Multicellular organisms, like humans, consist of multiple cells that work together to form tissues and organs.
像人类这样的多细胞生物由多个细胞组成,它们共同形成组织和器官。
The differentiation of cells in
multicellular organisms gives rise to specialized structures for various functions.
在多细胞生物中,细胞分化产生专门执行不同功能的结构。
Each cell in a
multicellular organism has a specific role, and they communicate through a complex network of signaling molecules.
一个多细胞生物体内的每个细胞都有特定的功能,它们通过复杂的信号分子网络进行交流。
In
multicellular life cycles, reproduction often involves the fusion of gametes, creating a new organism with a single cell as a starting point.
在多细胞生命循环中,繁殖通常涉及配子的结合,形成一个新的生物体,初始阶段是一个单一细胞。
Tissue engineering aims to mimic the complex architecture of
multicellular structures for medical applications, such as regenerating damaged tissue.
组织工程的目标是模仿多细胞结构的复杂架构,用于医疗应用,如修复受损组织。
The study of
multicellular organisms is fundamental to understanding evolution, as it demonstrates how simpler forms gave rise to more complex ones.
研究多细胞生物对于理解进化至关重要,因为它展示了简单形式如何演化成更复杂的形态。
Multicellular organisms have evolved sophisticated mechanisms for waste removal and detoxification, ensuring their survival in diverse environments.
多细胞生物已经进化出高级的废物排除和解毒机制,确保其在各种环境中生存。
In
multicellular life, apoptosis or programmed cell death plays a crucial role in maintaining tissue homeostasis and preventing cancerous growth.
在多细胞生命中,程序性细胞死亡对于维持组织稳态和防止肿瘤生长至关重要。
The immune system of
multicellular organisms is a highly coordinated network of cells that defend against pathogens and maintain overall health.
多细胞生物的免疫系统是一个高度协调的细胞网络,用于抵御病原体并保持整体健康。
Research on
multicellular biology can lead to advancements in agriculture, medicine, and even synthetic biology, as we seek to manipulate and control cellular interactions.
多细胞生物学的研究可以推动农业、医学甚至合成生物学的进步,因为我们试图操控和控制细胞间的相互作用。
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