cutinize

简明释义

[ˈkjuːtɪˌnaɪz][ˈkjuːtəˌnaɪz]

v. 使充满蜡状质,使角质化;被引起充满角质

第 三 人 称 单 数 c u t i n i z e s

现 在 分 词 c u t i n i z i n g

过 去 式 c u t i n i z e d

过 去 分 词 c u t i n i z e d

英英释义

To convert or modify a substance to contain or resemble cutin, which is a waxy substance found in the cell walls of plants.

将某种物质转化或修改为含有或类似于角质的物质,角质是一种存在于植物细胞壁中的蜡状物质。

单词用法

cutinize the epidermis

使表皮角质化

cutinize plant tissues

使植物组织角质化

process of cutinization

角质化过程

cutinized cell walls

角质化的细胞壁

同义词

cutinize

角质化

The epidermis will cutinize over time to provide a protective barrier.

表皮会随着时间角质化,以提供保护屏障。

keratinize

角蛋白化

In certain conditions, cells may keratinize to enhance their durability.

在某些条件下,细胞可能会角蛋白化以增强其耐久性。

sclerotize

硬化

Plants often sclerotize their outer layers to withstand harsh environments.

植物通常会对外层进行硬化,以抵御恶劣环境。

反义词

decutinize

去角质

The treatment aims to decutinize the skin to promote cell renewal.

该治疗旨在去角质以促进细胞更新。

dissolve

溶解

Certain chemicals can dissolve the cutin layer on plant surfaces.

某些化学物质可以溶解植物表面的角质层。

例句

1.The plant's ability to cutinize its leaves helps reduce water loss during dry seasons.

植物能够切蜡化其叶子有助于在干旱季节减少水分流失。

2.The process of a seed cutinizing its outer layer is crucial for its survival in the wild.

种子切蜡化其外层的过程对其在野外生存至关重要。

3.Researchers found that some species can cutinize their stems to better withstand harsh environments.

研究人员发现,一些物种可以切蜡化它们的茎,以更好地抵御恶劣环境。

4.The study showed that certain environmental factors influence how well a plant can cutinize.

研究表明,某些环境因素影响植物如何有效地切蜡化

5.In order to cutinize efficiently, plants need to adapt to their specific climates.

为了有效地切蜡化,植物需要适应其特定气候。

作文

In the world of botany, the term cutinize refers to the process by which plant cells produce a protective layer known as cutin. This layer is crucial for the survival of plants, as it helps to prevent water loss and protects against environmental stresses. Understanding how plants cutinize their surfaces can give us insight into their adaptability and resilience in various ecosystems. For example, in arid regions where water is scarce, plants have developed thicker layers of cutin to minimize evaporation. This adaptation not only enhances their survival but also plays a significant role in the overall health of the ecosystem. The importance of cutinize in agriculture cannot be overstated. Farmers and agronomists are continually researching ways to enhance the cutinization process in crops to improve their drought resistance. By manipulating the genetic factors that influence cutinize, scientists aim to develop strains of plants that can thrive in less-than-ideal conditions. This research is particularly vital in the face of climate change, where unpredictable weather patterns threaten food security worldwide. Moreover, the study of how plants cutinize has implications beyond agriculture. In the field of materials science, researchers are exploring the properties of cutin to create biodegradable materials. The natural structure of cutin is not only resilient but also environmentally friendly, making it an ideal candidate for sustainable product development. By mimicking the cutinization process, scientists hope to create new materials that reduce plastic waste and promote a circular economy. Additionally, understanding the cutinization process can aid in the conservation of endangered plant species. Many of these plants have adapted to specific environments and have unique cutin structures that help them survive. Conservation efforts that take into account the cutinize characteristics of these plants can lead to more effective strategies for their preservation. By ensuring that these plants maintain their natural cutin layers, we can help protect them from diseases and environmental changes. In conclusion, the process of cutinize is integral to plant health and survival. Its significance extends beyond botany and agriculture, influencing areas such as materials science and conservation. As we continue to explore the intricacies of this process, we gain valuable knowledge that can help us address some of the most pressing challenges facing our planet today. Whether through enhancing crop resilience or developing sustainable materials, the study of cutinize holds great promise for a more sustainable future.

在植物学的世界中,术语cutinize指的是植物细胞产生一种称为角质的保护层的过程。这个层对于植物的生存至关重要,因为它有助于防止水分流失并保护植物免受环境压力。了解植物如何cutinize其表面可以让我们深入了解它们在各种生态系统中的适应性和韧性。例如,在水资源稀缺的干旱地区,植物发展出更厚的角质层,以最小化蒸发。这种适应不仅增强了它们的生存能力,还在整体生态系统的健康中发挥了重要作用。cutinize在农业中的重要性不容小觑。农民和农艺师不断研究如何增强作物的cutinization过程,以提高它们的抗旱能力。通过操控影响cutinize的遗传因素,科学家们旨在开发出能够在不理想条件下茁壮成长的植物品种。这项研究在气候变化面前尤为重要,因为不可预测的天气模式威胁着全球的粮食安全。此外,研究植物如何cutinize还对材料科学领域有着重要的意义。研究人员正在探索角质的特性,以创造可生物降解的材料。角质的天然结构不仅具有韧性,而且对环境友好,使其成为可持续产品开发的理想候选者。通过模仿cutinization过程,科学家们希望创造出新的材料,以减少塑料废物并促进循环经济。此外,了解cutinization过程可以帮助保护濒危植物物种。许多这些植物已适应特定环境,并具有独特的角质结构,帮助它们生存。考虑到这些植物的cutinize特性,保护工作可以导致更有效的保护策略。通过确保这些植物保持其自然的角质层,我们可以帮助保护它们免受疾病和环境变化的影响。总之,cutinize过程对于植物的健康和生存至关重要。它的重要性超越了植物学和农业,影响着材料科学和保护等领域。随着我们继续探索这一过程的复杂性,我们获得了宝贵的知识,可以帮助我们应对当今地球面临的一些最紧迫的挑战。无论是通过增强作物的韧性还是开发可持续材料,研究cutinize都为实现更可持续的未来带来了巨大的希望。