Mendelian Genetics

Mendelian Genetics

Gregor Mendel • carried out the first important studies of HEREDITY • used pea plants which reproduce sexually by way of sex cells called gametes

Heredity • the passing on of characteristics from parents to offspring.

Genetics • The branch of biology that studies heredity.

Gametes • Male and female sex cells • The male sex cell is called a sperm • The female sex cell is called an egg

Monohybrid Crosses • Mendel took tall plants and “crossed” them with short plants • the offspring were called HYBRIDS (parents had opposite traits—tall & short) • he noticed that all of the first generation offspring were TALL • he let those plants pollinate and produce over 1000 plants which he studied

Second Generation • Of those 1000 plants that were produced by the hybrid tall plants… • ¾ of them were TALL • ¼ of them were short (how did that happen?) • Mendel did more tests on more traits and got the same results

Mendel’s Conclusions • Each organism has 2 factors that control each of its traits. (we now know that these are genes located on chromosomes) • We call these different gene forms alleles • A plant could have 2 tall alleles or 2 short alleles or 1 of each • The 2 alleles are located on different chromosomes (one from ma--one from pa)

The Rule of Dominance • Dominant trait • only need one allele of this type to exhibit the trait • represented by upper-case letter (written 1st) • Recessive trait • need 2 of these alleles to exhibit the trait • represented by lower-case letter

LAW OF SEGREGATION Mendel’s 1st Law: • Each individual has 2 alleles which make 2 different gametes • remember meiosis?!? • During fertilization, male and female gametes randomly pair and 4 combinations of alleles are possible.

INDEPENDENT ASSORTMENT Mendel’s 2nd Law: • genes are inherited independently of each other

Punnett Squares • predict possible genotypes of one’s offspring (probability) • monohybrid cross: tests one trait • dihybrid cross: tests two traits

Hetero or homo? • heterozygous = 2 different alleles (Bb) • homozygous = 2 like alleles (BB or bb) *these letters represent an organism’s genotype (the combination of genes in an organism)

JUST DO IT! R = round r = wrinkled What type of offspring can be produced by a homozygous round (____) and a homozygous wrinkled (____)pea plant?

RR x rr • this is called a monohybrid cross because we are looking at just one trait at a time R R r r

RR x rr • 100% of the offspring will be heterozygous (Rr) • What will they look like (phenotype)? R R r r Rr Rr Rr Rr

What is the probability of having a wrinkled pea plant if both parents are heterozygous? R r R r

Wrinkled is a recessive trait, so offspring must be homozygous to be wrinkled (rr) Only 1 out of 4 offspring will be wrinkled = 25% probability R r R r RR Rr Rr rr

A homozygous brown eyed male and a heterozygous female mate. What is the probability their child will have blue eyes? Let: B = brown b = blue B B B b

All babies have brown eyes!0 % probability of a blue-eyed baby Let: B = brown b = blue B B B b BB BB Bb Bb

Dihybrid CrossRRYY x RrYy two traits at a time! R = round r = wrinkled Y = yellow y = green

What is the probability of producing a yellow and round plant?

What is the probability of producing a yellow and round plant? RY RY RY RY RY Ry rY ry RR YY RR YY RR YY RR YY Yellow = YY or Yy Round = RR or Ry RR Yy RR Yy RR Yy RR Yy 16/16 or 100% Rr YY Rr YY Rr YY Rr YY Rr Yy Rr Yy Rr Yy Rr Yy

Do Punnett Practice WS

Pedigrees • track males and females with and without certain traits using symbols • also can track sex-linked traits female without trait male without trait female with trait male with trait

Sex-linked traits • can be dominant (just one needed) or recessive • traits carried on the X chromosome • females are XX while males are _____ • Y chromosomes do not have genes so do not carry traits

Pedigrees are like dihybrid crosses a female with blue eyes mates with a heterozygous male, what is the probability they will have a brown eyed girl?

Mendelian Genetics