Human biology
Difference between
Cell
Energy, Enzymes and membrane
Plant
Botanical Name
Biodiversity
Symptoms, diseases
Causes
Other Topics
Bio Articles (Alphabetic order)
- Blood Circulatory System
- Blood
- Bones of The Legs
- Bones of The Foot
- Bones of The Ankle
- Bones of Pelvis
- Blood Groups
- Scientific Name of Human Being
- Largest Organ In Human Body
- Largest Internal Organ in The Human Body
- Human Respiratory System
- Human Population
- Human Physiology
- Human Life Cycle
- Human Insulin
- Human Impact on the Environment
- Human Heart
- Human Health and Diseases
- Human Genome Project Goals Significance
- Human Excretory System
- Human Evolution Progress
- Human Ear
- Human Diseases
- Human Digestive System
- Human Circulatory System Transportation
- Anatomy and Physiology of the Human Body
- Effects of Air Pollution on Human Health
Difference between
- Difference between Turner Syndrome and Klinefelter Syndrome
- Difference Between Transpiration and Guttation
- Difference Between Transpiration and Evaporation
- Difference Between Tracheids and Vessels
- Difference Between Thorns and Spines
- Difference Between T Cells and B Cells
- Difference Between Sympathetic and Parasympathetic
- Difference Between Sporophyte and Gametophyte
- Difference Between Spermatogenesis and Oogenesis
- Difference Between Sperm and Ovum
- Difference between Species, Population, and Community
- Difference Between Sleep and Hibernation
- Difference Between Saturated and Unsaturated Fats
- Difference Between Rust and Smut
- Difference Between Right and Left Lung
- Difference Between Replication and Transcription
- Difference Between Renewable and Non Renewable Resources
- Difference Between Red and White Muscle
- Difference Between Radicle and Plumule
- Difference Between Prokaryotic and Eukaryotic Transcription
- Difference Between Plasma and Serum
- Difference Between Pharynx and Larynx
- Difference Between Organs and Organelles
- Difference Between Open and Closed Circulatory Systems
- Difference Between Ocean and Sea
- Difference Between Monocytes and Lymphocytes
- Difference Between Mitochondria and Chloroplast
- Difference Between Lytic and Lysogenic Cycle
- Arteries and Veins Difference
Cell
- Growth and Development of an organism
- Meiosis Cell Division
- Cellular Respiration Concept Map
- Cell Signalling
- Cell Organelles
- Cell Cycle and Cell Division
- Cell Biology
Energy, Enzymes and membrane
Plant
- Scientific Names of Animals and Plants
- Plant Respiration
- Plant Physiology
- Plant Life Cycle and Alternation of Generations
- Plant Kingdom Plantae
- Plant Growth Regulators
- Plant Fibres
- Mendelian Inheritance Using Seeds of Different Colours Sizes of Any Plant
- Grassland Dominant Plants
- Effects of Air Pollution on Plants
- Biodiversity In Plants and Animals
Botanical Name
- Mustard Botanical Name
- Marigold Botanical Name
- Chilli Botanical Name
- Botanical Name of Tea
- Botanical Name of Sugarcane
- Botanical Name of Soybean
- Botanical Name of Rose
- Botanical Name of Rice
- Botanical Name of Pea
- Botanical Name of Lady Finger
- Botanical Name of Groundnut
- Botanical Name of Grapes
- Botanical Name of Coffee
- Botanical Name of Cabbage
- Botanical Name of Banyan Tree
- Botanical Name of Bajra
Biodiversity
- Biodiversity Pattern Species
- Biodiversity Conservation
- Biodiversity and Conservation Concept Map
- Biodiversity
Symptoms, diseases
- Hormones Heart Kidney GI
- Blood Cancer
- Arthritis
- Aids and Hiv
- Nervous System Diseases
- Modes of Transmission of Diseases
- Migraine Symptoms
- Menopause Symptoms
- Lysosomal Storage Disease
- Lung Diseases
- Lung Cancer Symptoms
- Hyperthyroidism Symptoms
- Hypertension Symptoms
- Chicken Pox Symptoms
- Blood Pressure Symptoms
- Arthritis Symptoms
- Appendicitis - Formation, Symptoms, Treatment
- Anemia Symptoms
- Acidity Symptoms Causes and Risk Factors involved
Causes
Other Topics
Bio Articles (Alphabetic order)
- Antigens and Immunology
- Scientific Name of Vitamins
- Scientific Name of Neem
- Schistosomiasis Life Cycle
- Scabies Life Cycle
- Salient Features of The Kingdom Monera
- Saddle Joints
- Root Modifications
- Role of Microbes In Food Processing
- RNA: World Genetic Material
- Rna Interference
- Ringworm
- Rigor Mortis
- Retrovirus
- Respiratory Quotient
- Respiratory and Lung Volumes
- Adolescence Secondary sexual characteristics
- Prolactin Hormone
- Productivity In Ecosystem
- Prions
- Principles of Treatment
- Principles of Prevention
- Principles of Inheritance and Variation
- Principles of Genetics
- Primary Ciliary Dyskinesia
- Prepare Pedigree Charts of Any One of the Genetic Traits Such as Rolling Of Tongue, Blood Groups, Ear Lobes, Widow’s Peak and Colour Blindness
- Prepare A Temporary Mount of The onion Root Tip To Study Mitosis
- Preparation and Study of Transverse Section of Dicot and Monocot Roots and Stems
- Pregnancy Parturition Lactation
- Neural Control and Coordination
- Nervous Tissue
- Nervous System Definition
- Nervous System Coordination
- Nervous System
- Nerves
- Nephron Function Renal Tubules
- Nephritis
- Nematoda
- Need For Hygiene and Sanitation
- Natural Selection Biological Evolution
- Natural Disasters
- National Parks and Sanctuaries
- Mycology
- Myasthenia Gravis
- Mutualism
- Mutation Genetic Change
- Mutagens
- Muscular Dystrophy
- Muscle Contraction Proteins
- Mountains and Mountain Animals
- Morphology and Anatomy of Cockroach
- Monohybrid Cross - Inheritance of One Gene
- Molecular Basis of Inheritance
- MOET Technology - Multiple Ovulation Embryo Transfer Technology
- Modern Synthetic Theory of Evolution
- Miller Urey Experiment
- Micturition - Urination Process
- Microfilaments
- Microbodies
- Metabolism Metabolic Pathways
- Metabolism Living State Basis
- Mendelian Disorders
- Melatonin Hormone
- Meiosis Phases
- Meiosis I - Stages and Process
- Megafauna
- Measles
- Mayfly Life Cycle
- Mass Flow Hypothesis
- Mass Extinctions
- Marine Biology
- Mammalia Diversity In Living Organisms
- Malthusian Theory of Population
- Male Sex Hormone
- Macromolecule
- Luteinizing Hormone
- Lung Cancer
- Love Hormone
- Locust Life Cycle
- Lizard Life Cycle
- Living Fossil
- Lipoproteins
- Lipids
- Lipid Peroxidation
- Linkage Recombination
- Life Cycle of Living Organism
- Lice Life Cycle
- Leprosy
- Length of Epididymis
- Leishmania Life Cycle
- Leg Muscles
- Law of Segregation and Law of Dominance
- Law of Independent Assortment
- Hypothyroidism
- Hypothalamus
- Hypogeal Germination
- Hypocalcaemia
- Hypertension
- Hyperparathyroidism
- Hydroponics
- Hydrarch Succession
- Horses and Donkeys Same Species
- Hormonal Disorders
- Hormones Secreted by Non-Endocrine
- Hookworm Life Cycle
- Honey Bee Life Cycle
- Homo erectus
- Homeostasis
- History of Clothing Material
- Characteristics and classification of Gymnosperms
- Guttation
- Griffith Experiment: The Genetic Material
- Grazing Food Chain
- Grasshopper Life Cycle
- Gram Positive Bacteria
- Gout
- Gonorrhea
- Gonads
- Goiter
- Embryology
- Embryo Development
- Elisa Technique
- Electron Transport Chain
- Electrocardiograph
- Effects of Water Pollution
- Effects of Waste Disposal
- Effects of Wastage of Water
- Effects of Plastics
- Life Cycle of Chicken
- Chemotrophs
- Chemiosmotic Hypothesis
- Centromere
- Central Dogma Inheritance Mechanism
- Cartilaginous Joints
- Carnivores and Herbivores
- Cardiac Output
- Carbon Cycle
- Carbohydrate Metabolism
- Can a Community Contain Two Populations of the Same Species?
- Bt Crops
- Bryophyta
- Blastocyst
- Bird Life Cycle
- Biotechnology Jobs
- Biotechnology Agriculture
- Biosafety Issues
- Bioreactor Obtaining Foreign Gene
- Biopiracy
- Biomolecules In Living Organisms
- Biomes of The World
- Biomass Definition Ecology
- Biofortification
- Asteraceae Brassicaceae Poaceae
- Ascaris Life Cycle
- Artificial Pollination
- Archaebacteria
- Apoptosis Definition, Pathway, Significance, and Role
- Apoplast and symplast pathway
- AntiMullerian Hormone (AMH)
- Antimicrobial Resistance
- Antibiotics
- Ant Life Cycle
- Annelida Meaning, Classification, Types, and FAQs
- Animal Nervous System
- Animal Kingdom Concept Map
- Animal Kingdom : Animalia Subphylum
- Animal Kingdom
- Animal Husbandry: Types and Advantages
- Animal Husbandry and Poultry Farming & Management
- Angina Pectoris
- Anatomy and Morphology of Animal Tissues
- Anagenesis
- An overview of Anatomy, its types and their applications
- Amphibolic Pathway
- Amphibia
- Amoebiasis
- Ammonotelism
- Ammonification
- Amino acids Properties, Functions, Sources
- Amensalism
- Alternatives To Dams
- Allergies Autoimmunity
- Allee Effect
- Alimentary Canal Anatomy
- Algae Definition, Characteristics, Types, and Examples
- Alcohol and Drug Abuse Measures for Prevention and Control
- Air Pollution Definition, Causes, Effect and Control
- Agriculture Seeds Selection Sowing
- Agriculture Practices - Organic Farming & Irrigation
- Agriculture Fertilizers
- Agricultural Implements and Tools
- Aerobic and Anaerobic Respiration Major Differences
- Advantages of Dams
- Adolescence and Drug Abuse
- Adh Hormone
- Adaptive Radiation Evolution
- Acth Hormone
- Acromegaly Causes, Symptoms, Treatment
- Acquired and Inherited Traits
- Acoustic Neuroma Symptoms, Causes, Diagnosis
Difference Between Prokaryotic and Eukaryotic Transcription
Introduction to transcription
In this method transcribes genetic information to RNA from DNA. The ultimate product of this transcription is protein. The DNA is present inside the nucleus of the cells. In managing all the cellular activities within the cells with the help of coding. For the production of proteins, this DNA code is used. DNA that carries information is not directly converted to proteins, it must first be copied to RNA. The reason behind this- the information that carries in the DNA should be destroyed.
In DNA transcription, DNA is copied for the production of RNA. To produce a protein molecule the RNA transcript is used. Initiation, elongation, and termination are the three steps for the transcription of DNA. In the promoter region. In this tutorial, we will learn about transcription in depth.
Components and Process of Transcription
The components of transcription can be described below
Promoter − The promoter is the structural component of genes. Multiple sections are present in the promoter. The sections combine a variety of transcription factors.
Structural gene − It is part of the DNA strand. It has a polarity of 3′->5′. This strand of DNA is known by various names such as master strand, template strand, antisense, or minus strand. The other strand with a polarity of 5′ is replaced during the process of transcription. Sometimes the strand that is not participating in transcription (non-template strands) is known as a plus sign or coding strand. The reason behind this is the genetic code of this strand is the same as the genetic code ie mRNA, only uracil is replaced with thymine.
Terminator − The terminator is placed in 3′ ends. The location of the terminator is the down part of the structural genes. As we know four nucleoids constitute Deoxyribonucleic acid. They are paired together to form a DNA double hepx. Adenine, guanine, cytosine, and uracil are the bases present in DNA. Adenine pairs with thymine and cytosine paired with guanine. Genetic code is the nucleotide base sequence. They give direction for protein synthesis.
DNA transcription process can be described as below
Initiation − RNA polymerase is one type of enzyme that is transcribed DNA. Instruction is given by specific nucleotide sequences to RNA polymerase. They give the instructions on where to start and close or end. The RNA polymers are mind to a DNA in a specific region called as promoter region. Specific sequences are present in the promoter region DNA. These specific sequences permit RNA polymerase to bind with DNA.
Elongation − The transcription factor is an enzyme that unwinds the DNA strand. It permits RNA polymerase to transcribe a single strand of DNA to a single strand RNA polymer that is called messenger RNA. The strand that is worked as the template is known as the antisense strand in contrast which is not worked as a template is called the sense strand. RNA is also constituted of four nucleotides bases pke DNA. Namely adenine, guanine, cytosine, and uracil. At the time of RNA polymerase transcribing the DNA that time guanine pairs with cytosine and adenine pairs with uracil
Termination − To reach the terminator sequence RNA polymerase progress along with the DNA. At this movement RNA polymerase free m RNA and separates from DNA.
Prokaryotic Transcription
Prokaryotes pke bacteria archaea or any other single-cell organisms do not have membrane-bound nuclei and other organelles. The transcription factors do not assist in this type of transcription and occur in the cytoplasm. It is also run simultaneously with translation. Binding, initiation, elongation, and termination are the four steps of prokaryotic transcription. In this type of single-cell transcription, DNA is transcribed by the presence of only one RNA polymerase. The mRNA strand synthesizes in the presence of catalyst RNA polymerase. The pnk of RNA polymerase to the promoter sequence is the first step of prokaryotic transcription. The RNA strand grows from 5′ to 3′ forming a short hybrid with the DNA strand in the elongation process. The elongation of the mRNA sequence stops once the sequence of termination reaches. Two types of termination are present in prokaryotes. In this, transcription occurs along with translation.
Eukaryotic Transcription
The process of transcription in eukaryotic cells is more complex than the prokaryotic cells. This type of transcription also involves four steps ie binding, initiation, elongation, and termination. In this type, transcription takes place in the presence of transcription factors. Based on the genes there are various types of RNA polymerase molecules are there that can transcribe the DNA. The code for protein synthesis is transcribed by RNA polymerase II. RNA polymerase I transcribed gene coding for ribosomal RNA while RNA polymerase II transcribed code for transfer RNA. Some of the cell organelles pke mitochondria and chloroplasts can transcribe DNA within their cell structure. Unpke prokaryotes, eukaryotic transcription is followed by transcription i.e. both are not simultaneous processes.
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Similarities between prokaryotic and eukaryotic transcription
In both prokaryotic and eukaryotic transcription for RNA synthesis, DNA functions as templates. RNA molecules are produced in both types of transcription. This type of transcription is faciptated by the enzyme RNA polymerase. In both prokaryotic and eukaryotic transcription, the chemical composition remains the same.
Difference between prokaryotic and eukaryotic transcription
| Prokaryotic transcription | Eukaryotic transcription |
|---|---|
| Occurs in the cytoplasm | Occurs in the nucleus |
| In the cytoplasm RNA are released and proceeds | In the nucleus RNA are released and proceeds |
| Five polypeptides constitute RNA polymerase | Ten to Fifteen polypeptides constitutes polymerases |
| Transcription and translation occurs at the same time | Transcription and translation do not occur simultaneously |
| It is not complex one | It is a complex one |
| One kind of RNA polymerase is released | Three kinds of RNA polymerase is released |
| Variation is less in promoters | Variation is more in promoters |
| Post-transcriptional modifications is absence | Post-transcriptional modifications is present |
| mRNA sequence is polycistronic | mRNA sequence is monocistronic. |
Conclusion
The first step of gene expression is transcription followed by translation. Both prokaryotes and eukaryotes show transcription. Prokaryotic transcription occurs in the cytoplasm and involves only RNA polymerase. While in eukaryotes transcription occurs in the nucleus and involves three RNA polymerases. Post transcription modification can be seen only in eukaryotic transcription.
FAQs
Q1. What are the two types of termination in prokaryotic transcription?
Ans. Factor-dependent transcription and intrinsic termination are the two types of termination in prokaryotic transcription.
Q2. What is peptide?
Ans. Peptides are short chains of amino acids. It is bonded together with each other by the presence of a peptide bond.
Q3. What is translation?
Ans. When m RNA message code is translated to protein is known as translation.
Q4. What is cytoplasm?
Ans. It is a membrane-bound semi-pquid substance where cell organelles are present.
Q5. What is the nucleus?
Ans. It is a membrane-bound organelle in that hereditary material chromosomes are present.