Oliver Dyson
Inherited Change (17)
Genotype and Phenotype:
Genotype is the genetic make-up of an organism
-> involving all the genes and alleles it has
This determines the limits characteristics of an individual
Excluding the effect of the environment – e.g. diet
Phenotype is the observable characteristics of an organism
-> therefore, influenced by both environment and genotype
Genes and Alleles:
A gene is a length of DNA / sequence of nucleotide bases
-> these code for the 1o structure of a polypeptide or functional RNA
Genes exist in different forms, coding for variations of the same structure
Due to different sequence of bases
These are called alleles
The position of a gene on a strand of DNA is known as a locus
-> all of these features influence the inheritance for the offspring of an organism
Only one allele of a gene can occur at a specific locus of a chromosome
However, in diploid organism (2 chromosomes)
Homologous pairs of chromosomes mean there are two alleles for the same gene
These can be of a few variations –
1. Homozygous – two of the same alleles carried; either dominant or recessive usually
2. Heterozygous – two different alleles carried
Heterozygous characteristics are usually determined by a
dominant allele
-> these express themselves over their recessive
counterpart
Usually represented by alternating letters e.g. Bb
, Oliver Dyson
Notation for genetics:
Genetic crosses are usually represented by using standard shorthand
-> this is described by the table below
Figure 1 – reproduced from [1]
Monohybrid inheritance: (e.g. in pea pod colour)
Monohybrid describes the inheritance of a single gene
-> for example pea pod colour can be modelled
The colour green is dominant – GG or Gg
And yellow is recessive - gg
Each generation of inheritance is called a ‘filial’
For example the first filial is called the F 1 generation
for shorthand
The notation for this is shown on the right Figure 2 – reproduced from [1]
Inherited Change (17)
Genotype and Phenotype:
Genotype is the genetic make-up of an organism
-> involving all the genes and alleles it has
This determines the limits characteristics of an individual
Excluding the effect of the environment – e.g. diet
Phenotype is the observable characteristics of an organism
-> therefore, influenced by both environment and genotype
Genes and Alleles:
A gene is a length of DNA / sequence of nucleotide bases
-> these code for the 1o structure of a polypeptide or functional RNA
Genes exist in different forms, coding for variations of the same structure
Due to different sequence of bases
These are called alleles
The position of a gene on a strand of DNA is known as a locus
-> all of these features influence the inheritance for the offspring of an organism
Only one allele of a gene can occur at a specific locus of a chromosome
However, in diploid organism (2 chromosomes)
Homologous pairs of chromosomes mean there are two alleles for the same gene
These can be of a few variations –
1. Homozygous – two of the same alleles carried; either dominant or recessive usually
2. Heterozygous – two different alleles carried
Heterozygous characteristics are usually determined by a
dominant allele
-> these express themselves over their recessive
counterpart
Usually represented by alternating letters e.g. Bb
, Oliver Dyson
Notation for genetics:
Genetic crosses are usually represented by using standard shorthand
-> this is described by the table below
Figure 1 – reproduced from [1]
Monohybrid inheritance: (e.g. in pea pod colour)
Monohybrid describes the inheritance of a single gene
-> for example pea pod colour can be modelled
The colour green is dominant – GG or Gg
And yellow is recessive - gg
Each generation of inheritance is called a ‘filial’
For example the first filial is called the F 1 generation
for shorthand
The notation for this is shown on the right Figure 2 – reproduced from [1]
