genic

简明释义

英[ˈdʒenɪk]美[ˈdʒenɪk]

adj. 基因的；由基因引起的；遗传学的；有关胚胎的

英英释义

单词用法

同义词

反义词

例句

1.The genetic basis of the male sterile line was expanded, which widen the applied range of excellent genic male sterile gene.

扩大了原有不育系的遗传基础，拓宽了该优良雄性不育基因的应用范围。

2.The Discovery, Inheritance and Utilization of Genic Male Sterility with Genetic Marker in Maize.

带遗传标记的玉米基因雄性不育的发现及遗传和利用研究。

3.As a kind of polypeptide, controlled by specific genic code and induced under specific external conditions.

是由生物细胞特定基因编码，经特定外界条件诱导产生的一类多肽。

4.Conclusion: Lower value and the lag in genic expression of BMP2 in the central zone during the early stage may be an important reason of nonunion occurring in rat femur.

结论：大鼠股骨骨不连中心区在修复早期BMP2基因的低表达及表达时间滞后可能是其骨不连发生的原因之一。

5.There were no evidences of any effect of syn-genic transfusions on tumor and T-cell activity.

而同种同品系间的输血对受者T淋巴细胞功能及肿瘤的生长和转移无明显影响。

6.Tumors are genic diseases in essence.

肿瘤从本质上是基因病。

7.Scientists are studying how genic 基因相关的 factors influence human behavior.

科学家们正在研究基因因素如何影响人类行为。

8.The artist's work often explores genic 基因相关的 concepts in a unique way.

这位艺术家的作品常以独特的方式探讨基因概念。

9.The new product line is highly genic 基因相关的 and targets a younger audience.

这条新产品线与年轻人高度相关。

10.In medicine, understanding genic 基因相关的 predispositions can help in early diagnosis.

在医学中，了解基因倾向可以帮助早期诊断。

11.This novel is full of genic 基因相关的 themes that resonate with modern readers.

这部小说充满了与现代读者产生共鸣的基因主题。

作文

In the realm of biology and genetics, the term genic (基因的) plays a crucial role in understanding how traits are inherited and expressed in living organisms. The study of genes has revolutionized our comprehension of life itself, from the simplest bacteria to complex mammals, including humans. Genes are the fundamental units of heredity and are responsible for the variations and characteristics that define each species. The genic (基因的) aspects of these organisms determine everything from physical appearance to behavioral traits. One of the most fascinating applications of genic (基因的) research is in the field of medicine. By examining the genic (基因的) makeup of individuals, scientists can identify predispositions to certain diseases. For instance, genetic testing can reveal whether a person carries genes that increase their risk for conditions such as breast cancer or heart disease. This information is invaluable, as it allows for early intervention and personalized treatment plans tailored to an individual's unique genic (基因的) profile. Moreover, the concept of genic (基因的) modification has sparked both excitement and ethical debates. Genetic engineering techniques, such as CRISPR, allow scientists to edit the DNA of organisms, potentially leading to breakthroughs in agriculture, medicine, and even environmental conservation. For example, genic (基因的) modifications in crops can enhance yield, resistance to pests, and nutritional content, addressing food security challenges in a growing global population. However, this power raises questions about the long-term effects on ecosystems and human health, highlighting the need for responsible research practices. In addition to practical applications, the study of genic (基因的) traits also contributes to our understanding of evolution. By analyzing the genic (基因的) variations within populations, researchers can trace the lineage and adaptations of species over time. This knowledge helps us appreciate the intricate web of life and the factors that drive biodiversity. As we learn more about the genic (基因的) components of evolution, we gain insights into how species respond to environmental changes, which is increasingly relevant in the context of climate change. Education plays a vital role in disseminating knowledge about genic (基因的) science. Schools and universities are incorporating genetics into their curricula, fostering a new generation of scientists and informed citizens. Understanding genic (基因的) principles empowers individuals to make informed decisions about their health and the environment. Furthermore, public engagement in discussions about genetic research enhances transparency and encourages ethical considerations in scientific advancements. In conclusion, the term genic (基因的) encapsulates a vast and dynamic field of study that intersects with various aspects of life, from health care to environmental sustainability. As we continue to explore the genic (基因的) foundations of existence, we must approach this knowledge with responsibility and respect for the complexities of life. The future of genic (基因的) research holds immense potential, and it is our duty to navigate its challenges wisely, ensuring that the benefits are shared equitably across society.