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Molecular Markers 
 
                                                                                              
 
 
 
 
 
Discipline: Botany 
Paper: Plant Biotechnology 
Lesson: Molecular Markers 
Lesson Developer: Ms. Namrata Dhaka 
Department/College: Department of Genetics, University of Delhi South 
Campus 
 
 
Page 2


Molecular Markers 
 
                                                                                              
 
 
 
 
 
Discipline: Botany 
Paper: Plant Biotechnology 
Lesson: Molecular Markers 
Lesson Developer: Ms. Namrata Dhaka 
Department/College: Department of Genetics, University of Delhi South 
Campus 
 
 
Molecular Markers 
 
2 
Institute of Lifelong learning, University of Delhi 
Learning Outcomes 
After reading this chapter, the readers should be able to understand the following: 
? What are molecular markers? 
? The basic terminology used with reference to markers like – polymorphism, 
dominant/codominant markers, indels, SNPs etc. 
? Different types of marker systems. 
? Hybridization based and PCR based markers. 
? The principle, methodology and relative advantages and disadvantages of five most 
commonly used type of molecular markers – RFLP, RAPD, AFLP, SSR and SNP. 
? Application of molecular markers, especially in context of plant breeding.
Page 3


Molecular Markers 
 
                                                                                              
 
 
 
 
 
Discipline: Botany 
Paper: Plant Biotechnology 
Lesson: Molecular Markers 
Lesson Developer: Ms. Namrata Dhaka 
Department/College: Department of Genetics, University of Delhi South 
Campus 
 
 
Molecular Markers 
 
2 
Institute of Lifelong learning, University of Delhi 
Learning Outcomes 
After reading this chapter, the readers should be able to understand the following: 
? What are molecular markers? 
? The basic terminology used with reference to markers like – polymorphism, 
dominant/codominant markers, indels, SNPs etc. 
? Different types of marker systems. 
? Hybridization based and PCR based markers. 
? The principle, methodology and relative advantages and disadvantages of five most 
commonly used type of molecular markers – RFLP, RAPD, AFLP, SSR and SNP. 
? Application of molecular markers, especially in context of plant breeding.
Molecular Markers 
 
3 
Institute of Lifelong learning, University of Delhi 
Table of Contents  
 
Chapter: Molecular Markers 
? Introduction  
? Advantages of molecular markers over morphological and 
biochemical markers 
? How can we visualize DNA? 
? Types of molecular markers 
? Restriction Fragment Length Polymorphism (RFLP) 
? Principle 
? Discovery 
? Method 
? Advantages 
? Disadvantages 
? Random Amplified Polymorphic DNA (RAPD) 
? Principle 
? Discovery 
? Method 
? Advantages 
? Disadvantages 
? Amplified Fragment Length Polymorphism (AFLP) 
? Principle 
? Discovery 
? Method 
? Advantages 
? Disadvantages 
? Simple Sequence Repeats (SSR) 
? Principle 
? Discovery 
? Method 
? Advantages 
? Disadvantages 
? Single Nucleotide Polymorphism (SNP) 
Page 4


Molecular Markers 
 
                                                                                              
 
 
 
 
 
Discipline: Botany 
Paper: Plant Biotechnology 
Lesson: Molecular Markers 
Lesson Developer: Ms. Namrata Dhaka 
Department/College: Department of Genetics, University of Delhi South 
Campus 
 
 
Molecular Markers 
 
2 
Institute of Lifelong learning, University of Delhi 
Learning Outcomes 
After reading this chapter, the readers should be able to understand the following: 
? What are molecular markers? 
? The basic terminology used with reference to markers like – polymorphism, 
dominant/codominant markers, indels, SNPs etc. 
? Different types of marker systems. 
? Hybridization based and PCR based markers. 
? The principle, methodology and relative advantages and disadvantages of five most 
commonly used type of molecular markers – RFLP, RAPD, AFLP, SSR and SNP. 
? Application of molecular markers, especially in context of plant breeding.
Molecular Markers 
 
3 
Institute of Lifelong learning, University of Delhi 
Table of Contents  
 
Chapter: Molecular Markers 
? Introduction  
? Advantages of molecular markers over morphological and 
biochemical markers 
? How can we visualize DNA? 
? Types of molecular markers 
? Restriction Fragment Length Polymorphism (RFLP) 
? Principle 
? Discovery 
? Method 
? Advantages 
? Disadvantages 
? Random Amplified Polymorphic DNA (RAPD) 
? Principle 
? Discovery 
? Method 
? Advantages 
? Disadvantages 
? Amplified Fragment Length Polymorphism (AFLP) 
? Principle 
? Discovery 
? Method 
? Advantages 
? Disadvantages 
? Simple Sequence Repeats (SSR) 
? Principle 
? Discovery 
? Method 
? Advantages 
? Disadvantages 
? Single Nucleotide Polymorphism (SNP) 
Molecular Markers 
 
4 
Institute of Lifelong learning, University of Delhi 
? Principle 
? Method 
? Advantages 
? Disadvantages 
? Comparison of different molecular marker systems 
? Applications of molecular markers 
? Mapping genes of interest 
? Marker assisted breeding 
? Assessment of genetic diversity 
? DNA fingerprinting 
? Summary  
? Exercise/ Practice 
? Glossary 
? References/ Bibliography/ Further Reading 
 
 
 
 
 
 
 
 
 
 
 
 
 
Page 5


Molecular Markers 
 
                                                                                              
 
 
 
 
 
Discipline: Botany 
Paper: Plant Biotechnology 
Lesson: Molecular Markers 
Lesson Developer: Ms. Namrata Dhaka 
Department/College: Department of Genetics, University of Delhi South 
Campus 
 
 
Molecular Markers 
 
2 
Institute of Lifelong learning, University of Delhi 
Learning Outcomes 
After reading this chapter, the readers should be able to understand the following: 
? What are molecular markers? 
? The basic terminology used with reference to markers like – polymorphism, 
dominant/codominant markers, indels, SNPs etc. 
? Different types of marker systems. 
? Hybridization based and PCR based markers. 
? The principle, methodology and relative advantages and disadvantages of five most 
commonly used type of molecular markers – RFLP, RAPD, AFLP, SSR and SNP. 
? Application of molecular markers, especially in context of plant breeding.
Molecular Markers 
 
3 
Institute of Lifelong learning, University of Delhi 
Table of Contents  
 
Chapter: Molecular Markers 
? Introduction  
? Advantages of molecular markers over morphological and 
biochemical markers 
? How can we visualize DNA? 
? Types of molecular markers 
? Restriction Fragment Length Polymorphism (RFLP) 
? Principle 
? Discovery 
? Method 
? Advantages 
? Disadvantages 
? Random Amplified Polymorphic DNA (RAPD) 
? Principle 
? Discovery 
? Method 
? Advantages 
? Disadvantages 
? Amplified Fragment Length Polymorphism (AFLP) 
? Principle 
? Discovery 
? Method 
? Advantages 
? Disadvantages 
? Simple Sequence Repeats (SSR) 
? Principle 
? Discovery 
? Method 
? Advantages 
? Disadvantages 
? Single Nucleotide Polymorphism (SNP) 
Molecular Markers 
 
4 
Institute of Lifelong learning, University of Delhi 
? Principle 
? Method 
? Advantages 
? Disadvantages 
? Comparison of different molecular marker systems 
? Applications of molecular markers 
? Mapping genes of interest 
? Marker assisted breeding 
? Assessment of genetic diversity 
? DNA fingerprinting 
? Summary  
? Exercise/ Practice 
? Glossary 
? References/ Bibliography/ Further Reading 
 
 
 
 
 
 
 
 
 
 
 
 
 
Molecular Markers 
 
5 
Institute of Lifelong learning, University of Delhi 
Introduction 
Often, you may have come across a situation where a passer-by asks you the way to reach 
a particular location. The way you generally answer them is through the help of certain 
landmarks and directions. For example, you may answer somewhat in this manner - you 
say, go straight take left from the school building, go straight till the traffic light signal, take 
right and then take a second right from under the flyover and if you go straight a little 
further, you shall reach your destination. In this case, you have used ‘school building’, 
‘traffic light signal’ and ‘flyover’ as landmarks to help the passer-by to reach his destination. 
In a similar way, in biology, one may define such landmarks called as ‘markers’ to 
characterize individuals or differentiate between any two individuals, for various research 
purposes especially plant and animal breeding, human genetics and forensics. 
The question that arises next is – what are we actually trying to ‘mark’ with these 
‘markers’? Markers are basically used to find the locations of genes of interests. The exact 
purpose and the overall methodology employing the markers to find a desired gene in any 
organism vary according to the different research goals. We shall discuss ahead, what are 
the various applications of markers.  
Taking the concept ahead, the next question that may arise in your mind is what is the 
exact nature of these markers? What are they actually – chemicals, molecules or any other 
attribute? Practically, any trait which exhibits variation between individuals can be used as a 
marker. Markers may be - 
? Morphological – Any trait visible to naked eye, example, plant height, flower color, fruit 
shape and so on. 
? Biochemical – Allozymes (isozymes) which are structurally different forms of the same 
enzyme. 
? Molecular – DNA markers. (allozymes are proteins, they may also be grouped as 
molecular markers but these days, the term ‘molecular markers’ is synonymously used 
for DNA markers and therefore allozymes are separately referred to as biochemical 
markers).  These DNA markers are essentially nothing but the landmarks on the genome 
of an individual, which can be visualized through various techniques to detect differences 
between small stretches of DNA of any two individuals. 
 
 
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FAQs on Lecture 18 - Molecular Markers - Plant Biotechnology - Botany

1. What are molecular markers in botany?
Ans. Molecular markers in botany are specific DNA sequences or genes that can be used to identify and study different traits or characteristics in plants. These markers can be used to determine genetic variations, relationships between different plant species, and to assist in plant breeding programs.
2. How are molecular markers used in botany research?
Ans. Molecular markers are used in botany research to analyze and compare the genetic makeup of different plant species or individuals. They can be used to study plant evolution, identify and analyze specific genes or traits, assess genetic diversity, and assist in plant breeding programs by selecting plants with desired characteristics.
3. What are the advantages of using molecular markers in botany research?
Ans. Molecular markers offer several advantages in botany research. They provide a more precise and accurate method of identifying and studying plant traits compared to traditional methods. They can also be used to analyze a large number of plant samples simultaneously, saving time and resources. Additionally, molecular markers allow for the identification of genetic variations that may not be visible through traditional morphological methods.
4. Can molecular markers be used to study plant diseases?
Ans. Yes, molecular markers can be used to study plant diseases. By analyzing the genetic makeup of plants, researchers can identify genes or DNA sequences associated with disease resistance or susceptibility. This information can be used to develop disease-resistant plant varieties through breeding programs or to improve disease management strategies.
5. How are molecular markers different from morphological markers in botany?
Ans. Molecular markers and morphological markers are two different types of markers used in botany research. Morphological markers are based on observable physical traits, such as leaf shape or flower color, while molecular markers are based on DNA sequences. Molecular markers offer a more precise and objective method of studying plant traits, as they are not influenced by environmental factors or subjective interpretation. Additionally, molecular markers can provide insights into genetic relationships and variations that may not be visible through morphological markers alone.
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