genetics what is genetics? study of inherited traits what is heredity? passing of traits from...
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Genetics What is genetics?
study of inherited traits What is heredity?
passing of traits from parents to offspring
What is a trait? feature an organism can pass on to offspring ex) hair color, eye color, etc
What are Your Traits?
Genes! Genes-segments of
DNA on chromosomesthat code for a protein which produces a trait.
There are 1000’s of genes on each chromosome. Chromosomegeneproteintrait
Genes
Some traits are coded for by one gene which codes for one protein. i.e. freckles, earlobe attachment, etc
Polygenic Inheritance – When a Single Trait is Influenced by Many Genes
Height is a polygenic trait
Other traits are coded for by two or more genes together- polygenic
More than one gene=more than one protein that causes the trait so more complex traits are shownHand span, height, eye color, etc.
Genes Homologous
chromosomes–two chromosomes that have the same number and types of genes.
Each HUMAN somatic cell has 23prs of homologous chromosomes
Other species have different numbers.
Homologous Chromosomes
Mom contributes one and Dad contributes other of each pair
This means each somatic cell has two copies of each chromosome, and therefore, each gene.
Alleles Alleles - forms of genes
Allele for round peas--R
Allele for wrinked peas--r
Position on chromosomes where pea shape gene is located
Genotype vs. Phenotype Genotype: the genetic
makeup of an organism RR, Rr, or rr 2 letters-one copy from
each parent Phenotype: the physical traits
the organism shows round or wrinkled peas
***Phenotype = Genotype + Environment
Genotypes The 2 alleles on homologous chromosomes can
be the same or different Homozygous (purebred)- having two identical
alleles for a particular trait. i.e. pea shape gene: Alleles: R=round and r=wrinkled RR or rr
Heterozygous (hybrid) – having different alleles for a particular trait on homologous chromosomes ????
Genotype Example Phenotype
Homozygous Dominant
RR Round
Homozygous Recessive
rr Wrinkled
Heterozygous
Rr Round
Early Ideas - Heredity Gregor Mendel decided
to test this idea Father of genetics It was originally believed
a child’s traits were result of “blending” between parent’s traits
He knew nothing about DNA!
Mendel’s Pea Plants
Why did Mendeluse pea plants?1. Peas had several contrasting traits he
could observe easily2. He understood their method of reproduction3. They reproduced
quicklyCharacters investigated by Mendel
Reproduction in Plants
Plant cells undergo meiosis, just like animals, to create gametes: pollen and ovules!
Pollination Anther releases pollen
(“plant sperm”) Stigma receives the pollen
which the fertilizes the ovules (“plant eggs”)
Similar to fertilization in animals.
Mendel could control how plants were fertilized because he understood this process
Mendel’s Experiments con’t
Parental generation (P) “original group”
First filial generation(F1) offspring of the parental cross
Second filial generation (F2) offspring of crossing two F1 plants
Mendel’s First Experiment
Wanted to know what would happen if cross 2 plants with different forms of a trait.
The 1st thing Mendel did was cross 2 purebred (homozygous) plants.
?
Results?
In F1 generation NO blending resulted. Round allele (R) dominated over wrinkled form of the gene (r)
Dominant allele - hides other allele; RRecessive allele- form NOT expressed
in presence of dominant form, “hidden”; r
Genetics Rule #1: Principle of Dominance- one allele dominates so trait coded by other allele hidden. R dominates over r when both present
ALL ROUND F1
Mendel’s 2nd Experiment
The next question: If all the seeds were round in the F1 generation, had the wrinkled allele disappeared?
Mendel extended his experiment and cross two of his F1 plants…
?
Results?
F2 (Second filial generation)- offspring of F1 cross
Some offspring showed recessive trait, some the dominant trait
3:1 ratio (round: wrinkled) Do a Punnett square to
show his results for the F2.
Mendel’s Conclusion The dominant allele hides
the recessive allele in the F1 Since the recessive allele
(wrinkled) reappeared in the F2, it must have “separated” from the dominant allele
Law of Segregation- during meiosis when gametes form, alleles for a trait are separated (each parent gives only one allele in egg or sperm to offspring)
Passing of One Gene
Figure out the possible gamete genotypes these parents could make:
Parent 1: Parent 2: RR Rr
? Gametes ? ? Gametes ?
Passing of One Gene Remember that when considering only
ONE gene, the gametes that form only have ONE copy of every gene because the gametes only get ONE copy of every chromosome.
Parent 1: Parent 2:
RR RrR or R R or r
DIPLOID BODY CELL FROM WHICH EGG AND SPERM COME FROM—2 COPIES OF EVERY CHROMOSOME AND THEREFORE, EVERY GENE
HAPLOID GAMETES ARE FORMED--1 COPY OF EVERY CHROMOSOME AND, THEREFORE, EVERY GENE.
MEIOSIS-FORMATION OF GAMETES IN WHICH GENETIC MATERIAL IS CUT IN HALF
R r
R r
Consider TWO Genes! Try to figure out the possible
gamete genotypes a parent could make:**Remember there must be ONE copy of every gene in each gamete!
Parent 1: Parent 2: RrYy RrYy
? Gametes ? ? Gametes ?
R r Y y X R r Y y
1. 1. RYRY
2. 2. RyRy
3. 3. rYrY
4. 4. ryry
FOILFOIL – – FFIRST, IRST, OOUTER, UTER, IINNER, NNER, LLASTAST
BOTH PARENTS ARE BOTH PARENTS ARE THE SAME, SO THEIR THE SAME, SO THEIR GAMETE GENOTYPE GAMETE GENOTYPE POSSIBILITIES FOR POSSIBILITIES FOR BOTH PARENTSBOTH PARENTS ARE, ARE, TOO! TOO!
BODY CELL FROM WHICH EGG AND SPERM COME FROM—DIPLOID2 COPIES OF EVERY CHROMOSOME AND THEREFORE, EVERY GENE
MEIOSIS
R r
Yy
RY Ry r Y ry
4 gametes each with ONE copy of each gene!!!
Show the Punnett Square!
R r Y y X R r Y yRYRY RyRy rYrY ryry
RYRY
RyRy
rYrY
ryry
RRYYRRYY RRYyRRYy RrYYRrYY RrYyRrYy
RRYyRRYy RRyyRRyy RrYyRrYy RryyRryy
RrYYRrYY RrYyRrYy rrYYrrYY rrYyrrYy
RrYyRrYy RryyRryy rrYyrrYy rryyrryy
Round, Round, yellow: 9yellow: 9
Round, Round, green: 3green: 3
Wrinkled, Wrinkled, yellow: 3yellow: 3
Wrinkled, Wrinkled, green: 1green: 1
Each gamete MUST have one copy of EVERY gene so the children will have complete pairs!
Law of Independent Assortment
Does everyone with brown hair have blue eyes?
Does everyone with a big nose have freckles?
NO! Mendel’s Law of Independent Assortment-
inheritance of one trait will not affect inheritance of another. They are not “tied” together!
Peas could be green and wrinkled or green and round. The pea shape gene and the pea color gene assort independently into the gametes.