cross binding

简明释义

横向支撑

英英释义

例句

1.The financial report included a section on cross binding liabilities among different subsidiaries.

财务报告中包括了一节关于不同子公司之间的交叉约束责任。

2.In the contract, there is a clause about cross binding that links the obligations of both parties.

在合同中，有一条关于交叉约束的条款，连接了双方的义务。

3.The lawyer explained the concept of cross binding to ensure that all parties are held accountable in the agreement.

律师解释了交叉约束的概念，以确保所有当事人在协议中承担责任。

4.The team used cross binding techniques to ensure that data integrity was maintained across multiple databases.

团队使用交叉约束技术，以确保多个数据库之间的数据完整性得以维护。

5.Understanding cross binding is crucial for developers when creating complex software systems.

理解交叉约束对开发人员在创建复杂软件系统时至关重要。

作文

In the world of molecular biology, the concept of cross binding (交叉结合) plays a crucial role in understanding how different molecules interact with one another. This phenomenon occurs when two or more ligands bind to a target protein simultaneously, leading to various biological outcomes. The study of cross binding (交叉结合) is essential for researchers who are trying to develop new drugs or therapies that can effectively target specific proteins involved in diseases. By understanding how these interactions work, scientists can design molecules that either enhance or inhibit the binding process, thus controlling biological functions at a molecular level.For instance, consider the case of enzyme inhibitors. Enzymes are proteins that catalyze biochemical reactions, and their activity can be modulated by small molecules that bind to them. When an inhibitor binds to an enzyme, it may prevent the substrate from accessing the active site. However, if multiple inhibitors can engage in cross binding (交叉结合), they might create a scenario where the overall inhibition is significantly enhanced. This could lead to more effective treatments for conditions like cancer or bacterial infections, where precise modulation of enzyme activity is critical.Moreover, cross binding (交叉结合) is not limited to enzyme interactions. It also occurs in receptor-ligand systems, where multiple ligands can bind to a single receptor, resulting in complex signaling pathways. For example, in the case of G-protein coupled receptors (GPCRs), the binding of different ligands can lead to distinct cellular responses. Understanding the dynamics of cross binding (交叉结合) in these systems can provide insights into how cells communicate and respond to their environment, which is fundamental for developing targeted therapies.The implications of cross binding (交叉结合) extend beyond basic research; they also have practical applications in drug discovery. Pharmaceutical companies often screen thousands of compounds to identify those that exhibit desirable binding properties. By studying how these compounds engage in cross binding (交叉结合), researchers can identify synergistic effects that may enhance drug efficacy. This approach can lead to the development of combination therapies that are more effective than single-drug treatments.However, the complexity of cross binding (交叉结合) also presents challenges. The interactions between different molecules can lead to unexpected side effects, making it difficult to predict how a new drug will behave in the body. Therefore, extensive research and testing are necessary to ensure that potential therapies are both safe and effective. Computational modeling and simulations are increasingly being used to study cross binding (交叉结合) interactions, allowing scientists to visualize and predict how different molecules will behave in biological systems.In conclusion, the study of cross binding (交叉结合) is a vital area of research in molecular biology with far-reaching implications for drug discovery and therapeutic development. By understanding how different molecules interact with each other, scientists can design better drugs that target specific proteins and pathways. As our knowledge of these complex interactions continues to grow, we can expect to see significant advancements in the treatment of various diseases, ultimately improving patient outcomes and quality of life.