Download Plant Tissue Culture Media - Horticultural Sciences at

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
page
3
page
4
page
5
page
6
page
7
page
8
page
9
page
10
page
11
page
12
page
13
page
14
page
15
page
16
page
17
page
18
page
19
Document related concepts

Bottromycin wikipedia , lookup

Strychnine total synthesis wikipedia , lookup

Phenols wikipedia , lookup

Discodermolide wikipedia , lookup

Transcript 
Plant Tissue Culture Media
What’s really important?
Plant Tissue Culture
Why does it work?
•
•
•
•
Plant cells – Dedifferentiate
Plant cell division- Somatic cells are diploid
Mitosis – Chromosomes duplicate and divide
Meiosis – The process of forming sex cells, 2n
splits and become 1n gametes
Major Constituents
•
•
•
•
•
Salt Mixtures
Organic Substances
Natural Complexes
Inert Supportive Materials
Growth Regulators
Macro-nutrient salts
What the ?
•
•
•
•
•
NH4NO3
KNO3
CaCl2 -2 H2O
MgSO4 -7 H2O
KH2PO4
Ammonium nitrate
Potassium nitrate
Calcium chloride (Anhydrous)
Magnesium sulfide (Epsom Salts)
Potassium hypophosphate
•
FeNaEDTA
Fe/Na ethylene-diamine-tetra acetate
•
•
•
•
•
•
•
H3BO3
MnSO4 - 4 H2O
ZnSO4 - 7 H2O
KI
Na2MoO4 - 2 H2O
CuSO4 - 5 H2O
CoCl2 - H2O
Boric Acid
Manganese sulfate
Zinc sulfate
Potassium iodide
Sodium molybdate
Cupric sulfate
Cobaltous sulfide
Macronutrient salts
• Nitrogen – Influences plant growth rate, essential in
plant nucleic acids (DNA), proteins, chlorophyll, amino
acids, and hormones.
• Phosphorus – Abundant in meristematic and fast
growing tissue, essential in photosynthesis, respiration.
• Potassium – Necessary for cell division, meristematic
tissue, helps in the pathways for carbohydrate, protein
and chlorophyll synthesis.
Macronutrient salts
• Calcium - Involved in formation of cell walls and root and
leaf development. Participates in translocation of sugars,
amino acids, and ties up oxalic acid (toxin).
• Iron - Involved in respiration , chlorophyll synthesis and
photosynthesis. FeNaEDTA = sodium salt of EDTA
sequesters iron, making it available to plants.
• Magnesium - Involved in photosynthetic and respiration
systems. Active in uptake of phosphate and translocation
of phosphate and starches.
Micronutrient salts
• Sulfur - Involved in formation of nodules and chlorophyll
synthesis, structural component of amino acids and
enzymes.
• Manganese - Involved in regulation of enzymes and
growth hormones. Assists in photosynthesis and
respiration.
Micronutrient salts
• Molybdenum - Involved in enzymatic reduction of
nitrates to ammonia. Assists in conversion of inorganic
phosphate to organic form.
• Zinc - Involved in production of growth hormones and
chlorophyll. Active in respiration and carbohydrate
synthesis.
• Boron - Involved in production of growth hormones and
chlorophyll. Active in respiration and carbohydrate
synthesis.
• Copper -Involved in photosynthetic and respiration
systems. Assists chlorophyll synthesis and used as reaction
catalyst.
Organic Compounds
• Carbon Sources – Sucrose, sometimes
Glucose or Fructose (Plants Need Carbon)
• Vitamins –
– Adenine – part of RNA and DNA
– Inositol – part of the B complex, in phosphate form is
part of cell membranes, organelles and is not essential
to growth but beneficial
– Thiamine – essential as a coenzyme in the citric acid
cycle.
Still other organics
• Organic Acids
– Citric acid (150 mg/l) typically used with ascorbic
acid (100 mg/l) as an antioxidant.
– Can also use some of Kreb Cycle acids
• Phenolic compounds
– Phloroglucinol - Stimulates rooting of shoot
sections
Natural Complexes
•
•
•
•
•
•
•
Coconut endosperm
Fish emulsion
Protein hydrolysates
Tomato juice
Yeast extracts
Malt extract
Potato agar
Charcoal
• Activated charcoal is used as a detoxifying
agent. Detoxifies wastes from plant tissues,
impurities
– Impurities and absorption quality vary
– Concentration normally used is 0.3 % or lower
• Charcoal for tissue culture
– acid washed and neutralized
– never reuse
Growth regulators
•
•
•
•
•
auxin - Roots
cytokinin - Shoots
gibberellin – Cell Enlargement
abscisic acid – Plant stress hormone
ethylene – BAD!
Auxins
• Callus formation, rooting of cuttings, and
the induction of adventive embryogenesis
– IAA
– IBA
– NAA
– 2,4-D
– 2,4,5-T
– Picloram
Cytokinins
• -Enhances adventitious shoot formation
– BA
– 2iP
– Kinetin
– Zeatin
Gibberellin
• Not generally used in tissue culture
• Tends to suppress root formation and
adventitious embryo formation
Abscisic Acid
Primarily a growth inhibitor but enables more
normal development of embryos, both
zygotic and adventitious
Ethylene
• Question is not how much to add but how
to get rid of it in-vitro
• Natural substance produced by tissue
cultures at fairly high levels especially when
cells are under stress
• Enhances senescense
• Supresses embryogenesis and development
in general
Hormone Combinations
•
•
•
•
Callus development
Adventitious embryogenesis
Rooting of shoot cuttings
Adventitious shoot and root formation
Related documents
Plant Tissue Culture Media
Plant Tissue Culture Media
CELL PARTS MATCHING - SD43 Teacher Sites
CELL PARTS MATCHING - SD43 Teacher Sites
TOPIC B1: CELL LEVEL SYSTEMS B1.3 RESPIRATION
TOPIC B1: CELL LEVEL SYSTEMS B1.3 RESPIRATION
Aseptic Technique
Aseptic Technique
Bio102 Chapter 7
Bio102 Chapter 7
Side By Side Comparison of the Two Streams
Side By Side Comparison of the Two Streams
Homework: Respiration - Fall River Public Schools
Homework: Respiration - Fall River Public Schools
Photosynthesis and Respiration Notes
Photosynthesis and Respiration Notes
Plant Tissue Culture Paper IV Unit III T.Y.B.Sc. Biotechnology
Plant Tissue Culture Paper IV Unit III T.Y.B.Sc. Biotechnology
Worksheet - Venn Diagram Organic Chemistry ANSWER KEY
Worksheet - Venn Diagram Organic Chemistry ANSWER KEY
Plant Cells Animal Cells Respiration Nucleus • contain chloroplasts
Plant Cells Animal Cells Respiration Nucleus • contain chloroplasts
Prochlorophyta - WordPress.com
Prochlorophyta - WordPress.com