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Molecular Biology Primer. Starting 19 th century… Cellular biology: Cell as a fundamental building block 1850s+: ``DNA’’ was discovered by Friedrich Miescher.

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Presentation on theme: "Molecular Biology Primer. Starting 19 th century… Cellular biology: Cell as a fundamental building block 1850s+: ``DNA’’ was discovered by Friedrich Miescher."— Presentation transcript:

1 Molecular Biology Primer

2 Starting 19 th century… Cellular biology: Cell as a fundamental building block 1850s+: ``DNA’’ was discovered by Friedrich Miescher and Richard Altmann Mendel’s experiments with garden pea plants  Laws of inheritance, ``Alleles”, ``genotype’’ vs. ``Phenotype’’ 1909: Wilhelm Johannsen coined the word ``gene’’ Still….. Proteins were thought to be the primary genetic materials… but..

3 Avery’s Experiment

4 What does a gene produce? Gene  … ?...  Protein

5 DNA: Birth of Molecular Biology (1953) J.D.Watson F. Crick @Cavendish Lab, Cambridge M.H.F.Wilkins R. Franklin @King’s College, London

6 DNA: A Double Helix T C A C T G G C G A G T C A G C Phosphate Group Sugar Nitrogenous Base A,C,G,T Adenine Cytosine Guanine Thymine Strand#1 Strand#2 A   T C   G Complementary Base Pairing Rule: 3’ 5’ 3’ AGCGACTG TCGCTGAC 5’ 3’ Reverse Complement: Double Helix in 3D

7 Central Dogma: DNA -> RNA -> Protein

8 The Central Dogma & Biological Data Protein structures - Experiments - Models (homologues) Literature information Original DNA Sequences (Genomes) Protein Sequences - Inferred - Direct sequencing Expressed DNA sequences ( = mRNA Sequences = cDNA sequences) Expressed Sequence Tags (ESTs) Slide courtesy: http://www.sanbi.ac.za/training-2/undergraduate-training/

9 DNA RNA T C A C T G G C G A G T C A G C Phosphate Group Sugar Nitrogenous Base A,C,G,T Adenine Cytosine Guanine Thymine Strand#1 Strand#2 3’ 5’ 3’ Phosphate Group Sugar Nitrogenous Base A,C,G,U Adenine Cytosine Guanine Uracil G A G U C A G C Single Stranded RNA types: tRNA mRNA rRNA Spot the difference! Double stranded

10 Proteins Like a DNA and a RNA molecule is a chain of nucleotides {A,C,G,T/U}, a protein molecule is a ``chain of amino acids” (aka, peptide chain) There are 20 amino acids Next question: How does a gene encode the information to produce a protein molecule?

11 Genetic Code: Khorana, Holley and Nirenberg, 1968 4 2 < 20 < 4 3  Hence 3 nucleotides in a codon Combinatorial Logic:

12 A little convention for convenience Let us use a straight line from now on to represent a DNA strand (or equivalently, its sequence) 5’ 3’5’ 3’ “Top strand” or “Watson strand” “Bottom strand” or “Crick strand”

13 Information Flow During Protein Synthesis DNA 3’ 5’ 3’ 5’ Gene e1e1 e2e2 e4e4 Transcription mRNA Translation Protein + tRNA Folding Stable Structure e1e1 e2e2 e3e3 e4e4 e5e5 Coding ( exons ) Non-Coding ( introns ) One gene can code for many proteins! ( alternative splicing in eukaryotes) Nuclear genome

14 Several Questions Leading Up to Today’s Computational Biology and Bioinformatics What are the nucleotides in a DNA molecule? (problem of sequencing ) What DNAs make up the genome of a species? (problem of genome sequencing, genome assembly ) What are the genes within a genome? ( gene identification/discovery ) What protein and RNA products does a gene produce? ( annotation ) What is the native 3D structure of a protein and how does it get there? ( protein folding, structure prediction ) Similar questions can be asked of RNAs too.

15 Several Questions …. Are there non-protein coding genes? ( pseudo-genes ) Under what conditions does a gene express itself, and are there genes that are more active than others under experimental conditions? ( gene expression analysis, microarrays ) Are there a subset of genes that co-operate, and does a gene’s activity get affected by others? ( gene regulatory networks ) How do genes look and behave in closely related species? What distinguishes them? ( gene and species evolution ) What is the ``TREE OF LIFE’’? ( phylogenetic tree reconstruction ) How does a protein know where to go next within a cellular complex? ( localization, signal peptide prediction ) AND MANY MORE ….

16 DNA Genome Gene Regulatory elements RNA products Proteins Sequence Discovery Gene structure prediction RNA structure prediction Protein structure prediction Structure Gene to protein annotation Gene expression analysis Microarray experiments RNA interference Metabolic networks/pathway Function Tree of life Speciation Evolutionary Studies Haplotype analysis Nucleotide polymorphism Population Genetics Computational Biology & Bioinformatics: Problem Areas

17 Genomic databases “ An annotated collection of all publicly available nucleotide and amino acid sequences.” Source: NCBI GenBank, EMBL websites Where are we now?

18 NCBI RefSeq database “A comprehensive, integrated, non-redundant, well- annotated set of reference sequences including genomic, transcript, and protein.” http://www.ncbi.nlm.nih.gov/refseq/ ~600GB of data

19 Computational Biology and Bioinformatics A rapidly evolving field Technology – biological and computational Capabilities Concepts Knowledge and Science A plethora of grand challenge questions An Ante-disciplinary Science? An interesting read: ``Antedisciplinary’’ Science, Sean R. Eddy, PLoS Computational Biology, 1(1):e6

20 Referred Slide Materials, Acknowledgments, and Web Resources ``DNA From the Beginning” ( http://www.dnaftb.org ), Dolan DNA Learning Center, Cold Spring Harbor Laboratory Stanford University, CS 262: Computational Genomics NCBI website Wikipedia J.D. Watson, The Double Helix: A personal account of the discovery of the structure of DNA

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