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100 Examples of sentences containing the common noun "rhodopsin"

Definition

Rhodopsin is a light-sensitive pigment found in the photoreceptor cells of the retina, primarily in rod cells. It plays a crucial role in the visual phototransduction pathway, enabling the perception of light in low-light conditions. Rhodopsin is composed of a protein called opsin and a chromophore called retinal, which changes shape when it absorbs photons, initiating a cascade of biochemical reactions that ultimately result in vision.

Synonyms

  • Visual purple
  • Retinal pigment
  • Photopigment

Antonyms

  • None (Rhodopsin does not have direct antonyms as it is a specific biological term)

Examples

  1. Scientists Rhodopsin in their latest research on vision.
  2. The study of how light interacts with Rhodopsin has advanced significantly.
  3. Understanding the role of Rhodopsin can help in treating vision disorders.
  4. Researchers Rhodopsin to explore the effects of different wavelengths of light.
  5. The presence of Rhodopsin in the eye is essential for night vision.
  6. They Rhodopsin to determine how quickly it regenerates after exposure to light.
  7. When studying the retina, one must consider how Rhodopsin functions.
  8. The scientists Rhodopsin to understand its role in circadian rhythms.
  9. Photoreceptors Rhodopsin to initiate the visual signal cascade.
  10. The degradation of Rhodopsin can lead to visual impairments.
  11. Biochemists often Rhodopsin to investigate light sensitivity.
  12. Animals Rhodopsin in various environments to adapt their vision.
  13. Researchers are keen to Rhodopsin for insights into color perception.
  14. The process by which Rhodopsin becomes activated is fascinating.
  15. When light hits Rhodopsin, it undergoes a structural change.
  16. They Rhodopsin to identify mutations that affect vision.
  17. The function of Rhodopsin was first discovered in the 19th century.
  18. Every time light hits Rhodopsin, it triggers visual signals.
  19. Scientists Rhodopsin to assess the effects of different diets on vision.
  20. The study focused on how well Rhodopsin functions in dim light.
  21. They Rhodopsin to develop treatments for retinal diseases.
  22. Understanding how Rhodopsin interacts with light is crucial for optics.
  23. Animals with a high concentration of Rhodopsin tend to see better in low light.
  24. The researchers Rhodopsin to combat age-related vision loss.
  25. The structural integrity of Rhodopsin is vital for its function.
  26. How Rhodopsin transduces light signals is a key area of research.
  27. They Rhodopsin as part of their study on phototransduction pathways.
  28. The activation of Rhodopsin leads to the formation of visual signals.
  29. Rhodopsin is crucial for organisms that rely on low-light environments.
  30. In dim conditions, Rhodopsin helps enhance visual clarity.
  31. The researchers Rhodopsin in their experiments with nocturnal animals.
  32. They Rhodopsin to explore how light pollution affects vision.
  33. Understanding how Rhodopsin works can improve night vision technologies.
  34. They Rhodopsin to study the effects of aging on retinal health.
  35. The interaction of light and Rhodopsin is a complex biochemical process.
  36. They Rhodopsin to find ways to regenerate damaged photoreceptors.
  37. The efficiency of Rhodopsin can be affected by various factors.
  38. They Rhodopsin to assess potential advancements in vision restoration.
  39. The changes in Rhodopsin structure are vital for signal transduction.
  40. Researchers Rhodopsin to understand visual processing in the brain.
  41. The discovery of Rhodopsin was a significant milestone in biology.
  42. They Rhodopsin to investigate the genetic basis of color blindness.
  43. The adaptation of Rhodopsin to different light conditions is remarkable.
  44. They Rhodopsin in hopes of unlocking new treatments for blindness.
  45. The presence of Rhodopsin is crucial for the survival of many species.
  46. How efficiently Rhodopsin converts light into electrical signals is key.
  47. They Rhodopsin to evaluate how different species perceive light.
  48. The study of Rhodopsin has implications for artificial vision devices.
  49. They Rhodopsin in their research on visual processing disorders.
  50. Understanding Rhodopsin is essential for advancements in optogenetics.
  51. They Rhodopsin to explore how environmental changes impact vision.
  52. The regeneration cycle of Rhodopsin is an area of intense research.
  53. They Rhodopsin to determine its role in color vision.
  54. The interaction between light and Rhodopsin is fundamental to vision.
  55. In their project, they Rhodopsin to map the visual pathways in animals.
  56. The breakdown of Rhodopsin can lead to various vision problems.
  57. They Rhodopsin to better understand the mechanisms of night blindness.
  58. The role of Rhodopsin in vision was highlighted in recent studies.
  59. They Rhodopsin to analyze the effects of blue light on vision.
  60. The process by which Rhodopsin regenerates is complex and fascinating.
  61. Researchers Rhodopsin to investigate light sensitivity in different species.
  62. The efficiency of Rhodopsin in low light is a critical aspect of vision.
  63. They Rhodopsin to develop better strategies for preserving eyesight.
  64. The dynamics of how Rhodopsin responds to light are intricate.
  65. They Rhodopsin to identify potential therapeutic targets for eye diseases.
  66. The role of Rhodopsin in color discrimination is an exciting field of study.
  67. They Rhodopsin to analyze the effects of genetic modifications on vision.
  68. The presence of Rhodopsin creates a unique visual experience.
  69. They Rhodopsin to investigate the molecular basis of phototransduction.
  70. Understanding the structure of Rhodopsin is important for drug design.
  71. They Rhodopsin as part of their curriculum in advanced biology.
  72. The interaction of Rhodopsin with other proteins is vital for visual signaling.
  73. They Rhodopsin to explore how diet affects retinal health.
  74. The activation of Rhodopsin is the first step in vision.
  75. They Rhodopsin to develop new methods for studying vision.
  76. The efficiency of Rhodopsin can be tested under various conditions.
  77. They Rhodopsin to measure how light exposure affects retinal function.
  78. The research team Rhodopsin to determine its implications for visual technology.
  79. They Rhodopsin to compare visual systems across different species.
  80. The effects of mutations on Rhodopsin are significant in genetic studies.
  81. They Rhodopsin to find links between diet and visual health.
  82. Understanding how Rhodopsin works is essential for developing vision aids.
  83. Researchers Rhodopsin in their experiments on retinal degeneration.
  84. They Rhodopsin to explore how environmental factors affect vision.
  85. The activation of Rhodopsin occurs very quickly upon light exposure.
  86. They Rhodopsin to study the effects of aging on retinal function.
  87. The study of Rhodopsin has led to breakthroughs in vision science.
  88. They Rhodopsin to understand how different organisms perceive light.
  89. The role of Rhodopsin in visual signaling is still being explored.
  90. They Rhodopsin to investigate the mechanisms behind phototransduction.
  91. The importance of Rhodopsin in vision cannot be overstated.
  92. They Rhodopsin to learn more about the evolution of vision.
  93. The efficiency of Rhodopsin can vary among species.
  94. They Rhodopsin to analyze the impact of light on cellular processes.
  95. The study involved significant research on how Rhodopsin functions.
  96. They Rhodopsin to develop new therapies for vision restoration.
  97. Understanding the processes surrounding Rhodopsin is critical for optics.
  98. They Rhodopsin as part of their investigation into visual perception.
  99. The discovery of new types of Rhodopsin has expanded our knowledge.
  100. They Rhodopsin to explore the biochemical pathways involved in vision.
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