lecture1

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Transcript lecture1 

Molecular Biology Primer for CS and
engineering students
Alan Qi
Jan. 10, 2008
Central Dogma
DNA
RNA
Protein
Genes control the making of cell parts
• The gene is a fundamental unit of inheritance
– DNA molecule contains tens of thousands of genes
– Each gene governs the making of one functional element, one
“part” of the cell machine
– Every time a “part” must be made, a piece of the genome is
copied, transported, and used as a blueprint
• RNA is a temporary copy
– The medium for transporting genetic information from the DNA
information repository to the protein-making machinery is an
RNA molecule
– The more parts are needed, the more copies are made
– Each mRNA only lasts a limited time before degradation
RNA: messager
From pre-mRNA to mRNA: Splicing
• In some species (e.g. eukaryotes), not every part
of a gene is coding
– Functional exons interrupted by non-translated
introns
– During pre-mRNA maturation, introns are
spliced out
– In humans, primary transcript can be 106 bp
long
– Alternative splicing can yield different exon
subsets for the same gene, and hence different
protein products
RNA can be functional
• Single Strand allows complex structure
– Self-complementary regions form helical
stems
– Three-dimensional structure allows
functionality of RNA
• Active research area: non-coding RNAs…
– Once upon a time, before DNA and protein,
RNA did all
Central Dogma
DNA
RNA
Protein
Condon
• The genetic code defines a mapping between tri-nucletide sequences
called codons and amino acids.
• Condon is defined by the initial nucleotide from which translation starts.
– For example, the string GGGAAACCC, if read from the first position, contains
the codons GGG, AAA and CCC; and if read from the second position, it
contains the codons GGA and AAC; if read starting from the third position,
GAA and ACC.
– Every sequence can thus be read in three reading frames. With doublestranded DNA there are six possible reading frames. three in the forward
orientation on one strand and three reverse (on the opposite strand).
– If the DNA is eukaryotic, the reading frame may contain introns.
• Start/stop codons
Translation starts with a chain start codon. The most common start codon
is AUG, which codes for methionine, so most amino acid chains start with
methionine. Nearby sequences and initiation factors are also required to
start translation.
Stop condons: UAG-amber, UGA-umber, and UAA-ochre.
Degeneracy of the genetic code
• The genetic code has redundancy but no ambiguity.
– Both Codons GAA and GAG -> glutamic acid (redundancy),
neither of them specifies any other amino acid (no
ambiguity).
• The codons encoding one amino acid may differ in any
of their three positions.
– the amino acid glutamic acid is specified by GAA and GAG
codons (difference in the third position),
– the amino acid leucine is specified by UUA, UUG, CUU,
CUC, CUA, CUG codons (difference in the first or third
position)
– the amino acid serine is specified by UCA, UCG, UCC, UCU,
AGU, AGC (difference in the first, second or third position).
Proteins carry out the cell’s chemistry
• More complex polymer
– Nucleic Acids have 4 building blocks
– Proteins have 20. Greater versatility
– Each amino acid has specific properties
• Sequence -> Structure -> Function
– The amino acid sequence determines the
three-dimensional fold of protein
– The protein’s function largely depends on
the features of the 3D structure
• Proteins play diverse roles
– Catalysis, binding, cell structure, signaling,
transport, metabolism
Protein structures
• Primary structure - the amino acid sequence of the peptide
chains.
• Secondary structure - highly regular sub-structures (alpha
helix and strands of beta sheet) which are locally defined,
meaning that there can be many different secondary motifs
present in one single protein molecule.
• Tertiary structure - Three-dimensional structure of a single
protein molecule; a spatial arrangement of the secondary
structures.
• Quaternary structure - complex of several protein
molecules or polypeptide chains, usually called protein
subunits in this context, which function as part of the larger
assembly or protein complex.
Summary