Genes Located on chromosomes Thousands found in each

Genes • Dominant gene – Hides the effect of another gene – Polled condition

Genes Example: The dominant gene is written- P The recessive gene is written-p P=

Homozygous and Heterozygous • Homozygous gene pair – Carries two genes for a trait

Punnett Square Polled Dam Polled Sire P= Polled p= horned Example: • Two polled

Punnett Square Normal Dam Sire Carrier N= Normal size n= Dwarfism Example: • Normal

Punnett Square Normal Dam Sire Carrier N= Normal size n= Dwarfism Example: • What

Monohybrid Cross • A monohybrid cross is an estimation of a predicted outcome for

Dihybrid Cross • A dihybrid cross is a estimation of a predicted outcome for

Dihybrid Cross Black = 100% Polled = 100% Horned = 0%

Dihybrid Cross • Now if two of the offspring which are heterozygous for black/red

Dihybrid Cross • • Black Polled = 9 out of 16 or 56. 25%

Dihybrid Cross • If a heterozygous bull (Bb. Pp) is mated to a homozygous

Dihybrid Cross • If a (Bb. Pp) bull is mated to a (BBPp) cow.

Assignment (Alternatives are horned and red) Dam Sire Complete a Punnett Square for two

Practice Black is dominant (B), and red is recessive (b). "Predict the offspring from

First things first: the only way for the red bull to be red (the

Heritability • Objective: – Discuss hertability estimates for beef and swine

Heritability • Estimated the likelihood of a trait being passes on from the parent

Heritability • Swine rates are usually lower than cattle • Heritiability for carcass traits

Trait % Heritable Number Born 5 Weaning Wight 30 Yeild Grade 30 Carcass Grade

Trait % Heritable Litter Size 10 Weaning Wight (3 wks) 15 Birth Weight 20

Trait % Heritable Number Born 13 Weaning Wight 30 Birth Weight 30 Feed Efficiency

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Genes • Located on chromosomes • Thousands found in each animal • Control inherited characteristics – Carcass traits – Growth rate – Feed efficiency • Two types of inherited traits § Dominant § Recessive

Genes • Dominant gene – Hides the effect of another gene – Polled condition in cattle is dominant – The gene is represented by a capital letter • Recessive – Gene that is hidden by another – The gene is represented by a lower case letter

Genes Example: The dominant gene is written- P The recessive gene is written-p P= Polled p= horned

Homozygous and Heterozygous • Homozygous gene pair – Carries two genes for a trait – Polled cow might carry the gene PP • Heterozygous (or hybrid) – Carries two different genes that affect a trait – Polled cows might carry a recessive gene with the dominant Pp

Punnett Square Polled Dam Polled Sire P= Polled p= horned Example: • Two polled cattle that are homozygous for the polled trait P PP PP PP

Punnett Square Normal Dam Sire Carrier N= Normal size n= Dwarfism Example: • Normal size in cattle is dominant to dwarfism N NN NN n Nn Nn

Punnett Square Normal Dam Sire Carrier N= Normal size n= Dwarfism Example: • What if both parents are carriers for a trait or disorder? N n N NN Nn nn Result: one out of every four births could result in a dwarf animal (1: 2: 1)

Monohybrid Cross • A monohybrid cross is an estimation of a predicted outcome for a single trait. • If a homozygous horned cow (pp) is bred with a heterozygous polled bull (Pp), what percent of the calves will be polled?

Dihybrid Cross • A dihybrid cross is a estimation of a predicted outcome for two traits. • What results if an Angus bull that is homozygous black and polled (BBPP) is bred with a red shorthorn cow which is homozygous red and horned (bbpp). • The bull BBPP can be simplified to BP (black & polled is the only possible contribution for the bull). • The cow bbpp can be simplified to bp (red & horned is the only possible contribution for the cow).

Dihybrid Cross Black = 100% Polled = 100% Horned = 0%

Dihybrid Cross • Now if two of the offspring which are heterozygous for black/red and polled/horned (Bb. Pp) are mated. • How do you do a Punnett square for two heterozyous animals? • Use all possible gene combinations. • Both the bull and cow are Bb. Pp. • What are the possible contributions? • BP, Bp, b. P, bp for both animals. (4 x 4 grid)

Dihybrid Cross

Dihybrid Cross • • Black Polled = 9 out of 16 or 56. 25% Black Horned = 3 out of 16 or 18. 75% Red Polled = 3 out of 16 or 18. 75% Red Horned = 1 out of 16 or 6. 25%

Dihybrid Cross • If a heterozygous bull (Bb. Pp) is mated to a homozygous cow (BBPP). • What are the outcomes?

Dihybrid Cross

Dihybrid Cross • If a (Bb. Pp) bull is mated to a (BBPp) cow. • what are the outcomes?

Dihybrid Cross

Assignment (Alternatives are horned and red) Dam Sire Complete a Punnett Square for two animals that are heterozygous for two traits: • Polled=P • Black= B

Practice Black is dominant (B), and red is recessive (b). "Predict the offspring from the cross of a red bull and a black cow if the black cow's mother was red".

First things first: the only way for the red bull to be red (the recessive trait) is if it's genotype is homozygous recessive (2 little letters), so the red bull is "bb". Now, the black cow's genotype could be either "BB" or "Bb". If its mommy was red (bb), then this black cow MUST have inherited a little "b" from its mommy. So the black one in our cross is "Bb" (not "BB"), and our cattle cross is: Bb x bb.

Heritability • Objective: – Discuss hertability estimates for beef and swine

Heritability • Estimated the likelihood of a trait being passes on from the parent to the offspring – Low heritability • slow herd improvement – High heritability • faster improvement

Heritability • Swine rates are usually lower than cattle • Heritiability for carcass traits are higher than reproductive traits • Estimates vary from 0 to 70%

Trait % Heritable Number Born 5 Weaning Wight 30 Yeild Grade 30 Carcass Grade 35 Yearling Weight 40 Scrotal Circumference 50 Retail Yeild 60 Rib Eye Area 70

Trait % Heritable Litter Size 10 Weaning Wight (3 wks) 15 Birth Weight 20 Feed Efficiency 30 Carcass length 50

Trait % Heritable Number Born 13 Weaning Wight 30 Birth Weight 30 Feed Efficiency 20 Carcass (percent lean) 35