Describe briefly the different types of transition mutations found in living organisms. (mark- 5)
Answers
Answer:
The mutation is a process that produces a gene or chromosome that differs from the wild type (arbitrary standard for what “normal” is for an organism).
The mutation may result due to changes either on the gene or the chromosome itself. Thus, broadly mutation maybe:
Gene mutation where the allele of a gene changes.
Chromosome mutation where segments of chromosomes, whole chromosomes, or entire sets of chromosomes change.
Types of Mutations
Types of Mutations
There are various schemes for classification of different kind of mutations. Depending on:
A. The Type of Cell Involved
Somatic mutations
Mutations that are in the somatic tissues of the body.
Mutations are not transmitted to progeny.
The extent of the phenotypic effect depends upon whether the mutation is dominant or recessive (dominant mutations generally have a greater effect).
The extent of the phenotypic effect depends upon whether it occurs early or late in development (early arising mutations have a greater effect).
Germinal mutations
Mutations that are in the germ tissues of the body.
Mutations may be transmitted to progeny
Dominant mutations are seen in first generation after the mutation occurs
If a female gamete containing an X-linked mutation is fertilized, the males will show the mutant phenotype
Recessive mutations will only be seen upon the chance mating with an individual carrying the recessive allele too; thus, the recessive mutation may remain hidden for many generations
B. Mode of Origin
(1) Spontaneous mutations
The spontaneous mutations occur suddenly in the nature and their origin is unknown. They are also called “background mutation” and have been reported in many organisms such as, Oenothera, maize, bread molds, microorganisms (bacteria and viruses), Drosophila, mice, man, etc.
(2) Induced mutations
Besides naturally occurring spontaneous mutations, the mutations can be induced artificially in the living organisms by exposing them to abnormal environment such as radiation, certain physical conditions (i.e., temperature) and chemicals.
C. Direction of Mutation
According to their mode of direction following types of mutations have been recognised:
1. Forward mutations
In an organism when mutations create a change from wild type to abnormal phenotype, then that type of mutations are known as forward mutations. Most mutations are forward type.
2. Reverse or back mutations
The forward mutations are often corrected by error correcting mechanism, so that an abnormal phenotype changes into wild type phenotype.
D. Size and Quality
According to size following two types of mutations have been recognized:
1. Point mutation
When heritable alterations occur in a very small segment of DNA molecule, i.e., a single nucleotide or nucleotide pair, then this type of mutations are called “point mutations”. The point mutations may occur due to following types of subnucleotide change in the DNA and RNA.
– Deletion mutations. The point mutation which is caused due to loss or deletion of some portion (single nucleotide pair) in a triplet codon of a cistron or gene is called deletion mutation.
– Insertion or addition mutation. The point mutations which occur due to addition of one or more extra nucleotides to a gene or cistron are called insertion mutations.
The mutations which arise from the insertion or deletion of individual nucleotides and cause the rest of the message downstream of the mutation to be read out of phase, are called frameshift mutations.
– Substitution mutation. A point mutation in which a nucleotide of a triplet is replaced by another nucleotide, is called substitution mutation.
2. Multiple mutations or gross mutations.
When changes involving more than one nucleotide pair, or entire gene, then such mutations are called gross mutations. The gross mutations occur due to rearrangements of genes within the genome. It may be:
The rearrangement of genes may occur within a gene. Two mutations within the same functional gene can produce different effects depending on gene whether they occur in the cis or trans position.
The rearrangement of gene may occur in number of genes per chromosome. If the numbers of gene replicas are non-equivalent on the homologous chromosomes, they may cause different types of phenotypic effects over the organisms.
Due to movement of a gene locus new type of phenotypes may be created, especially when the gene is relocated near heterochromatin. The movement of gene loci may take place due to following method:
(i) Translocation. Movement of a gene may take place to a non-homologous chromosome and this is known as translocation.
(ii) Inversion. The movement of a gene within the same chromosome is called inversion.