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Organogenesis and Germ Layer Derivates | Animal Husbandry & Veterinary Science Optional for UPSC PDF Download

Organogenesis

Development of Head and Neck:

  • The head's top part (cephalic end) in the embryo has two components: neural (related to the brain, eyes, and internal ears) and facial or visceral (related to the upper parts of the digestive and respiratory tracts).

Face and Neck Construction:

  • The development of the face and neck is connected to the branchial arches' history.
  • The first branchial arch splits into upper (maxillary) and lower (mandibular) processes for face development.
  • The second and third arches contribute to neck formation.

Anomalies in Development:

  1. Agnathia:

    • Featureless face due to the absence of a lower jaw.
  2. Macrostomus:

    • Excessive widening of the mouth slit.
  3. Microstomus:

    • Complete closure of the mouth, leading to a tiny mouth.
  4. Stomus Anomalies:

    • Various conditions affecting the mouth.
  5. Cleft Lip:

    • Hare-lip appearance due to incomplete fusion.
  6. Cleft Mandible:

    • Failure of complete fusion of the lower jaw.
  7. Oblique Facial Cleft:

    • Failure of fusion between maxillary and nasal processes.

Question for Organogenesis and Germ Layer Derivates
Try yourself:
Which branchial arch contributes to the development of the face?
View Solution

Germ Layer Derivative

Derivatives of Different Embryonic Layers:

(a) Ectodermal Derivatives:

  1. Stomodeal Part of Mouth:

    • Originates from the outermost embryonic layer (ectoderm).
  2. Pituitary:

    • The pituitary gland, a crucial endocrine organ.
  3. Salivary Glands, Tongue:

    • Structures related to the mouth and digestion.
  4. Central Nervous System:

    • Brain and spinal cord development.
  5. Organs of Special Senses:

    • Eyes, ears, and other sensory organs.
  6. Adrenals:

    • Adrenal glands, part of the endocrine system.
  7. Lens of the Eye, Internal Ear:

    • Components of the eye and ear.
  8. Epidermis of Skin, Nails, Hair, Sebaceous Glands:

    • Skin layers, nails, hair, and oil glands.

(b) Mesodermal Derivatives:

  1. Spleen:

    • An organ involved in the immune system.
  2. Organs of Urogenital Systems:

    • Structures related to the urinary and reproductive systems.
  3. Skeletal System:

    • Bones and connective tissues.
  4. Dermis or Corium:

    • The deeper layer of skin.
  5. Vertebral Column, Sternum:

    • Backbone and breastbone.

(c) Endodermal Derivatives:

  1. Primary Tissues of Digestive Tract:

    • Initial structures of the digestive system.
  2. Pharyngeal Part of the Mouth:

    • Part of the throat and mouth.
  3. Thymus:

    • An organ involved in the immune system.
  4. Pancreas, Liver:

    • Organs related to digestion and metabolism.
  5. Respiratory Epithelium:

    • Tissues lining the respiratory tract.

Both Ectodermal and Endodermal Derivatives:

  • Mouth, Teeth:
    • Components originating from both outer and inner embryonic layers.

Common Origin of Blood Vessels and Cells:

  • Blood vessels and cells come from mesenchyme, an early formative tissue, with angioblast as the initial cells.

Question for Organogenesis and Germ Layer Derivates
Try yourself:
Which layer of embryonic development is responsible for the formation of the nervous system, senses, and skin?
View Solution

In Simple Terms:

  • Different body organs and structures come from specific layers during embryonic development.
  • Ectodermal derivatives involve things like the nervous system, senses, and skin.
  • Mesodermal derivatives include bones, muscles, and organs of the immune and reproductive systems.
  • Endodermal derivatives are related to digestive and respiratory organs.
  • Some structures, like the mouth and teeth, have contributions from both outer and inner layers.
  • Blood vessels and cells have a common origin in the mesenchyme, with angioblasts playing a crucial role.
The document Organogenesis and Germ Layer Derivates | Animal Husbandry & Veterinary Science Optional for UPSC is a part of the UPSC Course Animal Husbandry & Veterinary Science Optional for UPSC.
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FAQs on Organogenesis and Germ Layer Derivates - Animal Husbandry & Veterinary Science Optional for UPSC

1. What is organogenesis?
Ans. Organogenesis refers to the process by which organs are formed during embryonic development. It involves the differentiation and organization of cells into specialized structures that perform specific functions within the body.
2. What are germ layers and their significance in organogenesis?
Ans. Germ layers are the three primary layers of cells in the early embryo: ectoderm, mesoderm, and endoderm. These layers give rise to different tissues and organs in the body. The ectoderm forms the nervous system, skin, and hair. The mesoderm gives rise to muscles, bones, and blood vessels. The endoderm develops into the digestive and respiratory systems. The germ layers are significant in organogenesis as they provide the foundation for the formation of various organs and determine their structures and functions.
3. How do germ layers differentiate during organogenesis?
Ans. Germ layer differentiation occurs through a process called gastrulation. During gastrulation, the embryo undergoes complex cellular movements and rearrangements, leading to the formation of the three germ layers. The cells in the ectoderm, mesoderm, and endoderm undergo specific molecular changes and interactions that determine their fate and differentiation into various tissues and organs.
4. What are some examples of organs formed during organogenesis?
Ans. Organogenesis gives rise to a wide range of organs in the body. Some examples include the brain and spinal cord from the ectoderm, the heart and kidneys from the mesoderm, and the lungs and liver from the endoderm. Other organs such as the skin, muscles, bones, digestive system, and respiratory system are also formed through the process of organogenesis.
5. Why is understanding organogenesis important in the field of developmental biology?
Ans. Understanding organogenesis is crucial in the field of developmental biology as it provides insights into how organs are formed and how their structures and functions are determined. It helps scientists understand the intricate processes involved in embryonic development and can aid in the study of birth defects and diseases that result from abnormalities in organ formation. Additionally, knowledge of organogenesis can contribute to advancements in regenerative medicine and tissue engineering.
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