gena
简明释义
n. [解剖]颊
n. (Gena)人名;(塞)盖娜(女名),盖纳;(英)吉纳
复 数 g e n a e
英英释义
Gena 指的是动物面部的颊部或下颌区域。 | |
In human anatomy, gena can refer to the region of the face located near the cheeks. | 在人体解剖学中,gena 可以指位于面颊附近的面部区域。 |
单词用法
同义词
| 下巴 | 他的下巴线条分明,给人一种粗犷的感觉。 | ||
| 下颌 | 她在思考时把下颌靠在手上。 |
反义词
| 不喜欢 | 我不喜欢他讲话的方式。 | ||
| 仇恨 | 她讨厌在长队里等候。 |
例句
1.Especially my best friend Gena, he stayed in Russia for seven years, and he get so sick of Russian people.
尤其是我最好的朋友G,他在俄罗斯呆了七年多,提到俄罗斯人就烦!
2.Now, Gena has a Macintosh iBook, because she loves the translucent boxes.
现在,卓有一个苹果的ibook,因为她喜欢半透明的机壳。
3."Every time I look at Ava, I know I will never be able to repay the debt that I owe Susan," Gena said.
吉娜说:“每当我看着伊娃,我就知道我永远无法回报苏珊对我的恩情。”
4.For salvation from these so called "witch children", many families turn to people like Mama Gena.
为了从这些所谓的“着魔孩子”中得到拯救,许多家庭都求助于吉娜妈妈。
5.When Pete was helping Gena, he tried to widen a window by dragging the right edge.
当皮特帮助Gena时,他试图调整窗口大小,然而却拖动了窗口。
6.Susan insisted, however, that the happiness she brought Gena is reward enough. (See photo).
而婆婆苏珊坚称,看到吉娜幸福就已心满意足。
7.One day Pete's friend Gena asks him for some computer help.
有一天,皮特的朋友卓问他一些电脑的帮助。
8.Especially my best friend Gena, he stayed in Russia for seven years, and he get so sick of Russian people.
尤其是我最好的朋友G,他在俄罗斯呆了七年多,提到俄罗斯人就烦!
9.A strong gena 颊部 can be a sign of good health and vitality.
强壮的gena 颊部 可能是健康和活力的标志。
10.The model's gena 颊部 was highlighted in the photoshoot, making her look stunning.
模特的gena 颊部 在拍摄中被突出,使她看起来惊艳。
11.She applied makeup to enhance her gena 颊部 and give her face more definition.
她化妆以增强她的gena 颊部,让她的脸更加立体。
12.In anatomy class, we learned about the structure of the gena 颊部 and its functions.
在解剖学课上,我们学习了gena 颊部 的结构及其功能。
13.The doctor explained that the gena 颊部 is essential for facial symmetry.
医生解释说,gena 颊部 对面部对称性至关重要。
作文
In the world of genetics, the term gena (基因) plays a crucial role in understanding how traits are inherited from one generation to another. Genes are the basic units of heredity, and they carry the information necessary for the growth, development, and functioning of all living organisms. The study of gena (基因) not only helps us comprehend the biological processes that govern life but also opens up avenues for advancements in medicine, agriculture, and biotechnology.To illustrate the importance of gena (基因), let us consider the example of hereditary diseases. Many illnesses, such as cystic fibrosis or sickle cell anemia, are caused by mutations in specific genes. Understanding these gena (基因) allows scientists and doctors to develop targeted therapies and genetic counseling strategies. For instance, if a family has a history of a particular genetic disorder, they may choose to undergo genetic testing to determine whether they carry the gena (基因) associated with the disease. This knowledge can empower individuals to make informed decisions about their health and family planning.Moreover, the field of agriculture has also been significantly impacted by research on gena (基因). Farmers and scientists work together to create genetically modified organisms (GMOs) that exhibit desirable traits such as pest resistance, drought tolerance, and improved nutritional content. By manipulating specific gena (基因), researchers can enhance crop yields and reduce the reliance on chemical pesticides. This not only benefits farmers economically but also contributes to food security in a world facing population growth and climate change challenges.The ethical implications of manipulating gena (基因) cannot be overlooked. As we gain more power to edit genes through technologies like CRISPR, society must grapple with questions about the limits of genetic engineering. Should we use gena (基因) editing to eliminate genetic disorders, or does this open the door to designer babies? These debates highlight the need for responsible stewardship of genetic knowledge and technology.In conclusion, the study of gena (基因) is a fascinating and rapidly evolving field that holds great promise for improving human health, enhancing agricultural productivity, and addressing global challenges. However, with great power comes great responsibility. As we continue to explore the intricacies of our gena (基因), it is essential that we approach this knowledge with caution, ensuring that our advancements benefit all of humanity while respecting ethical boundaries.
在遗传学的世界中,术语gena(基因)在理解特征如何从一代传递到另一代中发挥着至关重要的作用。基因是遗传的基本单位,它们携带着生长、发育和所有生物体功能所需的信息。对gena(基因)的研究不仅帮助我们理解支配生命的生物过程,还为医学、农业和生物技术的进步开辟了途径。为了说明gena(基因)的重要性,让我们考虑遗传疾病的例子。许多疾病,如囊性纤维化或镰状细胞贫血,是由特定基因中的突变引起的。理解这些gena(基因)使科学家和医生能够开发针对性的治疗和遗传咨询策略。例如,如果一个家庭有特定遗传病的历史,他们可能会选择进行基因检测,以确定他们是否携带与该疾病相关的gena(基因)。这一知识可以赋予个人做出有关健康和家庭规划的知情选择。此外,农业领域也受到对gena(基因)研究的重大影响。农民和科学家共同努力创造具有理想特征的转基因生物(GMO),例如抗虫害、耐旱和改善营养成分。通过操控特定的gena(基因),研究人员可以提高作物产量,并减少对化学农药的依赖。这不仅使农民在经济上受益,还有助于应对面临人口增长和气候变化挑战的全球粮食安全问题。操控gena(基因)的伦理影响也不可忽视。随着我们通过CRISPR等技术获得更多编辑基因的能力,社会必须面对关于基因工程界限的问题。我们是否应该利用gena(基因)编辑来消除遗传疾病,还是这为设计婴儿打开了大门?这些辩论突显了对遗传知识和技术负责任管理的必要性。总之,对gena(基因)的研究是一个迷人而快速发展的领域,承诺改善人类健康、增强农业生产力并应对全球挑战。然而,强大的力量伴随着巨大的责任。随着我们继续探索自身的gena(基因)的复杂性,我们必须谨慎对待这一知识,确保我们的进步造福全人类,同时尊重伦理界限。
