Presentation is loading. Please wait.

Presentation is loading. Please wait.

Plant Cell and Plant tissues

Published byRaymond Ross Modified over 8 years ago

Similar presentations

Presentation on theme: "Plant Cell and Plant tissues"— Presentation transcript:

1 Plant Cell and Plant tissues
plastids

2 Cell wall

3 Primary wall composition and architecture
Primary walls isolated form higher plant tissues and cells are composed predominantly of polysaccharides together with lesser amounts of structural glycoproteins (hydroxyproline-rich extensins), phenolic esters (ferulic and coumaric acids), ionically and covalently bound minerals (e.g. calcium and boron), and enzymes. In addition walls contain proteins (expansins) that are believed to have a role in regulating wall expansion Cellulose - a polysaccharide composed of 1,4-linked β-D-glucose residues Hemicellulose - branched polysaccharides that are structurally homolgous to cellulose because they have a backbone composed of 1,4-linked β-D-hexosyl residues. The predominant hemicellulose in many primary walls is xyloglucan. Other hemicelluloses found in primary and secondary walls include glucuronoxylan, arabinoxylan, glucomannan, and galactomannan. Pectin - a family of complex polysaccharides that all contain 1,4-linked α-D-galacturonic acid. To date three classes of pectic polysaccharides have been characterized: Homogalacturonans, rhamnogalacturonans, and substituted galacturonans.

4

5

6

7 Microcrystalline cellulose is embedded in a hydrated matrix consisting of coextensive networks of complex heteropolysaccharides and sometimes glycoproteins. Cell walls also constitute renewable resources and are often present in by-products of industrial production. Genetic engineering of crop plant cell walls can identify biopolymers with novel functional properties, as well as simplify their extraction, thus increasing the value of these "waste-products." Cell walls will become more important in the future, as they are an abundant resource that can contribute to our biofuel needs.

8 Chitin is a polymer of β1–4-linked GlcNAc, which occurs in chains that typically exceed 1000 residues. These chains self-associate to form microfibrils and are deposited primarily at the bud neck of yeast or at septa in filamentous fungi. The cell-wall polysaccharides that have been described so far are composed of polymers of mannose, glucose, galactose, N-acetylglucosamine, and/or rhamnose, and these include mannans, glucans, chitin, galactomannans, glucomannans, rhamnomannans, and phosphomannans.

9 Secondary cell walls of specialized plant cells

10

11

12 sclerenchymatic cell walls
tannins

13

14

15

16 Chloroplasts

17

18

19 Chromoplasts

20

21 Plastids

22

23 amyloplasts

24

25 Leucoplasts / protein bodies

26 All plant seeds that store triglycerides as future energy sources, eg
All plant seeds that store triglycerides as future energy sources, eg. safflower, sunflower, canola, cottonseed, etc, sequester these oils in specialized organelles called Oleosomes

Download ppt "Plant Cell and Plant tissues"

Similar presentations

Carbohydrates: Oligosaccahrdes and Polysaccharides.

Carbohydrates: Oligosaccahrdes and Polysaccharides.
Pathogens Agrobacterium tumefaciens: Greg Agrobacterium rhizogenes

Pathogens Agrobacterium tumefaciens: Greg Agrobacterium rhizogenes
Essentials of Glycobiology May 12th., 2008 Ajit Varki Lecture 14 Chapter 22. Viridiplantae Chapter 29. L-type Lectins Chapter 45: Antibodies and Lectins.

Essentials of Glycobiology May 12th., 2008 Ajit Varki Lecture 14 Chapter 22. Viridiplantae Chapter 29. L-type Lectins Chapter 45: Antibodies and Lectins.
Plant Cell Borders: Membranes and Wall HORT 301 – Plant Physiology August 27, 2010 Taiz and Zeiger – Chapter 1, Chapter 11 (p330-342), Chapter 15

Plant Cell Borders: Membranes and Wall HORT 301 – Plant Physiology August 27, 2010 Taiz and Zeiger – Chapter 1, Chapter 11 (p ), Chapter 15
1. Plant cell walls (Ch. 15) 2. Dendrochronology.

1. Plant cell walls (Ch. 15) 2. Dendrochronology.
The Plant Cell.

The Plant Cell.
1 Agenda Chemical Description of Wood »Carbohydrates »Extractives »Lignin Loss of Components During Kraft Pulping Reactions in the Early Portion of the.

1 Agenda Chemical Description of Wood »Carbohydrates »Extractives »Lignin Loss of Components During Kraft Pulping Reactions in the Early Portion of the.
Cells and cell growth Cell walls and membranes. Plant Cell Borders: Membranes and Wall Membranes – delimit the cell (plasma membrane) and organelles Compartmentalize.

Cells and cell growth Cell walls and membranes. Plant Cell Borders: Membranes and Wall Membranes – delimit the cell (plasma membrane) and organelles Compartmentalize.
Biomolecules and Cells

Biomolecules and Cells
The Plant Cell: Cell Membranes and Wall HORT 301 – Plant Physiology August 28, 2009 Taiz and Zeiger – Chapter 1 Cell Membranes.

The Plant Cell: Cell Membranes and Wall HORT 301 – Plant Physiology August 28, 2009 Taiz and Zeiger – Chapter 1 Cell Membranes.
Biological Molecules Carbohydrates. III. Carbohydrates include sugars, starches, and cellulose A. carbohydrates contain only the elements carbon, hydrogen,

Biological Molecules Carbohydrates. III. Carbohydrates include sugars, starches, and cellulose A. carbohydrates contain only the elements carbon, hydrogen,
Cell Biology Part 2.

Cell Biology Part 2.
Plant cell structure. Plant cell organelles Cell Membrane Nucleus Cytoplasm Mitochondria Golgi Complex Ribosomes.

Plant cell structure. Plant cell organelles Cell Membrane Nucleus Cytoplasm Mitochondria Golgi Complex Ribosomes.
Almost all of the molecules that make up your body are polymers, chains of subunits. Each type of macromolecule is a polymer composed of a different type.

Almost all of the molecules that make up your body are polymers, chains of subunits. Each type of macromolecule is a polymer composed of a different type.
Molecules of Life Chapter 3. Molecules Inorganic compound Nonliving matter Salts, water Organic compound Molecules of life Contains Carbon (C) and Hydrogen.

Molecules of Life Chapter 3. Molecules Inorganic compound Nonliving matter Salts, water Organic compound Molecules of life Contains Carbon (C) and Hydrogen.
Macromolecules Ch 1. Molecules of Life All cells are composed of 4 main molecules These molecules are called macromolecules. They are composed mainly.

Macromolecules Ch 1. Molecules of Life All cells are composed of 4 main molecules These molecules are called macromolecules. They are composed mainly.
Carbohydrates Carbohydrates are composed of rings of 4 or 5 carbons with Hydrogens and Oxygens attached to the carbon atoms The basic building block of.

Carbohydrates Carbohydrates are composed of rings of 4 or 5 carbons with Hydrogens and Oxygens attached to the carbon atoms The basic building block of.
ORGANIC MOLECULES Carbohydrates, Lipids, Proteins & Nucleic Acids.

ORGANIC MOLECULES Carbohydrates, Lipids, Proteins & Nucleic Acids.
Macromolecules. Composed of long chains of smaller molecules Macromolecules are formed through the process of _____________. Polymerization= large compounds.

Macromolecules. Composed of long chains of smaller molecules Macromolecules are formed through the process of _____________. Polymerization= large compounds.
UNIT 1 Chapter 3: Water & the Fitness of Life Chapter 5: The Structure & Function of Macromolecules.

UNIT 1 Chapter 3: Water & the Fitness of Life Chapter 5: The Structure & Function of Macromolecules.

Similar presentations

Ads by Google