, lcsh:Genetics, Genes, Templates, Molecular Probes, DNA microarray, Sequence Analysis, Research Article, Biotechnology

Abstract

Background Several high-throughput technologies can measure in parallel the abundance of many mRNA transcripts within a sample. These include the widely-used microarray as well as the more recently developed methods based on sequence tag abundances such as the Massively Parallel Signature Sequencing (MPSS) technology. A comparison of microarray and MPSS technologies can help to establish the metrics for data comparisons across these technology platforms and determine some of the factors affecting the measurement of mRNA abundances using different platforms. Results We compared transcript abundance (gene expression) measurement data obtained using Affymetrix and Agilent microarrays with MPSS data. All three technologies were used to analyze the same set of mRNA samples; these samples were extracted from various wild type Arabidopsis thaliana tissues and floral mutants. We calculated correlations and used clustering methodology to compare the normalized expression data and expression ratios across samples and technologies. Abundance expression measurements were more similar between different samples measured by the same technology than between the same sample measured by different technologies. However, when expression ratios were employed, samples measured by different technologies were found to cluster together more frequently than with abundance expression levels. Furthermore, the two microarray technologies were more consistent with each other than with MPSS. We also investigated probe-position effects on Affymetrix data and tag-position effects in MPSS. We found a similar impact on Affymetrix and MPSS measurements, which suggests that these effects were more likely a characteristic of the RNA sample rather than technology-specific biases. Conclusion Comparisons of transcript expression ratios showed greater consistency across platforms than measurements of transcript abundance. In addition, for measurements based on abundances, technology differences can mask the impact of biological differences between samples and tissues.

371. Analysis of microRNA transcriptome by deep sequencing of small RNA libraries of peripheral blood

Author

Rashi Gupta, Candida Vaz, Lalit Kumar, Pratibha Sharma, Alok Bhattacharya, Ritu Kulshreshtha, and Hafiz M. Ahmad

Subjects

Small RNA, lcsh:QH426-470, lcsh:Biotechnology, HL-60 Cells, Biology, Deep sequencing, Massively parallel signature sequencing, Transcriptome, lcsh:TP248.13-248.65, Genetics, Humans, Massive parallel sequencing, Gene Expression Profiling, Sequence Analysis, DNA, Introns, Gene expression profiling, lcsh:Genetics, MicroRNAs, biology.protein, Leukocytes, Mononuclear, DNA microarray, K562 Cells, Dicer, Research Article, Biotechnology

Abstract

Background MicroRNAs are a class of small non-coding RNAs that regulate mRNA expression at the post - transcriptional level and thereby many fundamental biological processes. A number of methods, such as multiplex polymerase chain reaction, microarrays have been developed for profiling levels of known miRNAs. These methods lack the ability to identify novel miRNAs and accurately determine expression at a range of concentrations. Deep or massively parallel sequencing methods are providing suitable platforms for genome wide transcriptome analysis and have the ability to identify novel transcripts. Results The results of analysis of small RNA sequences obtained by Solexa technology of normal peripheral blood mononuclear cells, tumor cell lines K562 and HL60 are presented. In general K562 cells displayed overall low level of miRNA population and also low levels of DICER. Some of the highly expressed miRNAs in the leukocytes include several members of the let-7 family, miR-21, 103, 185, 191 and 320a. Comparison of the miRNA profiles of normal versus K562 or HL60 cells revealed a specific set of differentially expressed molecules. Correlation of the miRNA with that of mRNA expression profiles, obtained by microarray, revealed a set of target genes showing inverse correlation with miRNA levels. Relative expression levels of individual miRNAs belonging to a cluster were found to be highly variable. Our computational pipeline also predicted a number of novel miRNAs. Some of the predictions were validated by Real-time RT-PCR and or RNase protection assay. Organization of some of the novel miRNAs in human genome suggests that these may also be part of existing clusters or form new clusters. Conclusions We conclude that about 904 miRNAs are expressed in human leukocytes. Out of these 370 are novel miRNAs. We have identified miRNAs that are differentially regulated in normal PBMC with respect to cancer cells, K562 and HL60. Our results suggest that post - transcriptional processes may play a significant role in regulating levels of miRNAs in tumor cells. The study also provides a customized automated computation pipeline for miRNA profiling and identification of novel miRNAs; even those that are missed out by other existing pipelines. The Computational Pipeline is available at the website: http://mirna.jnu.ac.in/deep_sequencing/deep_sequencing.html

372. Global expression analysis of nucleotide binding site-leucine rich repeat-encoding and related genes in Arabidopsis

Author

Andrew F. Bent, Richard W Michelmore, Alexander Kozik, Blake C. Meyers, Michele Morgante, Marilyn A. L. West, Dina A. St. Clair, and Xiaoping Tan

Subjects

0106 biological sciences, Crop and Pasture Production, Repetitive Sequences, Amino Acid, DNA, Complementary, Plant Biology & Botany, Arabidopsis, Plant Biology, Plant Science, Biology, Genes, Plant, 01 natural sciences, Microbiology, Repetitive Sequences, Massively parallel signature sequencing, 03 medical and health sciences, MRNA polyadenylation, Leucine, Complementary, lcsh:Botany, Genetics, Gene, 030304 developmental biology, Oligonucleotide Array Sequence Analysis, Expressed Sequence Tags, 0303 health sciences, Expressed sequence tag, Binding Sites, Microarray analysis techniques, Nucleotides, Reverse Transcriptase Polymerase Chain Reaction, Gene Expression Profiling, Alternative splicing, Human Genome, fungi, food and beverages, R gene, DNA, Plant, Molecular biology, lcsh:QK1-989, Gene expression profiling, Amino Acid, Genes, 010606 plant biology & botany, Biotechnology, Research Article

Abstract

Background Nucleotide binding site-leucine rich repeat (NBS-LRR)-encoding genes comprise the largest class of plant disease resistance genes. The 149 NBS-LRR-encoding genes and the 58 related genes that do not encode LRRs represent approximately 0.8% of all ORFs so far annotated in Arabidopsis ecotype Col-0. Despite their prevalence in the genome and functional importance, there was little information regarding expression of these genes. Results We analyzed the expression patterns of ~170 NBS-LRR-encoding and related genes in Arabidopsis Col-0 using multiple analytical approaches: expressed sequenced tag (EST) representation, massively parallel signature sequencing (MPSS), microarray analysis, rapid amplification of cDNA ends (RACE) PCR, and gene trap lines. Most of these genes were expressed at low levels with a variety of tissue specificities. Expression was detected by at least one approach for all but 10 of these genes. The expression of some but not the majority of NBS-LRR-encoding and related genes was affected by salicylic acid (SA) treatment; the response to SA varied among different accessions. An analysis of previously published microarray data indicated that ten NBS-LRR-encoding and related genes exhibited increased expression in wild-type Landsberg erecta (Ler) after flagellin treatment. Several of these ten genes also showed altered expression after SA treatment, consistent with the regulation of R gene expression during defense responses and overlap between the basal defense response and salicylic acid signaling pathways. Enhancer trap analysis indicated that neither jasmonic acid nor benzothiadiazole (BTH), a salicylic acid analog, induced detectable expression of the five NBS-LRR-encoding genes and one TIR-NBS-encoding gene tested; however, BTH did induce detectable expression of the other TIR-NBS-encoding gene analyzed. Evidence for alternative mRNA polyadenylation sites was observed for many of the tested genes. Evidence for alternative splicing was found for at least 12 genes, 11 of which encode TIR-NBS-LRR proteins. There was no obvious correlation between expression pattern, phylogenetic relationship or genomic location of the NBS-LRR-encoding and related genes studied. Conclusion Transcripts of many NBS-LRR-encoding and related genes were defined. Most were present at low levels and exhibited tissue-specific expression patterns. Expression data are consistent with most Arabidopsis NBS-LRR-encoding and related genes functioning in plant defense responses but do not preclude other biological roles.

373. A score system for quality evaluation of RNA sequence tags: an improvement for gene expression profiling

Author

Wilson A. Silva, Daniel Guariz Pinheiro, Pedro A. F. Galante, Marco Antonio Zago, and Sandro J. de Souza

Subjects

Source code, media_common.quotation_subject, Gene Expression, Computational biology, Biology, lcsh:Computer applications to medicine. Medical informatics, Biochemistry, Massively parallel signature sequencing, Mice, 03 medical and health sciences, 0302 clinical medicine, Structural Biology, Databases, Genetic, Gene expression, Animals, Cluster Analysis, Humans, Serial analysis of gene expression, lcsh:QH301-705.5, Molecular Biology, 030304 developmental biology, media_common, Expressed Sequence Tags, Genetics, 0303 health sciences, Expressed sequence tag, Gene Expression Profiling, Applied Mathematics, Hierarchical clustering, Computer Science Applications, Gene expression profiling, lcsh:Biology (General), Data Interpretation, Statistical, 030220 oncology & carcinogenesis, Colonic Neoplasms, RNA, lcsh:R858-859.7, DNA microarray, Software

Abstract

Background High-throughput molecular approaches for gene expression profiling, such as Serial Analysis of Gene Expression (SAGE), Massively Parallel Signature Sequencing (MPSS) or Sequencing-by-Synthesis (SBS) represent powerful techniques that provide global transcription profiles of different cell types through sequencing of short fragments of transcripts, denominated sequence tags. These techniques have improved our understanding about the relationships between these expression profiles and cellular phenotypes. Despite this, more reliable datasets are still necessary. In this work, we present a web-based tool named S3T: Score System for Sequence Tags, to index sequenced tags in accordance with their reliability. This is made through a series of evaluations based on a defined rule set. S3T allows the identification/selection of tags, considered more reliable for further gene expression analysis. Results This methodology was applied to a public SAGE dataset. In order to compare data before and after filtering, a hierarchical clustering analysis was performed in samples from the same type of tissue, in distinct biological conditions, using these two datasets. Our results provide evidences suggesting that it is possible to find more congruous clusters after using S3T scoring system. Conclusion These results substantiate the proposed application to generate more reliable data. This is a significant contribution for determination of global gene expression profiles. The library analysis with S3T is freely available at http://gdm.fmrp.usp.br/s3t/. S3T source code and datasets can also be downloaded from the aforementioned website.

374. Comparative expression profiling in grape (Vitis vinifera) berries derived from frequency analysis of ESTs and MPSS signatures

Author

Kan Nobuta, Douglas R. Cook, Alberto Iandolino, Blake C. Meyers, and Francisco Goes da Silva

Subjects

0106 biological sciences, UniGene, Computational biology, Plant Science, Biology, 01 natural sciences, Genome, Massively parallel signature sequencing, Transcriptome, 03 medical and health sciences, Gene Expression Regulation, Plant, lcsh:Botany, Botany, Databases, Genetic, Vitis, Vitis vinifera, 030304 developmental biology, 2. Zero hunger, Expressed Sequence Tags, 0303 health sciences, Expressed sequence tag, Contig, Gene Expression Profiling, Sequence Analysis, DNA, 15. Life on land, lcsh:QK1-989, Gene expression profiling, 010606 plant biology & botany, Research Article

Abstract

Background Vitis vinifera (V. vinifera) is the primary grape species cultivated for wine production, with an industry valued annually in the billions of dollars worldwide. In order to sustain and increase grape production, it is necessary to understand the genetic makeup of grape species. Here we performed mRNA profiling using Massively Parallel Signature Sequencing (MPSS) and combined it with available Expressed Sequence Tag (EST) data. These tag-based technologies, which do not require a priori knowledge of genomic sequence, are well-suited for transcriptional profiling. The sequence depth of MPSS allowed us to capture and quantify almost all the transcripts at a specific stage in the development of the grape berry. Results The number and relative abundance of transcripts from stage II grape berries was defined using Massively Parallel Signature Sequencing (MPSS). A total of 2,635,293 17-base and 2,259,286 20-base signatures were obtained, representing at least 30,737 and 26,878 distinct sequences. The average normalized abundance per signature was ~49 TPM (Transcripts Per Million). Comparisons of the MPSS signatures with available Vitis species' ESTs and a unigene set demonstrated that 6,430 distinct contigs and 2,190 singletons have a perfect match to at least one MPSS signature. Among the matched sequences, ESTs were identified from tissues other than berries or from berries at different developmental stages. Additional MPSS signatures not matching to known grape ESTs can extend our knowledge of the V. vinifera transcriptome, particularly when these data are used to assist in annotation of whole genome sequences from Vitis vinifera. Conclusion The MPSS data presented here not only achieved a higher level of saturation than previous EST based analyses, but in doing so, expand the known set of transcripts of grape berries during the unique stage in development that immediately precedes the onset of ripening. The MPSS dataset also revealed evidence of antisense expression not previously reported in grapes but comparable to that reported in other plant species. Finally, we developed a novel web-based, public resource for utilization of the grape MPSS data [1].

375. A spatial dissection of the Arabidopsis floral transcriptome by MPSS

Author

Jason A. Peiffer, Hassan Ghazal, Jean-Philippe Vielle-Calzada, Hajime Sakai, Nidia Sánchez-León, Mario A. Arteaga-Vazquez, Shail Kaushik, and Blake C. Meyers

Subjects

0106 biological sciences, Transcription, Genetic, Recombinant Fusion Proteins, Arabidopsis, Flowers, Plant Science, Genes, Plant, 01 natural sciences, Sepal, Massively parallel signature sequencing, Transcriptome, 03 medical and health sciences, Gene Expression Regulation, Plant, lcsh:Botany, Arabidopsis thaliana, Promoter Regions, Genetic, In Situ Hybridization, Gene Library, Glucuronidase, Oligonucleotide Array Sequence Analysis, 030304 developmental biology, Genetics, 0303 health sciences, biology, Reverse Transcriptase Polymerase Chain Reaction, Agamous, Gene Expression Profiling, fungi, Reproducibility of Results, Sequence Analysis, DNA, biology.organism_classification, Immunohistochemistry, lcsh:QK1-989, Gene expression profiling, Organ Specificity, Mutation, Homeotic gene, Functional genomics, Research Article, 010606 plant biology & botany

Abstract

Background We have further characterized floral organ-localized gene expression in the inflorescence of Arabidopsis thaliana by comparison of massively parallel signature sequencing (MPSS) data. Six libraries of RNA sequence tags from immature inflorescence tissues were constructed and matched to their respective loci in the annotated Arabidopsis genome. These signature libraries survey the floral transcriptome of wild-type tissue as well as the floral homeotic mutants, apetala1, apetala3, agamous, a superman/apetala1 double mutant, and differentiated ovules dissected from the gynoecia of wild-type inflorescences. Comparing and contrasting these MPSS floral expression libraries enabled demarcation of transcripts enriched in the petals, stamens, stigma-style, gynoecia, and those with predicted enrichment within the sepal/sepal-petals, petal-stamens, or gynoecia-stamens. Results By comparison of expression libraries, a total of 572 genes were found to have organ-enriched expression within the inflorescence. The bulk of characterized organ-enriched transcript diversity was noted in the gynoecia and stamens, whereas fewer genes demonstrated sepal or petal-localized expression. Validation of the computational analyses was performed by comparison with previously published expression data, in situ hybridizations, promoter-reporter fusions, and reverse transcription PCR. A number of well-characterized genes were accurately delineated within our system of transcript filtration. Moreover, empirical validations confirm MPSS predictions for several genes with previously uncharacterized expression patterns. Conclusion This extensive MPSS analysis confirms and supplements prior microarray floral expression studies and illustrates the utility of sequence survey-based expression analysis in functional genomics. Spatial floral expression data accrued by MPSS and similar methods will be advantageous in the elucidation of more comprehensive genetic regulatory networks governing floral development.

376. Comparison of next generation sequencing technologies for transcriptome characterization

Author

P. Kerr Wall, André S. Chanderbali, Naomi Altman, Douglas E. Soltis, Yi Hu, Abdelali Barakat, Stephan C. Schuster, Hong Ma, Pamela S. Soltis, Haiying Liang, Jim Leebens-Mack, Lynn P. Tomsho, Claude W. dePamphilis, Lena Landherr, Erik Wolcott, and John E. Carlson

Subjects

0106 biological sciences, DNA, Complementary, lcsh:QH426-470, Sequence analysis, lcsh:Biotechnology, Arabidopsis, Biology, 01 natural sciences, Genome, DNA sequencing, Massively parallel signature sequencing, Transcriptome, 03 medical and health sciences, lcsh:TP248.13-248.65, Genetics, Computer Simulation, Genomic library, Gene Library, 030304 developmental biology, 0303 health sciences, Expressed sequence tag, Eschscholzia, Models, Genetic, Persea, Methodology Article, Gene Expression Profiling, Sequence Analysis, DNA, lcsh:Genetics, RNA, Plant, DNA microarray, Genome, Plant, 010606 plant biology & botany, Biotechnology

Abstract

Background We have developed a simulation approach to help determine the optimal mixture of sequencing methods for most complete and cost effective transcriptome sequencing. We compared simulation results for traditional capillary sequencing with "Next Generation" (NG) ultra high-throughput technologies. The simulation model was parameterized using mappings of 130,000 cDNA sequence reads to the Arabidopsis genome (NCBI Accession SRA008180.19). We also generated 454-GS20 sequences and de novo assemblies for the basal eudicot California poppy (Eschscholzia californica) and the magnoliid avocado (Persea americana) using a variety of methods for cDNA synthesis. Results The Arabidopsis reads tagged more than 15,000 genes, including new splice variants and extended UTR regions. Of the total 134,791 reads (13.8 MB), 119,518 (88.7%) mapped exactly to known exons, while 1,117 (0.8%) mapped to introns, 11,524 (8.6%) spanned annotated intron/exon boundaries, and 3,066 (2.3%) extended beyond the end of annotated UTRs. Sequence-based inference of relative gene expression levels correlated significantly with microarray data. As expected, NG sequencing of normalized libraries tagged more genes than non-normalized libraries, although non-normalized libraries yielded more full-length cDNA sequences. The Arabidopsis data were used to simulate additional rounds of NG and traditional EST sequencing, and various combinations of each. Our simulations suggest a combination of FLX and Solexa sequencing for optimal transcriptome coverage at modest cost. We have also developed ESTcalc http://fgp.huck.psu.edu/NG_Sims/ngsim.pl, an online webtool, which allows users to explore the results of this study by specifying individualized costs and sequencing characteristics. Conclusion NG sequencing technologies are a highly flexible set of platforms that can be scaled to suit different project goals. In terms of sequence coverage alone, the NG sequencing is a dramatic advance over capillary-based sequencing, but NG sequencing also presents significant challenges in assembly and sequence accuracy due to short read lengths, method-specific sequencing errors, and the absence of physical clones. These problems may be overcome by hybrid sequencing strategies using a mixture of sequencing methodologies, by new assemblers, and by sequencing more deeply. Sequencing and microarray outcomes from multiple experiments suggest that our simulator will be useful for guiding NG transcriptome sequencing projects in a wide range of organisms.

377. Transcription Factor Expression in Lipopolysaccharide-Activated Peripheral-Blood-Derived Mononuclear Cells

Author

Roach, Jared C., Smith, Kelly D., Strobe, Katie L., Nissen, Stephanie M., Haudenschild, Christian D., Zhou, Daixing, Vasicek, Thomas J., Held, G. A., Stolovitzky, Gustavo A., Hood, Leroy E., and Aderem, Alan

Published

2007

378. Bioinformatic Prediction and Experimental Validation of a microRNA-Directed Tandem Trans-Acting siRNA Cascade in Arabidopsis

Author

Chen, Ho-Ming, Li, Yi-Hang, and Wu, Shu-Hsing

Published

2007