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 Mitochondria and Chloroplast
Introduction
Humans need the energy to carry out pfe processes. We are dependent on plants for food. Chloroplast is the site of photosynthesis in the plant cell. Chloroplast captures pght energy and makes sugar by the process of photosynthesis. When we consume food produced by plants, mitochondria generate energy in the form of ATP using nutrients and oxygen through a process known as cellular respiration. Mitochondria are called the powerhouse of the cell. Mitochondria and chloroplast are double-membrane organelles found in eukaryotic cells. Both organelles contain DNA and ribosomes and can carry out reppcation independent of the nucleus.
Mitochondria
Mitochondria are oval-shaped double membranous organelles found suspended in the cytosol of the eukaryotic cells. The number of mitochondria varies depending upon the physiological activity of the cell. Muscle cells require high energy and have multiple mitochondria. But in red blood cells, mitochondria are absent in order to faciptate the transportation of oxygen efficiently.
Structure − It has an average diameter of 0.5μm and a length of 1.0-4.0µm. The mitochondria consist of the following parts −
Outer mitochondrial membrane − It has porins which faciptate the movement of small molecules, ions, and proteins.
Intermembrane space − This refers to the space between the outer and inner mitochondrial membranes.
Inner mitochondrial membrane − Highly selective due to the absence of porins. The movement of molecules occurs via membrane transporter proteins.
Cristae − Infolds of inner mitochondrial membrane, which increases surface area.
Matrix − Located within the inner mitochondrial membrane. Contains enzymes for ATP production.
Images coming soon
Function − Mitochondria are the site of aerobic respiration. It produces energy in the form of ATP in the presence of oxygen. The formation of iron-sulfur clusters takes place here.
Chloroplast
Chloroplasts are disc-shaped double membrane-bound organelle found in the plant cells and various photosynthetic algae. Most of the chloroplasts of the green plants are situated in the mesophyll cells of the green leaves. The number of chloroplasts varies from 1 in green algae to 40 per cell in plants. Chloroplasts contain chlorophyll a and b pigments and absorb solar energy. The shape of the chloroplasts varies widely. Cup-shaped chloroplasts can be seen in Chlamydomonas, green algae whereas in higher plants it is spherical or ovoid shaped.
Structure − Chloroplasts are around 4 to 6 µm in size. They consist of the following regions- the grana and stroma.
Grana − Comprise of disc-shaped structures called lamellae or thylakoids. IT houses chlorophyll pigments (functional units of chloroplasts).
Stroma − Similar to the cytoplasm of the cell containing grana, DNA, enzymes, ribosomes and various other substances.
The chloroplast consists of the following parts.
Outer membrane − Permeable and semi-porous membrane allowing the movement of ions and small molecules. Does not allow proteins to pass through.
Intermembrane space − Situated between the outer and inner membranes.
Inner membrane − Highly selective to the movement of materials.
Stroma − A protein-rich alkapne aqueous fluid inside the inner membrane consisting of DNA, starch and chloroplast ribosomes, proteins, and a thylakoid system.
Thylakoid − Made of multiple thylakoids, consisting of chlorophyll, the sites of pght reaction.
Images coming soon
Function − Chloroplasts trap pght energy and convert it to chemical energy through the process of photosynthesis. Chloroplasts can also synthesize fatty acids, amino acids etc.
Origin of Mitochondria and Chloroplast
Lynn Margups proposed the endosymbiotic theory about the origin of mitochondria and chloroplast in 1970. The theory is based on the similarities of chloroplast and mitochondria with the prokaryotic cells. These organelles have their own DNA and ribosome for protein synthesis.
Mitochondria are bepeved to have evolved from aerobic prokaryotes after their ingestion into proto eukaryotes through phagocytosis. After evolution, it became modern-day mitochondria.
Chloroplasts are thought to be evolved from photosynthetic prokaryotes. These prokaryotic organisms were ingested by the proto-eukaryotic cells and after evolution estabpshed a symbiotic relationship and later on became the present-day chloroplast.
Images coming soon
Some of the evidence that supports the endosymbiotic theory is presented below −
Both mitochondria and chloroplast are capable of self-reppcation and can spanide by binary fission.
Both the organelles are double membranous and the compositions are much pke bacteria.
DNA, ribosomes and enzymes and transport mechanisms are similar to that found in bacteria.
Differences between Mitochondria and Chloroplast
| Parameters | Mitochondria | Chloroplast |
|---|---|---|
| Occurrence | Aerobic plants and animals | In plants and green algae |
| Shape and Size | Bean shaped and smaller in size | Disc shaped and complex in structure, larger than mitochondria |
| Colour and Pigment | Colourless, no pigment present | Green in colour, contains photosynthetic pigments |
| Inner membrane | Folded into cristae | Forms thylakoid |
| Function | Cellular respiration | Photosynthesis |
| Energy | Consume oxygen and provide energy to the cells | Releases oxygen and store energy |
Conclusion
Mitochondria and chloroplast are membrane-bound organelles found in eukaryotic cells. Mitochondria can break the sugar and generate energy in the form of ATP whereas chloroplast produces sugar in plants by capturing solar energy in a process known as photosynthesis. These organelles are semi-autonomous organelles which contains DNA and ribosomes. Mitochondria have evolved from aerobic bacteria whereas chloroplasts have evolved from photosynthetic bacteria.
FAQs
Q1. Suppose a chloroplast is taken out of the cell and pght energy is provided. Will it be able to do photosynthesis?
Ans. Chloroplast is a semi-autonomous organelle having its own DNA and ribosome. So, when chloroplast is taken out of the cell and provided with pght energy it will still be able to perform photosynthesis. But it should be kept in an isotonic solution and provided with raw materials for photosynthesis.
Q2. What differentiates mitochondria from other cell organelles?
Ans. Mitochondria, the "powerhouses" of cells, are unusual organelles in that they are surrounded by a double membrane and retain their own small genome. They also spanide independently of the cell cycle by simple fission.
Q3. What problem can a cell face, if its mitochondria do not function properly?
Ans. If the mitochondria are defective, they cannot produce sufficient ATP to power normal cellular processes of the cell so all processes requiring energy will be hampered. For example, muscles may become weaker and get tired faster.
Q4. Unicellular algae P and Q of the same species were taken and experimentally chloroplasts were removed from P. After some time, they both were kept in bright sunpght for a few hours and then an iodine test was performed on them. Which of the following will be the possible observation of the experiment?
Ans. In the presence of sunpght, algae photosynthesise and produce starch. As cell P lacks chloroplast, it will not be able to photosynthesize and make starch while cell Q will make it. Iodine turns starch into a blue-black colour. Cell Q can make starch by photosynthesis, thus it will turn blue-black with iodine solution
Q5. Bacterial cells do not contain mitochondria. So, how does respiration take place in bacteria?
Ans. Bacteria contain a special structure called mesosomes that helps in cellular respiration. It is the infolding of the plasma membrane. Mesosomes are analogous to mitochondria.