Download Chapter 35

AP Biology
Chapter 35 –
Plant Structure,
Growth, and
Development
Plant Organs, Tissues, & Cells
• Organs: Roots – Stems – Leaves
• Root System
• Taproot
• Eudicots
• Gymnosperms
• Stores Nutrients
• Fibrous Roots
• Monocots
Plant Organs, Tissues, & Cells
• Organs: Roots – Stems – Leaves
• Shoot System
• Stem
• Nodes
• Leaf Attachment
• Internodes
• Axillary Bud
• Grows Branches
(Lateral Shoot)
• Terminal Bud
• Growth of Stem
Plant Organs, Tissues, & Cells
• Organs: Roots - Stems - Leaves
• Shoot System
• Leaves
• Photosynthetic Organ
• Blade
• Petiole
• Joins Leaf to Stem
• Not in Many Herbaceous
Monocots (Grasses)
• Veins
• Branched in Eudicots
• Unbranched in Monocots
Simple
Compound
Doubly Compound
Plant Organs, Tissues, & Cells
• Modified
Leaves
Plant Organs, Tissues, & Cells
• Tissues: Dermal – Vascular – Ground
• Dermal
• Epidermis
• Single Cell Layer
• Periderm
• In Woody Plants
• Vascular
• Xylem – Water & Dissolved Minerals
• Phloem – Sugars
• “Cylinder” in Root, “Bundle” in Stem and Leaf
• Ground
• Pith – Internal to Vascular
• Cortex – External to Vascular
“stele”
Plant Organs, Tissues, & Cells
• Cells
• Parenchyma
• Thin, Flexible
• Least Specialized
• Perform All Basic Functions
• Collenchyma
• Grouped in Strands or Cylinders
• Thick Walled
• Support
• Sclerenchyma
• Secondary Walls - Rigid
• Dead at Maturity
Plant Organs, Tissues, & Cells
• Cells
• Cells of the Xylem
• Tracheids
• Long, Thin, Tapered
• Protoplast desiccates
• Water Moves through Pits
Between Empty Dead Cells
• Vessel Elements
• Short, Wide
• Aligned End to End
• Allows Water Movement Between Dead Cells
Plant Organs, Tissues, & Cells
• Cells
• Cells of the Phloem
• Sieve Cells
• Sieve Tube Members
• Alive, but No
Nucleus or Ribosomes
• Sieve Plates
» Between Cells
» Pores Allow Flow
• Companion Cell
• Nucleus and
Ribosomes Also Serve
the Sieve Cells
Meristems
• Indeterminate vs. Determinate Growth
• Growth Throughout the Life of the Plant
• Animals and Plant Leaves Reach Maturity
• Annuals
• Single Year Life Cycle
• Biennials
• Two Year Life Cycle
• Growth – Dormancy – Flower (Reproduction)
• Perennials
• Unlimited Life
Meristems
• Perpetually Embryonic Tissues
• Apical
• Tips of Roots and Shoots
• Enable Growth in Length (1o Growth)
• Most Growth in Herbaceous Plants
• Non-Wood
• Lateral
• Growth in Girth (2o Growth)
• Vascular Cambium
• Adds 2o Xylem & Phloem
• Cork Cambium
• Replaces Epidermis with Periderm
Meristems
• Three Year’s Growth
Primary Growth – Roots
• Produces 1o Plant Body
• Root Cap
• Protects Apical Meristem
• Zone of Cell Division
• Zone of Elongation
• 10x Original Length
• Extend Root Tip
• Zone of Maturation
•Cortex???
Primary Growth - Roots
• Eudicot
• Monocot
•Vascular Bundle
•Eudicot
•Scattered
•Monocot
•Ring
Primary Growth - Roots
• Lateral
Pericycle
Primary Growth - Shoots
• Terminal Bud
Tissue Organization - Stems
• Eudicot
Monocot
Tissue Organization - Leaf
Secondary Growth
• 2o Plant Body
• Lateral Growth
• Growth in Girth
• Vascular Cambium
• Adds 2o Xylem &
Phloem
• Cork Cambium
• Replaces
Epidermis with
Periderm
Secondary Growth
• Cell Division & Accumulation of 2o Growth
• C – Vascular Cambium
• D – Differentiated Cell
• P – 2o Phloem
X – 2o Xylem
Secondary Growth
• Bark
• Tissues External to Vascular Cambium
• 2o Phloem, Cork Cambium, Cork
• Heartwood
• Old 2o Xylem
• No Transport
• Sapwood
• Active Xylem
Differentiation & Morphogenesis
• Plant Molecular Genetics
• Model Organism – Arabidopsis thaliana
• Completely Sequenced
• Many Genes Previously Known (Dros.)
Differentiation & Morphogenesis
• Preprophase Band
• Microtubule Ring
Orients Plane of Cell
Division
Differentiation & Morphogenesis
• Cell Division Increases Number of Cells
• Cell Expansion Increases Plant Mass
• In Meristems
• Asymmetrical Cell Division
• One Cell Receives More Cytoplasm
Differentiation & Morphogenesis
• Cell Expansion
• 90% from Water – Allows for Rapid Growth
• Expansion Oriented Along Plant’s Main Axis
• Water in
Vacuoles
• Vacuoles
Centralize
• Microfibrils
Orient Vacuole
Formation
Differentiation & Morphogenesis
• Pattern Formation
• As with D. melanogaster (Ras Gene?)
• Positional Information
• Signals Each Cell as to Its Position in the
Plant
• Intercell Signaling
Wild-Type Seedling
• Arabidopsis FASS Mutant
Mature Mutant
Mutant Seedling
(Random Orientation
vs. Axial Orientation)
Differentiation & Morphogenesis
• Pattern Formation
• Polarity
• ID of Root End and Shoot End Along a Well
Developed Axis
• Initial Polarization into Root and
Shoot ends Normally Determined
by Initial Asymmetrical Division of the
Zygote (gnom Mutant) 
Differentiation & Morphogenesis
• Gene Expression
• Remember…All Genes Present in Every
Cell, Only Specific Genes Expressed
• Differentiation from Expression
Wild-Type Tomato Leaves
KNOTTED-1 Mutant
Tomato Leaves
Differentiation & Morphogenesis
• Phase Changes
• Meristem can Change
from One Developmental
Phase to Another
• ex. Juvenile State to
Mature State
• May Produce Change in
Morphology
• A branch with juvenile
leaves may actually be
older than a branch with
mature leaves.
Differentiation & Morphogenesis
• Flowering
• Apical Meristem Terminates 1o
Growth of that Shoot Tip and
Develops into the Flower’s Organs
• Expression of Floral
Mutant Arabidopsis
Meristem Identity Genes
• Floral Organ Identity Wild-Type Arabidopsis
Genes
• Regulate Floral
Pattern