genotype

简明释义

英[ˈdʒenətaɪp]美[ˈdʒenətaɪp]

n. 基因型；遗传型

英英释义

单词用法

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例句

1.The plasma levels of HDLC were differed significantly between the TT genotype and the CC genotype(P<0.001)in CHD group.

在冠心病组中，TT基因型血浆高密度脂蛋白胆固醇水平明显低于CC基因型（P<0.001）。

2.In North America, there are six terrestrial animal genotypes, including the raccoon virus genotype.

在北美洲有六个陆生动物基因型，包括浣熊病毒基因型。

3.Core protein and IRS1 degradation in a genotype - specific manner.

核心蛋白在一个特定基因型的方式和IRS1退化。

4.The allelomorph frequencies were calculated with genotype frequencies.

由基因型频率计算等位基因频率。

5.Conclusion 5 '-ncr is more conserved than the core region and the genotype is the major cause of gene variation.

结论5′- NCR序列保守性大于核心区。型别是导致基因变化的主要原因。

6.Strong heterosis cross also had high genotype value.

优势强的组合，其基因型值较高；

7.The study focused on the relationship between environmental factors and the genotype 基因型 of the plants.

这项研究集中于环境因素与植物的基因型之间的关系。

8.Researchers found that the genotype 基因型 of the bacteria influenced its resistance to antibiotics.

研究人员发现，细菌的基因型影响其对抗生素的耐药性。

9.In genetics, an individual's genotype 基因型 determines their potential traits.

在遗传学中，个体的基因型决定了他们的潜在特征。

10.The genotype 基因型 of the organism was analyzed to understand its evolutionary history.

为了理解该生物的进化历史，对其基因型进行了分析。

11.Different genotypes 基因型 can lead to variations in physical appearance among individuals.

不同的基因型可能导致个体之间外貌的差异。

作文

The concept of genotype is fundamental in the study of genetics and biology. A genotype refers to the genetic constitution of an individual organism, which is represented by the specific alleles inherited from its parents. Understanding genotype is crucial for various fields, including medicine, agriculture, and evolutionary biology. In medicine, for instance, knowing a patient's genotype can help doctors tailor treatments to their genetic makeup. Certain diseases are influenced by genetic factors, and understanding the genotype can lead to better prevention strategies and personalized medicine. For example, individuals with a specific genotype may respond differently to medications, making it essential for healthcare providers to consider these genetic differences when prescribing treatments. In agriculture, the genotype of crops plays a significant role in determining their yield, disease resistance, and adaptability to environmental conditions. Farmers can select seeds based on their genotype to ensure that they grow plants that are more resilient and productive. This practice not only enhances food security but also contributes to sustainable farming practices by reducing the need for chemical interventions. Evolutionary biology also relies heavily on the concept of genotype. Scientists study the genotype of various species to understand how they adapt to their environments over time. By analyzing the genetic variations within populations, researchers can track evolutionary changes and make predictions about future adaptations. This understanding is vital for conservation efforts, as it helps identify species that may be at risk of extinction due to changes in their genotype caused by habitat loss or climate change. Moreover, the relationship between genotype and phenotype—the observable characteristics of an organism—is a key area of research. While the genotype provides the genetic blueprint, environmental factors can influence how these genes are expressed, leading to variations in phenotype. This interplay between genotype and phenotype highlights the complexity of biological systems and the importance of considering both genetic and environmental factors in scientific research. In conclusion, understanding genotype is essential for advancing our knowledge in various scientific fields. Its implications in medicine, agriculture, and evolutionary biology demonstrate the significance of genetics in shaping our world. As we continue to explore the intricacies of genotype, we gain valuable insights that can lead to improved health outcomes, enhanced agricultural practices, and a deeper understanding of the natural world. The study of genotype not only enriches our comprehension of life but also empowers us to make informed decisions that can positively impact our future.

基因型的概念在遗传学和生物学研究中至关重要。genotype指的是个体生物的遗传构成，它由从父母那里继承的特定等位基因表示。理解genotype对于医学、农业和进化生物学等多个领域至关重要。 例如，在医学中，了解患者的genotype可以帮助医生根据其遗传构成量身定制治疗方案。某些疾病受到遗传因素的影响，理解genotype可以导致更好的预防策略和个性化医疗。例如，具有特定genotype的个体可能对药物的反应不同，因此医疗提供者在开处方时必须考虑这些遗传差异。 在农业中，作物的genotype在决定其产量、抗病性和适应环境条件方面发挥着重要作用。农民可以根据植物的genotype选择种子，以确保他们种植的植物更加坚韧和高产。这种做法不仅增强了粮食安全，还通过减少对化学干预的需求有助于可持续农业实践。 进化生物学也在很大程度上依赖于genotype的概念。科学家们研究各种物种的genotype以了解它们如何随时间适应环境。通过分析种群内的遗传变异，研究人员可以追踪进化变化并预测未来的适应性。这种理解对于保护工作至关重要，因为它有助于识别由于栖息地丧失或气候变化而可能面临灭绝风险的物种。 此外，genotype与表型（生物体的可观察特征）之间的关系是一个关键研究领域。虽然genotype提供了遗传蓝图，但环境因素可以影响这些基因的表达，导致表型的变化。这种genotype与表型之间的相互作用突显了生物系统的复杂性，以及在科学研究中考虑遗传和环境因素的重要性。 总之，理解genotype对于推动我们在各个科学领域的知识进步至关重要。它在医学、农业和进化生物学中的影响展示了遗传学在塑造我们世界中的重要性。随着我们继续探索genotype的复杂性，我们获得了宝贵的见解，这可以导致改善健康结果、加强农业实践和更深入地理解自然世界。对genotype的研究不仅丰富了我们对生命的理解，还使我们能够做出明智的决策，从而积极影响我们的未来。