Cells,tissues,organs and systems College of Life Sciences Yuting Cui
Cells, tissues, organs and systems College of Life Sciences Yuting Cui
Introduction of Cells Biomembranes are based on phospholipid Cell Membrane bilayer which is inlaid with proteins with different physiological functions. Cell Cell Plasma Translucent colloidal solution,suspended organelles and inclusions. Nucleus The control center of the cell
Introduction of Cells Cell Membrane Cell Cell Plasma Nucleus Translucent colloidal solution, suspended organelles and inclusions. Biomembranes are based on phospholipid bilayer which is inlaid with proteins with different physiological functions. The control center of the cell
Cell Membrane Glycoprotein Phospholipid molecule Phospholipid bilayer Protein Molecule Fluid Mosaic Model
Cell Membrane Fluid Mosaic Model Phospholipid bilayer Phospholipid molecule Glycoprotein Protein Molecule
The Function of Cell Membrane Simple Diffusion Passive Fat soluble substances and a small number Transport of non charged polar small substance. Facilitated DiffusionCarrier Channel Material Active Transport Transport Sodium-Potassium Pump Exocytosis and Endocytosis Macromolecular substances and agglomerates
The Function of Cell Membrane Passive Transport Material Transport Active Transport Simple Diffusion Facilitated Diffusion Exocytosis and Endocytosis Sodium-Potassium Pump Channel Carrier Macromolecular substances and agglomerates. Fat soluble substances and a small number of non charged polar small substance
The Function of Cell Membrane Passive Transport:It moves along the concentration difference and the potential difference,does not need energy,and transports passively. Active Transport:The transport process of matter molecules and ions from low concentration to high concentration needs energy
The Function of Cell Membrane Active Transport: The transport process of matter molecules and ions from low concentration to high concentration needs energy. Passive Transport: It moves along the concentration difference and the potential difference, does not need energy, and transports passively
Organelles Mitochondrion Oxidation energy supply Lysosome Important digestive organs in cells. Ribosome The mRNA was translated into protein. Endoplasmic Reticulum The scaffold for nucosme attachment. protein transport channels. Golgi Complex Material transport. Microfilament Polymerized from globular actin. Microtubule It's about movement,support and transportation. Centriole Exist in pairs,perpendicular to each other
Organelles Mitochondrion Lysosome Endoplasmic Reticulum Important digestive organs in cells. Oxidation energy supply. Ribosome Golgi Complex Microfilament Microtubule Centriole The mRNA was translated into protein. The scaffold for nucleosome attachment, protein transport channels. Material transport. Polymerized from globular actin. It's about movement, support and transportation. Exist in pairs, perpendicular to each other
Organelles Ribonsome Nuclear Envelope RER Ribonsome SER
Organelles Nuclear Envelope Ribonsome Ribonsome SER RER
Organelles Rough Endoplasmic Reticulum(RER):The particles attached to the RER are ribosomes,which are the sites of protein synthesis and participate in the production of more membranes. Smooth endoplasmic reticulum(SER):There is no ribosome in the smooth endoplasmic reticulum,but there are many active enzymes embedded in the membrane.The most important function is to synthesize lipids,including lipids,phospholipids and sterols
Organelles Rough Endoplasmic Reticulum(RER): The particles attached to the RER are ribosomes, which are the sites of protein synthesis and participate in the production of more membranes. Smooth endoplasmic reticulum(SER): There is no ribosome in the smooth endoplasmic reticulum, but there are many active enzymes embedded in the membrane. The most important function is to synthesize lipids, including lipids, phospholipids and sterols
Organelles LYSOSOME GOL Membrane Hydrolytic enzymes )D Mitochondrion Transport proteins
Organelles GOL Mitochondrion
Organelles Free ribosomes synthesize proteins retained in the cytoplasm,such as structural proteins in the membrane. Ribosomes attached to the endoplasmic reticulum synthesize exocrine proteins,which are then transported to the smooth endoplasmic reticulum to form secretory vesicles,which are transported to the Golgi apparatus for processing and discharge
Organelles Free ribosomes synthesize proteins retained in the cytoplasm, such as structural proteins in the membrane. Ribosomes attached to the endoplasmic reticulum synthesize exocrine proteins, which are then transported to the smooth endoplasmic reticulum to form secretory vesicles, which are transported to the Golgi apparatus for processing and discharge