Bioinformatics. Not only small molecules and QM, MM techniques rule the world.
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Transcript of Bioinformatics. Not only small molecules and QM, MM techniques rule the world.
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Bioinformatics
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Not only small molecules and QM, MM techniques rule the world.
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Central dogma of molecular biology
• Term is due to Francis Crick• The conversion DNA →
protein is not direct, RNA is involved
• DNA is the information store, RNA is messenger (mRNA), transporter (tRNA), biomolecular nanomachine (rRNA)
source: wikipedia.org
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Nucleic acids• four letters (DNA, RNA)• sequence - AACTAACG (5’ → 3’)• DNA – double helix• RNA – “single stranded” helix, folding (double helical
regions, C2’ -OH → secondary and tertiary motifs)
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nucleoside
nucleotide
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B-DNA A-DNA Z-DNA
B
A
Z
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RNA secondary motifs
Nowakowski and Tinoco, Seminars in Virology 8, 153, 1997.
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RNA
source: http://complex.upf.es/~josep/RNA.jpg, http://www.biosci.ki.se/groups/ljo/images/phe_trna_large.jpg, http://rna.ucsc.edu/rnacenter/images/70s_atrna.jpg
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Proteins• 20 letters• primary structure - sequence AMNTSSTVG (N-end → C-
end)
Alberts, Molecular Biology of the Cell, 5th Ed.
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• secondary structure (random coil, -helix,
β-sheet, loops)• several secondary structure elements
form motifs• e.g. greek key, β-α-β, HTH
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• tertiary structure (the arrangements of motifs into domain/s)
• quartenary structure (multimeric complexes)
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Proteins
source:http://calstate.fullerton.edu/news/arts/2003/photos/protein-art.jpg
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Proteins
source: Petsko, Ringe – Protein structure and function
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http://www.cellsignal.com/reference/pathway/NF_kappaB.html
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Systems biology
• focuses on the systematic study of complex interactions in biological systems using a new perspective - holism instead of reductionism • holism – the properties of a system cannot be determined or
explained by its component parts alone
• one of the goals of systems biology is to discover new emergent properties
• new field, boom since 2000, very little covered in CZ
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Systems biology
source: wikipedia.org
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Systems biology• based on mathematical modelling of systems, control
theory, cybernetics• engineering view on complex biological systems• e.g. answers questions about robustness of the given
system when one of its part fails• or about response of a systems upon the change of the
environmental conditions
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quantum chemistry
molecular dynamics
bioinformatics
systems biology
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Bioinformatics
• application of information technology to the field of molecular biology, genomics and related biological disciplines
• tremendous amount of data• the creation and advancement of databases, algorithms,
computational and statistical techniques, and theory to solve problems arising from the management and analysis of biological data
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Podle definičního třídění ruských vědců rozlišujeme dva obory paranormálních jevů: bioinformatika a bioenergetika. Bioinformatika (tzn. mimosmyslové vnímání, ESP) zahrnuje získávání a výměnu informací mimosmyslovou cestou (nikoli normálními smyslovými orgány). V podstatě rozlišujeme následující formy bioinformace: hypnózu (kontrolu vědomí), telepatii, dálkové vnímání, prekognici, retrokognici, mimotělní zkušenost, "vidění" rukama nebo jinými částmi těla, inspiraci a zjevení.
zdroj: http://www.esoterika.cz/clanek/2992-mimosmyslova_spionaz_dalkove_pozorovani_i_.htm
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Bioinformatics
• sequence analysis (sequence bioinformatics)• structural analysis (structural bioinformatics)• functional analysis (systems biology)
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• genetic code• gene• genome, genomics
• large data sets• high throughput
• human genome• DNA localized mainly in nucleus, each nucleus carries the
whole genetic information• 3.2 billions bp• 25 000 – 30 000 genes• ca 1,5 % codes for proteins, the rest - junk DNA
• what is proteome?• proteomics
• Is it more difficult to study genome or proteome?
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Sequential bioinformatics
• reconstruction of sequence fragments• searching of genes and other interesting regions in the genome• junk DNA – 95% of human genome is made by non-coding
sequences, either no function, or not yet understood
• querying huge genomes for a given sequence• comparison of genes within a specie – similarities between protein functions
• comparison of genes between species – organism's evolutionary relationships (phylogenetic analysis)
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Sequence alignment• Procedure of comparing sequences• Point mutations – easy
• More difficult example
• However, gaps can be inserted to get something like this
ACGTCTGATACGCCGTATAGTCTATCTACGTCTGATTCGCCCTATCGTCTATCT
ACGTCTGATACGCCGTATAGTCTATCTCTGATTCGCATCGTCTATCT
ACGTCTGATACGCCGTATAGTCTATCT----CTGATTCGC---ATCGTCTATCT
gapless alignment
gapped alignmentinsertion × deletionindel
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Flavors of sequence alignment
pair-wise alignment × multiple sequence alignment
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Flavors of sequence alignment
global alignment × local alignment
global
local
align entire sequence
stretches of sequence with the highest density of matches are aligned, generating islands of matches or subalignments in the aligned sequences
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Identity matrix
Scoring systems I• DNA and protein sequences can be aligned so that the
number of identically matching pairs is maximized.
• Counting the number of matches gives us a score (3 in this case). Higher score means better alignment.
• This procedure can be formalized using substitution matrix.
A T T G - - - TA – - G A C A T
A T C G
A 1
T 0 1
C 0 0 1
G 0 0 0 1
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Scoring systems II• For nucleotide sequences identity matrix is usually good
enough.• For protein sequences, identity matrix is not sufficient to
describe biological and evolutionary proceses.• It’s because amino acids are not exchanged with the same
probability as can be conceived theoretically.• For example substitution of aspartic acids D by glutamic acid E
is frequently observed. And change from aspartic acid to tryptophan W is very rare.
• Why is that?1. Triplet-based genetic code
GAT (D) → GAA (E), GAT (D) → TGG (W)
2. Both D and E have similar properties, but D and W differ considerably. D is hydrophylic, W is hydrophobic, D → W mutation can greatly alter 3D structure and consequently function.
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Substitution matrices
small, polar
small, nonpolar
polar or acidic
basic
large, hydrophobic
aromatic
Zvelebil, Baum, Understanding bioinformatics.
Positive score – frequency of substitutions is greater than would have occurred by random chance.
Zero score – frequency is equal to that expected by chance.
Negative score – frequency is less than would have occurred by random chance.
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Sequence database search
BLAST
Google of sequence world
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Phylogenetic analysis
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Structural bioinformatics• the function of chemical moiety is given by its structure• while DNA structure is “given” (double-helix), RNA and
proteins can accommodate very different conformations (i.e. specific arrangements of atoms in 3D space)
• structural bioinformatics covers• analysis of the NA and proteins structure • prediction of structure from the sequence
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Protein structure prediction• secondary structure prediction
• the conformational state of each residue is predicted as H (helix), E (extended, β-sheet), C (coil)
• accuracy: 80%
• tertiary structure prediction• why?
• many sequences are known, not that many 3D structures has been solved
• some proteins (e.g. transmembrane) are difficult to characterize experimentally
• many proteins have known function, but unknown structure (which is however needed to understand their behavior in detail)
• ab initio, threading, homology modelling
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CASP
• Critical Assessment of Structure Prediction• http://predictioncenter.org/• since 1994, every 2 years, CASP10 in preparation
• predict solved, but not publicly released structures
• competition of individual groups in 3D prediction:• human groups – answer in 14 days• software (automated prediction) – answer in 48 hours