Post on 14-Jan-2016
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• Mushrooms are being used as food and medicine since time immemorial. • Their cultivation on extensive scale can help solve many problems of global importance such as protein shortage, resource recovery and reuse as well as part of environmental management.
• Presents the latest cultivation and biotechnological advances that will help ensure mushroom cultivation without pollution and provide mushroom products with health enhancers
• Edible mushrooms are a valuable nutritional supplement for us, and how they and their derivative products can serve as important pharmaceutical/medicinal agents
Brief Introduction about Pleurotus erynigii • The Pleurotus sp. is one of the most widely cultivated mushroom in the world. Wild
Pleurotus erynigii collected in southern Europe, North Africa and central Asia.
• It has many subspecies and similar taxa such as P.fuscus var. from china.
• Since 1997, Pleurotus erynigii has become a popular crop due to its unique flavor, shape and texture as a reason its been cultivated in many parts of Korea.
• Mushroom growth Stimulation limited by several factors like media , abiotic parameters –temperature, humidity , pH and carbon di-oxide concentration.
• In the current study among Agaricus sp. and Pleurotus sp. showed that many micro-organisms promote vegetative and reproductive growth.
Soil sample
Bacterial isolation by Serial dilution
Growth promotion checkingBacterial culturing
Centrifuge the culture
Control Supernatant added to plate
16srDNA gene amplification
For bacterial characterization
Phylogeny tree construction
1.B.cereus
2.Comamonas
3.Pseudomnas
4.Bacillus sps
5.Ochrobactrum
Isolation of Growth promoting compound
Culture supernatant
Ethyl acetate extract
Butanol extract
IAA STD
IAA Sample
14
TLC of ethyl acetate fraction
Ethyl acetate Extract
TLC Fraction
control Sample
TryptophanTryptamine
N-Acetyltryptamine
N-Acetyltryptophan
Indolepyruvic acid Indolyl-lactic acid
Indolylacetaldehyde acid Tryptophol
Indole acetic acid
Indolecarboxaldehyde
Acetyltryptophols
Anthranilic acid
Bacillus lincheniformis
Specific Primers for IAA gene
Lamda/P 1 2 3 4 5 6 7 Positive Control
2.2Kb
Colony-PCR result- Clone in pGEM-T-vector
Clone containing IAA gene was propagated overnight in 5ml of M9 salts minimal media
Supplemented with tryptophan ; 0 , 50 , 100 , 200 , 500 ug/ml
After 42hr , the density was measured at 600nm,
Bacterial cells were removed from culture by centrifugation,
1ml aliquot of the supernatant was mixed vigorously with 4ml of Salkowski’s reagent.
Allow to stand at room temperature for 20min before the absorbance at 535 nm.
The concentration of IAA in each culture medium was determined by comparison with a standard curve.
Result :
• As the tryptophan concentration increases the cell density and the production of IAA also increases.
• After adding Salkowski’s reagent the supernatant color turned in to reddish pink.
• The maximum production of IAA was observed test tube containing 500ug of tryptophan, beyond that there was a inhibition of bacterial growth.
Culture supernatant
Ethyl acetate extract
Further confirmation was done with TLC and HPLC.
Bioassay
Result :
Agrobacterium mediated gene transformation
Agro bacterium containing our gene
Bottle culture of transformed mushroom
Transformation of mushroom
Future work
Conclusion :
1. Till these days we studied more about plant and microbial interactions but there are no reports on Bacterial and Fungi interactions.
2. More over the very interesting thing in this is how the Bacteria and Mushroom will interact
3. Mushroom growers in all countries will learn how to produce greater and more reliable yields.
4. Finally edible mushrooms are a valuable nutritional supplement for us, and how they and their derivative products can serve as important pharmaceutical/medicinal agents.
5. Further work is needed to analyze final derivative structure.
6. Gene should be transformed in many other edible mushroom to commercialize.