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We are expecting little to no difference. So, we will proceed with actual template, but the smaller PCR pool. We will compare via qPCR and bioanalyzer.

Templates:

ALF_PLT10_2017_GBS

ALF_PLT11_2017_GBS

Restriction Digestion

(Keep MM and reaction plates on ice)

...

Add 6 ul template to each plate with Benchsmart. Cover and seal each plate, vortex, centrifuge and incubate at 37C for 8 hours. Followed by 62C 65C for 1 hour. Do 1 set on 2 thermocyclers and 1 set in incubator (Somebody will have to return in 8 hours).

Adaptor Ligation

Spin down plates and add 1.4 ul Ligation MM to each well with 8 channel.

...

Template

EcoR1 MID plate

2017_ALFALFA_PLATE10

 GBS  EcoR1 Plate 5

2017_ALFALFA_PLATE11

 GBS  EcoR1 Plate 6

Label reaction plates with MID plate used.

Cover, vortex, and spin plates. Incubate thermocycler plate at 16C for 6 hours. Incubate incubator plate at RT for 2 hours.

Add 189 120 ul of low EDTA TE store at 4C for a month or -20C for longer.

PCR Amplification

Pool Create the two pools below using 20uL from ligated plates matching well to well in sets of 4 with one set of 2 avoiding combining the same MIDs together:.

Pool

Plate1

Plate2Plate3

2A

Plate4

6a

 2017_ALFALFA_PLATE10_Thermocycler

 2017_ALFALFA_PLATE11_Thermocycler

 2B

 

6b

 2017_ALFALFA_PLATE10_Incubator

 2017_ALFALFA_PLATE11

 

...

_Incubator

PCR1:

Reagent

ul/rxn

rxns

ul needed

H2O

9.52

220

2094.4

5x iProof buffer

4

220

880

10 mM dNTPs

0.4

220

88

50 mM MgCl2

0.4

220

88

5 uM Illumina Primers

1.33

220

292.6

iProof TAQ

0.2

220

44

DMSO

0.15

220

33

total

16

220

3520

Add 16 ul of PCR1 MM to each well of two new hard shell PCR plates.

Add 4uL of template from pooled plates.

Seal, Vortex, Spin down, and then run on Thermocycler program: GBS1:

Temp C

Cycles

Time

95*

1X

3:00

98

30X

0:30

60

30X

0:30

72

30X

0:40

72

1X

10:00

4*

1X*

0:00*

*pause step

Extra PCR

Add 2.125 ul of the MM directly to the previous PCR

...

Temp C

Cycles

Time

98

1X

3:00

60

1X

2:00

72

1X

10:00

4

1X

0:00

Comparisons

qPCR

  • Make 1:1000 dilutions of column 3 from the PCR plates by adding 1 ul to 999 ul TE in a deep well plate:

 

1

2

3

4

5

6

7

8

9

10

11

12

A

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

 

NTC

NTC

NTC

B

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

 

0.0002 pM Std

0.0002 pM Std

0.0002 pM Std

C

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

 

0.002 pM Std

0.002 pM Std

0.002 pM Std

D

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

 

0.02 pM Std

0.02 pM Std

0.02 pM Std

E

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

 

0.2 pM Std

0.2 pM Std

0.2 pM Std

F

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

 

2 pM Std

2 pM Std

2 pM Std

G

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

 

20 pM Std

20 pM Std

20 pM Std

H

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

 

 

 

 

  • Combine 5uL from each well of GBS10-11_PCR_A into a pool. Make a 1:1000 dilution of this pool to run on qPCR.

  • Combine 5uL from each well of GBS10-11_PCR_B into a pool. Make a 1:1000 dilution of this pool to run on qPCR.

  • After 1:1000 pools have been made for each PCR plate, combine PCR_A and PCR_B undiluted pools together into one tube and label GBS10-11. Make a 1:1000 dilution of this pool to run on qPCR.

  • Add 16 ul of Illumina Library Quantification MasterMix to each well:

ul/rxn

Reagent

# of rxns

ul needed

10 ul

KAPA SYBR FAST qPCR MM (2X)

110

1100

2 ul

Primer Premix (10X)

110

220

4 ul

Ultra Pure Water

110

440

16 ul

Total Volume

110

1760

  • Add 4 ul of template, pool, or standards to each well:

 

1

2

3

4

5

6

7

8

9

10

11

12

A

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

GBS10-11

PCR_A

Pool

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

NTC

NTC

NTC

B

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

GBS10-11 PCR_A

Pool

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

0.0002 pM Std

0.0002 pM Std

0.0002 pM Std

C

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

GBS10-11

PCR_B

Pool

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

0.002 pM Std

0.002 pM Std

0.002 pM Std

D

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

GBS10-11 PCR_B

Pool

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

0.02 pM Std

0.02 pM Std

0.02 pM Std

E

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

GBS10-11

Pool

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

0.2 pM Std

0.2 pM Std

0.2 pM Std

F

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

GBS10-11

Pool

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

2 pM Std

2 pM Std

2 pM Std

G

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

 

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

20 pM Std

20 pM Std

20 pM Std

H

GBS10-11

PCR_A

Col_1

GBS10-11

PCR_A

Col_6

GBS10-11

PCR_A

Col_12

GBS10-11

PCR_B

Col_1

GBS10-11

PCR_B

Col_6

GBS10-11

PCR_B

Col_12

 

 GBS1-4 PCR_A

Col_1

 GBS1-4 PCR_B

Col_1

 

 

 

Results:

Average quantities observed for all products:

GBS10-11 PCR_A Col_1: 78.13 nanomoles (thermocycler)

GBS10-11 PCR_A Col_6: 85.33 nanomoles (thermocycler)

GBS10-11 PCR_A Col_12: 75.57 nanomoles (thermocycler)

GBS10-11 PCR_B Col_1: 96.37 nanomoles (incubator)

GBS10-11 PCR_B Col_6: 78.72 nanomoles (incubator)

GBS10-11 PCR_B Col_12: 80.08 nanomoles (incubator)

GBS10-11 PCR_A Pool: 95.64 nanomoles (thermocycler)

GBS10-11 PCR_B Pool: 110.7 nanomoles (incubator)

GBS10-11 Pool: 95.91 nanomoles

GBS1-4 PCR_A Col_1: 87.22 nanomoles (repeated from previous qPCR)

GBS1-4 PCR_B Col_1: 81.87 nanomoles (repeated from previous qPCR)

The full result report can be viewed below:

View file
nameGBS10-11_INC_THERM.csv

Bioanalyzer

BioAnalyzer Chip Set up:

Well 1: GBS10-11 PCR_A Pool

Well 2: GBS10-11 PCR_B Pool

Well 3: GBS10-11 Pool

Well4: GBS10-11 PCR_A F3

Well 5: GBS10-11 PCR_A B5

Well 6: GBS10-11 PCR_A G7

Well 7: GBS10-11 PCR_A H12

Well 8: GBS10-11 PCR_B C1

Well 9: GBS10-11 PCR_B A4

Well 10: GBS10-11 PCR_B D6

Well 11: GBS10-11 PCR_B H8

Well 12: GBS10-11 PCR_B E11

Gel:

...

Electropherogram:

...

EPG Pools:

...

EPG Wells 4-8:

...

EPG Wells 9-12:

...