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DIRECTIONS
1. CLICK ON THE KEY TO ADVANCE TO THE NEXT SLIDE OR BULLET WITHIN A SLIDE.
2. DON’T CLICK TOO FAST OR YOU WILL MISS THE SPECIAL EFFECTS.
3. TAKE NOTES AS YOU GO.
4. THE OR ANY OTHER UNAUTHORIZED AREA OR YOUR TEACHER WILL
5. WHEN YOU ARE DONE.
Ms. P PLEASE READ THE INSTRUCTIONS BELOW
GENETICS
• Genetics - the study of how characteristics are passed from generation to generation
• It is the branch of biology that focuses on heredity
• Genetics uses predictions and probabilities to determine genetic outcomes
HISTORY
• Gregor Mendel is considered the “father of genetics”• He published work that later became the basis of modern genetics
Hello, I am Gregor Mendel
HISTORY
• Born in Austria in 1822• Austrian Monk (man of a religious order and lives in a monastary)• Excellent student at the University of Vienna
GARDEN PEAS – Pisum sativum
• Mendel worked with garden peas and predicted patterns of heredity• Peas were easy to work with
– Produced a large number of offspring in a short amount of time– Two different forms of peas with many contrasting traits
GARDEN PEAS – Pisum sativum
• Contrasting traits of peas
– Yellow vs green seed
– Round vs wrinkled seed
GARDEN PEAS – Pisum sativum
• Contrasting traits continued– Green vs yellow pod
– Tall vs short plant
– White vs purple flower
GARDEN PEAS – Pisum sativum
• Peas can self-pollinate– Flower can fertilize itself (both male and female parts)– Male = stamen – produces pollen– Pollen = sperm– Female = pistil – produces ovule– Ovule = egg
MENDEL’S EXPERIMENTS
• Crossed two pure breeding plants by cross pollination
• Cross pollination – transferring pollen of one plant to the ovule of another plant
• P generation – two pure bred parents• F1 generation – first offspring from P
generation parents• Cross two F1 offspring and get an F2
generation
MENDEL’S EXPERIMENTS
• Monohybrid cross – cross that involves only one pair of contrasting traits• Example:
– Trait = flower color
red blue
P generation+
red
F1 generation
red
+
F2 generation
red blue
MENDEL’S EXPERIMENTS
• Dihybrid cross – a cross that involves two different contrasting traits• Example:
–Trait = speed– Trait = long hair
• Result = fast and slow dogs with long and short hair
GENES
• Genes – factors for traits resulting from fertilization
– Example - genes for tall plants or genes for short plants– Example - genes for long hair or genes for short hair
TRAITS
• Inherited traits – individuals inherit traits from their parents, one trait from each parent, thus two copies of each gene
– Two genes for eye color, nose size, ear length, hair color, etc
• Alleles – two versions of one gene, dominant or recessive
ALLELES
• Dominant allele designated by a capital letter
• Recessive allele designated by a lower case letter
• Genotype is expressed by two alleles (or genes)
BB, Bb, bb • Phenotype is the physical characteristic
determined by the genotype
red hair, long legs, big nose, freckles, dimples
k j b p y w
K J B P Y W
ALLELES
• Dominant trait – a dominant trait will be expressed if at least one dominant allele is present
BB or Bb• Recessive trait – a recessive trait will
be expressed only if two recessive alleles are present
bb
ALLELES
• Example–The gene for freckles is designated using the letter “F”–Having freckles is dominant and designated as “F”–Not having freckles is recessive and designated as “f”
•If FF then the person has freckles•If Ff then the person has freckles•If ff then the person doesn’t have freckles
HOMO vs HETERO
• Alleles can be categorized in one of two ways– Homozygous – both alleles for a
gene are the same, either both dominant or both recessive
BB or bb– Heterozygous – both alleles for a
gene are different, one dominant and one recessive
Bb
PUNNETT SQUARE
• Invented by Reginald Punnett• It is a diagram that predicts the expected outcomes of genetic crosses
B b
B
b
BB
Bb
Bb
bb
PUNNETT SQUARE
• Parent alleles are positioned on the top and sides of the punnett square•Then the alleles are added to make an F1 generation
B b
B
b
BB
Bb
Bb
bb
FatherMother
(P generation)(P generation)
(F1 generation)
(F1 generation)
(F1 generation)
(F1 generation)