100 Examples of sentences containing the common noun "placode"

Definition

Placode refers to a thickened area of ectoderm in the embryo that gives rise to various structures, such as sensory organs or skin glands. In a biological context, placodes are specific regions that contribute to the development of particular tissues or organs.

Synonyms

• Ectodermal thickening
• Sensory placode
• Embryonic placode

Antonyms

• None (as it is a specific biological term)

Examples

1. The placode in the developing embryo will eventually form the lens of the eye.
2. Scientists study how the placode differentiates into various sensory structures.
3. The otic placode is crucial for the development of the inner ear.
4. During embryonic development, the placode undergoes significant changes.
5. Researchers have identified several types of placodes in vertebrate embryos.
6. The nasal placode contributes to the formation of the olfactory system.
7. Understanding how the placode forms can help in regenerative medicine.
8. The placode becomes more defined as development progresses.
9. A mutation in genes affecting the placode can lead to congenital defects.
10. The role of the placode in sensory organ development is well documented.
11. The optic placode is essential for vision.
12. In some species, the placode can regenerate after injury.
13. The interaction between various placodes is vital for proper organ formation.
14. The placode is derived from the ectoderm layer of the embryo.
15. The study of the placode has implications for evolutionary biology.
16. Researchers can manipulate the placode to study developmental pathways.
17. The placode initiates the formation of hair follicles.
18. In amphibians, the placode contributes to the development of the lateral line system.
19. The facial placode is important in the formation of facial structures.
20. Scientists are trying to understand how the placode interacts with neighboring tissues.
21. In mammals, the placode forms important components of the skin.
22. The placode is a key player in the development of the mammalian ear.
23. A healthy placode is necessary for proper sensory organ function.
24. The placode can be influenced by external environmental factors during development.
25. Understanding the placode can provide insights into developmental biology.
26. The placode is responsible for the initial stages of organogenesis.
27. The thyroid placode gives rise to the thyroid gland.
28. The placode is involved in the development of both taste and smell.
29. The placode can be used as a model to study cell differentiation.
30. Damage to the placode can lead to sensory impairments.
31. The placode serves as a blueprint for organ formation.
32. Not all organisms have a placode; it varies across species.
33. The placode is critical for the establishment of body plan symmetry.
34. In some fish, the placode is involved in the formation of electroreceptors.
35. The placode plays a role in the development of the vertebrate eye.
36. The study of the placode has advanced our understanding of embryonic development.
37. The placode is often the first step in the pathway to organ formation.
38. Analyzing the placode can reveal patterns of evolutionary development.
39. The placode can exhibit plasticity in response to different developmental cues.
40. The placode is essential for the formation of the hair and feathers.
41. The placode is derived from the outer layer of the embryo.
42. Understanding the signaling pathways involved in the placode is crucial for developmental biology.
43. The placode influences the placement of organ systems.
44. The placode must receive the correct signals to develop properly.
45. The placode can be a target for genetic studies.
46. The implications of placode research extend to regenerative therapies.
47. The placode is a focal point in the study of organ development.
48. The placode develops into a variety of specialized cells.
49. Anomalies in the placode can result in developmental disorders.
50. The placode is a transient structure in embryonic development.
51. Biologists often investigate the placode for insights into evolution.
52. The placode serves as a crucial junction in embryonic signaling.
53. The placode has specific characteristics that distinguish it from other tissues.
54. The placode can develop into multiple organ systems depending on signaling.
55. The placode is a common focus in comparative anatomy studies.
56. The placode helps researchers understand the evolution of sensory organs.
57. Specific chemicals can affect the development of the placode.
58. The placode must interact with mesodermal tissues to form organs.
59. The concept of the placode is integral to vertebrate development.
60. Each type of placode has a distinct developmental pathway.
61. The formation of the placode is regulated by numerous genetic factors.
62. The placode provides a model for studying cell signaling.
63. The placode is influenced by both genetic and environmental factors.
64. The placode is a subject of interest in medical research.
65. The placode may serve as a source for stem cell research.
66. The placode is involved in the intricate processes of organ formation.
67. The placode is a key feature in the early stages of embryogenesis.
68. The placode gives rise to structures that are essential for survival.
69. The development of the placode is a complex process.
70. Understanding how the placode functions can aid in medical interventions.
71. The placode is essential for the formation of sensory neurons.
72. The placode can be affected by teratogens during development.
73. The placode is studied for its role in evolutionary adaptations.
74. The placode is integral to understanding congenital malformations.
75. The placement of the placode is critical in organogenesis.
76. The placode serves as a crucial indicator of developmental health.
77. The placode is a significant area of study in developmental genetics.
78. The placode can vary greatly between different species.
79. The placode has been linked to various research initiatives.
80. The placode serves as a guide for tissue patterning.
81. The placode is a focus in the field of regenerative biology.
82. The placode plays a vital role in establishing sensory pathways.
83. The placode is often used as a reference point in developmental studies.
84. The placode can lead to advancements in biotechnological applications.
85. The placode is a critical structure in the formation of the nervous system.
86. The placode is capable of forming multiple cell types.
87. The placode interacts with surrounding tissues during development.
88. The placode is essential for the formation of complex organs.
89. The placode has been extensively studied in the context of evolutionary biology.
90. The research on the placode has implications for understanding human development.
91. The placode is involved in the intricate process of organ specification.
92. The placode is a key structure in the development of the skin.
93. The placode influences the morphology of developing organs.
94. The placode is an essential concept in embryological studies.
95. The placode is indicative of the complexity of developmental processes.
96. The placode can serve as a model for studying various biological phenomena.
97. The placode is critical for the proper development of the sensory system.
98. The placode can reveal insights into the evolutionary history of species.
99. The placode is often used in experiments to understand cellular differentiation.
100. The study of the placode continues to evolve with advancements in technology.