biogenetically

简明释义

英[ˌbaɪoʊdʒəˈnɛtɪkli]美[ˌbaɪoʊdʒəˈnɛtɪkli]

adv. 生物起源地

英英释义

单词用法

同义词

反义词

例句

1.As a species, you are being biogenetically altered by the beings who created you and who redesign your DNA at periodic junctures in your history.

作为一个族类，你们是生物遗传改变，得靠创造你们的DNA和在历史的接合点重新设计你们的DNA来达到。

2.As a species, you are being biogenetically altered by the beings who created you and who redesign your DNA at periodic junctures in your history.

作为一个族类，你们是生物遗传改变，得靠创造你们的DNA和在历史的接合点重新设计你们的DNA来达到。

3.Understanding the biogenetically 生物遗传地 determined traits can help in agricultural advancements.

理解生物遗传地决定的特性可以帮助农业进步。

4.Animals adapt biogenetically 生物遗传地 to their surroundings through natural selection.

动物通过自然选择生物遗传地适应其环境。

5.The study focused on how certain genes are expressed biogenetically 生物遗传地 in different environments.

这项研究集中在某些基因在不同环境中是如何生物遗传地表达的。

6.The biogenetically 生物遗传地 modified organisms raised concerns among environmentalists.

生物遗传地改造的生物引起了环保主义者的担忧。

7.The researchers studied how the species evolved biogenetically 生物遗传地 over millions of years.

研究人员研究了这个物种是如何在数百万年中生物遗传地演化的。

作文

In the realm of biological sciences, the term biogenetically refers to the processes and mechanisms through which living organisms develop and evolve based on their genetic material. Understanding how traits are inherited and expressed is crucial in fields such as genetics, evolutionary biology, and medicine. The concept of biogenetically driven evolution suggests that the characteristics of an organism are not only determined by environmental factors but are also deeply rooted in its genetic makeup. This interplay between genes and environment is fundamental to the study of life itself.One of the most significant implications of biogenetically influenced traits is seen in the field of agriculture. Farmers and scientists have long utilized selective breeding techniques to enhance desirable characteristics in crops and livestock. For instance, through biogenetically informed practices, farmers can develop plants that are more resistant to pests or diseases, leading to increased yields and reduced reliance on chemical pesticides. This not only benefits the economy but also contributes to sustainable agricultural practices that are essential for feeding a growing global population.Moreover, the advancements in biotechnology have allowed for the manipulation of genetic material at an unprecedented level. Techniques such as CRISPR-Cas9 enable scientists to edit genes with precision, leading to breakthroughs in medical research and treatment. For example, researchers are exploring biogenetically engineered therapies to combat genetic disorders, potentially offering cures for conditions that were once deemed untreatable. This opens up a new frontier in medicine, where understanding the biogenetically encoded information within our DNA can lead to personalized treatments tailored to individual patients.The ethical considerations surrounding biogenetically modified organisms (GMOs) also warrant discussion. While the benefits of genetic engineering are substantial, concerns about the long-term effects on ecosystems and human health persist. Public opinion is often divided, with some advocating for the potential benefits of biogenetically enhanced crops, while others raise alarms about the unforeseen consequences of altering nature’s blueprint. It is essential for scientists, policymakers, and the public to engage in open dialogues about these issues to ensure that advancements in biotechnology are pursued responsibly.Furthermore, the study of evolutionary processes has revealed that many species have adapted biogenetically over millions of years. For instance, the peppered moth is a classic example of natural selection, where variations in coloration provided advantages in survival against predators in different environments. Such examples highlight the importance of understanding how traits can shift biogenetically in response to changing conditions, providing insights into the resilience of life on Earth.In conclusion, the term biogenetically encompasses a broad range of concepts that are pivotal to our understanding of life sciences. From agriculture to medicine, the implications of biogenetically driven changes are profound. As we continue to explore the intricacies of genetics, it is vital to balance innovation with ethical considerations, ensuring that our advancements contribute positively to society and the environment. By embracing the knowledge of how organisms develop and adapt biogenetically, we can pave the way for a healthier and more sustainable future.

在生物科学的领域中，术语biogenetically指的是生物体基于其遗传物质发展和进化的过程和机制。理解特征是如何遗传和表现的，对于遗传学、进化生物学和医学等领域至关重要。由biogenetically驱动的进化概念表明，一个生物体的特征不仅仅受环境因素的影响，而且深深植根于其基因构成。这种基因与环境之间的相互作用是生命研究的基础。biogenetically影响特征的一个重要含义在农业领域得到了显著体现。农民和科学家们长期以来利用选择性育种技术来增强作物和家畜的优良特性。例如，通过biogenetically知情的实践，农民可以培育出对害虫或疾病更具抵抗力的植物，从而提高产量并减少对化学农药的依赖。这不仅有利于经济，还促进了可持续农业实践，这对于满足日益增长的全球人口的需求至关重要。此外，生物技术的进步使得在前所未有的水平上操纵遗传物质成为可能。诸如CRISPR-Cas9等技术使科学家能够精确编辑基因，导致医学研究和治疗的突破。例如，研究人员正在探索biogenetically工程疗法来对抗遗传疾病，可能为曾被认为无法治愈的病症提供治疗方案。这为医学开辟了新的前沿，在这里，理解我们DNA中biogenetically编码的信息可以带来个性化的治疗方案，量身定制给每位患者。围绕biogenetically改造生物（GMO）的伦理考虑也值得讨论。尽管基因工程的好处是巨大的，但对生态系统和人类健康的长期影响的担忧仍然存在。公众意见往往存在分歧，一些人倡导biogenetically增强作物的潜在好处，而另一些人则对改变自然蓝图的不可预见后果表示警惕。科学家、政策制定者和公众就这些问题进行开放对话至关重要，以确保生物技术的进步是负责任地追求的。此外，进化过程的研究揭示了许多物种在数百万年中已经biogenetically适应。例如，斑马蛾是自然选择的经典例子，其颜色变异在不同环境中提供了生存优势。这些例子突显了理解特征如何在变化条件下biogenetically转变的重要性，为生命在地球上的韧性提供了洞察。总之，术语biogenetically涵盖了一系列对我们理解生命科学至关重要的概念。从农业到医学，biogenetically驱动变化的影响深远。随着我们继续探索遗传学的复杂性，平衡创新与伦理考量至关重要，以确保我们的进步对社会和环境产生积极的贡献。通过接受如何在biogenetically发展和适应的知识，我们可以为一个更健康和可持续的未来铺平道路。