100 Examples of sentences containing the common noun "mesenchyme"

Definition

Mesenchyme is a type of embryonic connective tissue that gives rise to various tissues and structures in the body, including bone, cartilage, and blood. It consists of loosely organized cells and extracellular matrix, providing the foundation for the development of organs and other tissues during embryonic growth.

Synonyms

• Connective tissue
• Embryonic tissue
• Mesodermal tissue

Antonyms

• Epithelial tissue
• Nervous tissue

Examples

1. The mesenchyme plays a crucial role in the formation of skeletal structures.
2. Scientists study how the mesenchyme contributes to organ development.
3. The differentiation of mesenchyme into cartilage is essential for joint formation.
4. During embryogenesis, mesenchyme provides support for developing organs.
5. Researchers focused on how mesenchyme interacts with neighboring tissues.
6. The presence of mesenchyme can influence cellular differentiation.
7. In the lab, they cultured mesenchyme cells to observe their behavior.
8. The mesenchyme is responsible for the regenerative capabilities in some species.
9. Understanding how mesenchyme functions can aid in tissue engineering.
10. The mesenchyme contains stem cells that can develop into various tissue types.
11. Disruptions in mesenchyme development can lead to congenital disorders.
12. The mesenchyme serves as a precursor to multiple organ systems.
13. In adult tissue, mesenchyme may be involved in repair processes.
14. The plasticity of mesenchyme allows for diverse developmental pathways.
15. The mesenchyme architecture is vital for proper organ placement.
16. During gastrulation, the mesenchyme starts to form distinct layers.
17. The study showed that mesenchyme cells can migrate to injury sites.
18. Researchers identified markers specific to mesenchyme cells.
19. The mesenchyme has unique properties that differentiate it from other tissues.
20. The interaction between mesenchyme and epithelial cells is crucial for development.
21. In some cases, mesenchyme can give rise to tumors if not regulated.
22. The elasticity of mesenchyme allows for flexibility in developing structures.
23. In wound healing, the mesenchyme aids in the repair of damaged tissues.
24. The mesenchyme contributes to the formation of the cardiovascular system.
25. Scientists are exploring ways to harness mesenchyme for regenerative medicine.
26. The mesenchyme supports the growth of blood vessels during development.
27. A deficiency in mesenchyme can lead to skeletal abnormalities.
28. The mesenchyme is often studied in the context of stem cell research.
29. The role of mesenchyme in morphogenesis is a key area of interest.
30. Researchers are mapping the signaling pathways in mesenchyme.
31. The mesenchyme can influence the fate of neighboring progenitor cells.
32. The regenerative potential of mesenchyme cells is being investigated.
33. The study revealed how mesenchyme interacts with the extracellular matrix.
34. The mesenchyme provides a scaffold for developing organs.
35. Disruption of mesenchyme signaling can affect tissue homeostasis.
36. The mesenchyme has been found to play a role in cancer progression.
37. The differentiation process of mesenchyme is tightly regulated.
38. The mesenchyme is rich in growth factors that promote tissue development.
39. Understanding the biology of mesenchyme can lead to new therapies.
40. The mesenchyme serves as a reservoir for stem cells in the body.
41. Various types of mesenchyme exist depending on the tissue type.
42. The mesenchyme is essential for the development of the digestive system.
43. Researchers observed how mesenchyme responds to mechanical stimuli.
44. The mesenchyme can influence the immune response during development.
45. The cellular composition of mesenchyme varies across different species.
46. The mesenchyme is involved in the formation of the nervous system.
47. The study focused on the interactions between mesenchyme and epithelium.
48. The mesenchyme expresses specific markers during embryonic development.
49. Scientists are examining the metabolic pathways in mesenchyme cells.
50. The mesenchyme is believed to play a role in aging processes.
51. The ability of mesenchyme to regenerate is a topic of intense research.
52. The mesenchyme provides structural support to developing tissues.
53. The signaling pathways within mesenchyme are complex and multifaceted.
54. The mesenchyme is often the source of various connective tissues.
55. The role of mesenchyme in tissue repair is gaining recognition.
56. The interaction between mesenchyme and blood vessels is crucial for development.
57. The mesenchyme can differentiate into multiple cell types under certain conditions.
58. The properties of mesenchyme can be influenced by environmental factors.
59. The mesenchyme is a focus of research in developmental biology.
60. The regenerative capabilities of mesenchyme are being harnessed for therapies.
61. The mesenchyme can be isolated for therapeutic applications.
62. Researchers are studying how mesenchyme responds to injury.
63. The mesenchyme contributes to embryonic patterning during development.
64. The differentiation of mesenchyme can be guided by specific signals.
65. The mesenchyme is essential for limb development.
66. The dynamics of mesenchyme during organogenesis are complex.
67. The mesenchyme can influence the organization of surrounding tissues.
68. The contributions of mesenchyme to tissue engineering are significant.
69. The signaling molecules in mesenchyme are crucial for cellular communication.
70. The properties of mesenchyme can be manipulated for regenerative applications.
71. The mesenchyme acts as a bridge between various tissue types.
72. The mesenchyme is involved in the establishment of body axes during development.
73. Understanding the role of mesenchyme can provide insights into tissue regeneration.
74. The mesenchyme is a key player in embryonic stem cell differentiation.
75. The plasticity of mesenchyme makes it a valuable resource for research.
76. The mesenchyme can undergo changes in response to environmental cues.
77. The role of mesenchyme in organ repair is being actively investigated.
78. The cellular interactions within mesenchyme are vital for proper development.
79. The mesenchyme serves as a source of various growth factors.
80. Researchers are exploring the potential of mesenchyme in cell therapy.
81. The mesenchyme can influence the behavior of surrounding stem cells.
82. The mesenchyme is involved in the formation of the musculoskeletal system.
83. The study of mesenchyme can provide insights into developmental disorders.
84. The mesenchyme is crucial for the vascularization of tissues.
85. The properties of mesenchyme can vary significantly among different species.
86. The mesenchyme plays a role in the repair of damaged tissues.
87. The ability of mesenchyme to differentiate is a focus of developmental biology.
88. The mesenchyme serves as a reservoir for various cell types.
89. The role of mesenchyme in embryonic development is well documented.
90. The mesenchyme can exhibit different characteristics depending on its location.
91. The study of mesenchyme can shed light on evolutionary processes.
92. The mesenchyme is a dynamic tissue that adapts to developmental cues.
93. The interaction between mesenchyme and immune cells is an area of interest.
94. The mesenchyme can be influenced by mechanical forces during development.
95. The signaling pathways in mesenchyme are essential for tissue homeostasis.
96. The mesenchyme contributes to the formation of multiple organ systems.
97. The regenerative properties of mesenchyme are being explored for therapies.
98. The mesenchyme provides a framework for cellular organization.
99. The differentiation of mesenchyme is a critical aspect of developmental biology.
100. The mesenchyme is often used as a model system for studying development.