Team:Harvard/flavor/notebook

From 2010.igem.org

Revision as of 01:31, 25 October 2010 by AGedeon (Talk | contribs)



notebook calendar [ top ]

Week 1 06-14-2010 06-15-2010 06-16-2010 06-17-2010 06-18-2010
Week 2 06-21-2010 06-22-2010 06-23-2010 06-24-2010 06-25-2010
Week 3 06-28-2010 06-29-2010 06-30-2010 07-01-2010 07-02-2010
Week 4 07-05-2010 07-06-2010 07-07-2010 07-08-2010 07-09-2010
Week 5 07-12-2010 07-13-2010 07-14-2010 07-15-2010 07-16-2010
Week 6 07-19-2010 07-20-2010 07-21-2010 07-22-2010 07-23-2010
Week 7 07-26-2010 07-27-2010 07-28-2010 07-29-2010 07-30-2010
Week 8 08-02-2010 08-03-2010 08-04-2010 08-05-2010 08-06-2010
Week 9 08-09-2010 08-10-2010 08-11-2010 08-12-2010 08-13-2010

06-14-2010 [ top ]

  • Miraculin and brazzein constructs due to arrive on Wednesday from Mr. Gene

BioBrick Transformation

BioBrick parts from the 2010 iGEM kit were transformed and grown in highly competent TURBO bacteria.

  • Wintergreen Scent Pathway:

BBa_J45700 - entire pathway, Ampicillin
BBa_J45004 - BSMT1 only, Ampicillin
(Not in 2010 BB Kit: BBa_J45017 - PchB, PchA)

  • Banana Scent Pathway:

BBa_J45250 - ATF3 + Promoter, Ampicillin?
BBa_J45014 - ATF3 only, Ampicillin
(Not in BB 2010 Kit: BBa_J45400 - BAT2 and THI3)

06-15-2010 [ top ]

Primer Designs for Agrobacterium Vector

  • Primers were designed to amplify from the Expression Series pORE Agrobacterium plasmid (e3) 1)the pENTcup2 promoter, 2) the tNOS stop sequence, 3) the tNOS stop sequence + additional stop codon and 4) the pHLP promoter.

Note: the NOSterm_BB_R primer works for both tNOS and tNOS+STOP codon sequences.

   pENTcup2_BB_F
   CCTTTCTAGAGGGATCTTCTGCAAGCATCT
   pENTcup2_BB_R
   AAGGCTGCAGCGGCCGCTACTAGTTCCGGTGGGTTTTGAGGT
   STOP_NOSterm_BB_F
   CCTTTCTAGATGAGATCGTTCAAACATTTGG
   NOSterm_BB_F
   CCTTTCTAGAGATCGTTCAAACATTTGGCA
   NOSterm_BB_R
   AAGGCTGCAGCGGCCGCTACTAGTGATCTAGTAACATAGATGACA
   pHPL_BB_F
   CCTTTCTAGAAACGTGGATACTTGGCAGTG
   pHPL_BB_R
   AAGGCTGCAGCGGCCGCTACTAGTCTTTTGAGCTTAGAGGTTTTT

BioBrick Transformation

  • Colonies were observed after overnight culture growth, but in low quantities.
    • J45700 and J45004 (both Wintergreen Pathway) showed minimal number of colonies on both 10μL and 100μL cultures.
    • J45250 and J45014 (both Banana Pathway) showed no colonies on either the 10μL or 100μL cultures.

Codon Usage in Arabidopsis

Using http://gcua.schoedl.de/


Valencene Extraction

Used RNeasy Plant Mini Kit to extract RNA from the flavedo of an Organic Valencia Orange.

Flavedo

06-16-2010 [ top ]

MiniPrep

  • MiniPrep of Wintergreen parts from Registry (J45004 and J45700) following Qiagen MiniPrep protocol. MiniPrep three samples of each part.
    • DNA concentrations:
         J45004-1: 59.1 ng/μL
         J45004-2: 72.9 ng/μL
         J45004-3: 88.1 ng/μL
 
         J45700-1: 146.7 ng/μL
         J45700-2: 187.4 ng/μL
         J45700-3: 175.5 ng/μL

Digestion with Enzymes

  • For J45004, we added: 9μL DNA, 1μL buffer, 1μL xbaI restriction enzyme (slow), and .5μL pstI restriction enzyme (fast).
  • For J45700, we added 5μL DNA, 4μL H2O, 1μL buffer, 1μL xbaI restriction enzyme (slow), and .5μL pstI restriction enzyme (fast).
  • We let mixtures sit for 30 minutes due to the use of xbaI restriction enzyme (slow). After the 30 minutes, we added 2.5μL dye to each mix.

Gel

  • We loaded 12.5μL of 1kb ladder to well 1 of the gel (numbered left to right). We then loaded 12.5μL of J45004-1, J45004-2, and J45004-3 to wells 2,3, and 4, respectively. We loaded J45700-1, J45700-2, J4500-3 in wells 5, 6, and 7, respectively (see images below for well locations).
  • Ran on 1% agarose gel.

BBa_J45700 BBa_J45700

06-17-2010 [ top ]

PCR Purification of pORE Vector Parts

Following QIAgen PCR Purification Kit Protocol the following PCR products were purified:

  1. pENTCUP2 Promoter - 16.1 ng/μL
  2. NOSterminator Sequence - 76.3 ng/μL
  3. STOP codon + NOSterminator Sequence - 76.5 ng/μL

To do: follow up with restriction digest and Agarose gel to confirm PCR and PCR purification.

Restriction Digest and Agarose Gel

Restriction Digest reactions were set up as follows:

pENTCUP2 Promoter:

  • 27μL PCR product
  • 3μL Loading Buffer w/ dye
  • 1μL Xba1 Fast Enzyme
  • 1μL Pst1 Fast Enzyme

NOSterm and NOSterm + STOP:

  • 9μL PCR product
  • 1μL Loading Buffer w/ dye
  • 0.5μL Xba1 Fast Enzyme
  • 0.5μL Pst1 Fast Enzyme

BioBrick Plasmid V0120 (Ampicillin Resistance):

  • 3μL DNA
  • 1μL Loading Buffer w/ dye
  • 6μL diH2O
  • 0.5μL Xba1 Fast Enzyme
  • 0.5μL Pst1 Fast Enzyme

Reactions were allowed to proceed for 45 minutes at 37°C.

06-18-2010 [ top ]

06-21-2010 [ top ]

06-22-2010 [ top ]

06-23-2010 [ top ]

06-24-2010 [ top ]

06-25-2010 [ top ]

We began this week trying to ligate the pENTCUP2 promoter, NosT terminator, and NosT terminator plus stop codon into the V0120 vector. We ran into several problems during this process.

We had previously digested the three inserts as well as the promoter with XbaI and PstI fast digest enzymes, ligated, and transformed the ligated vectors into e. coli. Unfortunately, we did not find any colonies of cells after over 14 hours of incubation. Furthermore, on Friday June 18th, after digesting all three inserts and vector and running them on a gel, we did not see any NosT + stop DNA. Therefore, on Monday June 21, we began by digesting more NosT + stop and V0120 vector with xba1 and pstI fast digestive enzymes. The gel showed DNA length to be consistent with the given parts. (See gel below)

Digestion gel1.jpg

  • Gel Lanes (both inserts and vector were digested with xbaI/pstI): 1. 1kb plus ladder. 2. pENTCUP2 promoter. 3. NosT terminator. 4. NosT + stop terminator 5. V0120 digested.


Digestion gel2.jpg

  • Gel Lanes (both inserts and vector were digested with xbaI/pstI): 1. 1kb plus ladder. 2. NosT + stop terminator. 3. V0120 digested.


Upon gel extraction and gel purification, we ligated the inserts into the vectors with a 2:1 insert to vector ratio (previously we had been using a 4:1 insert to vector ratio). We then transformed the plasmids into e.coli and plated; no colony growth was seen the next morning.

We used Team Vector's R3 ligation (they have successfully ligated and transformed) as a positive control. However, the bacteria containing the ligated plasmids were plated on Ampicillin plates, which turned out to be the wrong resistance.

Troubleshooting

In order to get a better understanding of the problem with our ligation, we ran a diagnostic gel with the V0120 backbone and vectors B15 and B21.

V0120 gel longer.jpg

   Gel Lanes: 
   1. 1 kb plus ladder
   2. v0120 undigested
   3. v0120 eco/spe
   4. v0120 eco/xba
   5. v0120 spe/pstI
   6. v0120 xba/pst
   7. v0120 ecoRI
   8. v0120 xba1
   9. v0120 pstI
   10. v0120 spe
   11. blank
   12. B15 (StrepII tag) xba/pstI
   13. B21 (YFP) xba/pstI

We concluded from the gel that xba1 is the problem in our ligation step. The pattern of bands in the v0120 xba1/pstI digest along with the v0120 xba1 digest illustrate that xba1 is not cutting correctly.

We began a slow enzyme xba1/pstI digest on Friday, but the gel was run in mismatching buffers (TAE and TBE).

Slowdigest.jpg

  • Gel Lanes (inserts and vector digested with xba1/pstI): 1. 1 kb plus ladder. 2. pENTCUP2 3. NosT 4. NosT & stop 5. v0120

Valencene

Digestion of PCR products aimed to isolate valencene gene showed very short length on gel. These are not the correct size and are most likely primer dimers. PCR products were digested with EcoRI/SpeI. 5 μL of each sample was digested with pstI to be sure that the pstI site was in the sequence of DNA.

Valencene pcr gel.jpg

  • Gel Lanes: 1. 1 kb plus ladder. 2. Flavedo EcoRI/SpeI. 3. Flavedo PstI 4. Open 5. Fruit EcoRI/SpeI. 6. Fruit pstI

06-28-2010 [ top ]

Miniprep of Miraculin and Brazzein Constructs

  • Protocol used was from the Qiagen Miniprep Kit
Nanodrop Specs
Name Concentration (ng/μL)
Miraculin 1 159.6
Miraculin 2 182.2
Brazzein 1 91.2
Brazzein 2 33.7

DTL (Digestion, Ligation, Transformation) of The Big Three (pENTCUP2, NOSt, NOSt + STOP)

Digestion Reactions
pENTCUP2 NOSt NOSt+STOP B15
DNA 4 7 12 7
NEB Buffer 3 (10x) 2 2 2 2
diH2O 10 7 2 7
Xba1 1 1 1 1
Pst1 1 1 1 1
BSA (10x) 2 2 2 2
  • Digestions were left for 1:30 at 37°C
  • 2.2 μL of DNA Loading Buffer were added to each reaction and loaded onto a 1% Agarose gel (TAE buffer). Gel was ran at 125 V for 30 min.

Digest Gel

Lanes
Lane Contents
Lane 1 1KB Plus Ladder
Lane 2 pENTCUP2
Lane 3 NOSt
Lane 4 NOSt+STOP
Lane 5 B15 digested
Lane 6 B15 undigested


  • The undigested B15 in lane 6 appears as two bands on account of supercoiling of the B15 plasmid.
  • Bands in lanes 2 - 5 were cut out and purified using a Qiagen Gel Purification kit
    • The gel purification was done with 300 μL Buffer PB and 400 μL Buffer QG
Nanodrop Specs
Name Concentration (ng/μL)
pENTCUP2 16.5
NOSt 10.2
NOSt+STOP 0.4
B15 (backbone vector) 10.9
  • Note the very low concentration of NOSt+STOP. It is uncertain as to what caused such a concentration, but transformation proceeded anyways with max volume
  • The ligation reactions were preformed at at 2:1 (insert to backbone) Molar Ratio
    • The sole exception being the NOSt+STOP ligation, in which the lack of product forced us to use 1.8 ng DNA
Ligation Reactions
pENTCUP2 NOSt NOSt+STOP Control
Insert 1 1 1 1
Vector 2 2 2 2
Buffer (10x) 5 5 5 5
Ligase 1 1 1 1
H2O 11 11 0 12
  • Ligation reactions were preformed as per the Silver Lab ligation protocol (with the differences in concentration and ratio made as per the table above).
  • Transformations to E. Coli were preformed as per the Silver lab transformation protocol with ampicillin plates.
  • Plates were left overnight.

06-29-2010 [ top ]

Results of ligation and transformation of The Big Three (pENTCUP2, NosT, NosT + stop) with B15 backbone into E.coli

A few colonies were found on the pENTCUP2 + Backbone plate, NosT + stop and backbone plate, and b15 backbone control plate. Colonies were picked from the plates and placed in 3ml of LB and agarose in a culture tube. The tubes were placed in the 37°C shaker for 8 hours. 2 mL of LB+AMP was added to the cultures, bring the total volume to 5 mL of LB+AMP. Cultures were left to shake overnight.

DLT of the Sweethearts - Miraculin and Brazzein (and B21)

Digestion Reactions
Miraculin Brazzein B21
DNA 6 11 7
FD Buffer (10x) 2 2 2
diH2O 10 5 9
EcoRI 1 1 1
SpeI 1 1 1

Placed in 37°C waterbath for 20 minutes.

Digestion Gel

Miraculin and Brazzein digestion

   Gel Lanes:
    1. 1 kb plus ladder
    2. Miraculin digested with EcoRI/SpeI
    3. Brazzein digested with EcoRI/SpeI
    4. B21 digested with EcoRI/SpeI
    5. 1 kb plus ladder



Nanodrop Specs (from gel purification)
Name Concentration (ng/μL)
Miraculin 9.5
Brazzein 10.2
B21 Vector (V0120) 8.4


Ligation Reactions
Miraculin Brazzein Control
Insert 3.5 0.75 0
Vector 6 6 6
Buffer (10x) 2 2 2
Ligase 1 1 1
H2O 6.5 10.25 0
  • The ligation of Miraculin was done at a 3:1 ratio (insert to vector) due to its larger size (~700 bp)
  • The ligation of Brazzein was done at a 2:1 ratio due to its smaller size (~200 bp)

06-30-2010 [ top ]

Miraculin, Brazzein

  • Colonies did grow!
  • Started 5 mL cultures of Miraculin and Brazzein biobrick constructs (5 cultures each)

The Big Three

  • Began miniprep of cultures of pENT, NOSt+STOP and our Control (for experimental purposes)


OD specs
OD
pENTCUP2 #1 248.5 ng/μL
pENTCUP2 #2 447.7 ng/μL
NosT + stop #1 427.7 ng/μL
NosT + stop #2 303.9 ng/μL
Control #1 366.8 ng/μL
Control #2 359.2 ng/μL


Digestion

  • We digested miniprep samples with xbaI/pstI fast digest enzymes in order to determine if ligation was successful.


Digestion Reactions
Control #1 Control #2 pENTCUP2 #1 pENTCUP2 #2 NosT & stop #1 NosT & stop #2
DNA 2 2 3 2 2 3
Green FD buffer 2 2 2 2 22
diH2O 14 14 13 14 14 13
xbaI 1 1 1 1 1 1
pstI 1 1 1 1 11


Digestion mixes were placed in 37°C water bath for approximately 1 hr.


Big Three PCR digestion

  • We simultaneously digested PCR purified pENTCUP2, NosT, and NosT & stop inserts with xbaI/pstI. This way if the above digestion showed the ligation of the inserts into v0120 backbone was not successful, we can continue with these inserts.


Digestion Reactions
pENTCUP2 NosT NosT & stop
DNA 4 7 2
Green FD buffer 2 2 2
diH2O 12 9 14
xbaI 1 1 1
pstI 1 1 1


Placed in 37°C water bath for 20 minutes.

07-01-2010 [ top ]

  • We made glycerol stocks from our Miraculin & v0120 and Brazzein & v0120. 333 μL cultures with 666μL glycerol and placed in -80°C freezer.
  • We miniprepped our Miraculin and v0120 cultures and our Brazzein and v0120 cultures. Miniprep done per Qiagen protocol.


ODs

Sample OD
Miraculin and v0120 #1 171.3ng/μL
Miraculin and v0120 #2 202.0ng/μL
Miraculin and v0120 #3 106.4ng/μL
Miraculin and v0120 #4 115.6ng/μL
Miraculin and v0120 #5 40.5ng/μL
Brazzein and v0120 #1 41.7ng/μL
Brazzein and v0120 #2 42.8ng/μL
Brazzein and v0120 #3 38.8ng/μL
Brazzein and v0120 #4 0ng/μL
Brazzein and v0120 #5 N/A


Valencia orange surgery (part two)

  • RNA extraction per Qiagen RNAeasy protocol.
    • We made sure to apply RNAzap (RNAase-free) spray to all surfaces and instruments.


ODs

Sample OD
RNA Flavedo extraction #1 93.1ng/μL
RNA Flavedo extraction #2 28.7ng/μL

07-02-2010 [ top ]

NosT + stop and v0120

We ran an xba/pstI fast enzyme digest on our miniprepped NosT + stop and v0120 plasmid. The gel was consistent with a successful ligation. (See lanes 7-10 in gel image below).

Val dig NOSt dig cofirm.jpg


Valencene

After running a reverse transcriptase reaction on our RNA extraction, we ran PCR on the cDNA with Valencene specific primers. The gel did not show the proper fragment length of the Valencene gene. Instead, it appears primer dimers formed again. (See lanes 2-5)

Val dig NOSt dig cofirm.jpg

07-05-2010 [ top ]

07-06-2010 [ top ]

Tagging Miraculin and Brazzein with YFP and StrepII tags

Tag: -E--N--X--STREP/YFP--S--N--P-
Insert: E--N--X--Miraculin/Brazzein--S--N--P-

  • The 'tag' biobrick (either YFP or STREPII) was used as the vector; Miraculin and Brazzein were used as the insert.
  • Tags were ligated to both the N- and C-terminal of Miraculin and Brazzein

BBa_J45700 BBa_J45700

BioBrick Digest Combinations
Vector Insert
N-Terminus Spe1/Pst1 Xba1/Pst1
C-Terminus EcoR1/Xba1 EcoR1/Spe1


Digestion Reactions
B21 S/P B21 E/X Miraculin X/P Miraculin E/S Brazzein X/P Brazzein E/S
diH2O 13 13 11 11 0 0
Green FD buffer (10x) 2 2 2 2 2 2
DNA 3 3 5 5 16 16
Spe1 1 - - 1 - 1
PstI 1 - 1 - 1 -
EcoR1 - 1 - 1 - 1
Xba1 - 1 1 - 1 -

Gel

The gel showed DNA fragments consistent with Miraculin and Brazzein. The digestion of B21 appeared to be succesful, but the DNA sequence cut out was too small to see on the gel.

Miraculin brazzein b21.jpg

   Gel Lanes:
    1. 1 kb plus ladder
    2. B21 speI/pstI
    4. B21 ecoRI/xbaI
    6. Miraculin xbaI/pstI
    8. Miraculin ecoRI/speI
    10. Brazzein xbaI/pstI
    12. Brazzein ecoRI/pstI
    14. 1kb plus ladder


We extracted the circled bands and gel purified the gel per the Qiagen gel purification protocol.

   ODs of gel purified DNA
    B21 speI/pstI:  15.9 ng/μL
    B21 ecoRI/xbaI:  11.0 ng/μL
    Miraculin xbaI/pstI:  9.7 ng/μL
    Miraculin ecoRI/speI:  7.1 ng/μL
    Brazzein xbaI/pstI:  2.6 ng/μL
    Brazzein ecoRI/pstI:  5.0 ng/μL


Ligation

We did 6 different ligation reactions. The chart below shows the different reactions. Ligation reactions were left at room temperature for 15 minutes.


Ligation Reactions
Miraculin xbaI/pstI w/ B21 speI/pstI Miraculin ecoRI/speI w/ B21 ecoRI/xbaI Brazzein xbaI/pstI w/ B21 speI/pstI Brazzein ecoRI/speI w/ B21 ecoRI/xbaI Control B21 speI/pstI Control B21 ecoRI/xbaI
DNA Insert 2 3 3 1 0 0
T4 DNA ligase buffer (10x) 2 2 2 2 22
diH2O 12 9 11 11 14 12
T4 DNA ligase 1 1 1 1 1 1
DNA Backbone 1 1 1 1 11


Transformation

We mixed 5μL ligation mix with 15μL Turbo e. coli cells. These were placed in ice for 30 minutes and then heat shocked in 42°C water bath for 30 seconds. The cells were placed back on ice for 2 minutes. 170 μL of SOC broth was added to each Eppendorf tube. The transformed e. coli were then plated on LB Ampicillin plates and left in the 37°C incubator overnight.

07-07-2010 [ top ]

Sequencing

V0120 Plasmids containing the pENTCUP2 plant promoter, NOS terminator and NOS terminator + STOP were sent to GENEWIZ for sequencing. Sequencing results are expected tomorrow.

Sequencing Order


Cultures

5 mL cultures were started from the YFP-2x construct from yesterday, as well as the B15 (StrepII) tag.

  • 2 x B21 E/X + Brazz E/S - C-Terminus
  • 2 x B21 S/P + Brazz X/P - N-Terminus
  • 2 x B21 E/X + Mira E/S - C-Terminus
  • 2 x B21 S/P + Mira X/P - N-Terminus
  • 2 x B15 Plate #1
  • 2 x B15 Plate #2

Cultures were placed in a 37°C incubator and left to shake overnight.


Primers for Wintergreen pathway parts

J45004

  • Left Primer: 5' cctttctagaatggaagttgttgaagttcttca 3'
  • Right Primer: 5' aaggctgcagcggccgctactagtttaatttattttggtcaagga 3' (last 5 bp omitted to meet 45 bp maximum)

J45017

  • Left Primer: 5' cctttctagaatgaaaactcccgaagactgc 3'
  • Right Primer: 5' aaggctgcagcggccgctactagtttattaggcgacgccgc 3'

07-08-2010 [ top ]

  • Re-submitted sequencing order, with correct primers, to GeneWiz
  • Did a confirmation digest of the Miraculin/Brazzein + YFP-2x constructs

BBa_J45700

  1. Ladder
  2. B15 E/X
  3. B15 S/P
  4. Mira+YFP N1
  5. Mira+YFP N2
  6. Mira+YFP C1
  7. Mira+YFP C2
  8. Brazz+YFP N1
  9. Brazz+YFP N2
  10. Brazz+YFP C1
  11. Brazz+YFP C2
  12. Ladder
    • It appears that the digestion of Mira+YFP C2 (lane 7) did not work properly. This could have been the result of choosing a bacterial colony that was the result of contamination, or from simply an error in the digestion step.
  • Transformed two pDUET expression vectors for Miniprep


Ligated Miraculin/Brazzein to a StrepII tag

Ligation Reactions
Miraculin xbaI/pstI w/ B15 speI/pstI Miraculin ecoRI/speI w/ B15 ecoRI/xbaI Brazzein xbaI/pstI w/ B15 speI/pstI Brazzein ecoRI/speI w/ B15 ecoRI/xbaI Control B15 speI/pstI Control B15 ecoRI/xbaI
DNA Insert 3 4 4 2 0 0
T4 DNA ligase buffer (10x) 2 2 2 2 22
diH2O 11 10 10 12 14 14
T4 DNA ligase 1 1 1 1 1 1
DNA Backbone 3 3 3 3 33
  • We then transformed the ligated plasmids into Turbo e. coli and plated the bacteria on Amp plates. Plates were left in the 37°C incubator overnight.

07-09-2010 [ top ]

Ligation of Brazzein & Miraculin (w/ YFP tags) into DUET vector

Digestion

Digestion Reactions
Brazzein & YFP C EcoRI/SpeI Brazzein & YFP N EcoRI/SpeI Miraculin & YFP C EcoRI/SpeI Miraculin & YFP N EcoRI/SpeI V24 NotI/SpeI NosT & Stop EcoRI/XbaI
DNA 2 2 2 3 5 2
FD Buffer (10x) 2 2 2 2 22
diH2O 14 14 14 13 11 14
Enzyme 1 1 1 1 1 1
Enzyme 1 1 1 1 11
  • We are adding the NosT & stop to the C-terminus of the Miraculin and Brazzein constructs. This whole construct will then be ligated into the V24 DUET vector.

Gel

Adding stop codon.jpg

   Gel Lanes:
    1. 1kb plus ladder
    3. Miraculin & YFP N-terminus ecoRI/SpeI
    5. Miraculin & YFP C-terminus ecoRI/SpeI 
    7. Brazzein & YFP N-terminus ecoRI/SpeI 
    9. Brazzein & YFP C-terminus ecoRI/SpeI 
   11. V24 NotI/SpeI
   13. NosT & Stop EcoRI/XbaI

07-12-2010 [ top ]

  • We removed our cultures of e. coli containing Miraculin/Brazzein C/N YFP and NosT & Stop and e. coli containing Miraculin/Brazzein and StrepII tag from the 37°C shaker.
  • Glycerol stocks were made (666 μL glycerol and 333 μL cells)

Miniprep

   ODs
    Miraculin C YFP and NosT & Stop 1: 414.4 ng/μL
    Miraculin C YFP and NosT & Stop 2: 304.0 ng/μL
    Miraculin N YFP and NosT & Stop 1: 428.6 ng/μL
    Miraculin N YFP and NosT & Stop 2: 421.0 ng/μL
    Brazzein C YFP and NosT & Stop 1: 572.8 ng/μL
    Brazzein C YFP and NosT & Stop 2: 580.3 ng/μL
    Brazzein N YFP and NosT & Stop 1: 348.9 ng/μL
    Brazzein N YFP and NosT & Stop 2: 639.6 ng/μL
    Miraculin N StrepII 1: 888.6 ng/μL
    Miraculin N StrepII 2: 614.4 ng/μL
    Miraculin C StrepII 1: 677.1 ng/μL
    Miraculin C StrepII 2: 222.1 ng/μL
    Brazzein N StrepII 1: 352.6 ng/μL
    Brazzein N StrepII 2: 331.6 ng/μL
    Brazzein C StrepII 1: 209.3 ng/μL
    Brazzein C StrepII 2: 346.4 ng/μL


Digestion

Digestion Reactions
Miraculin C YFP NST Miraculin N YFP NST Brazzein N YFP NST Brazzein C YFP NST
diH2O 14 14 13.5 14.3
Green FD buffer (10x) 2 2 2 2
DNA 2 2 2.5 1.7
NotI 1 1 1 1
SpeI 1 1 1 1


Gel

Mira brazz+YFP 7 12 2010.jpg

   Gel Lanes:
    1. 1 kb plus ladder
    3. Miraculin N YFP NST (NotI/SpeI)
    5. Miraculin C YFP NST (NotI/SpeI)
    7. Brazzein N YFP NST (NotI/SpeI)
    9. Brazzein C YFP NST (NotI/SpeI)
    11. 1 kb plus ladder


  • Gel purify per Qiagen protocol
   ODs
    Brazzein C YFP NST (NotI/SpeI): 6.3 ng/μL
    Brazzein N YFP NST (NotI/SpeI): 8.5 ng/μL
    Miraculin C YFP NST (NotI/SpeI): 3.6 ng/μL
    Miraculin N YFP NST (NotI/SpeI): 12.8 ng/μL

07-13-2010 [ top ]

Ligation in V24

  • Ligation of of Mira/Brazz+YFP+NOSt+STOP Construct into the V24 pETDUET vector for expression of proteins in IPTG inducible bacteria.
Ligation Reactions
Mira N + V24 Mira C + V24 Brazz N + V24 Brazz C + V24 Control
diH2O 7 1 6 4 12
T4 DNA ligase buffer (10x) 2 3 2 2 2
DNA Insert 5 20 6 8 0
DNA Backbone 5 5 5 5 5
T4 DNA ligase 1 1 1 1 1
  • 5μL of Ligation reactio

07-14-2010 [ top ]

Miniprep of STOP + V0120 part

   Nanodrop O/D's:
   STOP V0120 1-1: 134.4 ng/μL
   STOP V0120 1-2: 98.7 ng/μL
   STOP V0120 2-1: 55.2 ng/μL
   STOP V0120 2-2: 121.8 ng/μL

DTL of StrepII+Mira/Brazz with STOP codon

  • To insert a STOP codon to the end of our Mira/Brazz StrepII constructs, we used the STOP+V0120 BioBrick as our vector (EcoR1/Xba1 digest) and our Miraculin/Brazzein construct as our insert (EcoR1/Spe1 digest)
  • Construct DNA used was from Miniprep 1 (Box 4)
  • ~1μg of DNA was digested in each reaction
Digestion Reactions
Mira Strep N Mira Strep C Brazz Strep N Brazz Strep C STOP+V0120 BioBrick
diH2O 15 14.5 13.5 11.5 6
Green FD buffer (10x) 2 2 2 2 2
DNA 1 1.5 2.5 4.5 10
EcoR1 1 1 1 1 1
Xba1 - - - - 1
Spe1 1 1 1 1 -


Digestion of Mira/Brazz+Strep and STOP codon BioBrick
Strep+mirabrazz STOP gel.jpg

  • Circled bands were cut and gel purified
   Miraculin + StrepII = 730 bp
   Brazzein + StrepII = 230 bp
   STOP + V0120 = 3200 bp


  1. 1kb Plus Ladder
  2. Miraculin C Strep E/S
  3. Miraculin N Strep E/S
  4. Brazzein C Strep E/S
  5. Brazzein N Strep E/S
  6. STOP + V0120 E/X
  7. 1kb Plus Ladder
   Gel Purification Specs
   Mira N StrepII E/S: 3.0 ng/μL
   Mira C StrepII E/S: 2.8 ng/μL
   Brazz N StrepII E/S: 3.4 ng/μL
   Brazz C StrepII E/S: 1.3 ng/μL
   STOP+V0120 BB E/X: 7.1 ng/μL


Ligation of Mira/Brazz+Strep and STOP codon BioBrick

Ligation Reactions
Mira StrepII N + STOP w/ v0120 BB Mira StrepII C + STOP w/ v0120 BB Brazz StrepII N + STOP w/ v0120 BB Brazz StrepII C + STOP w/ v0120 BB Control STOP w/ v0120 BB
diH2O 4.5 4.5 9 5 12
T4 DNA ligase buffer (10x) 2 3 2 2 2
DNA Insert 7.5 7.5 2 6 0
DNA Backbone 5 5 6 6 5
T4 DNA ligase 1 1 1 1 1


Transformation

  • Transformed 5 μL ligation mix with 15 μL TURBO e. coli cells
  • Plated on LB + Amp plates and left in 37°C incubator overnight

07-15-2010 [ top ]

Miraculin/Brazzein YFP N/C and NosT + Stop in V24 DUET vector

  • Made glycerol stocks (666 μL glycerol and 333 μL cells)
   ODs
    Miraculin C1: 168.8 ng/μL
    Miraculin C2: 67.2 ng/μL
    Miraculin N1: 183.0 ng/μL
    Miraculin N2: 173.5 ng/μL
    Brazzein N1: 54.8 ng/μL
    Brazzein N2: 79.0 ng/μL
    Brazzein C1: 161.4 ng/μL
    Brazzein C2: 125.0 ng/μL
Confirmation Digestion Reactions
Mira N1 Mira N2 Mira C1 Mira C2 Brazz N1 Brazz N2 Brazz C1 Brazz C2
diH2O 13.5 13.5 13.5 11 11 11 13.5 13
Green FD buffer (10x) 2 2 2 2 2 2 2 2
DNA 2.5 2.5 2.5 5 5 5 2.5 3
PstI 1 1 1 1 1 1 1 1
Xba1 1 1 1 1 1 1 1 1


Confirmation Digest of Mira/Brazz + YFP + NOSt + STOP in V24 Expression Vector
MiraBrazzConstructConfirm.jpg

  1. Ladder
  2. Mira N1
  3. Mira N2
  4. Mira C1
  5. Mira C2
  6. Brazz N1
  7. Brazz N2
  8. Brazz C1
  9. Brazz C2
  10. Ladder
  • The N & C designation corresponds to the terminus upon which the YFP was fused.
   Expected Lengths
    Miraculin + YFP + NOSt + STOP = 700 + 1500 + 250 = 2450 bp
    Brazzein + YFP + NOSt + STOP = 300 + 1500 + 250 = 2050 bp
    V24 = 5200 bp

07-16-2010 [ top ]

07-19-2010 [ top ]

07-20-2010 [ top ]

07-21-2010 [ top ]

07-22-2010 [ top ]

07-23-2010 [ top ]

07-26-2010 [ top ]

07-27-2010 [ top ]

07-28-2010 [ top ]

07-29-2010 [ top ]

07-30-2010 [ top ]

08-02-2010 [ top ]

08-03-2010 [ top ]

08-04-2010 [ top ]

08-05-2010 [ top ]

08-06-2010 [ top ]

08-09-2010 [ top ]

08-10-2010 [ top ]

08-11-2010 [ top ]

08-12-2010 [ top ]

08-13-2010 [ top ]