idioplasm
简明释义
英[ˈɪdɪəʊˌplæzəm]美[ˈɪdɪəˌplæzm]
n. [胚][遗] 种质;异胞质
英英释义
Idoplasm refers to the specific material or substance in a cell that carries genetic information and is responsible for the inheritance of traits. | Idoplasm指的是细胞中携带遗传信息并负责性状遗传的特定物质或物质。 |
单词用法
细胞质理论 | |
细胞质成分 | |
细胞质的作用 | |
在细胞质的背景下 |
同义词
| 基因型 | 一个生物的基因型决定了它的特征。 | ||
| 遗传物质 | 遗传物质从父母传递给后代。 | ||
| 遗传构成 | Understanding the genetic makeup can help in identifying diseases. | 了解遗传构成有助于识别疾病。 |
反义词
例句
1.The results revealed the practicability of ion beam implantation technique in creating new polyploidy idioplasm, which could provide a new approach for searching the material with apomixis.
本项研究在一定程度上证实了离子注入技术在创造多倍体水稻新种质申的实用性,这将为水稻无融合生殖种质材料的寻找提供一条新途径。
2.And the significance of exploitation and utilization of the wild resources of Ganodermataceae, and evaluation on new resource of medicinal cultivated idioplasm, are also expatiated on this paper.
同时,文中还阐述了开展野生灵芝种质资源开发利用及药用灵芝新种质评估研究的重要意义。
3.The invention discloses an in vitro conservation method of a color calla idioplasm resource, pertaining to the vegetable idioplasm resource conservation and tissue cultivation technical field.
本发明公开了一种彩色马蹄莲种质资源离体保存方法,属于植物种质资源保存及组织培养技术领域。
4.And the significance of exploitation and utilization of the wild resources of Ganodermataceae, and evaluation on new resource of medicinal cultivated idioplasm, are also expatiated on this paper.
同时,文中还阐述了开展野生灵芝种质资源开发利用及药用灵芝新种质评估研究的重要意义。
5.The high protein strong muscle resources use in the selective breeding of the bread, the low protein weak muscle idioplasm resources use in the cakes and pastries selective breeding.
高蛋白的资源用于面包用品种的选育,低蛋白的种质资源用于糕点用品种的选育。
6.Researchers are studying how idioplasm affects the development of certain traits in plants.
研究人员正在研究idioplasm(遗传质)如何影响植物某些特征的发展。
7.Understanding idioplasm can lead to advancements in genetic engineering.
理解idioplasm(遗传质)可以推动基因工程的发展。
8.The theory of idioplasm helps to clarify the differences between somatic and germ cells.
关于idioplasm(遗传质)的理论有助于阐明体细胞与生殖细胞之间的差异。
9.The concept of idioplasm is crucial in understanding genetic inheritance.
理解遗传继承的过程中,idioplasm(遗传质)的概念至关重要。
10.In his lecture, he explained the role of idioplasm in cell division.
在他的讲座中,他解释了idioplasm(遗传质)在细胞分裂中的作用。
作文
In the field of biology, the term idioplasm refers to the specific genetic material that is responsible for the unique characteristics and functions of an organism. It encompasses the hereditary information that is passed down from one generation to another, influencing everything from physical traits to behavioral patterns. Understanding idioplasm is crucial for comprehending how organisms evolve and adapt to their environments. The concept of idioplasm can be traced back to early genetic studies, where scientists began to unravel the complexities of heredity. It was discovered that cells contain structures known as chromosomes, which house the DNA that makes up the idioplasm. This DNA carries the instructions necessary for the development and functioning of living organisms. One of the fascinating aspects of idioplasm is its role in evolution. Through the process of natural selection, variations within the idioplasm of a population can lead to adaptations that enhance survival. For instance, in a changing environment, certain traits encoded in the idioplasm may provide individuals with advantages, allowing them to thrive and reproduce. Over time, these advantageous traits may become more prevalent in the population, illustrating the dynamic nature of idioplasm and its influence on species. Moreover, the study of idioplasm has significant implications in fields such as medicine and agriculture. By understanding the genetic makeup of organisms, scientists can develop targeted therapies for diseases, improve crop yields, and create genetically modified organisms that possess desirable traits. For example, researchers can manipulate the idioplasm of plants to make them resistant to pests or drought, ultimately contributing to food security in a world facing climate challenges. Despite the advancements in our knowledge of idioplasm, many mysteries remain. The interactions between different genes, the environmental factors that influence gene expression, and the complexities of epigenetics continue to be areas of active research. As scientists delve deeper into the intricacies of idioplasm, they uncover new insights that challenge our understanding of life itself. In conclusion, the study of idioplasm is fundamental to the biological sciences. It not only provides a framework for understanding heredity and evolution but also opens doors to innovations in health and agriculture. As we continue to explore the depths of idioplasm, we are reminded of the intricate connections that bind all living organisms together, highlighting the beauty and complexity of life on Earth.
在生物学领域,术语idioplasm指的是负责生物体独特特征和功能的特定遗传物质。它包含了从一代传递到另一代的遗传信息,影响着从身体特征到行为模式的方方面面。理解idioplasm对于理解生物体如何进化和适应环境至关重要。idioplasm的概念可以追溯到早期的遗传研究,科学家们开始揭开遗传的复杂性。人们发现细胞中含有称为染色体的结构,这些染色体包含着构成idioplasm的DNA。这种DNA携带着生物体发育和功能所需的指令。idioplasm一个引人入胜的方面是它在进化中的角色。通过自然选择,种群内的idioplasm变异可能导致增强生存能力的适应。例如,在变化的环境中,某些编码在idioplasm中的特征可能为个体提供优势,使其能够繁荣和繁殖。随着时间的推移,这些有利特征可能在种群中变得更加普遍,展示了idioplasm的动态特性及其对物种的影响。此外,idioplasm的研究在医学和农业等领域具有重要意义。通过理解生物体的遗传构成,科学家可以开发针对疾病的靶向疗法,提高农作物产量,并创造出具有理想特征的转基因生物。例如,研究人员可以操控植物的idioplasm使其抵抗害虫或干旱,最终为面对气候挑战的世界贡献食品安全。尽管我们对idioplasm的知识取得了进展,但仍然存在许多谜团。不同基因之间的相互作用、影响基因表达的环境因素以及表观遗传学的复杂性仍然是活跃的研究领域。当科学家们深入探讨idioplasm的奥秘时,他们发现的新见解挑战着我们对生命本质的理解。总之,idioplasm的研究是生物科学的基础。它不仅为理解遗传和进化提供了框架,还为健康和农业的创新打开了大门。随着我们继续探索idioplasm的深度,我们被提醒了所有生物体之间的复杂联系,突显了地球生命的美丽和复杂性。
