Created by Thomas Welford
almost 11 years ago
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Question | Answer |
What is does the sigma factor do in the 'Transcription cycle in bacteria'? | Protein needed for the initiation of RNA synthesis, allows binding between RNA polymerase to gene promoters |
What is the consensus sequence? | The bases that appear most often in the promoter collection |
Where do the sigma factors interact with the DNA? | -10 and -35 hexametric elements |
Where do repressors and activators bind? (picture) | |
Where do repressors and activators bind? | Activators bind upstream or partially overlapping region (-35 region) Repressors usually bind overlapping or downstream from promoter region |
Where do most searches for regulatory elements focus on? | <300bp upstream of translation start |
How is transcription initiation controlled? | each regulator controls a regulon e.g. Lac I controls lac operon (one or two other genes) |
What does the E.coli transcriptional network look like? | |
What is a DOR? | Dense Overlapping Regulons A set of regulators control a group of target genes, where each gene is controlled by two or more of the regulators |
What is a DOR (picture)? |
Image:
Untitled (image/png)
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Why are most DNA binding sites bipartite? | So can bind to more parts of the DNA |
What do the bipartite DNA binding sites recognise? | Dyad sequences (highly conserved) that are separated by a non-conserved spacer |
What does the interaction between a DNA binding complex and a dyad sequence look like? | |
Do most sites match the consensus sequence? | NO - most regulators bind to a range of sites and have a range of affinities |
How do you represent DNA motifs? | Visually - WebLOGO Sequence Patterns Position Specific Weighted Matrices (PSWM) |
How do 'sequence patterns' work? | String of sequence using four nucleotides Variation captured using IUPAC codes |
What is a disadvantage of sequence patterns? | Does not capture quantitative information on a particular position |
How do you conduct a PSWM? | Capture frequency of nucleotides at each position |
What is the IUPAC? | Code for representing degenerate nucleotide sequence patterns |
What is a DNA sequence motif? | Short reoccurring patterns in DNA |
How do you conduct a PSSM? | Start with data used to create consensus Related sites discovered using a search engine Align sequences then score each position Introduce pseudo counts Introduce background frequency |
What do 'pseudocounts and background frequency of particular nucleotide in genome' solve? | Product of score for each does not equal 0 Score does not account for background GC content of genome |
What is the formula used to work out PSSM? | Score (position, nucleotide) = (q+p) / (N + B) q=observed counts for nucleotide p=weighted pseudocounts=B*(overall frequency of nucleotide) B = total number of allocated pseudocounts N = total number of sequences (max number of observed counts) TOTAL SCORE = PRODUCT OF SCORE AT EACH POSITION |
How do we identify regulatory motifs? | 1) Intra-genome searches for conserved motifs - DYADS 2) Inter-genome alignments of orthologues |
What do the approaches for 'identifying regulatory motifs' rely on? | most DNA binding proteins bind to related sequences - SPECIFICALLY |
When conducting an intra-genome search for dyads, what do we search for? | W1 NX W2 W1 = 3-5 nt sequence NX = spacer with any nucleotide of X nt length W2 = 3-5 nt sequence |
What are "intra-genome searches for dyads" limited to ? | <300bp from translation start point |
For "Intra-genome searches for dyads" what does statistical significance depend on? | Length and GC content of Dyad Context of search e.g. length and GC content of upstream regions |
What happens following identification of groups of significant dyads? | cluster into subgroups based on conservation in surrounding nucleotides |
What can a PSSM be used for within Intra-genome searches for dyads ? | Search for additional targets |
What is an "Inter-genome comparison of - orthologues"? | Genome sequences of groups of related but distinct (e.g. Genus level) make this very powerful method |
What is the best approach to identify regulator motifs? | genome-wide ChIP analysis |
What happens if "genome-wide ChIP analysis" is not available? | 1) Known consensus sequence / PSSM generated using a limited data set 2) Microarray data indicating co-expressed genes (transcriptome analysis) |
What are the benefits of a string search? | Can include mismatches and IUPAC symbols Can quickly identify close matches NOT good for degenerate motifs |
What is a 'string search'? | Query is a string of nucleotides derived from consensus e.g. GTGnnnnCAC |
PSSM-based search | Query is a matrix-based pattern Weighted nature increases sensitivity Can identify degenerate motifs Trade-off between sensitivity and specificity |
What web based tools can be used for motif discovery and searching? |
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