Repetitive Beta Folds - PowerPoint PPT Presentation

About This Presentation
Title:

Repetitive Beta Folds

Description:

Repetitive Beta Folds Form, Function, and Properties Overview of Presentation Introduction to traditional beta-helix fold Structural and functional properties ... – PowerPoint PPT presentation

Number of Views:145
Avg rating:3.0/5.0
Slides: 17
Provided by: EbenSc4
Learn more at: http://web.mit.edu
Category:
Tags: beta | folds | king | repetitive

less

Transcript and Presenter's Notes

Title: Repetitive Beta Folds


1
Repetitive Beta Folds
  • Form, Function, and Properties

2
Overview of Presentation
  • Introduction to traditional beta-helix fold
  • Structural and functional properties
  • Structure prediction by BetaWrap program
  • Introduction to trimeric viral attachment fibers
  • Structural comparison to traditional beta-helices
  • Current computational approaches

3
Basic Parallel Beta-Helix
Function Sugar cleavage
Beta-helix is an all beta fold
Mainly occurs in bacterial pathogens
Three strands per rung
King lab studies RHBH Tailspike
Right-handed helix (RHBH)
Also left-handed helices (LHBH)
Three faces form a prism
4
Analyzing Beta-Helices
  • Solved structures
  • RHBH 5 SCOP SuperFamilies
  • LHBH 2 SCOP SuperFamilies
  • 48 solved structures in PDB
  • 8 HSSP representatives
  • Predicting novel beta-helices
  • Homology modeling, threading, and HMMs do not
    successfully predict occurrence in
    cross-validation
  • BetaWrap (King, Berger et al. 2001) successfully
    predicts RHBH

5
Lessons from BetaWrap
  • Joint sequence-structure analysis important
  • Discovered conserved hairpin turn
  • Discovered internally packed asparagines
  • Beta-strand packing interactions are important
  • BetaWrap energy function uses strand-to-strand
    packing probabilities
  • Prediction is not enough
  • BetaWrap does not predict active site, etc.
  • Other methods (rotamer libraries etc.) may
    supplement initial prediction

6
Trimeric Viral Attachment Fiber Proteins
7
Trimeric Viral Attachment Fibers
  • Kings interest in beta helix led to interest in
    two new folds
  • Triple beta-helix (TBH)
  • Triple beta-spiral (TBS)
  • These two folds are our current research area
  • Consist of three identical interacting chains
  • TBH is structurally similar to beta-helix
  • TBS is structurally distinct
  • Both folds characterized by unusual stability to
    heat, protease, and detergent

8
Triple Beta-Helix
  • Described by van Raaij et al. in JMB (2001)
  • HomoTrimeric (consists of three identical chains)
  • Two solved structures
  • Portion of T4 short tail fibre SwissProt P10390
  • Cell puncturing device of T4 SwissProt P16009

9
Triple Beta-Spiral
  • Described by van Raaij et al. in Nature (1999)
  • HomoTrimeric (three identical chains)
  • Two solved structures
  • Human Adenovirus 2 Fibre SwissProt P03275
  • Reovirus Attachment Fibre SwissProt P03528
  • Characterized by regular repeat pattern in
    literature

10
Preliminary Analysis
  • TBS more regular than TBH
  • TBS characterized by sequence repeat
  • Can use standard regex techniques (like PROSITE)
    to find many putative TBSs
  • See http//www.baobob.net/cgi-bin/repeat/stored-qu
    eries.pl
  • TBH has so far defied basic characterization
  • Only two solved structures
  • The quasi-repeat is less regular than the TBS

11
Current Research
  • What are we trying to do with TBH and TBS?
  • There are too few for rigorous prediction tool
  • Right now we are just characterizing them
  • Searching for sequence-structure patterns
  • Searching for unique properties
  • Searching for repetitive sequence motifs
  • Regular Expression is first attempt
  • Search with PSSM sequence profile

12
Repetitive Sequence Motif Search
  • Existing Methods for repetitive motif search
  • RADAR (Heger Holm) and others attempt this
  • Existing methods do not find the adeno repeat
  • TBH repeat is not regular enough to search
  • Our approaches (tried so far)
  • Basic regular expression (more in supplemental)
  • PSSM characterizing repeat (in progress)

13
Thank you
  • Peter Weigele (pweigele_at_mit.edu)
  • and
  • Eben Scanlon (eben_at_mit.edu)

14
Supplemental Slides
15
TBS Information
  • Human Adenovirus 2 Fiber and Reovirus Attachment
    Protein s1 have 27 sequence identity, 52
    sequence similarity
  • Searching SwissProt for the Adenovirus repeat
    (regex) pattern with more than 6 occurrences
    finds 3158 matches
  • Searching SwissProt for the Reovirus repeat
    (regex) pattern finds 37578 matches
  • PDB IDs are 1kke, 1qiu

16
TBH Information
  • The T4 Short tail fiber TBH and the T4 cell
    puncturing TBH have 32 sequence identity and 61
    sequence similarity
  • There is no clear repeat pattern in TBH
  • Tried PSSM and HMM models with alignments derived
    from known repeat strands in TBH
  • Have not yet figured out a way to restrict to
    matches with a large number of recurrent repeats
  • Also may want to add a high non-affine gap
    penalty beyond a certain extension
  • PDB IDs are 1H6W, 1K28
  • Need to use PQS (http//pqs.ebi.ac.uk) to get
    trimer image
Write a Comment
User Comments (0)
About PowerShow.com