100 Examples of sentences containing the common noun "urease"

Definition

Urease is an enzyme that catalyzes the hydrolysis of urea into ammonia and carbon dioxide. It plays a crucial role in the nitrogen cycle and is found in various organisms, including bacteria, plants, and some animals.

Synonyms

• Urea amidohydrolase
• Ureaase (alternative spelling)

Antonyms

• None (as "urease" refers specifically to an enzyme without direct opposites)

Examples

1. The bacteria in the soil urease to break down urea into usable nitrogen.
2. In clinical tests, urease levels can indicate certain health conditions.
3. Researchers studied how different temperatures affect how well urease urease.
4. The urease process helps plants absorb nutrients more efficiently.
5. Some species of bacteria possess urease that allows them to thrive in nitrogen-poor environments.
6. Urease inhibitors can be used to improve nitrogen use efficiency in agriculture by slowing down the conversion of urea.
7. In the lab, scientists urease a sample to test for urease activity.
8. The role of urease in the digestive system of ruminants is essential for breaking down urea.
9. Certain soil conditions can impact the activity of urease, affecting crop growth.
10. The team published their findings on how urease urease in different pH levels.
11. Urease production in bacteria can lead to environmental nitrogen pollution.
12. The enzyme urease urease urea, releasing ammonia into the environment.
13. In some organisms, the presence of urease can be a marker for specific metabolic pathways.
14. The study focused on how soil microbes urease nitrogen from organic matter.
15. The effectiveness of fertilizer can be determined by measuring how well urease urease nitrogen sources.
16. A high level of urease activity can indicate soil health and fertility.
17. Researchers are developing urease inhibitors to enhance sustainable farming practices.
18. The enzymatic activity of urease urease ammonia, which can be harmful in excess.
19. In clinical microbiology, urease testing helps identify certain pathogens.
20. The urease enzyme plays a significant role in the nitrogen cycle.
21. Scientists urease the role of urease in wastewater treatment processes.
22. Urease activity can vary significantly between different soil types.
23. The research highlighted how urease urease in the presence of heavy metals.
24. Urease is essential for understanding soil chemistry and fertility.
25. The enzyme's ability to urease urea makes it crucial for many biological processes.
26. Various factors, including moisture and temperature, influence how well urease urease.
27. Urease activity can be affected by the presence of other soil microorganisms.
28. The team conducted experiments to see how pH levels affect urease urease.
29. Urease inhibitors are gaining popularity among farmers looking to reduce nitrogen losses.
30. In agricultural settings, urease can help in nitrogen recycling.
31. The ability of certain microbes to produce urease allows them to survive in hostile environments.
32. The lab technician carefully measured how much urea the urease urease.
33. Urease production is often linked to the overall health of soil ecosystems.
34. Genetic engineering is being explored to enhance urease activity in crops.
35. The enzyme's primary function is to urease urea into ammonia.
36. Urease activity is a critical factor in assessing soil fertility.
37. The research aims to understand how urease urease in different environmental conditions.
38. Soil amendments can influence the activity of urease in agricultural systems.
39. The team discovered a new species of bacteria that produce urease at an unprecedented rate.
40. Urease helps convert waste products into beneficial nutrients for plants.
41. The amount of urease in a soil sample can indicate its microbial health.
42. The study aimed to determine how quickly urease urease urea in varying temperatures.
43. Understanding urease activity is vital for improving crop yields.
44. Urease can be regulated through various environmental factors.
45. The impact of urease on nitrogen cycling is significant in agricultural practices.
46. Certain crops have been bred for higher urease activity to enhance growth.
47. The presence of urease can be a sign of healthy soil microbiota.
48. The scientist noted how urease urease significantly increased the available nitrogen.
49. In microbiology, urease-producing organisms are often studied for their environmental roles.
50. The experiment showed that urease urease at different rates depending on the soil type.
51. Urease enzymes are commonly used in biotechnological applications.
52. The role of urease in the nitrogen cycle is complex and multifaceted.
53. The research team found that urease urease under high humidity conditions.
54. Urease activity can help mitigate the effects of nitrogen runoff in agriculture.
55. The use of urease inhibitors can lead to more sustainable farming practices.
56. The lab results indicated that urease urease urea more efficiently in warm conditions.
57. Urease is an important factor in the decomposition of organic materials.
58. The study revealed that certain plants enhance urease activity in the soil.
59. The role of urease in agriculture is critical for nutrient management.
60. Various methods exist to measure how effectively urease urease urea.
61. Urease can be produced by both prokaryotes and eukaryotes.
62. The understanding of how urease urease is essential for improving soil management practices.
63. The enzyme's action can lead to increased ammonia production in the soil.
64. Urease plays a vital role in the breakdown of nitrogenous waste in the environment.
65. The researchers focused on how urease urease under anaerobic conditions.
66. The presence of urease can indicate the microbial health of a soil sample.
67. Urease inhibitors are becoming important tools for environmental protection.
68. The lab team is studying how urease urease in the presence of different substrates.
69. Urease activity can be a marker for soil health assessments.
70. The enzyme's function is critical for many biological and ecological processes.
71. Urease helps facilitate the conversion of waste into useful nutrients.
72. Researchers urease the genetic basis of urease production in various organisms.
73. The study focused on how temperature fluctuations urease urease activity.
74. Urease plays a significant role in nitrogen fixation and cycling.
75. The effect of pH on urease urease rates was an important aspect of the research.
76. Urease is used in various biotechnological applications to enhance nutrient availability.
77. Some agricultural practices promote the natural urease of soil microorganisms.
78. The enzyme urease urease urea, resulting in environmental changes.
79. Monitoring urease activity can help optimize fertilizer application.
80. Urease can affect the overall nitrogen balance in ecosystems.
81. The team examined how different crops influenced urease urease in the soil.
82. The lab technician measured how quickly urease urease under controlled conditions.
83. Urease-producing bacteria are essential for nutrient recycling in ecosystems.
84. Genetic studies are exploring how plants can be modified to enhance urease activity.
85. The presence of urease can help maintain soil fertility.
86. Urease activity is often measured to assess the effectiveness of fertilizer.
87. The environmental impact of urease-producing microbes is significant.
88. Urease can help transform waste materials into valuable soil nutrients.
89. Understanding how urease urease under different environmental conditions is crucial for agriculture.
90. The research team is investigating how soil amendments can enhance urease activity.
91. The laboratory results showed that urease urease urea more efficiently in acidic soils.
92. Urease can be an important factor in the decomposition of organic matter.
93. The role of urease in wastewater treatment processes is increasingly being recognized.
94. Soil health can be evaluated by measuring urease activity.
95. The team hypothesized that increased moisture would enhance urease urease.
96. Urease is vital for maintaining the nitrogen balance in agricultural systems.
97. The enzyme's function can lead to changes in soil chemistry.
98. Urease production can be stimulated by organic amendments in the soil.
99. The experiment aimed to determine how temperature affects urease urease rates.
100. Urease is an essential enzyme for understanding nitrogen dynamics in ecosystems.