Download Plant Physiol-4th-Ch01

1.1 Schematic representation of the body of a typical dicot (Part 1)
1.1 Schematic representation of the body of a typical dicot (Part 2)
1.1 Schematic representation of the body of a typical dicot (Part 3)
1.1 Schematic representation of the body of a typical dicot (Part 4)
1.2 Primary and secondary cell walls and their relationship to the rest of the cell
1.3 (A) Outer epidermis of leaf of Welwischia mirabilis; (B) Parenchyma
1.3 (C) Collenchyma; (D) Sclerenchyma cells
1.3 (E) Conducting cells of the xylem and phloem
1.4 Diagrammatic representation of a plant cell
1.5 (A) The plasma membrane, endoplasmic reticulum, and other endosomes
1.5 (B) Plasma membranes in cells from the meristematic region
1.5 (C) Chemical structures and space-filling models of typical phospholipids
1.6 Different types of anchored membrane proteins
1.7 (A) Transmission electron micrograph of a plant cell; (B) Nucleus
1.8 The nuclear pore complex acts as a supramolecular sieve
1.9 The mechanism of protein import into the nucleus
1.10 Packaging of DNA in a metaphase chromosome (Part 1)
1.10 Packaging of DNA in a metaphase chromosome (Part 2)
1.11 (A) Basic steps in gene expression (Part 1)
1.11 (A) Basic steps in gene expression (Part 2)
1.11 (B) Amino acids are polymerized on the ribosome with the help of tRNA
1.12 The endoplasmic reticulum
1.13 Golgi apparatus in a tobacco (Nicotiana tabacum) root cap cell
1.14 Vesicular traffic along the secretory and endocytotic pathways
1.15 Clathrin-coated vesicles isolated from bean leaves (120,000)
1.16 Light micrograph of a protoplast prepared from the aleurone layer of seeds
1.17 (A) Mitochondrion; (B) Mitochondria from a leaf cell of Bermuda grass
1.18 (A) Chloroplast from a leaf of timothy grass, (Phleum pratense) (18,000)
1.18 (B) The same preparation at higher magnification (52,000)
1.18 (C) Grana stacks and stroma lamellae; (D) Chloroplast
1.19 Chromoplast from tomato (Lycopersicon esculentum) fruit
1.20 Electron micrographs illustrating several stages of plastid development
1.21 Electron micrograph of a peroxisome from a mesophyll cell
1.22 (A) An oleosome beside a peroxisome; (B) Formation of oleosomes
1.23 (A) Drawing of a microtubule in longitudinal view; (B) A microfilament
1.24 Current model for the assembly of intermediate filaments from protein monomers
1.25 Equilibrium between polymerization and depolymerization of a microtubule
1.26 Changes in microtubule arrangements at different stages in the cell cycle
1.27 Diagram of mitosis in plants (Part 1)
1.27 Diagram of mitosis in plants (Part 2)
1.28 A cell plate forming in a maple (Acer) seedling (10,000)
1.29 Myosin-mediated transport of organelles along actin microfilaments
1.30 (A) Diagram of the cell cycle
1.30 (B) Diagram of the regulation of the cell cycle by cyclin-dependent protein kinase
1.31 Plasmodesmata between cells (Part 1)
1.31 Plasmodesmata between cells (Part 2)