Origins of Genetic Variation

Created by

Rindiya Mahiban

Cards (60)

the ratio for 2 heterozygous parents will be 3:1
carrying out genetic experiments on peas is easy and cheap and has a short life cycle but is largely to chance and ineffective sampling technique
law of segregation says that 1 allele is inherited from both parents so you have 2 alleles for each trait
law of independent assortment is the fact that inheritance of characteristics occur independantly of each other
A and B blood group are dominant but O is recessive
blood group AB are codominant
chi-squared test is when you look at the frequency of something occurring
degrees of freedom = number of categories- 1
$x^2=$ $sum of (O-E)^2/ E$
for normal crosses, you get a 3:1 ratio
a double cross results in 9:3:3:1 ratio
carrying out genetic experiments on peas are good because its easy and cheap and can produce large numbers of offspring
carrying out genetic experiments on peas are bad because offspring die quickly and is an ineffective sampling techniques
law of segregation says that 1 allele is inherited from each parent to give 2 alleles for each trait. in gamete formation a pair of alleles separate in 2 sex cells and some dominate each other
law of independent assortment says that inheritance of characteristics occur independently of each other but sometimes you have multiple alleles for 1 gene
A and B blood group are dominant and co-dominate together
blood group O is recessive and has no antigens on the outside the red blood cells
chi squared is used when looking at observed results and frequency of something occurring
degrees of freedom is number of categories - 1
if your value of degrees of freedom is greater than the critical value, then the null hypothesis is rejected
crossing over is when large enzymes cut and join bits of chromatids to make genetic variation
independent assortment is when chromosomes pair randomly and can result in genetic variation and new combinations of alleles
mutations mostly produce little to no effect but can help survival and increase genetic variation
random fertilisation is when males mate with females from non related people so causes genetic variation
dihybrid crosses is when you have 2 different chromosomes
dihybrid crosses produces 9:3:3:1 ratio
colour blindness is when there are defects and mutations in the cones of your eyes, found in the retina
colour blindness is carried from the mother and is almost always passed down to the son
haemophilia is a lack of protein for blood clotting and is normally passed down from the mother
if 2 or more genes are located on the same chromosome, then inheritance is linked and more likely to be inherited together
recombinants are new combinations of phenotype that weren't seen in the phenotype of parents
a large number of the original parental phenotype must show there is linkage and presence of recombinants proves linkage wasn't complete
$cross over value =$ $recombinant offspring/ total offspring$
the lower the percentage of recombinants the closer the gene loci on the chromosome
girls have xx chromosomes and are homogametic. they have 200 million base pairs and controls blood clotting
boys have xy chromosome and are heterogametic. they have 23 million base pairs
if a gene is passed from the mother the son always expresses is because the y chromosome doesn't have enough alleles to counteract
barr body is when the x chromosme inactivates to prevent males having 2 x chromosomes
population is a breeding group of individuals of the same species
the hardy-weinberg equilibrium works if a population is not evolving, no mutations, random mating and the population is large