Lectin 1 Lectin receptor 2 Asialo glycoprotein receptor 3 P Selectin 4 Hemagglutinin 5 6 Ricin 7 Concanavalin A 8 Glycophorin H. pylori lectin Saccharide Affinity Location Biol. Function

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This table provides a structured framework to study different lectins, examining their saccharide specificity, affinity, location, and biological function. Below is a detailed transcription of the table: | **Lectin** | **Saccharide** | **Affinity** | **Location** | **Biol. Function** | |----------------------------------|----------------|--------------|--------------|---------------------| | 1. Lectin receptor | | | | | | 2. Asialoglycoprotein receptor | | | | | | 3. P Selectin | | | | | | 4. Hemagglutinin | | | | | | 5. *H. pylori* lectin | | | | | | 6. Ricin | | | | | | 7. Concanavalin A | | | | | | 8. Glycophorin | | | | | ### Explanation: 1. **Lectin Receptor**: This row is meant to detail the specific lectin receptor being studied. Further columns would describe its saccharide specificity, affinity, etc. 2. **Asialoglycoprotein Receptor**: This refers to a well-characterized receptor that binds to glycoproteins without terminal sialic acid. 3. **P Selectin**: Another specific lectin, often found in platelets and endothelium. 4. **Hemagglutinin**: Typically found in viruses like influenza, this lectin aids in viral entry into host cells. 5. **H. pylori Lectin**: Lectin from the bacteria *Helicobacter pylori*, known for its role in gastric infections. 6. **Ricin**: A highly potent toxin that can bind to and inactivate ribosomes. 7. **Concanavalin A**: A protein that binds specifically to certain arrangements of sugar molecules, widely used in laboratories. 8. **Glycophorin**: A glycoprotein from the erythrocyte membrane known for its lectin-binding properties. This table, although not fully filled, acts as a template for students to fill in each lectin’s specific saccharide partner, affinity, typical biological location, and the primary biological function it