Gibson Assembly of plasmids from PCR products
Fragments were assembled into plasmids using Gibson Assembly (Gibson, Young et al. 2009). Gel purified PCR products with 5’ complimentary overhangs were
combined in equimolar ratios with ten microliters of Gibson Assembly Master Mix and additional nuclease free water to obtain a reaction volume of twenty
microliters. The reaction was carried out in a thermocycler held constant at 50°C over the course of one hour.
Transformation of Plasmids through Electroporation
Transformation was carried out through electroporation. First, the plasmid to be transformed was desalted for an hour using a Millipore (type VSWP) drop
dialysis film with 0.025 μm on ultra-pure Milli-Q water. One mL of liquid culture was centrifuged and washed twice with Milli-Q water. After washing, the
cells were pelleted, the supernatant was removed, and the pellet was re-suspended in 50 μL of a dilute solution of DNA and nuclease free water (American
Bioanalytical). The cells and DNA solutions were transferred to a Bio Rad 0.1 cm gap Gene Pulser cuvettes for electroporation and kept chilled.
Electroporation was conducted with a Bio-Rad Gene Pulser Xcell Electroporator set to 1800 V, 25 μF, and 200 Ω. After electroporation, the cells were
immediately transferred to 1 mL of LB Lennox and placed in a 37° incubator to recover for an hour. The cells were then plated on LB Lennox agar with an
antibiotic selection factor for the transformed plasmid vector.
Assembly of T7 RNA Polymerase in pZE21_Y12_a12C backbone
The plasmid pZE21_Y12_a12C_T7RNAPol was Gibson Assembled from the T7 RNA Polymerase gene obtained from BL21(DE3) and the pZE_Y12_a12C backbone. The T7 RNA
Polymerase gene was obtained from BL21(DE3) through colony PCR with primers pZE21_T7_F and pZE21_T7_R that anneal at either end of the T7 RNA Polymerase
gene and include complimentary base pair overhangs on the 5’ end to pZE21_Y12_a12C at the site for assembly. PCR was completed on a Bio-Rad c1000 thermo
cycler with KAPA Biosystems Hifi Hotstart Readymix following the KAPA Biosystems protocol. It was programmed for an annealing temperature at 58°C and an
annealing time of 00:02:30. After PCR the reaction mixture was treated with Dpn1 restriction enzyme for 1 hour at 37°C to digest template DNA. The linear
fragment was run on a 2% agarose gel stained with SYBR Safe, excised, and gel purified.
pZE_Y12_a12C was obtained as a plasmid, transformed into Mach1 cells for cloning, and purified from liquid culture via mini-prep. The plasmid backbone was
amplified with primers pZgib-F and a12gib-r. The reaction was carried out in Kapa Hifi Hotsart Readymix following the Kapa Biosystems protocol. The
annealing temperature of the reaction was 58°C and the extension time was 00:02:30. The reaction mixture was treated with Dpn1 to digest template DNA and
then run on a 1% agarose gel stained with SYBR Green. The linear fragment was excised and gel purified. Following this, 4000 ng of the linearized backbone
was treated with a single digest with KpnI restriction enzyme, following the NEB protocol to remove the chloramphenicol resistance marker overhang from the
reverse site. The reaction was carried out at 37°C for four hours in a Bio-rad c1000 thermocycler. The reaction mixture was PCR purified with the QIAquick
PCR Purification Kit to yield a linear fragment of the desired backbone vector.
Concentration of the DNA was obtained using the plate reader. The two fragments were assembled with New England Biolabs 2X Gibson Assembly Master Mix
following the NEB Protocol. The resulting plasmid was drop dialyzed for one hour using Millipore drop dialysis filter paper and Milli-Q water. One μL of
desalted DNA was diluted in 49 μL of nuclease free water and used for transformation into Mach1 Cells. Cells were plated on Lb Lennox agar with kanamycin
and allowed to grow overnight in a 37°C incubator.
A dozen colonies were selected for screening. The initial screening with colony PCR was completed with primers pz-integration-f and pz-integration-r and
K2G FAST Readymix with loading dye following the protocol from Kapa Biosystems. The annealing temperature for the reaction was 58°C and the annealing time
given was 0:03:30. The reaction mixture was treated with Dpn1 for one hour to eliminate template DNA and run on a 1% agarose gel stained with ethidium
bromide for 30 minutes at 140V. The gel was imaged on a Bio-Rad Molecular Imager Gel Doc XR+.
A second screening assay was carried out with restriction enzymes KpnI and HindIII in the single and double digest method following the protocols specified
by New England Biolabs. Five clones were grown up in 2XYT media with kanamycin overnight in a 37°C incubator and mini-prepped the following day. Three
hundred nanograms of DNA from each of the clones were used in a double and single digest with KpnI and HindIII. Fragments of the digest were run on a 1%
agarose gel stained with ethidium bromide for 30 minutes at 140V. The gel was imaged using the Molecular Imager Gel Doc XR+. The sequence containing the
taRNA, crRNA, multiple cloning site, and terminator was amplified from purified plasmids using pz-integration-f and pz-integration-r with Hifi Hotstart
Readymix for sequencing. Sequencing was completed by Keck DNA Sequencing Facility. The alignment was analyzed using Geneious.
Assembly of T7 Phage Promoter-super-folder GFP in pZA21 backbone
The plasmid pZA21_T7_sfGFP was assembled from a linear fragment of sfGFP with a RBS and T7 promoter attached to the 5’ untranslated region (UTR) amplified
from plasmid pZE21::sfGFP and the pZA21 backbone amplified from pZA21_tRNA_TAGG. The linear fragment of T7_RBS_sfGFP was PCR amplified from pZE21::sfGFP
with primers pZE21_promT7_F and pZE21_promT7_R and Hifi Hotstart Readymix following the Kapa Biosystems protocol. The annealing temperature for the
reaction was 57°C. The extension time for the reaction was 00:03:00. The reaction was treated with Dpn1 to remove remaining template DNA. Following this,
the reaction mixture was run on a 1% agarose gel stained with SYBR Safe. The band was excised and gel purified following the QIAprep Gel Extraction Kit
protocol. The fragment was circularized using the New England Biolabs 2X Gibson Assembly Master mix and the NEB protocol for Gibson Assembly. The resulting
plasmid was dubbed pZE21::T7sfGFP.
Screening for the replacement of the original PLtetO promoter was verified by sequencing. Sequencing primers for the pZE backbone
pz-integration-f and pz-integration-r were used with Hifi Hotstart Readymix with the NEB protocol to amplify the multiple cloning site of the pZE21
plasmid. The amplified fragment was PCR purified using the QIAquick PCR purification kit and sent to Keck for sequencing. The sequence returned was
analyzed using Geneious.
The pZA21 backbone was amplified with primers T7sfGFP_pZA21_F and T7sfGFP_pZA21_R and Hifi Hotstart Readymix with the NEB protocol. The reaction was
carried out with an annealing temperature of 56°C and an extension time of 00:03:00. The product was treated with Dpn1 to eliminate remaining template DNA.
The reaction mixture was then run on a 1% agarose gel stained with SYBR Safe. The band was excised and gel purified following the QIAprep Gel Extraction
Kit protocol. One thousand nanograms of purified DNA were then treated with a double digest using restriction enzymes AatII and BamHI-HF. The resulting
fragment was PCR purified.
A linear fragment of T7_sfGFP was amplified with overhangs to pZA21 containing the restriction sites AatII and BamHI-HF. T7_sfGFP was amplified from
pZE21::T7sfGFP previously constructed using primers pZE21_T7sfGFP_AatII_F and pZA21_T7sfGFP_BamHI_R and Hifi Hotstart Readymix with the NEB protocol. The
reaction was a two-step PCR amplification. The annealing temperature for step one was 57°C and the annealing temperature for step two was 67°C. The
extension time for both steps is 00:01:10. The reaction mixture was treated with Dpn1 to eliminate remaining template DNA and run on a 1% agarose gel
stained with SYBR safe. The band was excised and gel purified. One thousand nanograms of the purified NDA were treated with a double digest using the
restriction enzymes AatII and BamHI-HF. The resulting fragment was PCR purified.
A ligation reaction using T4 DNA ligase from NEB was conducted with the fragment of PZA21 backbone and T7sfGFP following the NEB protocol. Following the
ligation, 5 μL of the reaction mixture was transformed into Mach1 cells. The colonies were picked the next day and grown up overnight. Liquid culture were
started in 2XYT were started and grown up overnight. The plasmid was mini-prepped and purified. Five plasmid clones were PCR amplified using sequencing
primers pZA_seq_F and pZA_seq_R in Hifi Hotstart Readymix following the NEB protocol. Primers anneal within the pZA21 backbone and amplify the multiple
cloning site. The reaction was carried out with a 56°C annealing temperature and a 00:01:30 annealing time. The reaction mixture was treated with DpnI to
eliminate template DNA and PCR purified. Five microliters of DNA was run on a gel to verify the presence of the fragment. The fragment was sent to Keck DNA
Sequencing Facility and the sequence was analyzed with Geneious.