PunnetSquare ppt genetics for better understanding
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Sep 20, 2024
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PUNNET SQUARE Monohybrid, and Dihybrid,Cross JENABELLE A. ADORO BSED Science 2A
WHAT IS A PUNNET SQUARE? When Johann Gregor Mendel, the Father of Genetics, published his revolutionary research on heredity and genetics in 1865, his findings were initially overlooked and underappreciated by the scientific community. It wasn’t until 1901 that Mendel’s research was “rediscovered’ and appreciated. In 1905, Dr. Reginald Punnet , a British scientist, published the first genetics textbook, called Mendelism. In it, Punnet unveiled his unique tool for calculating possible genotypes and phenotypes in offspring — Punnet Square
PUNNET SQUARE DEFINITION A Punnet Square is a graphical way of determining the possible outcomes for a genetic cross between two individuals with known genotypes are given.
Alleles . Alternative forms of a gene. Each of which produces a different traits. Dominant Allele . Has a higher probability to be observed. Recessive Allele. Has a lower probability to be observed. It is always almost masked by the dominant allele. Homozygous . Both alleles are the same. Either both are dominant or both are recessive. Heterozygous . Alleles differ from each other. Either one is dominant and the other is recessive or one is recessive and the other is dominant.
BB is a homozygous dominant . Both genes are the same and dominant. The dominant is expressed. Bb is heterozygous . The organism has dominant gene and recessive gene. The dominant trait usually masked the recessive, so the dominant trait is expressed. bb is homozygous recessive . Both genes are the same and recessive. The recessive trait is expressed. Genotype . The genetic make up of an organism Phenotype . The physical make up of an organism
How to make a punnet square? Identify the trait to be studied and assigned a letter that represent it. Draw the square. If you are only investigating one trait and each trait has two genes, then the punnet square should have four boxes. Place each parent’s genes on the outside of each square. Just like in math, cross- multiply. Do this by putting the first letter of the vertical parent in the first box. Then you add to that the first letter of the horizontal parent. Then you fill in the next box with first letter of the vertical parent with the second letter of the horizontal parent. Do the same thing with the second letter of the vertical parent. Once you have filled in all the boxes, it’s time to look at what the possible outcomes are.
A = tall a = short AA = Tall, homozygous dominant Aa = Tall, heterozygous dominant aa = Short, homozygous recessive Genotype Ratio 1 AA : 2 Aa : 1 aa 1 : 2 : 1 Phenotype Ratio: Tall : Short 3 : 1
MONOHYBRID CROSS A monohybrid cross refers to a genetic cross design to study the inheritance of a single trait or gene. Example: Two heterozygous cats with brown eyes mate together. (a) What is the probability that they will produce a cat with brown eyes? (b) What is the probability that the baby cat will be homozygous? (c) Calculate the phenotype and genotype ratio.
BB Bb Bb bb B b B b B = Brown eyes B = blue eyes A. P = or 75% P = or 50% Phenotype: Brown eyes : Blue eyes 3 : 1 Genotype: BB : Bb : bb 1 : 2 : 1
Dihybrid cross A Dihybrid Cross refers to a genetic cross between two organisms who are both heterozygous for two different traits. Example: A bear( Ffbb ) with black fur(F) and blue eyes(b) mates with another bear( ffBb ) that has white fur(f) and brown eyes(B). (a) What is the probability that the baby bear will have black fur and brown eyes? (b) What is the probability that the baby bear will have white fur and blue eyes? (c) What is the probability that the baby bear will be homozygous dominant for atleast one trait? (d) Heterozygous for both traits? (e) Calculate the genotype and phenotype ratio.
FfBb FfBb FfBb ffBb Ffbb Ffbb ffbb ffbb FfBb FfBb ffBb ffBb Ffbb Ffbb ffbb ffbb Fb Fb fb fb fB fb fB fb F= black fur f= white fur B= brown eyes b= blue eyes P= = or 25% P= or 25% P= 0% P= or 25% Genotypic Ratio FfBb : ffBb : Ffbb : ffbb 4 : 4 : 4 : 4 1 : 1 : 1 : 1 Phenotypic Ratio Black fur,brown eyes : white fur,brown eyes : black fur,blue eyes : white fur,blue eyes 1 : 1 : 1 : 1
Trihybrid cross A Trihybrid Cross refers to a genetic cross between two organisms. It deals with the study of three different traits. For example: height, skin color, and eye color. Height: A= tall and a=short Skin color: B=brown and b=white Eye color: C=brown eyes c= blue eyes
AaBbCc X AaBbCc
27:9:9:9:3:3:3:1 27/64 or 42% :tall,brown skin, brown eyes 9/64 or 14%: short,brown skin,brown eyes 9/64 0r 14%: tall,white skin,brown eyes 9/64 or 14%: tall,brown skin, blue eyes 3/64 or 4.68%: tall,white skin,blue eyes 3/64 or 4.68%: short,brown skin,blue eyes 3/64 or 4.68%: short,white skin, brown eyes 1/64 or 1.56%: short,white skin,blue eyes
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