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Transcript 
Genetics Notes
Genetics Notes
• Just a little review before we get into the new
stuff…
• The 6 characteristics all organisms share:
– Have at least one cell
– Can grow & develop
– Have genetic material
– Can reproduce
– Have a metabolism
– Can adapt & evolve
Two types of genetic material
• DNA (deoxyribonucleic acid)
–
–
–
–
Holds the information for making all the traits in an organism
Found in the nucleus, mitochondria, and chloroplasts
Double stranded molecule
Has 4 nucleotide bases
•
•
•
•
A (adenine)
T (thymine)
C (cytosine)
G (guanine)
• RNA (ribonucleic acid)
–
–
–
–
Carries the information from the DNA to the ribosomes
Found in the ribosomes and traveling between nucleus and ribosomes
Single stranded molecule
Has 4 nucleotide bases
•
•
•
•
A (adenine)
U (uracil)
C (cytosine)
G (guanine)
Nucleotide Bases
• A nucleotide base is a molecule that makes up DNA and RNA
– Kind of like the letters of the alphabet make up our words
• Organisms from all 6 kingdoms have the same nucleotide bases in their
RNA and DNA
– All DNA and RNA (no matter what organism it comes from) is all built and works
the exact same way
– This is why we are able to take DNA from one organism and put it into other
organisms and make it work
• The only thing that makes DNA different in different organisms is the order
of the nucleotide bases
• The nucleotide bases from one strand of DNA always pair with a certain
nucleotide base on the other strand (see next slide)
– They also always pair with a certain nucleotide base on the RNA
• This is how a DNA strand creates an RNA strand to send the information for making
a trait out to the ribosomes
Base pairing rules
• DNA to DNA rules
– A pairs with T
– T pairs with A
– G pairs with C
– C pairs with G
DNA Strand
1
ATAC GATC GATC GAC C CT
DNA Strand
2
• DNA to RNA rules
– A pairs with U
– T pairs with A
– G pairs with C
– C pairs with G
DNA Strand
RNA Strand
ATAC GATC GATC GAC C CT
Codons
• Once the DNA strand has created the RNA
strand, the ribosomes will read the RNA strand
3 nucleotide bases at a time
– A codon is a sequence of 3 nucleotide bases
DNA
Strand
GTC
AAT
TCC GTG GCC ACT
RNA
Strand
• Each codon stands for a specific amino acid
– Amino acids are the building blocks of proteins
– Ribosomes read the RNA one codon at a time and
hook together the amino acids to make proteins
Codon Rules
• The first nucleotide base in
the RNA codon is in the
innermost circle
• The second nucleotide base
in the RNA codon is in the
second ring outward
• The third (last) nucleotide
base in the RNA codon is in
the third ring outward
• The amino acid made by that
RNA codon is in the
outermost ring
DNA Strand
RNA Strand
Amino Acids
CAG
TGC
AA G
CTT
AGC
CCA
Proteins
• A protein is a chain of amino acids
• Proteins are used for creating many traits like:
–
–
–
–
Speeding up metabolism reactions
Building body parts, like muscles
Coloring the skin, hair and eyes
Causing the release of other chemicals
• Proteins will begin with the amino acid MET and end with STOP
DNA Strand
CGG
GTA
TAC
AAA
AT G
GAC
CTG
ACT
TTT
RNA Strand
GCC
CAU
AUG
UUU
UAC
CUG
GAC
UGA
AAA
Amino Acids
• The DNA sequence that creates the RNA that creates the protein is called
a gene
– Genes begin with a codon that codes for MET and end with a STOP codon
– In between genes are sequences called introns that do not create proteins or
traits
Types of Genes
• Dominant genes are sequences of DNA that code for a
working version of a protein
– Examples of human traits caused by dominant genes:
• Tongue rolling
• Cleft chin
• Achondroplasia (type of dwarfism)
• Recessive genes are sequences of DNA that code for a
non-working version of a protein
– Examples of human traits caused by recessive genes:
• Non-tongue rolling
• Smooth chin
• Normal height
• For each trait there may be many different versions an
organism could have
– The different versions of the genes that cause different versions of a
trait to appear are called alleles
Special Cases
• The number of different versions that exist for a trait can tell you a little
about the number of genes that create it
– In general, the more versions of a trait there are, the more genes are
responsible for creating it (less versions mean fewer genes)
• In many cases, there is 1 dominant gene and 1 recessive gene
– This is true for a lot of traits that only have 2 versions
• In some cases there is more than 1 dominant version of a gene
– Blood type is an example of this
• In some cases there is no real dominant version of a gene
– Curly, wavy, and straight hair is an example of this
• In some cases the protein made by 1 gene combines with the proteins
made by other genes to change what they do
– Height is an example of this
• In some cases the protein made by 1 gene controls many different traits
– Eye color, skin color, and hair color are examples of this
Mutations
• Mutations are changes in the sequence of the DNA or RNA
bases
• Mutations can happen at random as the DNA or RNA
is copied or they can be caused by mutagens
– Mutagens are substances that can cause mutations
• Examples of mutagens:
– Radiation from X-rays, sunlight, and radioactive materials
– Some food additives
– Some industrial chemicals
• Some mutations cause new proteins to be made, which could
lead to new traits (possibly good, possibly bad)
Original Sequence
Mutated Sequence
DNA
TAC
AGT
CAT
ATT
TAC
AGT
CAT
ATT
RNA
AUG
UCA GGC GUA
UAA
AUG
UCA GGC GUA
UAA
Amino
Acids
Met
Ser
Stop
Met
Ser
Stop
CCG
Gly
Val
CTG
Asp
Val
• Some mutations cause proteins not to be made, which could
be good or bad depending on what the protein did
Original Sequence
Mutated Sequence
DNA
TAC
AGT
CAT
ATT
TAC
CAT
ATT
RNA
AUG
UCA GGC GUA
UAA
AUG UGA GGC GUA
UAA
Amino
Acids
Met
Ser
Stop
Met
Stop
CCG
Gly
Val
ACT
Stop
CCG
Gly
Val
• Some mutations cause no changes in the protein at all
Original Sequence
Mutated Sequence
DNA
TAC
AGT
CAT
ATT
TAC
AGT
CAA
ATT
RNA
AUG
UCA GGC GUA
UAA
AUG
UCA GGC GUU
UAA
Amino
Acids
Met
Ser
Stop
Met
Ser
Stop
CCG
Gly
Val
CCG
Gly
Val
• Putting it all together:
• All traits are part genetic and part environmental
– Some are more genetic
– Some are more environmental
– Some are well balanced
• The environment can alter the traits at any of the levels above
Related documents
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Quiz 3-DNA.doc
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