ID: 8
Group:
Cell Component Extraction
Prepared by:
Dr Nicola Sayers
Detail:
The following is a method to extract mycelium-associated or intracellular protein from fungal mycelium
Year prepared: 1998
Date uploaded: 2010-02-26 13:42:17
Introduction
The following is a method to extract mycelium-associated or intracellular protein from fungal mycelium
Materials
- Fungal conidia stock solutions
- modified Vogel’s liquid medium: Vogel’s salts in 1% glucose
- Lysing buffer: 100 mM Tris-Cl (pH 7.5), 1 mM EDTA, 5 mM dithiothreitol, 5 mg/ml Pepstatin A in DMSO,1 mM Pefabloc SC
- 0.6 M MgSO4
- 70 % (v/v) alcohol
Equipment
- Shaking incubator set at 37°C
- 250 ml conical flasks
- Vacuum pump
- Side-arm 1000 ml conical flask
- Buchner funnel
- Whatman No.54 filter paper
- Universal tubes
- Freeze-drier
- 1.5 ml microcentrifuge tubes
- Digital pipette 200 – 1000 µl
- 50 ml polyallomer centrifuge tubes
- MSE High Speed-18 Centrifuge (or equivalent)
Preparation
Sterilize the following materials and equipment: pestle and mortar, 1.5 ml microcentrifuge tubes, polyallomer centrifuge tubes (can be rinsed with 70% alcohol if preferred).
Prepare 50 ml 1% (w/v) glucose solutions in conical flasks, sterilize and add Vogel’s salts
Lysing buffer can be prepared in advance, filter sterilized, aliquoted and stored at -20°C
Procedure
- Inoculate 50 ml of modified Vogel’s medium with 105 conidia per ml and incubate cultures using a shaking incubator set at 37°C and 200-250 rpm
- Collect mycelium onto Whatman No.54 filter paper using a vacuum, side-arm conical flask and Buchner funnel, rinse with 0.6 M MgSO4 or 100mm Tris-HCl, 1mm EDTA pH 7.5 and remove excess liquid by sandwiching between layers of dry filter paper
- Freeze-dry mycelium for a minimum of 12 h)
- Crush freeze-dried mycelium using pestle and mortar and add lysing buffer
- Centrifuge at 16-18000 x g, 4°C, 15 min
- Collect supernatant and filter sterilize
Timetable
Growth of fungal cultures | Step 1 | dependent on specific experiment |
Harvesting of mycelium | Step 2 | 1 hour |
Freeze-drying | Step 3 | 12 hours |
Extraction of proteins | Step 4 – 6 | 1 – 2 hours |
Tips and general comments
- The age of the culture used to extract protein depends entirely upon the experimental aims.
- Pelleting of the fungal culture during growth may pose a problem depending upon the proteins being studied. Pelleting results in a dual-phase culture (actively growing at the outer surface of the pellet, but dying within). If necessary use either an anti-pelleting agent such as Junlon or thin layer liquid culture ( see laboratory protocols 1).
- Crushing the mycelium is considerably easier if it has been freeze-dried. However, if freeze-drying is not an option, the mycelium may be crushed in a sterile pestle and motar using liquid nitrogen. Ensure that the mycelium is as dry as possible, as too much water makes the mycelium very difficult to crush.
- The volume of lysing buffer added to the crushed mycelium depends upon the amount of fungal material: 1-5 ml is generally used in this laboratory
- Filter sterilised protein may be aliquoted and stored at -20°C
References
Hearn VM, Wilson EV, Mackenzie DWR. Analysis of Aspergillus fumigatus catalases possessing antigenic activity. Journal of Medical Microbiology, 1992; 36:61-67.
López-Medrano R, Ovejero MC, Calera JA, Puente P, Leal F. An immunodominant 90-kilodalton Aspergillus fumigatus antigen is the subunit of a catalase. Infection and Immunity, 1995; 63:4774-4780.
Laboratory Protocols
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Title
Type
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Species/Strain identification
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Cell Component Extraction
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Fungal Molecular Biology
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Growth and Storage