1. Genetics and Inheritance ©
by Dr H – W Winter
Pukekohe High School NZ

2. Cells & their Nuclei
All living things are made up by “cells”, the building blocks of tissue.
Most cells have a “nucleus”, the place where the plans (or “blue-prints”) for making the cell (and the rest of the whole organism) are kept.

3. Magnifying Details nucleus nucleus cell
chromosome inherited from mother
one gene
a pair of chromosomes made from DNA
chromosome inherited from father
chromosomes in the nucleus

4. Chromosomes
The plans for your body (these blue-prints) are called chromosomes.
They are pairs of strands of thread-like, very long molecules made of a material called DNA.
One of the strands in a pair came from the male, the other from the female sex cell, when the organism was conceived.
A pair of chromosomes made from DNA

5. Genes
On the chromosomes are many tiny units called genes (many thousands).
One gene is responsible for one genetic feature. (e.g. tongue rolling or left-handedness etc)
Gene for left/right -handedness R r

6. DNA makes (eventually in several steps) Protein

7. Connecting DNA to Protein
Many triplets make a gene
A triplet is responsible for a single amino acid
A sequence of amino acids makes a protein
The order of amino acids is responsible for the type of protein produced
One or more proteins are responsible for a trait
Triplet

8. Alleles, dominant & recessive
If the genetic information from one parent says something different from the other parent, we have 2 different alleles. In our example mother’s allele says: “right handed” and father’s allele says “left-handed”.
The “more influential one” of the 2 alleles will win and will be used; it is called the dominant allele; it is given a capital letter (R).
The allele that loses the competition is called the recessive allele; it is given a lower case letter (r).
In our example right-handedness is dominant over left-handedness, the child is right-handed (but is also a carrier of the allele for left-handedness).
Gene for left/right -handedness R r

9. Fertilisation at Chromosomal Level
A sperm contains 50% of the chromosomes (in blue)
Fertilisation: The sperm penetrates the egg and its chromosomes enter – male and female chromosomes pair up, the egg becomes a zygote
An egg contains the other 50% of the chromosomes (in red)

10. Mitosis Mitosis is the process of making identical copies of cells
identical copying
Mitosis is the process of making identical copies of cells
…. it is used to repair damaged tissue
…. and when an organism grows

11. Meiosis
Is a 2 stage cell division that makes 4 gametes with half the chromosomes from one normal cell.
In this process the alleles from the 2 strands of chromosomes are mixed up to provide the basis for variation.
2nd division producing sex cells that are only having half of the chromosomes
1st division after the mother’s and father’s chromosomes were mixed up randomly

12. Discontinuous Variation (aka either/or variation or discrete variation)
You either have it or you don’t.
Examples: left-handedness, gender, tongue rolling, widow’s peak, curly hair etc.
Usually expressed as a % value (e.g. 25% of the children of this family cannot roll their tongue).
Usually dependent on one gene that has one dominant and one recessive allele.

13. Continuous Variation A wide range of values is possible
Examples: height, shoe size, hair colour, hand span etc.
A “bell-shaped” curve shows the distribution
Number of Y 10 students
Height of Y 10 students
1.60 m Average height

14. Georg Mendel Austrian monk born in 1822
in monastery known for research and teaching
after his death (1884) acknowledgment of his discoveries in 1900

15. Experiments with Pea Plants
- Seed coat colour (gray or white)
- Seed shape (round or wrinkled)
- Seed colour (yellow or green)
- Pod colour (green or yellow)
- Flower position (axial or terminal)
- Pod shape (inflated or constricted)
- Stem length (tall or dwarf)

16. Definitions you must know:
Homozygous or “true breeding“ means that an organism (like a pea plant) has only one type of alleles in its genetic make-up eg: GG or gg
Heterozygous is the opposite to homozygous, 2 different alleles are found in the gene eg: Gg or gG

17. Definitions you must know:
Genotype describes the genetic make-up of an organism, the allele combinations eg: Gg or gg or GG, heterozygous or homozygous
Phenotype describes the appearance of an organism, the looks or type (tongue roller, left-hander, green seed pod, white flower etc)

18. Punnet Squares
are systematic diagrams to show the statistical probability of either/or variation in the offspring.
Parent 1 (genotype GG)
makes gametes
G G
G G
G G
G G
Parent 2 (genotype gg) g g g
makes gametes

19. The thing that puzzled Mendel

20. Cross-Pollination of Pure-breed Plants
- cross-pollination between homozygous (true breeding) green and yellow pods
- all F1 green
F1 Generation
Gg = heterozygous

21. F2 Generation - self-pollination of green F1 plants - ¾ in F2 green,
¼ yellow
- 3 : 1 ratio in pod colour in F2
G = dominant = green
g = recessive = yellow
GG, gg = homozygous

22. C DNA structure 3.04.avi