glycolipid的音標是["ga???l?p?d]，意思是糖脂。速記技巧可以是將其中的字母進行縮寫或者聯想法記。

Glycolipid，意為糖脂，是一種在生物體內存在的復合分子，其中包含糖、脂肪和一種或多種其他類型的生物分子。這個詞的詞源可以追溯到希臘語和拉丁語，其中“glykos”表示糖，“lipos”表示脂肪。

其變化形式包括：glycolipid（糖脂）、glyco（糖基）、glycol（糖醇）、glycoconjugate（糖結合物）等。

相關單詞包括：ganglioside（神經節糖脂）、paragloboside（旁球酰胺糖脂）、ganglioside GD1a（神經節苷脂GD1a）、ganglioside GT1b（神經節苷脂GT1b）等。這些單詞在生物學和醫學研究中具有重要應用，與神經科學、免疫學和細胞生物學等領域密切相關。

總之，Glycolipid這一單詞及其變化形式和相關單詞的出現，為研究生物體內的糖類和脂類分子提供了重要工具，有助于理解生命活動的許多方面。

常用短語：

1. glycolipid composition

2. glycolipid analysis

3. glycolipid structure

4. glycolipid biosynthesis

5. glycolipid metabolism

6. glycolipid receptor

7. glycolipid transport

雙語例句：

1. The composition of glycolipid in the cell membrane is complex and varies with cell type. （細胞膜中的糖脂成分復雜多樣，因細胞類型而異。）

2. Analysis of glycolipid composition can provide valuable information about cell function and disease status. （糖脂成分分析可以為細胞功能和疾病狀態提供有價值的信息。）

3. Understanding the structure of glycolipid is crucial for studying its function and biosynthesis. （了解糖脂的結構對于研究其功能和生物合成至關重要。）

4. Metabolic disorders of glycolipid have been linked to various diseases, including neurodegenerative diseases and cancer. （糖脂代謝紊亂與多種疾病有關，包括神經退行性疾病和癌癥。）

5. Glycolipid transport is essential for cellular communication and signaling, especially in immune cells and neurons. （糖脂的運輸對于細胞間的通信和信號傳遞至關重要，尤其是在免疫細胞和神經元中。）

6. The presence of specific glycolipid receptors on cell surfaces plays a key role in cell-cell interactions and immune response. （細胞表面特異性糖脂受體的存在在細胞間相互作用和免疫反應中發揮著重要作用。）

7. A comprehensive understanding of glycolipid biology is essential for developing effective therapeutic strategies for diseases involving the dysfunction of cell-surface glycans. （全面了解糖脂生物學對于開發針對涉及細胞表面糖基化異常的疾病的有效的治療策略至關重要。

英文小作文：

Glycolipids are important components of cell membranes that play crucial roles in cell-cell communication, signaling, and immune response. Understanding their biosynthesis, metabolism, and transport is crucial for understanding their functions and developing effective therapeutic strategies for diseases involving the dysfunction of cell-surface glycans. In addition, specific glycolipids can act as receptors for various pathogens, indicating their potential as targets for anti-infective therapy. However, the complexity of glycolipid composition and structure makes it challenging to study their functions and interactions with other molecules. Therefore, further research is needed to improve our understanding of glycolipid biology and develop innovative approaches for their manipulation and therapeutic applications.