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Types of Mutation :

I. Chromosomal Mutation

II. Gene Mutations

Chromosomal Mutations :

  •  Change in number or structure of chromosome.

Types of chromosomal mutation

(i) Heteroploidy/Genomatic mutation →  change in chromosome number.

(ii) Chromosomal aberration → change in structure of chromosome.

Heteroploidy / Genomatic mutation

  •  Change in number of sets or chromosomes in sets. Two types –

(i) Euploidy → Change in number of sets.

(ii) Aneuploidy → Change in number of chromosome in set.

Euploidy :

  • Change in number of sets/loss or addition of sets of chromosomes.

  • In a normal diploid cell two sets of chromosome are present.

  • Loss of one set (2n – n = n) monoploidy.

  • Addition of set called as polyploidy

  • Addition  of one set called as Triploidy 2n + n = 3n

  • Addition of two sets called  as Tetraploidy 2n + 2n = 4n

  • Addition  of three sets called as Pentaploidy 2n + 3n = 5n 

  • Addition of four sets called as Hexaploidy 2n + 4n = 6n 

  • Addition of five sets called as Heptaploidy 2n + 5n = 7n

  • Octaploid plants rarely survive.

  • Polyploid plants with even number of sets are always fertile, reproduce sexually and form seeds.

  • Polyploid plants with odd number of sets are always sterile don't reproduce by sexual reproduction,  They don't produce seeds but they may produce seedless fruits by parthenocarpy. eg. Banana and seedless grapes.

Polyploidy is of two types :

1. Autopolyploidy :

  • It is repetition of same set of chromosomes. eg. AAA.

  • Cyanodon and Rose →  Autortirploid plants

  • These are sterile plants.

  • Reproduce by vegetative propagation.

2. Allopolyploidy :

  • More than one type of sets are present in these plants eg. AA BB.

  • These plants are obtained by intergeneric cross.

e.g Raphanobrassica is  obtained by cross between Raddish and cabbage and first time obtained by Russian Scientist Karpechenko.

                 Types of Mutation | Additional Study Material for NEET
                                                          Types of Mutation | Additional Study Material for NEET
Types of Mutation | Additional Study Material for NEET
                                                          Types of Mutation | Additional Study Material for NEET
Types of Mutation | Additional Study Material for NEET
                                                              Types of Mutation | Additional Study Material for NEET

Aneuploidy : Loss or addition of chromosomes in sets of chromosomes.

Types of Aneuploidy : 1. Hypoaneuploidy (loss)

  • 2n – 1 = monosomy :- (loss of one chromosome in one set).

  • 2n – 1 – 1 = double monosomy (loss of one chromosome from each set,  but these are non homologus.)

  • 2n – 2 = Nullisomy (loss of two homologus chromosome)

2. Hyperaneuploidy (add.)

  • 2n + 1 = Trisomy : addition of one chromosome in one set.

  • 2n + 1 + 1 = Double Trisomy : addition of one chromosome in each set.

  • 2n + 2 = Tetrasomy : addition of two chromosome in one set.

  • Cause of aneuploidy is chromosomal non-disjunction means chromosomes fail to separate during meiosis.

  • Chances of aneuploidy are more in higher age female due to less activity of oocyte, so chances of syndrome increase in children who are born from higher age female.

2. Chromosomal Aberrations : Change in structure of chromosome.

(i) Deletion : Loss of a part or segment of chromosome which leads to loss of some gene is called as deletion.

It is of 2 types :-

(i) Terminal deletion - Loss of chromosomal segment from one or both ends.

Types of Mutation | Additional Study Material for NEET

eg. The cry -du-chat syndrome is an example of terminal deletion in short arm of 5th chromosome.

(ii) Intercalary deletion - Loss of chromosomal part between the ends.

Types of Mutation | Additional Study Material for NEET

(ii) Inversion : Breakage of chromosomal  segment but reunion on same chromosome in reverse orders. It leads to change in distance between genes on chromosome or sequence of genes on chromosome so crossing over is affected.

It is of 2 types :-

(i) Paracentric - If inversion occur only in one arm and inverted segment does not include centromere.

Types of Mutation | Additional Study Material for NEET

(ii) Pericentric - In this type of inversion inverted segment include centromere.

Types of Mutation | Additional Study Material for NEET

(iii) Duplication :

Occurrence of a chromosomal segment twice on a chromosome. If in this segment any recessive gene is present, then it gives it's expression due to homozygous condition. If in this segment any recessive but lethal gene is present, it leads to death of organism.

Types of Mutation | Additional Study Material for NEET

Example : In drosophila "Bar eye character" is observed due to duplication in X-chromosome. Bar eye is a character where eyes are narrower as compared to normal eye shape.

IV Translocation : In this, a part of the chromosome is broken and may be joined with non homologous chromosome. This is also known as illegitimate crossing over (illegal crossing over) Three types of  translocation –

(A) Simple Translocation→ When a chromosomal segment breaks and attached to the terminal end of a non- homologous chromosome.

Types of Mutation | Additional Study Material for NEET

(B) Interstitial or shift translocation→ If a segment of chromosome breaks and gets inserted in interstitial position of a non homologous chromosome.

Types of Mutation | Additional Study Material for NEET

c) Reciprocal Translocation→ Exchange of segments between two non-homologous chromosome.

Types of Mutation | Additional Study Material for NEET

eg. Chronic myloid leukemia [C M L] is a type of blood cancer. This disease is a result of reciprocal translocation between 22 and 9 chromosome.

Note : If exchange of segments takes place in between homologous chromosomes then it is called crossing over.

Gene Mutation or point mutation

Two types :-

1. Substitution

2. Frame shift mutation.

A. Substitution : Replacement of one nitrogenous base by another nitrogenous base is called as substitution.

  •  It causes change in one codon in genetic code which leads to change in one amino acid in structure of protein. eg. Sickle cell anaemia

Main Point :

  • Change may not occur because for one animo acid more than one type of codons are  present.

Substitution is of two types :-1. Transition 2. Transversion.

1. Transition : Replacement of one purine by another purine or replacement of pyrimidine by another pyrimidine.

Methods of Transition :-

1. By Tautomerization :- By this method transition is induced by HNO2. HNO2 changes normal structure of nitrogenous base and changed nitrogenous base is called as Tautomer.

Types of Mutation | Additional Study Material for NEET

  •  In structure of adenine and guanine, amino group is present, HNO2 changes it into amino group.

  •  In the structure of cytosine and thymine, keto group is present. Which is changed into enol group by HNO2.

  •  In first DNA replication, Tautomer of adenine pairs with a normal cytosine and Tautomer of thymine pairs with normal guanine.

  •  It is unusual pairing which is called as forbidden pairing so a wrong type of DNA is formed in cell.

  •  In second DNA replication normal cytosine pairs with normal guanine and normal guanine pairs with normal cytosine.

  •  It is usual pairing so transition completes in two DNA replication (Tautomers always perform forbidden pairing)

2. By Ionisation :

  •  By this method transition is induced by ionising radiation like X-ray. These radiations convert nitrogenous bases in their ions and ions perform forbidden pairing. So by this method transition is completed in two DNA replications.

3. By Base Analogues :

  •  Transition is induced by chemicals which are same as nitrogenous base in function. They are called base analogues or duplicates of nitrogenous base  eg.:- Aminopurine is base analogue to Adenine (purine) 5–Bromo uracil is base analogue to thymine (pyrimidine), 5-Iodo uracil is base analogue to guanine, 5-Chloro uracil is base analogue to cytosine.

Types of Mutation | Additional Study Material for NEET

 

  •  In I DNA replication base analogues get establish in normal structure of DNA.

  •  In II DNA replication they perform forbidden pairing.

  •  In III DNA replication transition is completed.

Transversion :

  •  Replacement of purine by pyrimidine or pyrimidine by purine is called transversion.

  •  EMS r Ethyl methane sulphonate

  •  M MS r Methyl methane sulphonate

  •  These chemicals causes depurination means they remove one purine from structure of DNA. So a gap is formed.

  •  If this gap is filled by another purine then it is called as transition.

  • *But if this gap is filled by pyrimidine then it is called as transversion.

  • So EMS and MMS may cause both transition and transversion.
    Frame shift mutation/Gibberish mutation :

  • (1) Acredine (2) proflavin These chemicals causes loss or addition of one or two nitrogenous bases in structure of DNA so complete reading of genetic code is changed. It leads to change in all animo acids in structure of protein so a new protein is formed which is completely different from previous protein. ­
    A TG   ACG      GAC       AGA        AAC .................................
    A TG   CGG     A CA      GAA        AC  .................................

  • So frame shift mutations are more harmful as compared to  substitution.

  • Thalassemia (lethal genetic disorder) Mutagens :

  • Mutagens are those substances which cause mutations :-

1. Radiation :- are two types

(i) Ionizing :- a, b, g, X-ray

(ii) Non ionizing :- U. V. rays.

  • U. V. rays has less penetration power and skin of higher organisms absorb  radiations. So they don't cause any effect in higher animals, but U. V. rays and radiations are effective mutagens in microbes and due to more effect leads to death of microbes. So U. V. rays are used to sterilize operation theater.

  • Radiations mainly cause chromosomal aberrations which cause major change in organisms. So chromosomal mutations are more important in evolution.

  • U. V. rays and HNO2 cause deamination of nitrogenous base means they remove amino group from nitrogenous base by deamination of,
    Adenine ¾ → Hypoxanthine Guanine ¾ → Xanthine Cytosine ¾ → Uracil U.V. rays do not cause deamination in thymine. By U.V. rays two adjacent thymine bind together and form thymine-dimer.

2. Chemical mutagens:-eg. Mustard gas (first identified Chemical Mutagens) Carbon tetra sulphide, Nitrous acid (HNO2) Organic peroxide, Ethyl urethane, Pesticides etc.

DDT (Dichloro Diphenyl Trichloro Ethane) LSD (Lysergic acid diethylamide)

  • Chemical mutagens are more harmful than radiations because body is not protected against chemicals.

  • Source of chemical mutagens are food, air and water.

  • Effect of radiation is localized, while chemical mutagens spread in complete body through blood circulation and when they reach in gonads they cause germinal mutation.

  • Chemicals also cause chromosomal mutations.

Antibiotics : 1. Neomycin 2. Kenamycin 3. Streptomycin

These antibiotics combine with small sub-unit of prokaryotic ribosome and Cause misreading of genetic code or induce error in translation.
Main Point :

  • Same effect of puromycin antibiotic in eukaryotes.

Special Point

Mis-sense mutation :- When a nucleotide change in genetic code cause the change of one amino acid of a polypeptide chain it is called mis-sense mutation.

Non-sense mutation :- When a nucleotide change in one codon causes termination of polypeptide synthesis by producing non-sense codon.

Same sense codon :- A change in one nucleotide in a codon does not change amino acid in polypeptide chain, because both codons code same amino acid.

The document Types of Mutation | Additional Study Material for NEET is a part of the NEET Course Additional Study Material for NEET.
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FAQs on Types of Mutation - Additional Study Material for NEET

1. What are the different types of mutations?
Ans. There are several types of mutations, including point mutations, insertion mutations, deletion mutations, duplication mutations, and inversion mutations. Point mutations involve a change in a single nucleotide, while insertion mutations add extra nucleotides. Deletion mutations remove nucleotides, duplication mutations result in repeated segments of DNA, and inversion mutations reverse the orientation of a segment of DNA.
2. How do point mutations occur?
Ans. Point mutations occur when there is a change in a single nucleotide within the DNA sequence. This change can be caused by errors in DNA replication, exposure to certain chemicals or radiation, or spontaneous mutations. Point mutations can result in different outcomes, such as silent mutations (where the change does not affect the amino acid sequence), missense mutations (where the change leads to a different amino acid), or nonsense mutations (where the change creates a premature stop codon).
3. What are insertion mutations?
Ans. Insertion mutations occur when extra nucleotides are added to the DNA sequence. This can happen during DNA replication when an incorrect base is inserted, or it can be caused by external factors like certain chemicals or radiation. Insertion mutations can disrupt the reading frame of the DNA sequence, leading to a shift in the way the genetic code is read and potentially resulting in a non-functional protein.
4. How do deletion mutations affect the DNA sequence?
Ans. Deletion mutations involve the removal of nucleotides from the DNA sequence. This can occur during DNA replication when a nucleotide is skipped, or it can be caused by external factors like chemicals or radiation. Deletion mutations can have various effects depending on the number of nucleotides deleted and their location within the sequence. They can cause a frameshift mutation, where the reading frame is shifted, resulting in a different amino acid sequence and potentially a non-functional protein.
5. What is the difference between duplication and inversion mutations?
Ans. Duplication mutations involve the replication of a segment of DNA, resulting in multiple copies of the same segment within the genome. This can lead to gene redundancy or the creation of new gene functions. On the other hand, inversion mutations occur when a segment of DNA is reversed in its orientation within the genome. Inversion mutations can disrupt gene expression or alter the functional interactions between genes. Both duplication and inversion mutations can have significant impacts on the genetic makeup and functioning of an organism.
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