Versions Compared

Old Version 160

changes.mady.by.user Unknown User (gary_9@mit.edu)

Saved on

compared with

New Version Current

changes.mady.by.user Unknown User (gary_9@mit.edu)

Saved on

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.
Comment: Migration of unmigrated content due to installation of a new plugin

...

Toggle Cloak
miRNA Detection

 

 

5.

Cloak

L7ae Repression

Attempt #1

GOAL: Test the strength of L7ae

3 complete 7/14/14: Seed cells 22 complete 7/15/14: Transfect MAV1212-hEF1a-eBFP2 (1084.0 ng/uL), Mutant hEF1a-2xKturn-eGFP (551.4 ng/uL) and Wild Type hEF1a-2xKturn-eGFP (287.0 ng/uL) into HEK cells 0 complete 7/17/14 (12 pm): Flow Cytometer

 

  • DNA Dilution: 5 uL MAV1212-hEF1a-eBFP2, 10 uL Mutant Hef1a-2xKturn-eGFP, 20 uL Wild Type Hef1a-2xKturn-eGFP


24-WELL PLATE TRANSFECTION MAP:

(B)1

  • MAV1212-hEF1a-eBFP2

(B)2

  • MAV1212-hEF1a-eBFP2
////////////////////////

(GM)1

  • Mutant Hef1a-2xKturn-eGFP

(GM)2

  • Mutant Hef1a-2xKturn-eGFP

(GM + B)1

  • Mutant Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2

(GM + B)2

  • Mutant Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2

(GM + B + L)1

  • Mutant Hef1a-2xKturn-eGFP
  • Wild Type Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2

(GM + B + L)2

  • Mutant Hef1a-2xKturn-eGFP
  • Wild Type Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2

(GWT)1

  • Wild Type Hef1a-2xKturn-eGFP

(GWT)2

  • Wild Type Hef1a-2xKturn-eGFP


(GWT + B)1

  • Wild Type Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2

(GWT + B)2

  • Wild Type Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2

(GWT + B + L)1

  • Wild Type Hef1a-2xKturn-eGFP
  • Mutant Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2

(GWT + B + L)2

  • Wild Type Hef1a-2xKturn-eGFP
  • Mutant Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2

Neg Ctrl

  • Dummy DNA
  • With Lipofectamine


Neg Ctrl

  • Dummy DNA
  • With Lipofectamine


Neg/Neg Ctrl

  • No DNA
  • No Lipofectamin

Neg/Neg Ctrl

  • No DNA
  • No Lipofectamine
////////////


RESULT: Inconclusive. No L7ae was added.


Attempt #2

2 complete 7/16/14: Seed cells 1 complete 7/17/14: Transfect MAV1212-hEF1a-eBFP2 (1084.0 ng/uL), Mutant hEF1a-2xKturn-eGFP (551.4 ng/uL) and Wild Type hEF1a-2xKturn-eGFP (287.0 ng/uL), MAV1212-hEF1a-L7ae (1686.4 ng/uL) into HEK cells 7 complete 7/19/14 (10 am): Flow Cytometer

 

  • DNA Dilution: 5 uL MAV1212-hEF1a-eBFP2, 10 uL Mutant Hef1a-2xKturn-eGFP, 20 uL Wild Type Hef1a-2xKturn-eGFP, 3 uL MAV1212-hEF1a-L7ae

24-WELL PLATE TRANSFECTION MAP:

(B)1

  • MAV1212-hEF1a-eBFP2

(B)2

  • MAV1212-hEF1a-eBFP2
////////////////////////

(GM)1

  • Mutant Hef1a-2xKturn-eGFP

(GM)2

  • Mutant Hef1a-2xKturn-eGFP

(GM + B)1

  • Mutant Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2

(GM + B)2

  • Mutant Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2

(GM + B + L)1

  • Mutant Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2
  • MAV1212-hEF1a-L7ae

(GM + B + L)2

  • Mutant Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2
  • MAV1212-hEFa-L7ae

(GWT)1

  • Wild Type Hef1a-2xKturn-eGFP

(GWT)2

  • Wild Type Hef1a-2xKturn-eGFP


(GWT + B)1

  • Wild Type Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2

(GWT + B)2

  • Wild Type Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2

(GWT + B + L)1

  • Wild Type Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2
  • MAV1212-hEFa1-L7ae

(GWT + B + L)2

  • Wild Type Hef1a-2xKturn-eGFP
  • MAV1212-hEF1a-eBFP2
  • MAV1212-hEF1a-L7ae

Neg Ctrl

  • Dummy DNA
  • With Lipofectamine


Neg Ctrl

  • Dummy DNA
  • With Lipofectamine


Neg/Neg Ctrl

  • No DNA
  • No Lipofectamin

Neg/Neg Ctrl

  • No DNA
  • No Lipofectamine
////////////


RESULT: Inconclusive: Too much DNA in each well.


Attempt #3

17 complete 7/24/14: Seed cells 18 complete 7/25/14: Transfect MAV1212-hEF1a-eBFP2, Mutant hEF1a-2xKturn-eGFP, Wild Type hEF1a-2xKturn-eGFP, MAV1212-hEF1a-L7ae, hEF1a-PirB (dummy DNA) all at ~500 ng/uL into HEK cells 19 complete 7/27/14 (10 am): Flow Cytometry
  • DNA Dilution: MAV1212-hEF1a-eBFP2 (0.47 uL), Wild Type CAG-2xKturn-eGFP (0.96 uL), Mutant CAG-2xKturn-eGFP (0.96 uL), MAV1212-hEF1a-L7ae (0.71 uL), hEF1a-PirB (to 1 ug)

24-WELL PLATE TRANSFECTION MAP:

1. (B)1

MAV1212-hEF1a-eBFP2 (1.0 fmole)

hEF1a-PirB (1.5 fmole = 1.60 uL)

2. (B)2

MAV1212-hEF1a-eBFP2 (1.0 fmole)

hEF1a-PirB (1.5 fmole = 1.60 uL)

////////////////////////

3. (GWT + B)1

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

hEF1a-PirB (1.0 fmole = 0.99 uL)

4. (GWT + B)2

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

hEF1a-PirB (1.0 fmole = 0.99 uL)

5. (GWT + B + L)1

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

MAV1212-hEF1a-L7ae (1.5 fmoles)

6. (GWT + B + L)2

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

MAV1212-hEF1a-L7ae (1.5 fmoles)

////////////

7. (GM + B)1

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Multant CAG-2xKturn-eGFP (1.5 fmoles)

hEF1a-PirB (1.0 fmole = 0.99 uL)

8. (GM + B)2

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Multant CAG-2xKturn-eGFP (1.5 fmoles)

hEF1a-PirB (1.0 fmole = 0.99 uL)

9. (GM + B + L)1

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Multant CAG-2xKturn-eGFP (1.5 fmoles)

MAV1212-hEF1a-L7ae (1.5 fmoles)

10. (GM + B + L)2

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Multant CAG-2xKturn-eGFP (1.5 fmoles)

MAV1212-hEF1a-L7ae (1.5 fmoles)

////////////

11. Neg Ctrl

hEF1a-PirB (3.2 fmoles = 2.05 uL)

With Lipofectamine


12. Neg Ctrl

hEF1a-PirB (3.2 fmoles = 2.05 uL)

With Lipofectamine


13. Neg/Neg Ctrl

No DNA

No Lipofectamine

14. Neg/Neg Ctrl

No DNA

No Lipofectamine

////////////


RESULT: Transfection efficiency ___%. Data is available

 L7ae Tuning

GOAL: Test the sensitivity of L7ae repression

21 complete Day One: Seed cells 28 complete Day Two: Transfect MAV1212-hEF1a-eBFP2, Wild Type hEF1a-2xKturn-eGFP, MAV1212-hEF1a-L7ae, pEXPR: hEF1a-rtTA (169.0 ng/uL), GG-Donor (dummy DNA) all at ~500 ng/uL into HEK cells 29 complete Day Three: DOX Induction 30 complete Day Four (___ am): Flow Cytometry
  • DNA Dilution: MAV1212-hEF1a-eBFP2 (0.47 uL), Wild Type CAG-2xKturn-eGFP (0.96 uL), MAV1212-TRE-L7ae (0.89 uL), pEXPR: hEF1a-rtTA (0.27 uL), GG-Donor (to 1 ug)

24-WELL PLATE TRANSFECTION MAP:

1.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Dummy DNA (1.75 fmole = 1.62 uL)

2.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Dummy DNA (1.75 fmole = 1.62 uL)

3.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

Dummy DNA (0.75 fmole = 0.70 uL)

4.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

Dummy DNA (0.75 fmole = 0.70 uL)

 

 

//////

 

 

//////

5.

pEXPR: hEF1a-rtTA

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

MAV1212-TRE-L7ae (1.5 fmoles)

0 uM DOX

6.

pEXPR: hEF1a-rtTA

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

MAV1212-TRE-L7ae (1.5 fmoles)

1X DOX

7.

pEXPR: hEF1a-rtTA

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

MAV1212-TRE-L7ae (1.5 fmoles)

10X DOX

8.

pEXPR: hEF1a-rtTA

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

MAV1212-TRE-L7ae (1.5 fmoles)

100X DOX

9.

pEXPR: hEF1a-rtTA

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

MAV1212-TRE-L7ae (1.5 fmoles)

1000X DOX

10.

pEXPR: hEF1a-rtTA

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

MAV1212-TRE-L7ae (1.5 fmoles)

2000X DOX

////////////////////////////////////

11.

Dummy DNA (1 ug = ___ uL)

With Lipofectamine


12.

Dummy DNA (1 ug = ___ uL)

With Lipofectamine


13.

No DNA

No Lipofectamine

14.

No DNA

No Lipofectamine

 

//////

 

//////


RESULT:Transfection efficiency ___%. Data can be found .

 L7ae Quantification

GOAL: Use TASBE tools to quantify the repression of L7ae

32 complete 8/7/14: Seed cells 9 complete 8/8/14: Transfect hEF1a-rtTA (200.0 ng/uL), TRE-L7ae (200 ng/uL), Wild Type 2x-Kturn eGFP (200 ng/uL), TRE-mKate (200.0 ng/ uL), hEF1a-eBFP (200.0 ng/uL), hEF1a-mKate (200.0 ng/uL), hEF1a-eYFP (200.0 ng/uL), and GG Donor (200 ng/uL) into HEK cells 31 complete 8/10/14: (2 pm): Flow Cytometer

 

  • DNA Dilution: hEF1a-rtTA (0.60 uL), TRE-L7ae (1.48 uL), Wild Type 2x-Kturn eGFP (1.19 uL), TRE-mKate (1.0 uL), hEF1a-eBFP (0.93 uL), hEF1a-mKate (0.93 uL), hEF1a-eYFP (0.93 uL)

24-WELL PLATE TRANSFECTION MAP:

1. Neg Ctrl

Dummy DNA

With Lipofectamine


2. Neg Ctrl

Dummy DNA

With Lipofectamine


3. Neg/Neg Ctrl

No DNA

No Lipofectamine

4. Neg/Neg Ctrl

No DNA

No Lipofectamine

  

5.

pEXPR: hEF1a-eYFP (1.0 fmoles)

Dummy DNA (1.5 fmoles = 4.4 uL)

 

6.

pEXPR: hEF1a-mKate (1.0 fmoles)

Dummy DNA (1.5 fmoles = 4.4 uL)

7.

pEXPR: hEF1a-eBFP (1.0 fmoles)

Dummy DNA (1.5 fmoles = 4.4 uL)

8.

pEXPR: hEF1a-eYFP (1.0 fmoles)

pEXPR: hEF1a-mKate (1.0 fmoles)

pEXPR: hEF1a-eBFP (1.0 fmoles)

Dummy DNA (0.75 fmoles = 2.2 uL)

9.

hEF1a-eBFP2 (0.5 fmole)

Wild Type CAG-2xKturn-eGFP (1.0 fmoles)

Dummy DNA (1.5 fmoles = 2.4 uL)

 

      

10.

pEXPR: hEF1a-rtTA (1.0 fmoles)

hEF1a-eBFP2 (0.5 fmole)

Wild Type CAG-2xKturn-eGFP (1.0 fmoles)

MAV1212-TRE-L7ae (1.0 fmoles)

pEXPR: TRE-mKate (1.0 fmoles)

0 uM DOX

11.

pEXPR: hEF1a-rtTA (1.0 fmoles)

hEF1a-eBFP2 (0.5 fmole)

Wild Type CAG-2xKturn-eGFP (1.0 fmoles)

MAV1212-TRE-L7ae (1.0 fmoles)

pEXPR: TRE-mKate (1.0 fmoles)

1X DOX

12.

pEXPR: hEF1a-rtTA 1.0 fmoles)

hEF1a-eBFP2 (0.5 fmole)

Wild Type CAG-2xKturn-eGFP (1.0 fmoles)

MAV1212-TRE-L7ae (1.0 fmoles)

pEXPR: TRE-mKate (1.0 fmoles)

10X DOX

13.

pEXPR: hEF1a-rtTA (1.0 fmoles)

hEF1a-eBFP2 (0.5 fmole)

Wild Type CAG-2xKturn-eGFP (1.0 fmoles)

MAV1212-TRE-L7ae (1.0 fmoles)

pEXPR: TRE-mKate (1.0 fmoles)

100X DOX

14.

pEXPR: hEF1a-rtTA (1.0 fmoles)

hEF1a-eBFP2 (0.5 fmole)

Wild Type CAG-2xKturn-eGFP (1.0 fmoles)

MAV1212-TRE-L7ae (1.0 fmoles)

pEXPR: TRE-mKate (1.0 fmoles)

1000X DOX

15.

pEXPR: hEF1a-rtTA (1.0 fmoles)

hEF1a-eBFP2 (0.5 fmole)

Wild Type CAG-2xKturn-eGFP (1.0 fmoles)

MAV1212-TRE-L7ae (1.0 fmoles)

pEXPR: TRE-mKate (1.0 fmoles)

2000X DOX


RESULT: Transfection efficiency ___%. Data can be found

 L7ae Sensors (without siRNA)

GOAL: Test the sensors in absence of siRNA

10 complete 8.11.14: Seed cells 11 complete 8.12.14: Transfect 1 fmole of Low Sensor miR-144, Low Sensor miR-181c, High Sensor miR-30d, High Sensor miR-146a, High Sensor 125b, and High Sensor let-7f and 0.5 fmoles of pEXPR: hEF1a-mKate all at 200 ng/uL into HEK cells in addition to Dummy DNA (GG Donor) to fill the wells to 1 ug 12 incomplete complete 8.14.14: (4 pm): Flow Cytometer

 

  • DNA Dilution: hEF1a-mKate (0.46 uL), Wild Type Kturn-eGFP (1.19 uL), Low Sensor miR-144 (1.29 uL),Low Sensor miR-181c (1.29 uL), High Sensor miR-30d (1.37 uL), High Sensor miR-146a (1.37 uL), High Sensor 125b (1.37 uL), High Sensor let-7f (1.37 uL)


24-WELL PLATE TRANSFECTION MAP:

 

1. miR-144

pEXPR: hEF1a-mKate

Low Sensor miR-144

Dummy DNA (2.9 uL = 1 fmoles)

2. miR-181c

pEXPR: hEF1a-mKate 

Low Sensor miR-181c

Dummy DNA (2.9 uL = 1 fmoles)

3. miR-30d

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-30d

Dummy DNA (2.2 uL = 0.75 fmoles)

4. miR-146a

pEXPR: hEF1a-mKate 

Wild Type CAG-2xKturn-eGFP

High Sensor miR-146a

Dummy DNA (2.2 uL = 0.75 fmoles)

5. miR-125b

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-125b

Dummy DNA (2.2 uL = 0.75 fmoles)

6. let-7f

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor let-7f

Dummy DNA (2.2 uL = 0.75 fmoles)

1. miR-144

pEXPR: hEF1a-mKate

Low Sensor miR-144

Dummy DNA (2.9 uL = 1 fmoles)

2. miR-181c

pEXPR: hEF1a-mKate 

Low Sensor miR-181c

Dummy DNA (2.9 uL = 1 fmoles)

3. miR-30d

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-30d

Dummy DNA (2.2 uL = 0.75 fmoles)

4. miR-146a

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-146a

Dummy DNA (2.2 uL = 0.75 fmoles)

5. miR-125b

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-125b

Dummy DNA (2.2 uL = 0.75 fmoles)

6. let-7f

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor let-7f (

Dummy DNA (2.2 uL = 0.75 fmoles)

//////

//////

////////////////////////

13.

pEXPR: hEF1a-mKate

Dummy DNA (5.1uL = 1.75 fmoles)

13.

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

Dummy DNA (3.6 uL = 1.25 fmoles)

19.

Dummy DNA

With Lipofectamine

20.

Dummy DNA

With Lipofectamine

21.

No DNA

No Lipofectamine

22.

No DNA

No Lipofectamine


 

RESULT: Transfection efficiency ___%. Data can be found .

 L7ae Sensors (with siRNA)

GOAL: Test the sensors in the presence of siRNA

-1 incomplete 33 complete 8.12.14: Seed cells 34 complete 8.13.14: Transfect 1 fmole of Low Sensor miR-144, Low Sensor miR-181c, High Sensor miR-30d, High Sensor miR-146a, High Sensor 125b, and High Sensor let-7f and 0.5 fmoles of pEXPR: hEF1a-mKate all at 200 ng/uL into HEK cells in addition to Dummy DNA (GG Donor) to fill the wells to 1 ug. 35 incomplete complete 8.15.14: (4 pm): Flow Cytometer
  • DNA Dilution: hEF1a-mKate (0.46 uL), Wild Type Kturn-eGFP (1.19 uL), Low Sensor miR-144 (1.29 uL),Low Sensor miR-181c (1.29 uL), High Sensor miR-30d (1.37 uL), High Sensor miR-146a (1.37 uL), High Sensor 125b (1.37 uL), High Sensor let-7f (1.37 uL), 5 uL Mature 144, 5 uL Mature 181c, 5 uL Mature 30d, 5 uL Mature 146a, 5 uL Mature 125b and 5 uL Mature let-7f


24-WELL PLATE TRANSFECTION MAP:

1. miR-144

pEXPR: hEF1a-mKate

Low Sensor miR-144

siRNA-144

Dummy DNA (2.9 uL = 1 fmoles)

2. miR-181c

pEXPR: hEF1a-mKate 

Low Sensor miR-181c

siRNA-181c

Dummy DNA (2.9 uL = 1 fmoles)

3. miR-30d

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-30d

siRNA-30d

Dummy DNA (2.2 uL = 0.75 fmoles)

4. miR-146a

pEXPR: hEF1a-mKate 

Wild Type CAG-2xKturn-eGFP

High Sensor miR-146a

siRNA-146a

Dummy DNA (2.2 uL = 0.75 fmoles)

5. miR-125b

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-125b

siRNA-125b

Dummy DNA (2.2 uL = 0.75 fmoles)

6. let-7f

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor let-7f

siRNA-7f

Dummy DNA (2.2 uL = 0.75 fmoles)

1. miR-144

pEXPR: hEF1a-mKate

Low Sensor miR-144

siRNA-144

Dummy DNA (2.9 uL = 1 fmoles)

2. miR-181c

pEXPR: hEF1a-mKate 

Low Sensor miR-181c

siRNA-181c

Dummy DNA (2.9 uL = 1 fmoles)

3. miR-30d

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-30d

siRNA-30d

Dummy DNA (2.2 uL = 0.75 fmoles)

4. miR-146a

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-146a

siRNA-46a

Dummy DNA (2.2 uL = 0.75 fmoles)

5. miR-125b

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-125b

siRNA-125b

Dummy DNA (2.2 uL = 0.75 fmoles)

6. let-7f

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor let-7f

siRNA-7f

Dummy DNA (2.2 uL = 0.75 fmoles)

//////

//////

////////////////////////

13.

pEXPR: hEF1a-mKate

Dummy DNA (5.1uL = 1.75 fmoles)

13.

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

Dummy DNA (3.6 uL = 1.25 fmoles)

19.

Dummy DNA

With Lipofectamine

20.

Dummy DNA

With Lipofectamine

21.

No DNA

No Lipofectamine

22.

No DNA

No Lipofectamine



RESULT: Transfection efficiency ___%. Data can be found .

L7ae Sensors (with and without siRNA)

GOAL: Test the sensors in the presence and absence of siRNA

-1 incomplete 14 incomplete Day 1: Seed cells 15 incomplete Day 2: Transfect 1 fmole of Low Sensor miR-144, Low Sensor miR-181c, High Sensor miR-30d, High Sensor miR-146a, High Sensor 125b, and High Sensor let-7f and 0.5 fmoles of pEXPR: hEF1a-mKate all at 200 ng/uL into HEK cells in addition to Dummy DNA (GG Donor) to fill the wells to 1 ug. 16 incomplete Day 4: (___ pm): Flow Cytometer
  • DNA Dilution: hEF1a-mKate (0.46 uL), Wild Type Kturn-eGFP (1.19 60 uL), Low Sensor miR-144 (1.29 uL),Low Sensor miR-181c (1.29 39 uL), High Sensor miR-30d (1.37 01 uL), High Sensor miR-146a (1.37 16 uL), High Sensor 125b (1.37 47 uL), High Sensor let-7f (1.37 uL), 5 uL Mature 144, 5 uL Mature 181c, 5 uL Mature 30d, 5 uL Mature 146a, 5 uL Mature 125b and 5 uL Mature let-7f


24-WELL PLATE TRANSFECTION MAP:

1. miR-144

pEXPR: hEF1a-mKate

Low Sensor miR-144

Dummy DNA (2.9 uL = 1 fmoles)

2. miR-181c

pEXPR: hEF1a-mKate 

Low Sensor miR-181c

Dummy DNA (2.9 uL = 1 fmoles)

3. miR-30d

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-30d

Dummy DNA (2.2 uL = 0.75 fmoles)

4. miR-146a

pEXPR: hEF1a-mKate 

Wild Type CAG-2xKturn-eGFP

High Sensor miR-146a

Dummy DNA (2.2 uL = 0.75 fmoles)

5. miR-125b

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-125b

Dummy DNA (2.2 uL = 0.75 fmoles)

6. let-7f

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor let-7f

Dummy DNA (2.2 uL = 0.75 fmoles)

1. miR-144

pEXPR: hEF1a-mKate

Low Sensor miR-144

siRNA-144

Dummy DNA (2.9 uL = 1 fmoles)

2. miR-181c

pEXPR: hEF1a-mKate 

Low Sensor miR-181c

siRNA-181c

Dummy DNA (2.9 uL = 1 fmoles)

3. miR-30d

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-30d

siRNA-30d

Dummy DNA (2.2 uL = 0.75 fmoles)

4. miR-146a

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-146a

siRNA-146a

Dummy DNA (2.2 uL = 0.75 fmoles)

5. miR-125b

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miR-125b

siRNA-125b

Dummy DNA (2.2 uL = 0.75 fmoles)

6. let-7f

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor let-7f

siRNA-7f

Dummy DNA (2.2 uL = 0.75 fmoles)

//////

//////

////////////////////////

13.

pEXPR: hEF1a-mKate

Dummy DNA (5.1uL = 1.75 fmoles)

13.

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP (1.5 fmoles)

Dummy DNA (3.6 uL = 1.25 fmoles)

19.

Dummy DNA

With Lipofectamine

20.

Dummy DNA

With Lipofectamine

21.

No DNA

No Lipofectamine

22.

No DNA

No Lipofectamine



RESULT: Transfection efficiency ___%. Data can be found .


 L7ae Sensors (from Jeremy GamMulti Input)

GOAL: Test the sensors in the presence and absence of siRNA

13 -1 incomplete 20 incomplete Day 1 complete 9.23.14Seed cells 42 incomplete Day 2 complete 9.24.14: Transfect 1 fmole of Low Sensor miR-144, Low Sensor miR-181c, High Sensor miR-30d, High Sensor miR-146a, High Sensor 125b, and High Sensor let-7f and 0.5 fmoles of pEXPR: hEF1a-mKate all at 200 ng/uL into HEK cells in addition to Dummy DNA (GG Donor) to fill the wells to 1 ug. 43 incomplete Day 4 complete 9.26.14: (___ pm): Flow CytometerCytometry
  • DNA Dilution: hEF1a-mKate (0.46 uL), Wild Type Kturn-eGFP (1.19 uL), Low Sensor miR-144 (1.29 uL),Low Sensor miR-181c (1.29 uL),High Sensor miR-30d (1.37 uL), High Sensor miR-146a (1.37 uL), High Sensor 125b (1.37 uL), High Sensor let-7f (1.37 uL), 5 uL Mature 144, 5 uL Mature 181c, 5 uL Mature 30d, 5 uL Mature 146a, 5 uL Mature 125b and 5 uL Mature let-7f, 5 uL Mature 144, 5 uL Mature 30d


24-WELL PLATE TRANSFECTION MAP:

 

 

miR-146a

Wild Type CAG-2xKturn-eGFP

mKate 146a 2 0.75 2. miR-181cmKate 181c

siRNA-181c

Dummy DNA (2.9 uL = 1 fmoles)

mKateWild Type CAG-2xKturn-eGFP 146a siRNA-46a2 0.75 //////22.

No DNA

No Lipofectamine

1. miR-144

pEXPR: hEF1a-mKate

Low Sensor miR-144

Untransfected

 Dummy DNA (2.9 uL = 1 fmoles)

2. miR-181c

pEXPR: hEF1a-mKate 

Low Sensor miR-181c 144c

Dummy DNA (2.9 uL = 1 fmoles)

 

 

//////



//////



//////



//////

3.

pEXPR

3. miR-30d

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Low Sensor miR-30d144

Dummy DNA (2.2 9 uL = 0.75 1 fmoles)

4.

pEXPR: hEF1a-

mKate 

High Sensor miR-

30d

Dummy DNA (2.

9 uL =

1 fmoles)5

5. miR-125b

pEXPR: hEF1a-mKate

Low Sensor miR-144

High Sensor miR-30d

Wild Type CAG-2xKturn-eGFP

6.

pEXPR: hEF1a-mKate

Low High Sensor miR-125b

Dummy DNA (2.2 uL = 0.75 fmoles)

6. let-7f

144

High Sensor miR-30d

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor letsiRNA-7f

Dummy DNA (2.2 uL = 0.75 fmoles)

1. miR-144

30d

7.

pEXPR: hEF1a-mKate

Low Sensor miR-144

High Sensor miR-30d

Wild Type CAG-2xKturn-eGFP

siRNA-144

Dummy DNA (2.9 uL = 1 fmoles)

8.

pEXPR: hEF1a-

mKate

Low Sensor miR-

144

High Sensor 3. miR-30d

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP

High Sensor miRsiRNA-30d

siRNA-30d

Dummy DNA (2.2 uL = 0.75 fmoles)

4. miR-146a

144

//////

9.

pEXPR: hEF1a-

mKate 

High Sensor miR-

125b

Dummy DNA (2.

9 uL =

1 fmoles)5

510. miR-125b

pEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP Low Sensor miR-125b

High Sensor miR-125b

siRNA-125b

Dummy DNA (2.2 uL = 0.75 fmoles)

6. let-7f

30d

Wild Type CAG-2xKturn-eGFP

11.

pEXPR: hEF1a-mKate

Low Sensor miR-125b

High Sensor miR-30d

Wild Wild Type CAG-2xKturn-eGFP

High Sensor let-7f

siRNA-7f

Dummy DNA (2.2 uL = 0.75 fmoles)

//////

//////

//////////////////

30d

12.

pEXPR: hEF1a-mKate

Low Sensor miR-125b

High Sensor miR-30d

Wild Type CAG-2xKturn-eGFP

siRNA-125b

13.

pEXPR: hEF1a-mKate Dummy DNA (5.1uL = 1.75 fmoles)

13.

Low Sensor miR-125b

High Sensor miR-30dpEXPR: hEF1a-mKate

Wild Type CAG-2xKturn-eGFP(1.5 fmoles)

siRNA-30d

siRNA-125b

//////

14.

pEXPR: hEF1a-mKate 

High Sensor miR-181c

Dummy DNA (32.6 9 uL = 1 .25 fmoles)5

1915.

Dummy DNA

With Lipofectamine

20.

Dummy DNA

With Lipofectamine

21.

No DNA

No Lipofectamine

RESULT: Transfection efficiency ___%. Data can be found . TAL14 Repression

pEXPR: hEF1a-mKate

Low Sensor miR-144

High Sensor miR-181c

Wild Type CAG-2xKturn-eGFP

16.

pEXPR: hEF1a-mKate

Low Sensor miR-144

High Sensor miR-181c

Wild Type CAG-2xKturn-eGFP

siRNA-181c

17.

pEXPR: hEF1a-mKate

Low Sensor miR-144

High Sensor miR-181c

Wild Type CAG-2xKturn-eGFP

siRNA-144

18.

pEXPR: hEF1a-mKate

Low Sensor miR-144

High Sensor miR-181c

Wild Type CAG-2xKturn-eGFP

siRNA-181c

siRNA-144

      


RESULT: Transfection efficiency ___%. Data can be found .

TAL14 Repression

GOAL: Test the strength of TAL14

44 complete 7/25/14: Seed cells 45 complete 7/26/14: Transfect MAV1212-hEF1a-eBFP2, TAL14-mKate, hEF1a-GAL4VP16, hEF1a-TAL14, and hEF1a-PirB (dummy DNA) at ~500 ng/uL into HEK cells 46 complete 7/28/14 (4 pm): Flow Cytometry

 

  • DNA Dilution: MAV1212-hEF1a-eBFP2 (0.47 uL), TAL14-mKate (0.62 uL), hEF1a-GAL4VP16 (0.72 uL), hEF1a-TAL14 (___ uL), Dummy DNA (to 1 ug)


24-WELL PLATE TRANSFECTION MAP:

1. (B)1

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Dummy DNA (2.5 fmoles = 0.76 uL)

2. (B

GOAL: Test the strength of TAL14

44 complete 7/25/14: Seed cells 45 complete 7/26/14: Transfect MAV1212-hEF1a-eBFP2, TAL14-mKate, hEF1a-GAL4VP16, hEF1a-TAL14, and hEF1a-PirB (dummy DNA) at ~500 ng/uL into HEK cells 46 complete 7/28/14 (4 pm): Flow Cytometry

 

  • DNA Dilution: MAV1212-hEF1a-eBFP2 (0.47 uL), TAL14-mKate (0.62 uL), hEF1a-GAL4VP16 (0.72 uL), hEF1a-TAL14 (___ uL), Dummy DNA (to 1 ug)

24-WELL PLATE TRANSFECTION MAP:

1. (B)1

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Dummy DNA (2.5 fmoles = 0.76 uL)

2. (B)2

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Dummy DNA (2.5 fmoles = 0.76 uL)

////////////

//////

 

3. Neg Ctrl

Dummy DNA (3.2 fmoles = 2.05 uL)

With Lipofectamine

4. (B + R)1

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

Dummy DNA (2.0 fmoles = 0.61 uL)

5. (B + R)2

MAV1212-hEF1a-eBFP2 (1.0 fmole)UAS-TAL14-mKate (1.5 fmoles)

Dummy DNA (2.0 5 fmoles = 0.61 76 uL)

////////////

//////

 

36. Neg Ctrl

Dummy DNA (3.2 fmoles = 2.05 uL)

With Lipofectamine

74. (B + R + GAL)1

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.5 fmoles)

Dummy DNA (2.0 fmoles = 0.61 uL)

58. (B + R + GAL)2

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)hEF1a-Gal4VP16 (1.5 fmoles

Dummy DNA (2.0 fmoles = 0.61 uL)

//////

////// //////

96. Neg /Neg Ctrl

No DNA

No Lipofectamine

Dummy DNA (3.2 fmoles = 2.05 uL)

With Lipofectamine

710. (B + R + GAL)1

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.5 fmoles)

hEF1a-TAL14 (1.5 fmoles)

11. 8. (B + R + GAL)2

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.5 fmoles)hEF1a-TAL14 (1.5 fmoles)

//////

//////

 

//////12

9. Neg/Neg Ctrl

No DNA

No Lipofectamine

 

Results: Transfection efficiency ___%. Data can be found  TAL14 Tuning

GOAL: Determine how much TAL14 is needed to repress TAL14-UAS-mKate

26 complete Day One: Seed cells 27 complete Day Two: Transfect MAV1212-hEF1a-eBFP2, TAL14-mKate, hEF1a-GAL4VP16, hEF1a-TAL14, and hEF1a-PirB (dummy DNA) at ~500 ng/uL into HEK cells 25 complete Day Four (12:30 pm): Flow Cytometry

 

DNA Dilution:

10. (B + R + GAL)1

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.5 fmoles)

hEF1a-TAL14 (1.5 fmoles)

11. (B + R + GAL)2

MAV1212-hEF1a-eBFP2 (1.0

.47 uL),

fmole)

UAS-TAL14-mKate (

0

1.

62 uL

5 fmoles)

,

hEF1a-

GAL4VP16

Gal4VP16 (

0

1.

72 uL

5 fmoles)

,

hEF1a-TAL14 (

0.22 uL = 1 fmol), Dummy DNA (to 1 ug)

24-WELL PLATE TRANSFECTION MAP:

1. 

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Dummy DNA (1.75 fmoles = 4.06 uL)

2. 

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Dummy DNA (1.75 fmoles = 04.06 uL)

3.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

Dummy DNA (1.0 fmoles = 2.32 uL)

4.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

Dummy DNA (1.0 fmoles = 2.32 uL)

1.5 fmoles)

//////

////////////12. Neg/Neg Ctrl

No DNA

No Lipofectamine

 

Results: Transfection efficiency ___%. Data can be found

 TAL14 Tuning

GOAL: Determine how much TAL14 is needed to repress TAL14-UAS-mKate

26 complete Day One: Seed cells 27 complete Day Two: Transfect MAV1212-hEF1a-eBFP2, TAL14-mKate, hEF1a-GAL4VP16, hEF1a-TAL14, and hEF1a-PirB (dummy DNA) at ~500 ng/uL into HEK cells 25 complete Day Four (12:30 pm): Flow Cytometry

 

  • DNA Dilution: MAV1212-hEF1a-eBFP2 (
1
  • 0.
0 fmole)UAS-
  • 47 uL), TAL14-mKate (
1
  • 0.
5 fmoles
  • 62 uL)
  • , hEF1a-
Gal4VP16
  • GAL4VP16 (
1
  • 0.
5 fmoles)Dummy DNA
  • 72 uL), hEF1a-TAL14 (0.
75 fmoles
  • 22 uL = 1 fmol), Dummy DNA (to 1 ug)


24-WELL PLATE TRANSFECTION MAP:

.74 uL)

6.

UAS-TAL14-mKate 5 7hEF1a-Gal4VP16 )

hEF1a-TAL14 (1.0 fmoles)

3

1. 

MAV1212-hEF1a-eBFP2 (1.0 fmole)

Dummy DNA (1.

75 fmoles = 4.06 uL)

2. 

MAV1212-hEF1a-Gal4VP16 eBFP2 (1.5 fmoles0 fmole)

Dummy DNA (01.75 fmoles = 104.74 06 uL)

3.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

Dummy DNA (1.0 fmoles

= 2.32 uL)

4

8.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)hEF1a-Gal4VP16

Dummy DNA (1.0 fmoles = 2.32 uL)hEF1a-TAL14 (1.

5 fmoles)9.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 5 fmoles)

hEF1a-TAL14 (2.0 fmoles)

Dummy DNA (0.75 fmoles = 1.74 uL)

610.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 5 fmoles)

hEF1a-TAL14 (2.5 fmoles)

11

Dummy DNA (0.75 fmoles = 1.74 uL)

7.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 fmoles)

hEF1a-TAL14 (

1.0 fmoles)

128.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 fmoles)

hEF1a-TAL14 (31.5 fmoles)

139.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 fmoles)

hEF1a-TAL14 (42.0 fmoles)

1410.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 fmoles)

hEF1a-TAL14 (42.5 fmoles)

1511.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 fmoles)

hEF1a-TAL14 (3.0 fmoles)

12.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 fmoles)

hEF1a-TAL14 (3.5 fmoles)

1613.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 fmoles)

hEF1a-TAL14 (104.0 fmoles)

1714.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 fmoles)

hEF1a-TAL14 (15.0 fmoles)

18.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 fmoles)

hEF1a-TAL14 (20.0 fmoles)

19.

Dummy DNA (3.2 fmoles = 2.05 uL)

With Lipofectamine

20.

Dummy DNA (3.2 fmoles = 2.05 uL)

With Lipofectamine

21.

No DNA

No Lipofectamine

22.

No DNA

No Lipofectamine

  

RESULT: Transfection efficiency ___%. Data can be found here.

Toggle Cloak
Treatment

fmoles)

hEF1a-TAL14 (4.5 fmoles)

15.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 fmoles)

hEF1a-TAL14 (5.0 fmoles)

16.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 fmoles)

hEF1a-TAL14 (10.0 fmoles)

17.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 fmoles)

hEF1a-TAL14 (15.0 fmoles)

18.

MAV1212-hEF1a-eBFP2 (1.0 fmole)

UAS-TAL14-mKate (1.5 fmoles)

hEF1a-Gal4VP16 (1.0 fmoles)

hEF1a-TAL14 (20.0 fmoles)

19.

Dummy DNA (3.2 fmoles = 2.05 uL)

With Lipofectamine

20.

Dummy DNA (3.2 fmoles = 2.05 uL)

With Lipofectamine

21.

No DNA

No Lipofectamine

22.

No DNA

No Lipofectamine

  

RESULT: Transfection efficiency ___%. Data can be found here.

Toggle Cloak
Treatment

Cloak

Testing effectiveness of miRNA1–miRNA4 in down-regulating BACE1 expression v1

A1

    • Hef1a: eBFP 250ng
    • Dummy DNA 750ng


      Positive Control

A2

    • Hef1a: eBFP 250ng
    • Hef1a: BACE1 250ng
    • Dummy DNA 500ng

Negative Control

A3

    • Hef1a: eBFP 250ng
    • TRE: miRNA1-mKATE250ng
    • Hef1a: rtTA 250ng
    • Dummy DNA 250ng

      0 nM Dox

A4

    • Hef1a: eBFP 250ng
    • TRE: miRNA1-mKATE 250ng
    • Hef1a: rtTA 250ng
    • Hef1a: BACE1 250ng

0 nM Dox

A5

    • Hef1a: eBFP 250ng
    • TRE: miRNA1-mKATE 250ng
    • Hef1a: rtTA 250ng
    • Dummy DNA 250ng

      1000 nM Dox

A6

    • Hef1a: eBFP 250ng
    • TRE: miRNA1-mKATE 250ng
    • Hef1a: rtTA 250ng
    • Hef1a: BACE1 250ng

1000 nM Dox

A7

  • Hef1a:mKATE 250ng
  • Hef1a:BFP 250ng
  • Dummy DNA 500ng
     
      
      

Testing inducible expression of BACE2

B1

  • Hef1a:eBFP 333ng
  • Dummy DNA 666ng

Negative Control

B2

  • Hef1a:eBFP 333ng
  • Hef1a:rtTA 333ng
  • TRE:BACE2 333ng

0 nM Dox

B3

  • Hef1a:eBFP 333ng
  • Hef1a:rtTA 333ng
  • TRE:BACE2 333ng

1000 nM Dox

B4

  • No DNA (untransfected)

 

Double negative control

  
      
      
      

Transfection: Week of 8/11

A1

    • Hef1a: eBFP 250ng
    • Dummy DNA 750ng



Negative BACE1 Control

A2

    • Hef1a: eBFP 250ng
    • Hef1a: BACE1 250ng
    • Dummy DNA 500ng

 

Positive BACE1 Control

 A3

    • Hef1a:mKATE 250ng
    • Hef1a:BFP 250ng
    • Dummy DNA 500ng

 

mKATE control

A4

    • Hef1:miRNAg1 250ng
    • Hef1a:BFP 250ng
    • Dummy DNA 500ng

 

miRNA1g control

A5

Cloak
Testing effectiveness of miRNA1–miRNA4 in down-regulating BACE1 expression v1

A1

  • Hef1a: eBFP 250ng
    • Dummy DNA 750ng
    Positive ControlA7mKATE 250ngBFP 250ng 500ng 

    A2

      • Hef1a: eBFP 250ng
      • Hef1a: BACE1 250ng
      • Dummy DNA 500ng

    Negative Control

    A3

      • Hef1a: eBFP 250ng
      • TRE: miRNA1-mKATE250ng
      • Hef1a: rtTA 250ng
      • Dummy DNA 250ng

        0 nM Dox

    A4A6

      • Hef1a: eBFP 250ng
      • TRE: miRNA1-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Hef1a: BACE1 250ng

    0 nM Dox

    A5A7

      • Hef1a: eBFP 250ng
      • TRE: miRNA1-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Dummy DNA 250ng

        1000 nM Dox

    A6A8

      • Hef1a: eBFP 250ng
      • TRE: miRNA1-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Hef1a: BACE1 250ng

    1000 nM Dox

    A9

      • Hef1a:
      • eBFP 250ng
      • TRE: miRNA2-mKATE250ng
      • Hef1a:
      • rtTA 250ng
      • Dummy DNA
      • 250ng

      • 0 nM Dox
    		    
          
          
    Testing inducible expression of BACE2

    A10

    B1

      • Hef1a: eBFP
      • 333ng
    • Dummy DNA 666ng

    Negative Control

      • 250ng
      • TRE: miRNA2-mKATE 250ng

    B2

      Hef1a:eBFP 333ng
      • Hef1a: rtTA
      • 333ng
      • 250ng
      • TRE
      • Hef1a:
      • BACE2 333ng
      • BACE1 250ng

    0 nM Dox

    B3A11

      • Hef1a: eBFP
      • 333ng
      • 250ng
      • TRE: miRNA2-mKATE 250ng
      • Hef1a: rtTA
      • 333ngTRE:BACE2 333ng
      • 250ng
      • Dummy DNA 250ng

        1000 nM Dox

    B4

    • No DNA (untransfected)

     

    Double negative control

    		  
          
          
          
     Transfection: Week of 8/11

    A12

      • Hef1a: eBFP 250ng
      • TRE: miRNA2-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Hef1a: BACE1 250ng

    1000 nM Dox

    A13A1

      • Hef1a: eBFP 250ng
        • Dummy DNA 750ng

    Negative BACE1 Control

    A2

      • Hef1a: eBFP TRE: miRNA3-mKATE250ng
      • Hef1a: BACE1 rtTA 250ng
      • Dummy DNA 500ng

     

    Positive BACE1 Control

     A3

      • Hef1a:mKATE 250ng
      • Hef1a:BFP 250ng
      • Dummy DNA 500ng

     

    mKATE control

    A4

      • Hef1:miRNAg1 250ng
      • Hef1a:BFP 250ng
      • Dummy DNA 500ng

     

    miRNA1g control

      • 250ng

        0 nM Dox

    A14

      • Hef1a: eBFP 250ng
      • TRE: miRNA3-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Hef1a: BACE1 250ng

    0 nM Dox

    A15

      • Hef1a: eBFP 250ng
      • TRE: miRNA3-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Dummy DNA 250ng

        1000 nM Dox

    A16

      • Hef1a: eBFP 250ng
      • TRE: miRNA3-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Hef1a: BACE1 250ng

    1000 nM Dox

    A17A5

      • Hef1a: eBFP 250ng
      • TRE: miRNA1miRNA4-mKATE250ng
      • Hef1a: rtTA 250ng
      • Dummy DNA 250ng

        0 nM Dox

    A6A18

      • Hef1a: eBFP 250ng
      • TRE: miRNA1miRNA4-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Hef1a: BACE1 250ng

    0 nM Dox

    A7A19

      • Hef1a: eBFP 250ng
      • TRE: miRNA1miRNA4-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Dummy DNA 250ng

        1000 nM Dox

    A8A20

      • Hef1a: eBFP 250ng
      • TRE: miRNA1miRNA4-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Hef1a: BACE1 250ng

    1000 nM Dox

    B1

      • Hef1a:eBFP 333ng
      • Dummy DNA 666ng

     

    Negative Control

    B2

      • Hef1a:eBFP 333ng
      • Hef1a:rtTA 333ng
      • TRE:BACE2 333ng

     

    0 nM Dox

    B3

      • Hef1a:eBFP 333ng
      • Hef1a:rtTA 333ng
      • TRE:BACE2 333ng

     

    1000 nM Dox

    B4

      • No DNA (untransfected)

     

     

    Double negative control

     Transfection 9/17

     

    A1

    A9

      • Hef1a: eBFP 250ng
      • TRE: miRNA2-mKATE250ng
        • Hef1a: rtTA
      • Hef1a: eBFP
      • 250ng
      • Dummy DNA
        • 250ng
        0 nM Dox

    A10

      • Hef1a: eBFP 250ng
      • TRE: miRNA2-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Hef1a: BACE1 250ng

    0 nM Dox

      • 750ng



    Negative BACE1 Control

    A2A11

      • Hef1a: eBFP 250ngTRE: miRNA2-mKATE 250ng
      • Hef1a: rtTA BACE1 250ng
      • Dummy DNA 250ng
        1000 nM Dox 500ng

     

    Positive BACE1 Control

     A3A12

      • Hef1a: eBFP 250ngTRE: miRNA2-mKATE 250ng
      • Hef1a: rtTA BFP 250ng
      • Hef1a: BACE1 250ng
      • Dummy DNA 500ng

     

    mKATE control

    A4

    1000 nM Dox

    A13

      • Hef1a: eBFP 250ng 250ng
      • TRE: miRNA3miRNA1-mKATE 250ng 250ng
      • Hef1a: rtTA 250ng 250ng
      • Hef1a: BACE1 Dummy DNA250ng

    0 nM Dox

     

    A14A5

      • Hef1a: eBFP 250ng
      • TRE: miRNA3miRNA1-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Hef1a: BACE1 250ng

    0 1000 nM Dox

    		 A6A15
      • Hef1a: eBFP 250ng
      • TRE: miRNA3miRNA2-mKATE 250ng 250ng
      • Hef1a: rtTA 250ng 250ng
      • Hef1a: BACE1 Dummy DNA 250ng1000

    0 nM Dox

    A16A7

      • Hef1a: eBFP 250ng
      • TRE: miRNA3miRNA2-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Hef1a: BACE1 250ng

    1000 nM Dox

    A17A8

      • Hef1a: eBFP 250ng 250ng
      • TRE: miRNA4miRNA3-mKATE 250ng 250ng
      • Hef1a: rtTA 250ng 250ng
      • Hef1a: BACE1 Dummy DNA250ng

    0 nM Dox

    A18 A9

      • Hef1a: eBFP 250ng
      • TRE: miRNA4miRNA3-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Hef1a: BACE1 250ng

    0 1000 nM Dox

    A19A10

      • Hef1a: eBFP 250ng
      • TRE: miRNA4-mKATE 250ng 250ng
      • Hef1a: rtTA 250ng 250ng
      • Hef1a: BACE1 Dummy DNA 250ng1000

    0 nM Dox

    A20A11

      • Hef1a: eBFP 250ng
      • TRE: miRNA4-mKATE 250ng
      • Hef1a: rtTA 250ng
      • Hef1a: BACE1 250ng

    1000 nM Dox

    B1

      • Hef1a:eBFP 333ng
      • Dummy DNA 666ng

     

    Negative Control

    B2

      • Hef1a:eBFP 333ng
      • Hef1a:rtTA 333ng
      • TRE:BACE2 333ng

     

    0 nM Dox

    B3

      • Hef1a:eBFP 333ng
      • Hef1a:rtTA 333ng
      • TRE:BACE2 333ng

     

    1000 nM Dox

    		 B4
      • No DNA (untransfected)
     

     

    Double negative control