Anatomy of the Cell

Components of eukaryotic cells

• Eukaryote: any cell or organism that possesses a clearly defined nucleus

• Eukaryotic cells have an outer membrane, and the interior of a eukaryotic cell is composed of organelles, the cytoskeleton, and the cytosol

Plasmalemma (outer membrane)

• Separates cytoplasm from outside environment, forming a selectively permeable barrier

• Phospholipid bilayer
• Hydrophilic heads at outer and inner surfaces
• Hydrophobic tails at centre

• Contains integral proteins

• Can exocytose and endocytose material

Cytosol

• Solution of proteins, electrolytes and carbohydrates which the cellular components are embedded

Nuclear envelope

• Encloses nucleus

• Inner and outer nuclear membrane with the perinuclear cistern in the middle
• Outer nuclear membrane is studded with ribosomes

• Nuclear pores: allow the transport of molecules across the nuclear envelope

Nucleus

• Contains chromosomes
• Euchromatin: DNA is more dispersed and undergoing transcription
• Heterochromatin: DNA highly condensed and not undergoing transcription

• Site of RNA synthesis
• mRNA and tRNA in nucleus
• rRNA in nucleolus

Ribosomes

• Formed in nucleolus

• Small subunit binds RNA, large subunit catalyzes peptide bond formation

Endoplasmic reticulum

• RER: studded with ribosomes, responsible for protein synthesis and initiation of glycoprotein formation

• SER: involved in continuous processing of proteins from RER and lipid synthesis

Golgi apparatus

• Composed of a group of flattened, membrane bound cisternae

• Transport vesicles arrive at Golgi from SER; Golgi modifies and packages them

Cytoskeleton

• Consits of protein filaments which allow movement of organelles and also movement of the cell itself

• Microfilaments: composed of actin, involved in cellular movement, cytokinesis, endo and exocytosis etc., 7nm

• Intermediate filaments: 6 proteins that bind intracellular elements together and to the plasmalemma, >10nm

• Microtubules: composed of ⍺ and β tubulin, originate from centrosome, polar, dynein and kinesin attach and move along them, 25nm

Cellular transport

• Endocytosis: membrane invaginates, fuses, newly made endocytic vesicle buds into cell
• Often receptor mediated

• Exocytosis: works in reverse to endocytosis

• Phagocytosis: bacteria binds to cell surface, cell engulfs it to form phagosome, binds with lysosome containing digestive enzymes

Intracellular junctions

• Occluding junctions: link cells to form a diffusion barrier
• Also known as tight junctions or zonula occludens

• Anchoring junctions: provide mechanical strength
• Adherent junctions: link submembrane actin bundles of adjacent cells via cadherin molecules
• Desmosomes: link submembrane intermediate filaments of adjacent cells
• Hemidesmosomes: link submembrane intermediate filaments of cells to extacellular matrix through transmembrane proteins

• Communicating junctions (gap junctions): allow movement of molecules between cells
• Each junction is a circular patch studded with pores