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1. Archetti F, Giordani I, Mauri G, Messina E A new clustering approach for learning transcriptional regulatory networks Meeting: BITS 2009 - Year: 2009 Full text in a new tab Topic: Transcriptomics Gene Expression and Microarray Analysis Abstract: Missing |
2. Mucci A, Cusmano A, De Francisci M, Manniello MA, Marra D, Romano P, Mauri G Integration of data from different sources: a prototype devoted to p53 mutations Meeting: BIOCOMP 2003 - Year: 2003 Full text in a new tab Topic: Databases: ontologies and integration Abstract: Missing |
3. Pandini A, Mauri G, Bonati L A new procedure to detect similarities among distant homologous proteins based on the comparison of domain flexibilities Meeting: BITS 2006 - Year: 2006 Full text in a new tab Topic: Protein structure Abstract: Missing |
4. Pavesi G, Mauri G, Pesole G Weeder Web: a Web-Based Tool for the Discovery of Transcription Factor Binding Sites Meeting: BITS 2004 - Year: 2004 Full text in a new tab Topic: Comparative genomics Abstract: Understanding the complex mechanisms governing basic biological processes requires the characterization of regulatory motifs modulating gene expression at transcriptional and post-transcriptional level. In particular, the extent, chronology and cell-specificity of transcription are modulated by the interaction of transcription factors (TFs) with their corresponding binding sites (TFBS), located in the promoter regions of the genes. The ever growing amount of genomic data, complemented by other sources of information concerning gene expression opens new opportunities to researchers. Transcription factor binding sites are generally short (less than 12-14 bp long) and degenerate oligonucleotides, and this fact makes significantly harder their computational discovery and large-scale annotation. Hence, the need for efficient and reliable methods for detecting novel motifs, significantly over-represented in the regulatory regions of sets of genes sharing common properties (e.g. similar expression profile, biological function, product cellular localization, etc.), that in turn could represent binding sites for the some common TF regulating the genes. We present here a Web server that provides access to a previously developed enumerative pattern discovery method [1] that is able to carry out an exhaustive search of significantly conserved degenerate oligonucleotide patterns with remarkable computational efficiency. Also, the interface has been designed in order avoid the explicit definition of a large number of parameters that were included in the original general-case implementation of the algorithm, as well as to produce a simpler “user-friendly” output. The parameters have been set to default values suitable for capturing TFBSs. The interface Web address is: http://www.pesolelab.it:8080/weederWeb |
5. Pavesi G, Mauri G, Pesole G A novel method for finding oligonucleotide regulatory elements of unknown length in DNA sequences Meeting: BIOCOMP 2001 - Year: 2001 Full text in a new tab Topic: Novel algorithms Abstract: Missing |
6. Pavesi G, Mauri G, Pesole G Pattern Discovery in Unaligned Biological Sequences Meeting: BIOCOMP 2002 - Year: 2002 Full text in a new tab Topic: Novel algorithms Abstract: Missing |
7. Pavesi G, Mauri G, Pesole G An Algorithm for Finding Common Secondary Structure Motifs in a Set of Unaligned RNA Sequences Meeting: BIOCOMP 2003 - Year: 2003 Full text in a new tab Topic: Novel algorithms Abstract: Missing |
8. Pavesi G, Stefani M, Mauri G, Pesole G An algorithm for finding regulatory sequences of homologous genes Meeting: BITS 2005 - Year: 2005 Full text in a new tab Topic: Computer algorithms and applications Abstract: One of the greatest challenges in modern molecular biology is the identification and characterization of the functional elements regulating gene expression. Two of the most important elements are transcription factors (TFs), and the sites of the genome where they can bind (TFBSs). The TF-DNA interactions, that are responsible for the modulation of gene transcription, are at the basis of many critical cellular processes, and their malfunction often involves the onset of genetic diseases. TFBSs are located either near the transcription start site of a gene (usually within 500-1000 bps), or alternatively at very large distance (often several kilobases) from it, either upstream or downstream. When the regulation of a single gene is investigated, the idea is to increase the signal/noise ratio by comparing its flanking regions (upstream and/or downstream) with homologous genome regions of the same or other organisms at different evolutionary distances. Those parts of the regions that are more conserved throughout the different species are more likely to have been preserved by evolution for their function, and thus could be (or contain) TFBSs. Most of the methods introduced so far first build a global alignment of the sequences (some pairwise, some multiple), and report the most conserved parts of the alignment (with or without further processing, for examples by looking for known TFBSs instances in them). While this approach can produce good results, since a highly conserved region can be a good candidate for a regulatory activity, some experiments have shown that real TFBSs are often mis-aligned, and fall outside the “best regions” of the alignment (that, anyway, becomes computationally problematic for long regions, especially in the case of multiple comparisons). In this work we present an algorithm that does not require a global alignment of the sequences, nor needs to be supported by matrices or instances of known TFBSs in order to detect potential regulatory motifs. |
9. Pavesi G, Valentini G, Mauri G, Pesole G Motif based classification of coexpressed genes Meeting: BITS 2006 - Year: 2006 Full text in a new tab Topic: Recognition of genes and regulatory elements Abstract: Missing |
10. Romano P, Arrigo P, Mauri G, Merelli E, Milanesi L Oncology over Internet (O2I): information querying, filtering and retrieval by means of standard formats Meeting: BIOCOMP 2002 - Year: 2002 Full text in a new tab Topic: Abstract: Missing |
11. Romano P, Bartocci E, Bertolini G, De Paoli F, Marra D, Mauri G, Merelli E, Milanesi L Biowep: a workflow enactment portal for bioinformatics applications Meeting: BITS 2006 - Year: 2006 Full text in a new tab Topic: Miscellanea Abstract: Missing |
12. Splendiani A, Brandizi B, Even G, Ottavio B, Pavelka N, Pelizzola M, Mayhaus M, Foti M, Mauri G, Ricciardi-Castagnoli P The Genopolis Microarray Database Meeting: BITS 2006 - Year: 2006 Full text in a new tab Topic: Gene expression Abstract: Missing |