35. A Variable Number of Tandem Repeats (VNTR) locus has 15 different alleles. The number of genotypes possible in a population for this VNTR is ________.      

35. A Variable Number of Tandem Repeats (VNTR) locus has 15 different alleles. The number of genotypes possible in a population for this VNTR is ________.

Variable Number of Tandem Repeats (VNTR): Calculating the Total Number of Genotypes for Multiple Alleles

Introduction

Variable Number of Tandem Repeats (VNTRs) are highly polymorphic DNA sequences consisting of short nucleotide motifs repeated consecutively at a specific chromosomal location. Different individuals possess different numbers of repeat units, making VNTR loci extremely useful for DNA fingerprinting, forensic investigations, paternity testing, population genetics, and biodiversity studies. Because numerous alleles may exist at a single VNTR locus, these markers exhibit a very high level of genetic variation.

Unlike simple Mendelian traits involving only two alleles, VNTR loci often possess many alleles within a population. Consequently, the number of possible genotypes increases rapidly as the number of alleles increases.

Correct Answer

Correct Answer: 120

Detailed Explanation

When a gene possesses multiple alleles, the total number of possible genotypes consists of two categories:

  • Homozygous genotypes, where both alleles are identical.
  • Heterozygous genotypes, where the two alleles are different.

If a locus contains n alleles, the total number of possible genotypes is calculated using the formula:

Total Genotypes = n(n + 1) / 2

This formula includes both homozygous and heterozygous combinations.

Step-by-Step Calculation

Step 1: Identify the Number of Alleles

The VNTR locus contains:

n = 15 alleles

Step 2: Apply the Formula

Total Genotypes = n(n + 1) / 2

= 15 × 16 / 2

= 240 / 2

= 120

Therefore, a VNTR locus with 15 alleles can produce 120 different genotypes.

Alternative Method

The same answer can be obtained by calculating homozygous and heterozygous genotypes separately.

Homozygous Genotypes

Each allele can form one homozygous genotype.

Number of homozygous genotypes = 15

Heterozygous Genotypes

The number of ways to choose two different alleles from fifteen is:

15C2 = (15 × 14) / 2 = 105

Total Genotypes

Total = Homozygous + Heterozygous

= 15 + 105

= 120

Both methods produce the same result.

Calculation Summary

Parameter Value
Number of Alleles 15
Homozygous Genotypes 15
Heterozygous Genotypes 105
Total Genotypes 120

Formula for Multiple Alleles

Formula Purpose
n Number of homozygous genotypes
nC2 = n(n−1)/2 Number of heterozygous genotypes
n(n+1)/2 Total number of genotypes

Examples of Genotype Calculation

Number of Alleles (n) Total Genotypes
2 3
3 6
4 10
10 55
15 120

What Makes VNTRs Highly Polymorphic?

VNTR loci contain tandemly repeated DNA sequences whose repeat number varies among individuals. Because many repeat-length variants exist in a population, numerous alleles can occur at a single locus. This high allelic diversity greatly increases the number of possible genotypes, making VNTRs excellent molecular markers for distinguishing individuals.

Applications of VNTR Analysis

Application Importance
DNA Fingerprinting Individual identification
Forensic Science Crime investigation
Paternity Testing Biological relationship analysis
Population Genetics Study of genetic diversity
Conservation Biology Assessment of genetic variation

Biological Significance

VNTR markers provide an exceptional level of genetic variation because they possess multiple alleles at a single chromosomal locus. This variability enables researchers to identify individuals with high accuracy, investigate evolutionary relationships, estimate genetic diversity, study inheritance patterns, and construct population genetic databases. VNTRs have become indispensable tools in molecular biology, forensic science, medical genetics, and biodiversity research.

Final Answer

Number of alleles = 15

Total genotypes = n(n + 1)/2

= 15 × 16 / 2

= 120

Correct Answer: 120

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