genomic

简明释义

英[dʒiːˈnəʊmɪk]美[dʒiːˈŋoʊmɪk]

adj. 基因组的；染色体的

英英释义

单词用法

同义词

反义词

例句

1.But when selection is strong - as in large populations - it blocks the random genomic changes that throw up this greater complexity in the first place.

但是，强选择时——正如在大规模种群中——从一开始匆匆建成的这一复杂性更高的基因组的随机变化就受到阻碍。

2.The new screening tecnique, called comparative genomic hybridisation, allows doctors to remove cells from an embryo when it is a few days old.

新的胚胎筛检技术称为基因组杂交比较，允许医生从几天大的胚胎上提取细胞。

3.Perhaps the greatest genomic advances of the last decade involve tools.

也许过去十年基因序列方面的最大进步时是在测试工具方面。

4.One powerful new tool is genomic medicine, which targets faulty genes or their pathways responsible for various kinds of cancers.

基因药物就是一个强有力的新工具，其目标指向有瑕疵的基因或导致各种癌症的基因路径。

5.Tissue, Genomic DNA, Human Disease, Liver Cirrhosis, Pancreas.

组织，基因组DNA， 病人，肝硬化，胰腺。

6.Misteli and Kosak describe this as a form of genomic self-organization, and say the findings support it.

Misteli和Kosak将此描绘为基因组自我组织，而且认为他们的发现支持这种说法。

7.This allowed them to target a genomic region in need of modification.

这可使他们在需要修改基因时瞄准特定基因组区域。

8.The relationship between rates of genomic evolution and organismal adaptation remains uncertain, despite considerable interest.

基因的进化与生物体适应速率之间的关系，很多人都很关注，但是仍然不很确定。

9.The study focused on genomic 基因组的 variations in cancer patients.

这项研究集中在癌症患者的基 genomic变异上。

10.Advancements in genomic 基因组的 medicine are changing how we approach treatment.

基因组医学的进展正在改变我们对治疗的看法。

11.Researchers are using genomic 基因组的 data to identify new drug targets.

研究人员正在利用基因组数据来识别新的药物靶点。

12.The genomic 基因组的 analysis revealed potential hereditary diseases.

基因组分析揭示了潜在的遗传疾病。

13.Personalized medicine relies heavily on genomic 基因组的 information.

个性化医学在很大程度上依赖于基因组信息。

作文

The field of medicine has undergone a remarkable transformation in recent years, largely due to advances in technology and scientific research. One of the most significant developments has been the rise of genomic 基因组的 medicine, which focuses on understanding the genetic makeup of individuals to tailor treatments and interventions. This approach is not only revolutionary but also holds the promise of improving patient outcomes by providing personalized care based on a person's unique genetic profile. At its core, genomic 基因组的 medicine involves the sequencing and analysis of an individual’s DNA, which can reveal important information about their health risks, potential diseases, and response to various treatments. For instance, by examining specific genes associated with cancer, doctors can identify patients who are at a higher risk of developing the disease and implement preventive measures or monitor them more closely. Moreover, genomic 基因组的 data enables healthcare professionals to predict how patients will respond to certain medications. This is particularly crucial in the field of oncology, where some patients may react adversely to standard chemotherapy drugs due to genetic variations. By utilizing genomic 基因组的 information, physicians can select the most effective treatment options, minimizing side effects and maximizing efficacy. Another exciting aspect of genomic 基因组的 medicine is its potential to facilitate the development of new therapies. Researchers are increasingly looking at the genetic basis of diseases to create targeted therapies that address the root causes rather than just the symptoms. For example, gene therapy aims to correct defective genes responsible for disease development, offering hope for conditions that were previously deemed untreatable. Despite the promising advancements in genomic 基因组的 medicine, there are also ethical considerations that must be taken into account. Issues surrounding privacy and the handling of genetic data are paramount, as individuals may be concerned about how their information is used and shared. Furthermore, there is the potential for genetic discrimination, where individuals may face bias in employment or insurance based on their genomic 基因组的 information. Thus, it is essential for policymakers and healthcare providers to establish robust guidelines that protect individuals' rights while promoting the benefits of genomic 基因组的 research. In conclusion, the advent of genomic 基因组的 medicine marks a significant leap forward in the way we understand and treat diseases. By leveraging the power of genetic information, healthcare can become more personalized and effective. However, as we embrace these advancements, it is crucial to remain vigilant about the ethical implications and ensure that the benefits of genomic 基因组的 medicine are accessible to all, paving the way for a healthier future for everyone.

近年来，医学领域经历了显著的变革，这在很大程度上得益于技术和科学研究的进步。其中最重要的发展之一是基因组的医学的兴起，它专注于理解个体的遗传构成，以量身定制治疗和干预。这种方法不仅具有革命性，而且有望通过根据个人独特的基因特征提供个性化护理，从而改善患者的治疗效果。 从根本上说，基因组的医学涉及个体DNA的测序和分析，这可以揭示关于他们健康风险、潜在疾病和对各种治疗反应的重要信息。例如，通过检查与癌症相关的特定基因，医生可以识别出更高风险患病的患者，并采取预防措施或更密切地监测他们。 此外，基因组的数据使医疗专业人员能够预测患者对某些药物的反应。这在肿瘤学领域尤为重要，因为一些患者可能由于基因变异而对标准化疗药物产生不良反应。通过利用基因组的信息，医生可以选择最有效的治疗方案，最大限度地减少副作用并提高疗效。 基因组的医学另一个令人兴奋的方面是其促进新疗法开发的潜力。研究人员越来越多地关注疾病的遗传基础，以创造针对根本原因而非仅仅是症状的靶向疗法。例如，基因治疗旨在修正导致疾病发展的缺陷基因，为之前被认为无法治疗的疾病带来了希望。 尽管基因组的医学在进步，但也必须考虑伦理问题。围绕隐私和基因数据处理的问题至关重要，因为个人可能会担心他们的信息如何被使用和共享。此外，存在基因歧视的潜在风险，即个人可能因为其基因组的信息而在就业或保险方面面临偏见。因此，政策制定者和医疗提供者必须建立健全的指导方针，以保护个人权利，同时促进基因组的研究的好处。 总之，基因组的医学的出现标志着我们理解和治疗疾病方式的重大飞跃。通过利用遗传信息的力量，医疗可以变得更加个性化和有效。然而，在我们拥抱这些进步的同时，保持对伦理影响的警惕至关重要，确保基因组的医学的好处对所有人都可获得，为每个人铺平更健康的未来。