fibrilla

简明释义

英[faɪˈbrɪlə]美[faɪˈbrɪlə]

n. 小纤维（等于 fibril）

复 数 f i b r i l l a e

英英释义

单词用法

同义词

反义词

例句

1.In histology, the presence of fibrilla can indicate the type of connective tissue present in a sample.

在组织学中，fibrilla的存在可以指示样本中存在的结缔组织类型。

2.The muscle tissue is composed of many small fibers, known as fibrilla, which are essential for contraction.

肌肉组织由许多小纤维组成，这些纤维被称为fibrilla，对于收缩至关重要。

3.During the healing process, new fibrilla form to help repair damaged tissues.

在愈合过程中，新的fibrilla形成以帮助修复受损的组织。

4.Scientists study fibrilla to understand how muscles develop and function.

科学家研究fibrilla以了解肌肉如何发育和功能。

5.The fibrilla in the nerve cells play a crucial role in transmitting signals throughout the body.

神经细胞中的fibrilla在全身传递信号中发挥着至关重要的作用。

作文

In the realm of biology, the term fibrilla (纤维小管) is often used to describe the fine, thread-like structures that are crucial for various physiological functions. These minute fibers play a significant role in the composition of tissues and cells, particularly in muscles and connective tissues. Understanding the structure and function of fibrilla is essential for comprehending how our bodies operate at a cellular level.Muscle fibers, for example, are composed of many fibrilla (纤维小管), which are responsible for the contraction and relaxation processes that enable movement. Each muscle fiber contains numerous fibrilla (纤维小管) that work together to generate force. When a muscle contracts, these fibrilla (纤维小管) slide past each other, leading to a shortening of the muscle and the resultant movement. This intricate process is essential for all physical activities, from walking to running to lifting weights.In addition to muscles, fibrilla (纤维小管) are also found in connective tissues, where they provide structural support. Collagen, for instance, is a protein that forms fibrilla (纤维小管) within the extracellular matrix, giving strength and elasticity to tissues such as skin, tendons, and ligaments. The presence of fibrilla (纤维小管) ensures that these tissues can withstand stress and strain, making them vital for overall bodily integrity.Furthermore, the study of fibrilla (纤维小管) extends beyond human biology. In plants, similar structures are involved in maintaining cell shape and facilitating nutrient transport. For instance, the cellulose microfibrils in plant cell walls provide rigidity and support, allowing plants to grow tall and resist external pressures.Understanding the properties of fibrilla (纤维小管) can also have practical applications in medicine and biotechnology. Researchers are exploring ways to manipulate these structures to develop new materials or enhance tissue engineering techniques. By mimicking the natural arrangement of fibrilla (纤维小管) in biological tissues, scientists hope to create artificial organs or improve wound healing processes.In conclusion, fibrilla (纤维小管) are fundamental components of both animal and plant life, playing critical roles in structure, function, and movement. Their importance cannot be overstated, as they are integral to the health and functionality of living organisms. As we continue to explore the complexities of biology, the study of fibrilla (纤维小管) will undoubtedly yield further insights into the mechanisms that sustain life.

在生物学领域，术语fibrilla（纤维小管）通常用于描述对各种生理功能至关重要的细小丝状结构。这些微小的纤维在组织和细胞的组成中发挥着重要作用，特别是在肌肉和结缔组织中。理解fibrilla的结构和功能对于理解我们身体在细胞层面的运作至关重要。例如，肌肉纤维由许多fibrilla（纤维小管）组成，这些fibrilla（纤维小管）负责使肌肉收缩和放松，从而实现运动。当肌肉收缩时，这些fibrilla（纤维小管）相互滑动，导致肌肉缩短，从而产生运动。这一复杂的过程对于所有身体活动至关重要，从走路到跑步再到举重。除了肌肉，fibrilla（纤维小管）还存在于结缔组织中，在那里它们提供结构支持。例如，胶原蛋白是一种在细胞外基质中形成fibrilla（纤维小管）的蛋白质，为皮肤、肌腱和韧带等组织提供强度和弹性。fibrilla（纤维小管）的存在确保这些组织能够承受压力和拉伸，使其对整体身体完整性至关重要。此外，fibrilla（纤维小管）的研究超越了人类生物学。在植物中，类似的结构参与维持细胞形状和促进养分运输。例如，植物细胞壁中的纤维素微纤维提供刚性和支持，使植物能够长高并抵御外部压力。理解fibrilla（纤维小管）的特性也可以在医学和生物技术中具有实际应用。研究人员正在探索操纵这些结构的方法，以开发新材料或增强组织工程技术。通过模仿生物组织中fibrilla（纤维小管）的自然排列，科学家希望创造人工器官或改善伤口愈合过程。总之，fibrilla（纤维小管）是动物和植物生命的基本组成部分，在结构、功能和运动中发挥着关键作用。它们的重要性不容小觑，因为它们对生物体的健康和功能至关重要。随着我们继续探索生物学的复杂性，对fibrilla（纤维小管）的研究无疑会进一步揭示维持生命机制的见解。