helixes

简明释义

英[ˈhɛlɪksɪz]美[ˈhɛlɪksɪz]

螺旋结构（helix 的复数）

英英释义

单词用法

同义词

反义词

例句

1.The stability of these triple helixes is so high that homopyrimidine PNA targeted to purine tracts of dsDNA invades the duplex by displacing one of the DNA strands.

这种三螺旋体的稳定性极高，以至于在同型嘧啶PNA靶向双链DNA嘌呤道时，能取代其中一条DNA链侵入双螺旋。

2.There are many helixes of dihedral Angle, and the whole skeleton forms a large helix in the structure of the rotatory isomer.

其结构中包含许多二面角螺旋，而且具有旋光性的异构体，其结构的整体骨架也构成一个大的螺旋。

3.However, the forming of the twelve helixes will be plenty to give you, as a species, a much bigger picture of who you are.

然而，作为一个族类，十二螺旋的形成，将极大地赋予你们是谁的更大的图片。

4.Textbooks, too, are becoming interactive, with 3-d clips of helixes.

配有3d视频的教科书也同样变成为互动模式。

5.Crick, who saw a photo only of Dr. Franklin's B form, immediately recognized that DNA consisted of two parallel helixes, or twisted chains, running in opposite directions.

克里克见过富兰克林的B型照片，立即发现DNA包含反向旋转的两个并列螺旋列或叫扭曲链。

6.Formed from a series of interlocking helixes it presented significant analytical and construction challenges .

它是由一系列带有重要分析意义和建筑挑战的联锁螺旋状物体组成。

7.The varying pitch helixes were constructed on the parameter equation, and were selected as sweep trajectory; the surface of the screw was enveloped on the generating method.

设计过程中按推导出的数学方程构造各段螺旋线，并以该螺旋线作为扫描轨迹，遵循范成法原理包络出螺杆的各段螺旋曲面。

8.The varying pitch helixes were constructed on the parameter equation, and were selected as sweep trajectory; the surface of the screw was enveloped on the generating method.

设计过程中按推导出的数学方程构造各段螺旋线，并以该螺旋线作为扫描轨迹，遵循范成法原理包络出螺杆的各段螺旋曲面。

9.The research focused on the stability of helixes in various environmental conditions.

这项研究集中于不同环境条件下螺旋的稳定性。

10.The artist used helixes in her sculpture to represent the complexity of life.

这位艺术家在她的雕塑中使用了螺旋来代表生活的复杂性。

11.In biology, the structure of proteins can also be described as helixes.

在生物学中，蛋白质的结构也可以被描述为螺旋。

12.The DNA molecule consists of two intertwined strands that form a double helix.

DNA分子由两条交织的链组成，形成一个双螺旋。

13.Helical structures like helixes are common in nature, such as in the shape of galaxies.

像螺旋这样的螺旋结构在自然界中很常见，例如在星系的形状中。

作文

In the world of biology, the term helixes (螺旋) often refers to the structure of DNA, which is fundamental to understanding genetics and heredity. The double helix model proposed by Watson and Crick in 1953 revolutionized the field of molecular biology. This structure consists of two long strands that twist around each other, resembling a spiral staircase. Each strand is made up of nucleotides, which are the building blocks of DNA. The arrangement of these nucleotides encodes genetic information, making the study of helixes (螺旋) crucial for advancements in medicine, biotechnology, and forensic science.The significance of helixes (螺旋) extends beyond DNA. In nature, we observe various forms of spirals and helical structures, such as the shells of certain mollusks, the shape of galaxies, and even the patterns of hurricanes. The mathematical principles underlying these structures can be described using the Fibonacci sequence, which is often associated with growth patterns in plants and animals. Understanding the geometry of helixes (螺旋) allows scientists to explore the intricate designs found in nature and apply them in various fields, including architecture and engineering.In addition to their biological and mathematical significance, helixes (螺旋) also play a vital role in technology. For instance, the design of certain types of antennas and coils relies on helical shapes to enhance signal reception and transmission. Engineers utilize helixes (螺旋) to create more efficient devices, demonstrating how this simple geometric form can lead to significant technological advancements.Moreover, the concept of helixes (螺旋) can be applied metaphorically in our lives. Just as DNA helixes (螺旋) carry the blueprint of life, our experiences and memories can be seen as spirals that shape our identity over time. Each turn of the helix (螺旋) represents a new chapter in our lives, contributing to our growth and development. By reflecting on our personal helixes (螺旋), we can better understand the interconnectedness of our past, present, and future.In conclusion, the study of helixes (螺旋) encompasses a wide range of disciplines, from biology and mathematics to technology and personal growth. The double helix (螺旋) structure of DNA serves as a foundation for understanding life itself, while the broader implications of helixes (螺旋) inspire innovation and creativity in various fields. As we continue to explore the mysteries of helixes (螺旋), we unlock new possibilities for scientific discovery and personal reflection, reminding us of the beauty and complexity of the world around us.

在生物学的世界里，术语helixes（螺旋）通常指的是DNA的结构，这对于理解遗传学和遗传至关重要。1953年，沃森和克里克提出的双螺旋模型彻底改变了分子生物学领域。这种结构由两条长链相互缠绕，类似于螺旋楼梯。每条链由核苷酸组成，核苷酸是DNA的基本组成部分。这些核苷酸的排列编码了遗传信息，使得对helixes（螺旋）的研究对于医学、生物技术和法医科学的进步至关重要。helixes（螺旋）的意义不仅限于DNA。在自然界中，我们观察到各种螺旋和螺旋结构的形式，例如某些软体动物的壳、星系的形状，甚至飓风的模式。这些结构背后的数学原理可以用斐波那契数列来描述，这通常与植物和动物的生长模式有关。理解helixes（螺旋）的几何形状使科学家能够探索自然界中的复杂设计，并将其应用于建筑和工程等各个领域。除了生物学和数学的重要性之外，helixes（螺旋）在技术中也扮演着重要角色。例如，某些类型的天线和线圈的设计依赖于螺旋形状，以增强信号接收和传输。工程师利用helixes（螺旋）创造更高效的设备，展示了这一简单几何形状如何导致重大的技术进步。此外，helixes（螺旋）这一概念在我们的生活中也可以隐喻地应用。正如DNAhelixes（螺旋）承载着生命的蓝图一样，我们的经历和记忆可以被视为塑造我们身份的螺旋。每一圈helix（螺旋）代表我们生活中的新篇章，促进我们的成长和发展。通过反思我们个人的helixes（螺旋），我们可以更好地理解我们过去、现在和未来的相互联系。总之，helixes（螺旋）的研究涵盖了从生物学和数学到技术和个人成长的广泛领域。DNA的双helix（螺旋）结构作为理解生命本身的基础，而helixes（螺旋）的更广泛含义则激励着各个领域的创新和创造力。随着我们继续探索helixes（螺旋）的奥秘，我们解锁了科学发现和个人反思的新可能性，提醒我们周围世界的美丽和复杂性。