"Nitrogenases" Example Sentences
1. Some bacteria have specialized structures called nitrogenases that can convert atmospheric nitrogen to a form that can be used by the organism.
2. Researchers have discovered a new type of nitrogenases enzyme that could significantly reduce the amount of fertilizer needed in agriculture.
3. The activity of nitrogenases is inhibited by oxygen, so some nitrogen-fixing bacteria have evolved ways to protect these enzymes from damage.
4. Despite their importance in agriculture, little is known about the molecular mechanism of nitrogenases enzymes.
5. Some scientists are working on genetically engineering plants to produce their own nitrogenases, which would reduce the need for synthetic fertilizers.
6. Nitrogenases are found in specialized cells called heterocysts, which protect the enzymes from oxygen damage.
7. Some studies have shown that nitrogenases enzymes are evolutionarily related to other enzymes involved in energy metabolism.
8. The presence of nitrogenases in certain bacteria allows them to thrive in environments with low nitrogen content.
9. Nitrogenases are composed of two subunits, which work together to convert nitrogen to ammonia.
10. The mechanism by which nitrogenases convert nitrogen to ammonia is still not fully understood.
11. The production of nitrogenases requires a significant amount of energy, so nitrogen-fixing bacteria have also developed ways to regulate their expression.
12. Some scientists are investigating ways to engineer nitrogenases enzymes to work more efficiently under certain conditions.
13. Nitrogenases are crucial for maintaining the balance of nutrients in soil, and any disruption to their activity can have serious consequences for agriculture.
14. Some researchers are studying the microbiome of soil to better understand the role of nitrogenases in nutrient cycling.
15. Nitrogenases are highly specific enzymes, and their activity is regulated by a complex system of feedback loops.
16. Some bacteria can form symbiotic relationships with plants, providing them with nitrogen in exchange for nutrients and energy. The nitrogenases enzyme is key to this relationship.
17. The study of nitrogenases has important implications for understanding the evolution of life on Earth and the role of microbes in global nutrient cycling.
18. Nitrogenases are just one example of the fascinating ways that microbes have evolved to survive in challenging environments.
19. Understanding how nitrogenases work could lead to new insights into how to boost crop yields and reduce fertilizer use.
20. Nitrogenases enzymes are highly sensitive to environmental conditions, and even small changes in temperature or oxygen levels can affect their activity.
21. Some organisms have evolved ways to extract nitrogen from the air without the use of nitrogenases, through a process called anammox.
22. The discovery of nitrogenases revolutionized our understanding of biology and the role of microbes in the environment.
23. Despite years of research, there is still much we don't know about the regulation and function of nitrogenases.
24. Some scientists are exploring the use of nitrogenases to develop more sustainable and environmentally friendly forms of agriculture.
25. Nitrogenases are also important in the nitrogen cycle in aquatic environments, where they play a key role in nutrient cycling.
26. Many different types of bacteria have nitrogenases enzymes, each with their own unique adaptations and properties.
27. The study of nitrogenases requires a multidisciplinary approach, integrating knowledge from biology, chemistry, and physics.
28. Nitrogenases are a testament to the ingenuity of life, and the many different ways that organisms have evolved to survive and thrive in challenging environments.
29. The activity of nitrogenases can be affected by a variety of factors, including pH, temperature, and substrate availability.
30. The discovery and study of nitrogenases has led to many important applications, from improving crop yields to developing new industrial processes.
Common Phases
1.
Nitrogenases are enzymes that play a crucial role in nitrogen fixation;
2. These enzymes convert atmospheric nitrogen into ammonia;
3.
Nitrogenases are found in certain bacteria and archaea;
4. These enzymes require a low oxygen environment to function properly;
5.
Nitrogenases contain iron and molybdenum as cofactors;
6.
Nitrogenases are often inhibited by heavy metal ions such as mercury;
7. The study of
nitrogenases has important implications for agriculture and environmental science.