May 13, 2020
Version 1
Recombinant Protein Expression of MMLV-RT H+ V.1
- 1National Jewish Health
- Reclone.org (The Reagent Collaboration Network)Tech. support email: protocols@recode.org
Protocol Citation: Alex Brown 2020. Recombinant Protein Expression of MMLV-RT H+. protocols.io https://dx.doi.org/10.17504/protocols.io.bfxqjpmw
Manuscript citation:
Baranauskas A, Paliksa S, Alzbutas G, et al. Generation and characterization of new highly thermostable and processive M-MuLV reverse transcriptase variants. Protein Eng Des Sel. 2012;25(10):657‐668. doi:10.1093/protein/gzs034
License: This is an open access protocol distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited
Protocol status: Working
We use this protocol and it's working
Created: May 05, 2020
Last Modified: May 13, 2020
Protocol Integer ID: 36560
Abstract
This protocol has been optimized for recombinant expression of molony virus based reverse transcriptases (RT). The plasmid used contains a reverse transcriptase gene which is derived from Moloney Murine Leukemia Virus. The enzyme when expressed recombinantly can synthesizes a complementary DNA strand from single-stranded RNA, DNA, or an RNA:DNA hybrid. The enzyme contains point mutations to generate a highly processive, thermostable, and improved fidelity mutant reverse transcriptase. Details, incluiding the sequence of this enzyme are published and can be found here PMID: 22691702. The enzyme contains an active RNAse H domain and is highly thermostable.
The point muitations utilised here are currently filed under a provisioal patent with Thermo Fisher Scientific. Commcercial use of this enzyme must go though Thermo Fisher Scientific.
This expression protocol can also implemented to express other MMLV based reverse transcriptases or diversely related retroviral RTs, provided the genes are in an expresison construct with an N- terminal 6-10 His Tag and are expressed under a T7 promoter.
The plasmid used can be found on reclone.org
Materials
MATERIALS
LysozymeMerck MilliporeSigma (Sigma-Aldrich)Catalog #12671-19-1
ImidazoleMerck MilliporeSigma (Sigma-Aldrich)Catalog #I5513
NaClMerck MilliporeSigma (Sigma-Aldrich)Catalog #53014
Triton X-100 Merck MilliporeSigma (Sigma-Aldrich)Catalog #93426
GlycerolMerck MilliporeSigma (Sigma-Aldrich)Catalog #G5516
DL-Dithiothreitol (DTT)Merck MilliporeSigma (Sigma-Aldrich)Catalog #43815
Ethylenediaminetetraacetic acidMerck MilliporeSigma (Sigma-Aldrich)Catalog #E9884
AEBSF Protease InhibitorThermo FisherCatalog #78431
Tris Hydrochloride (Tris-HCl)Merck MilliporeSigma (Sigma-Aldrich)Catalog #RES3098T-B7
Buffer B (pH 8.0): 500mL
- 20mM Tris/HLC = 10mL 1M Tris-HCL pH 8.0
- 300mM NaCl = 8.766g
- 0.5% Triton X-100 = 2.5mL
- 10% (v/v) glycerol = 50mL
- 25mM imidazole = 12.5mL 1M imidazole
- + supplemented with 1mg lysozyme/ml
Buffer C (pH 8.0): 250mL
- 20mM Tris/HCl = 5mL 1M Tris-HCL pH 8.0
- 300mM NaCl = 4.383g
- 0.5% Triton X-100 = 1.25mL
- 10% (v/v) glycerol = 25mL
- 80mM imidazole = 20mL 1M imidazole
Elution / Buffer D (pH 8.0): 250mL
- 20mM tris/HCl = 5mL 1M Tris-HCL pH 8.0
- 300mM NaCl = 4.383g
- 0.5% Triton X-100 = 1.25mL
- 10% (v/v) glycerol = 25mL
- 250mM imidazole = 62.5mL 1M imidazole
Storage / Buffer E (pH 8.3 @ 25°C): 250mL
- 50mM Tris-HCL = 12.5mL 1M Tris-HCL pH 8.0
- 100mM NaCl
- 1mM EDTA
- 5mM DTT
- 0.1% (v/v) Triton X-100 = 250µL
- 50% (v/v) glycerol = 125mL
For 1x lysis buffer
- 1mM AEBSF (add fresh)
- 1mg/ml lysozyme (add fresh)
Protein Expression
Protein Expression
2d
2d
Streak CarbrCamr LB plate supplemented with from frozen stock of Rosetta DE3 . Grow plate overnight at 37°C.
1d
- Select single colony from overnight streak plate and inoculate 5mL of LB broth supplemented with Carb and Cam. Grow overnight at 37°C shaking at 250rpm.
- Prepare 500mL LB and sterilize by autoclave.
- Allow sterile LB to come to room temperature overnight.
1d
- 1 mL of this culture was used to inoculate 500 mLs of LB in the morning. 500mL LB broth is then supplemented with Carb and Cam.
- The large culture was incubated at 37°C in a shaker at 275 RPM.
- OD600 was monitored until it reached 0.8-1.0 and was induced with 0.5 mM IPTG.
- Monitor OD600 every 30-40 mins. As OD600 approaches 0.5 monitor evey 5-10 mins.
- Induction occurred at 18°C for 20 - 24 hours.
1d
- Collect cells by centrifugation. Conditions as follows: 4°C, at 4,000 x g for 30min.
- Cells were harvested by centrifugation, washed once with 1X Lysis Buffer (20 mM Imidizole) then resuspended in 5 mL of ice cold 1X Lysis Buffer per gram of wet pellet.
- Lysozyme was added to a concentration of 1 mg/mL and lysed by sonication, with 15 cycles of 10 seconds on/30 seconds off in salted ice water.
- Sonicate more if the cells are not completely disrupted (Lysis is complete when the cloudy cell suspension becomes translucent. Avoid protein denaturation by frothing).
- Spin 30min 18000rpm 4°C. Separate soluble proteins (supernatant) from insoluble or inclusion bodies proteins (pellet). Use supernatant for next step. Keep sample of 40µl of supernatant for PAGE-SDS: soluble proteins
- Resuspend pellet in 5ml column buffer and keep sample of 40µl for PAGE-SDS: insoluble proteins, or unlysed cells.
3h
IMAC Purification
IMAC Purification
1h 30m
1h 30m
The following steps are performed at 4°C
- Clarified lysate was then loaded onto 0.5 mL of Ni Sepharose Fast Flow beads (use whatever you got) that had been equilibrated with 1X Lysis Buffer (20 mM Imidazole).
- Collected flow-through was re-loaded onto the column and ran a second time
- Column was washed with 10 column volumes of buffer C
- Eluted with 5mL Buffer D (500mM Imidazole)
- Each 1ml of the eleution buffer is collected separately in 1.5ml tubes.
- Eluted fractions are measured for protein absorbance on a nanodrop, using the imidizole containing elution buffer as a blank reference sample.
- samples values are recorded. Protein absorbance reads will peak and wane to background levels. Once eluted fractions are at background levels
- The column was regenerated with 10 mL washes of water/1M NaOH/water/50 mM EDTA/water/100 mM NiCl/20% EtOH and stored with 20% EtOH in the fridge.
1h 30m
Amicon Size Separation or Dialysis
Amicon Size Separation or Dialysis
3h
3h
Amicon protein concentrators can be substituted with dialysis into 50% glycerol containing storage buffer. Amicon protein concentration can cause proteins to crash out of solution if the solution is too concentrated, resulting in loss of protein yield. However they are much quicker than dialysis and do not require making large volumes of buffers containing 50% glycerol. Dialysis will minimize yield loss, but will not purify your protein from possible low molecular weight contaminates. Refer to ThemoFisher dialysis methods for implementing this approach.
Separate protein using an amicon with molecular weight cut off ~1/3 the molecular wight of the purified target protein. MMLV = 79.8kDa, Amicon filter cutoff 25kDa.
Exchange buffer with storage buffer at this point. Exchange with storage buffer containing 2× concentration of salts and no glycerol. Exchange buffer 3x, spin at 6000g 30-60 min each time, or until the
3h
Storage
Storage
10m
10m
If using Amicon size separation protein can be stored in a storage buffer containing 50% glycerol. The exchange buffer contains 2× the concentration of salts and can be diluted 50% via the addition of 100% glycrol. From here aliquats can be mae and stored at -20C