Lesson 7 heredity
Transcript of Lesson 7 heredity
LESSON #7 Heredity
HEREDITY Traits and genes
SPECIES
A specie is a group of organisms that can reproduce amongst themselves and have fertiledescendants.
Name of a species: Genus specie (Homo sapiens)
Closely related species may belong to the samegenus, but be different species. Quercus rober and Quercus ilex
Excercise Dog: Canis lupus familiaris
Wolf: Canis lupus Do you think a wolf and a dog can interbreed to have fertile
descendants?
EXERCISE 1
1. Find the scientific name of the following species: a) Domestic Cat Felis catus SAND CAT Felis margarita
b) Bengal Tiger Panthera tigris tigris LION Panthera leo
c) Leopard Panthera pardus
d) Homing Pigeon Columba livia domestica
e) Maple tree (Falso plátano) Acer pseudoplatanus
f) Poppy Papaver rhoeas Papaver somniferum
2. Choose a species from above and find another organism that belongs to the same genus (very closely related), but is a different species.
Youneedyour
computers
Inquiry
Within members of a species there is variability.
How is diversity an advantage?
VARIABILITY WITHIN A
SPECIESSpecific characteristics: the same to all members of the specie.
Individual variations: make each individual unique.
Continuous variations: variations that go from low tohigh quantities. (Height, Weight…)
Discontinuous variations: if you can divide the speciein groups according to this variation. (Individuals withattached ear lobes; individuals with seperated earlobes)
The characteristics that let us distinguish among
individuals are called traits.
Think of more
examples
TRAITS
Inherited traits: they are passed down to the following
generations, although they may not be present in all
generations. (Skin color, hair color, shape of the face,
blood type…)
Acquired traits: they do not pass on to the descendants.
They appear during the lifetime due to different life
conditions, accidents, diseases, etc. (Darkened skin,
freckels, muscle development, hair loss…)
EXERCISE 2: CLASSIFYTRAITS
Inherited
Acquired
DiscontinuousContinuous
Work in groups of
4.Taketurns
Familia Santos da Silva, BrasilFoto: Andressa Anholete, Metro Brasilia
WHY ARE SOME GENETIC TRAITS INHERITED AND OTHERS AREN’T?
WHAT IS A GENE?
o Unit of heredity.
o Segment of DNA on a specific locus (site of a chromosome) which is responsible for a specific phenotype.
o A section of DNA that codifies for a specific protein is a gene.
o Each chromosome has hundreds of genes, some parts of a chromosome do not codify for proteins, therefore they are not considered genes.
o The complete human genome has around 30,000 genes spread through out the 46 chromosomes/ DNA molecules
HOMOLOGOUS CHROMOSOMES
• 2 chromosomes that have the same genes in the same loci
• They are pairs.• Humans have 23 pairs of homologous chromosomes. • One inherited from the mother and the other inherited
from the father.
GENES AND ALLELES
For each gene there can be many different alleles.
Each individual only carries 2 alleles for each gene. The individual’s traits will depend on the combination of alleles that individual carries for each gene.
HOW ARE TRAITS STUDIED?
Phenotype
The observable characteristics or traits that an individual shows.
This is a result of the alleles that an individual carries for a gene.
Genotype
The combination of alleles for a gene.
Each individual carries two alleles for each gene.
HOMOZYGOUS AND HETEROZYGOUS
Homozygous
An individual is homozygous for a gene when both alleles it carries for that gene are the same.
Heterozygous.
An individual is heterozygous for a gene when it carries 2 different alleles for that gene.
Image Source: BBC GCSE Bitesize
Gene for eye color. Locus: 3p214 alleles possible:• Blue• Brown• Green• Black
EXERCISE
Refers to phenotype or genotype?
1. The cat has brown fur.
2. It’s a boy.
3. Has genes for blue eyes and for brown eyes.
4. Jack is heterozygous for haemophilia.
5. That man is bald.
6. Homozygous for white color flowers.
7. This man is haemophilic.
8. I have curly hair
9. The hen is heterozygous for black feathers.
10. The pea plant has tall stems.
11. The boy has two alleles that codify for a defective Haemoglobin.