A mind map showing information about stem cells, x and y chromosomes, the work of Mendel, inheriting characteristics, genetic disorders and embryo screening.
Differentiation: Process by which a cell
changes to become specialised for its job
In most animal cells, ability to differentiate is lost v.
early but lots of plant cells don't ever lose the ability
Some cells are undifferentiated & can develop into different
types of cell depending on instructions given - stem cells
Found in early human embyos (can turn
into any type of cell) & in adult bone marrow
(can turn into certain ones - less versatile)
Medicine already uses adult stem cell e.g. people with blood
diseases (sickle cell anaemia) can be treated with bone marrow
transplant (turn into blood cells to replace faulty ones)
Scientists can extract embryonic stem
cells & use them to replace faulty cells
Anotações:
Could make beating heart muscle cells for people with heart disease, insulin-producing cells for people with diabetes, nerve cells for people with paralysis etc
To get cultures of one specific type of cell,
researchers try to control differentiation by
changing environment - needs more research
Stem cell research
For
Curing patients who already
exist & are suffering is more
important than embryo rights
Embryos used in research are usually unwanted ones
from fertility clinics - would be destroyed anyway
Against
Human embryos shouldn't be
used as each one is potential life
Should find other sources of stem cells
Banned in some countries, but is allowed
in UK if it follows strict guidelines
X and Y chromosomes
22 matched pairs of chromosomes in each
human body cell - 23rd pair are labelled XX
or XY (chromosomes which decide gender)
All men have X and Y
chromosome - Y chromosome
causes male characteristics
All women have 2 X chromosomes
- XX combination allows female
characteristics to develop
When making sperm and
eggs, chromosomes are split
apart in first meiosis division
- 50% chance sperm gets X/Y,
100% chance egg gets X
Probability of getting boy/girl can
be shown with a genetic diagram:
The work of Mendel
Gregor Mendel - Austrian monk
Noted how characteristics in plants were
passed on from one generation to the next
Results published in 1866 & eventually
became foundation of modern genetics
Reached 3 important conclusions:
Characteristics in
plants are determined
by 'hereditary units'
Hereditary units are passed
on from both parents, one
from each parent
Hereditary units can be dominant
or recessive - if individual has
both dominant & recessive unit,
dominant will be expressed
We now know 'hereditary units' are genes -
in Mendel's time nobody knew anything
about genes or DNA so significance of his
work was not realised until after his death
Inheriting characteristics
Alleles: different versions of the same gene
In genetic diagrams, letters usually represent alleles
Homozygous: organism has 2 alleles for a
particular gene that are the same
Heterozygous: organism has 2 alleles
for a particular gene that are differnt
If 2 alleles are different, only one can
determine characteristic - the dominant one
For organisms to display
recessive characteristic, both
its alleles must be recessive
Genotype: what
alleles are present
Phenotype: characteristic shown
Genetic disorders
Cystic fibrosis
Genetic disorder of cell membranes - results in body
producing lots of thick sticky mucus in air passages & pancreas
Caused by a recessive allele - carried by about 1 person in 25
For child to have disorder, both parents must be carriers or sufferers
Polydactyly
Genetic disorder where baby is born with extra fingers or toes - not life-threatening
Caused by dominant allele - can be inherited if one parent carries gene (all carriers are sufferers)
Embryo screening
During IVF, embryos are fertilised in lab & implanted into mother's womb -
more than one egg is fertilised so there's better chance of success
Before implantation it is possible to remove a cell from each embryo to analyse its genes
Many genetic disorders could be detected in this way
Embryos with 'good' alleles would be implanted,
one with 'bad' alleles would be destroyed
For
Will help to stop
people suffering
There are laws to stop it going too far
During IVF, most embryos are destroyed anyway
- screening just allows selected one to be healthy
Treating disorders is very expensive
Against
Everyone might want to
screen so they can pick
most 'desirable' embryo
Rejected embryos are
destroyed - potential human life
Implies people with genetic disorders are
'undesirable' - could increase prejudice