Transcript secstruct
Protein Analysis Workshop 2008
Secondary
Structure Prediction
Bioinformatics group
Institute of Biotechnology
University of helsinki
Hung Ta
[email protected]
Overview
Hierarchy of protein structure.
Introduction to structure prediction:
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Different approaches.
Prediction of 1D strings of structural elements.
Server/soft review:
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COILS, MPEx, …
The PredictProtein metaserver.
Proteins
Proteins play a crucial role in virtually all biological
processes with a broad range of functions.
Protein structure leads to protein function.
Hierachy of Protein Structure
Primary Structure: a Linear Arrangement
of Amino Acids
An amino acid has several structural components: a central carbon atom
(Ca), an amino group (NH2), a carboxyl group (COOH), a hydrogen atom
(H), a side chain (R). There are 20 amino acids
The peptide bond is formed as the cacboxyl group of an aa bind to the
amino group of the adjacent aa.
The primary structure of a protein is simply the linear arrangement, or
sequence, of the amino acid residues that compose it
Secondary Structure: Core Elements of
Protein Architecture
resulted from the folding of localized parts of a
polypeptide chain.
α-helix
}
β-sheet
Coils, turns,
major internal supportive elements, 60 percent of the
polypeptide chain
α-Helix
Hydrogen-bonded
3.6 residues per turn
Axial dipole moment
Side chains point outward
Average length is 10 amino acids
(3 turns).
Typically, rich of Analine,
Glutamine, Leucine, Methione;
and poor of Proline, Glycine,
Tyrosine and Serine.
β-Sheet
Formed due to hydrogen bonds
between β-strands which are short
polypeptide segments (5-8
residues).
Adjacent β-strands run in the
same directions -> parallel sheet.
Adjacent β-strands run in the
oposite directions -> anti-parallel
sheet.
Ribbon diagram
parallel
anti-parallel
Turns, loops, coils…
A turn, composed of 3-4 residues, forms
sharp bends that redirect the polypeptide
backbone back toward the interior.
A loop is similar with turns but can form
longer bends
Turns and loops help large proteins fold into
compact structures.
A random coil is a class of conformations
that indicate an absence of regular
secondary structure.
Turn
Tertiary Structure: Overall Folding of
Polypeptide Chain.
stabilized by hydrophobic interactions between the nonpolar side chains,
hydrogen bonds between polar side chains, and peptide bonds
Quaternary Structure: Arrangement of
Multiple Folded Protein Molecules.
DNA polymerase
Hemoglobin
Structure Prediction
GPSRYIVDL… ?
High importance in medicine (for
example, in drug design) and
biotechnology (for example, in the design
of novel enzymes)
Structure Prediction
Why: experimental methods, X-ray crystallography or NMR
spectroscopy, are very time-consuming and relatively expensive.
Challenges:
Extremely large number of possible structures.
the physical basis of protein structural stability is not fully
understood.
In this lecture, discuss about the protein secondary strutures
prediction.
Secondary Structure Prediction
Why: the first level of structural organization.
The tasks:
?
aa
Primary:
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H: α-helix
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E: β- strand
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T: turn
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C: coil
MSEGEDDFPRKRTPWCFDDEHMC
Secondary: CCHHHHHHCCCCEEEEEECCCCC
Secondary Structure Prediction
Single residue statistical analysis (Chou-Fasman -1974):
For each amino acid type, assign its ‘propensity’ to be in a helix, βsheet, or coil.
Based on 15 proteins of known conformation, 2473 total amino
acids.
Limited accuracy: ~55-60% on average.
Eg: Chou-Fasman (1974), not used any more
Secondary Structure Prediction
Segment-based statistics:
Look for correlations (within 11-21 aa windows).
Many algorithms have been tried.
Most performant: Neural Networks:
Input: a number of protein sequences with their known secondary
structure.
Output: a trained network that predicts secondary structure elements for
given query sequences.
Accuracy < 70%.
POPULAR SERVERS
FOR DEALING WITH
SECONDARY STRUCTURES
• Coiled-coils
• Transmembrane helices
• Secondary structure
• Metaservers
Prediction of coiled-coils
Coiled-coils are generally solvent exposed
multi-stranded helix structures:
two-stranded
Helix periodicity and solvent exposure impose
special pattern of heptad repeat:
… abcdefg …
Helical diagram of
2 interacting helices:
hydrophobic residues
hydrophilic residues
(From Wikipedia Leucine zipper article)
The COILS server at EMBnet
Compares a sequence to a database of known,
parallel two-stranded coiled-coils, and derives a
similarity score.
By comparing this score to the distribution of
scores in globular and coiled-coil proteins, the
program then calculates the probability that the
sequence will adopt a coiled-coil conformation.
Options:
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scoring matrices,
window size (score may vary),
weighting options.
COILS Limitations
The program works well for parallel twostranded structures that are solventexposed but runs progressively into
problems with the addition of more helices,
their antiparallel orientation and their
decreasing length.
The program fails entirely on buried
structures.
COILS Demo
Let us submit the sequence
>1jch_A
VAAPVAFGFPALSTPGAGGLAVSISAGALSAAIADIMAALKGPFKFGLWGVALYGVLPSQ
IAKDDPNMMSKIVTSLPADDITESPVSSLPLDKATVNVNVRVVDDVKDERQNISVVSGVP
MSVPVVDAKPTERPGVFTASIPGAPVLNISVNNSTPAVQTLSPGVTNNTDKDVRPAFGTQ
GGNTRDAVIRFPKDSGHNAVYVSVSDVLSPDQVKQRQDEENRRQQEWDATHPVEAAERNY
ERARAELNQANEDVARNQERQAKAVQVYNSRKSELDAANKTLADAIAEIKQFNRFAHDPM
AGGHRMWQMAGLKAQRAQTDVNNKQAAFDAAAKEKSDADAALSSAMESRKKKEDKKRSAE
NNLNDEKNKPRKGFKDYGHDYHPAPKTENIKGLGDLKPGIPKTPKQNGGGKRKRWTGDKG
RKIYEWDSQHGELEGYRASDGQHLGSFDPKTGNQLKGPDPKRNIKKYL
to the COILS server at EMBnet:
http://www.ch.embnet.org/software/COILS_form.html
Transmembrane Region Prediction
Transmembrane regions:
Usually contain residues with hydrophobic side
chains (surface must be hydrophobic).
Usually ~20 residues long, can be up to 30 if
not perpendicular through membrane.
Methods:
Hydropathy plots (historical, better methods now available)
Threading (TMpred, MEMSAT),
Hidden Markov Model (TMHMM),
Neural Network (PHDhtm).
Hydropathy Plots (Kyte-Doolittle)
The hydropathy index of an amino acid is a number
representing the hydrophobic or hydrophilic properties of
its side-chain
compute an average hydropathy value for each position
in the query sequence,
window length of 19 usually chosen for membranespanning region prediction.
Hydropathy Plot Servers
Let us submit the sequence
>sp|P06010|RCEM_RHOVI Reaction center protein M chain (Photosynthetic reaction
center M subunit) - Rhodopseudomonas viridis.
ADYQTIYTQIQARGPHITVSGEWGDNDRVGKPFYSYWLGKIGDAQIGPIYLGASGIAA
FAFGSTAILIILFNMAAEVHFDPLQFFRQFFWLGLYPPKAQYGMGIPPLHDGGWWLM
AGLFMTLSLGSWWIRVYSRARALGLGTHIAWNFAAAIFFVLCIGCIHPTLVGSWSEGV
PFGIWPHIDWLTAFSIRYGNFYYCPWHGFSIGFAYGCGLLFAAHGATILAVARFGGDR
EIEQITDRGTAVERAALFWRWTIGFNATIESVHRWGWFFSLMVMVSASVGILLTGTFV
DNWYLWCVKHG AAPDYPAYLPATPDPASLPGAPK
to
Membrane Explorer (also as standalone MPEx),
Grease (http://fasta.bioch.virginia.edu/fasta/grease.htm)
Hydropathy Plot
The larger the number is, the more
hydrophobic the amino acid
TM Pred
Method summary:
Scans a candidate sequence for matches
to a sequence scoring matrix, obtained by
aligning the sequences of all
transmembrane alpha-helical regions that
are known from structures.
These sequences are collected in a
database called TMBase.
Remark: Authors do not suggest this method for genomic
sequences. Automatic methods recommended, eg,
TMHMM, PHDhtm.
TM Pred Server
Let us submit RCEM_RHOVI again
>sp|P06010|RCEM_RHOVI Reaction center protein M chain (Photosynthetic reaction
center M subunit) - Rhodopseudomonas viridis.
ADYQTIYTQIQARGPHITVSGEWGDNDRVGKPFYSYWLGKIGDAQIGPIYLGASGIAA
FAFGSTAILIILFNMAAEVHFDPLQFFRQFFWLGLYPPKAQYGMGIPPLHDGGWWLM
AGLFMTLSLGSWWIRVYSRARALGLGTHIAWNFAAAIFFVLCIGCIHPTLVGSWSEGV
PFGIWPHIDWLTAFSIRYGNFYYCPWHGFSIGFAYGCGLLFAAHGATILAVARFGGDR
EIEQITDRGTAVERAALFWRWTIGFNATIESVHRWGWFFSLMVMVSASVGILLTGTFV
DNWYLWCVKHG AAPDYPAYLPATPDPASLPGAPK
to the TMPred server at EMBnet:
http://www.ch.embnet.org/software/TMPRED_form.html
Meta-Servers
A server which
allows you to obtain many informations
based on your sequence including
structure predictions, motif or domain
search… The predictions are based on
several methods.
PredictProtein: http://predictprotein.org
The PredictProtein meta-server
For sequence analysis, structure and function prediction. When you submit
any protein sequence PredictProtein retrieves similar sequences in the
database and predicts aspects of protein structure and function
SEG: finds low complexity regions.
ProSite: database of functional motifs, ie, biologically relevant short patterns
ProDom: a comprehensive set of protein domain families automatically generated
from the SWISS-PROT and TrEMBL sequence databases.
PROFsec (PHDsec): secondary structure,
PROFacc (PHDacc): solvent accessibility,
PHDhtm: transmembrane helices.
Sequence database is scanned for similar sequences (Blast, Psi-Blast).
Multiple sequence alignment profiles are generated by weighted dynamic
programming (MaxHom).
PredictProtein Demo
Let´s submit again
>uniprot|P00772|ELA1_PIG Elastase-1 precursor
MLRLLVVASLVLYGHSTQDFPETNARVVGGTEAQRNSWPSQISLQYRSGSSWAHTCGGTL
IRQNWVMTAAHCVDRELTFRVVVGEHNLNQNDGTEQYVGVQKIVVHPYWNTDDVAAGYDI
ALLRLAQSVTLNSYVQLGVLPRAGTILANNSPCYITGWGLTRTNGQLAQTLQQAYLPTVD
YAICSSSSYWGSTVKNSMVCAGGDGVRSGCQGDSGGPLHCLVNGQYAVHGVTSFVSRLGC
NVTRKPTVFTRVSAYISWINNVIASN
to http://predictprotein.org/
For a list of mirror sites:
http://predictprotein.org/newwebsite/doc/mirrors.html
Results
Low-complexity regions
Marked by ’X’
Secondary structure prediction results
References
Documentation:
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COILS: http://www.ch.embnet.org/software/coils/COILS_doc.html
TMPred: http://www.ch.embnet.org/software/tmbase/TMBASE_doc.html
MPEx: http://blanco.biomol.uci.edu/mpex/MPEXdoc.html
Articles:
B. Rost: Evolution teaches neural networks. In Scientific applications of neural nets. Ed.
J.W.Clark, T.Lindenau, M.L. Ristig, 207-223 (1999).
D.T Jones: Protein Secondary Structure Prediction Based on Position-specific Scoring
Matrices. J.Mol.Biol. 292, 195-202 (1999).
B. Rost: Prediction in 1D: Secondary Structure, Membrane Helices, and Accessibility. In
Structural Bioinformatics (reference below).
Books:
P.E. Bourne, H. Weissig: Structural Bioinformatics. Wiley-Liss, 2003.
A. Tramontano: Protein Structure Prediction. Wiley-VCH, 2006.