Organism : Halobacterium salinarum NRC-1 | Module List :
Regulation information for VNG0408H(Mouseover regulator name to see its description)
Motif information (de novo identified motifs for modules)
There are 2 motifs predicted.
|Motif Id||e-value||Consensus||Motif Logo|
Functional Enrichment for VNG0408H
Module neighborhood information for VNG0408H
|Gene||Common Name||Description||Module membership|
|VNG0249G||fbr||cytochrome-like protein||205, 226|
|VNG0408H||hypothetical protein VNG0408H||226|
|VNG0451G||phoU||hypothetical protein VNG0451G||6, 76, 124, 163, 174, 205, 226|
|VNG0452G||pstB2||phosphate ABC transporter ATP-binding protein||6, 76, 124, 163, 174, 205, 226|
|VNG0453G||pstA2||phosphate ABC transporter permease||6, 76, 124, 163, 174, 205, 226|
|VNG0455G||pstC2||phosphate ABC transporter permease||6, 76, 124, 163, 174, 205, 226|
|VNG0457G||phoX||phosphate ABC transporter periplasmic phosphate-binding protein||6, 76, 124, 163, 174, 205, 226|
|VNG0458G||prp1||phosphate regulatory protein-like protein||6, 76, 124, 163, 174, 205, 226|
|VNG0535C||hypothetical protein VNG0535C||76, 163, 174, 226|
|VNG1295H||hypothetical protein VNG1295H||6, 77, 163, 205, 226|
|VNG1526G||trp6||daunorubicin resistance ABC transporter ATP-binding protein||205, 226|
|VNG1564H||hypothetical protein VNG1564H||114, 124, 174, 205, 226, 227|
|VNG1632G||cbiQ||hypothetical protein VNG1632G||76, 114, 163, 174, 205, 226, 227|
|VNG1634G||cbiN||cobalt transport protein CbiN||76, 205, 226|
|VNG1635G||cbiM||cobalt transport protein CbiM||76, 163, 205, 226, 227|
|VNG1794C||hypothetical protein VNG1794C||6, 226|
|VNG2342H||hypothetical protein VNG2342H||226|
|VNG2363Gm||oppD1||oligopeptide ABC transporter ATP-binding protein||6, 77, 226|
|VNG2477H||hypothetical protein VNG2477H||6, 77, 163, 205, 226|
|VNG2482G||pstB1||phosphate ABC transporter ATP-binding protein||6, 76, 77, 163, 174, 205, 226|
|VNG2529G||dppB2||hypothetical protein VNG2529G||6, 76, 77, 163, 205, 226|
|VNG2531G||dppC1||dipeptide ABC transporter permease||6, 76, 77, 163, 174, 205, 226|
|VNG6262G||zurM||ABC transporter permease||6, 76, 163, 174, 205, 226, 249|
|VNG6264G||zurA||ABC transporter ATP-binding protein||6, 76, 163, 205, 226, 249|
|VNG6265G||ycdH||adhesion protein||6, 76, 163, 174, 205, 226, 249|
|VNG6279G||ugpA||sn-glycerol-3-phosphate transport system permease||6, 76, 163, 205, 226|
|VNG6280G||ugpE||sn-glycerol-3-phosphate transport system permease||6, 76, 163, 205, 226|
|VNG6301G||aph||alkaline phosphatase||6, 77, 163, 205, 226|
|VNG6319H||hypothetical protein VNG6319H||226|
|VNG6379C||hypothetical protein VNG6379C||226|
|VNG7125||arsR||arsenical resistance operon repressor||226|
|VNG7126||arsC||arsenate reductase||205, 226|
Gene Page Help
If the gene is associated with a module(s), its connection to given modules along with other members of that module are shown as network by using CytoscapeWeb. In this view, each green colored circular nodes represent module member genes, purple colored diamonds represent module motifs and red triangles represent regulators. Each node is connected to module (Bicluster) via edges. This representation provides quick overview of all genes, regulators and motifs for modules. It also allows one to see shared genes/motifs/regulators among diferent modules.
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Regulation tab for each gene includes regulatory influences such as environmental factors or transcription factors or their combinations identified by regulatory network inference algorithms.
If the gene is a member of a module, regulators influencing that module are also considered to regulate the gene. Regulators table list total number of regulatory influences, regulators, modules and type of the influence.
You can see description of the regulator inside the tooltip when you mouseover. In certain cases the regulatory influence is predicted to be the result of the combination of two influences. These are indicated as combiner in the column labeled "Operator".
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Network inference algorithm uses de novo motif prediction for assigning genes to modules. If there are any motifs identified in the upstream region of a gene, the motif will be shown here. For each motif sequence logo, consensus and e-value will be shown.
Identification of functional enrichment for the module members is important in associating predicted motifs and regulatory influences with pathways. As described above, the network inference pipeline includes a functional enrichment module by which hypergeometric p-values are used to identify over representation of functional ontology terms among module members.
Network Portal presents functional ontologies from KEGG, GO, TIGRFAM, and COG as separate tables that include function name, type, corrected and uncorrected hypergeometric p-values, and the number of genes assigned to this category out of total number of genes in the module.
Module Members Tab
Identity of gene members in a module may help to identify potential interactions between different functional modules. Therefore, neighbor genes that share the same module(s) with gene under consideration are shown here. For each memebr, gene name, description and modules that contain it are listed.
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CircVisOur circular module explorer is adapted from visquick originally developed by Dick Kreisberg of Ilya Shmulevich lab at ISB for The Cancer Genome Atlas. We use simplified version of visquick to display distribution of module members and their interactions across the genome. This view provides summary of regulation information for a gene. The main components are;
- 1. All genomic elements for the organism are represented as a circle and each element is separated by black tick marks. In this example chromosome and pDV represent main chromosome and plasmid for D. vulgaris Hildenborough, respectively.
- 2. Source gene
- 3. Target genes (other module members)
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