Skip to end of metadata
Go to start of metadata

You are viewing an old version of this page. View the current version.

Compare with Current View Page History

« Previous Version 9 Next »

Reilly Dibner and Cynthia Weinig have requested these 53 samples be re-prepped from NovaSeq1 (A-C). Avoid using MID plates 16S0C8, 16S0D8, ITS0C8, ITS0D8.

  • Pull Plates Dibner_1-95_Norm, Dibner_96-190_Norm, MP101, and MP102 and allow to Thaw
  • Tap plates to drop liquid, Spin to drop liquid
  • SpeedVac to dry samples
  • Resuspend Dibner_1-95_Norm and Dibner_96-190_Norm with 12 ul of ultra pure water
  • Resuspend MP101 and MP102 with 25 ul ultra pure water
  • Transfer the below samples to a new plate

plate_name

plate_position

sample_name

read_number

row

column

Dibner_1-95

A1

cp3_nb2_aug_19_19

2263

A

1

Dibner_1-95

B1

cp1_sf4_oct_18_19

1807

B

1

Dibner_1-95

D1

cp3_nb2_jun_24_19

7372

D

1

Dibner_1-95

G1

cp1_nb2_sep_23_19

512

G

1

Dibner_1-95

H1

cp1_nb2_may_22_19

1012

H

1

Dibner_1-95

A2

cp1_nb2_jul_23_19

12446

A

2

Dibner_1-95

B2

cp1_sf1_jun_20_19

1338

B

2

Dibner_1-95

C2

cp1_sf2_sep_23_19

1610

C

2

Dibner_1-95

D2

cp1_uf7_jul_23_19

10130

D

2

Dibner_1-95

E2

cp3_uf1_aug_19_19

2841

E

2

Dibner_1-95

F2

cp1_nb1_aug_19_19

2251

F

2

Dibner_1-95

G2

cp1_uf6_may_22_19

6034

G

2

Dibner_1-95

H2

cp1_uf3_apr_08_19

3132

H

2

Dibner_1-95

B3

cp1_uf6_sep_23_19

9789

B

3

Dibner_1-95

A4

cp1_uf4_apr_08_19

1701

A

4

Dibner_1-95

B4

cp1_uf5_apr_15_19

3837

B

4

Dibner_1-95

D4

1B_nana_nov_22_19

657

D

4

Dibner_1-95

G4

cp1_uf6_aug_19_19

742

G

4

Dibner_1-95

A5

cp2_sf3_aug_20_19

658

A

5

Dibner_1-95

B5

cp3_nb1_jun_24_19

19290

B

5

Dibner_1-95

C5

cp3_uf2_jun_24_19

6000

C

5

Dibner_1-95

A6

cp2_sf3_jun_21_19

9145

A

6

Dibner_1-95

H6

6B_nana_nov_22_19

141

H

6

Dibner_1-95

A7

cp1_nb4_sep_23_19

697

A

7

Dibner_1-95

E7

cp1_nb1_jun_20_19

3107

E

7

Dibner_1-95

B8

cp1_sf3_jun_20_19

3451

B

8

Dibner_1-95

B8

cp1_sf4_jun_20_19

1626

B

8

Dibner_1-95

C8

cp1_uf5_jul_23_19

10685

C

8

Dibner_1-95

G8

cp1_nb2_mar_15_19

15710

G

8

Dibner_1-95

D9

cp1_sf3_aug_19_19

7424

D

9

Dibner_1-95

H9

5D_nana_nov_22_19

3085

H

9

Dibner_1-95

B10

cp1_nb2_aug_19_19

17950

B

10

Dibner_1-95

H10

cp2_nb2_jun_21_19

13715

H

10

Dibner_1-95

E11

cp1_sf5_may_22_19

2134

E

11

Dibner_1-95

C12

cp1_sf4_jul_23_19

1037

C

12

Dibner_1-95

H12

blank

21

H

12

Dibner_96-190

E3

cp1_nb5_apr_15_19

14423

E

3

Dibner_96-190

C4

cp1_uf5_jun_20_19

5544

C

4

Dibner_96-190

B5

cp1_sf1_sep_23_19

1435

B

5

MP101

G1

MP101_G1

1793

G

1

MP101

H1

MP101_H1

50

H

1

MP101

H4

MP101_H4

212

H

4

MP101

A11

MP101_A11

10565

A

11

MP102

A1

MP102_A1

1525

A

1

MP102

E1

MP102_E1

6866

E

1

MP102

B2

MP102_B2

491

B

2

MP102

H2

MP102_H2

1195

H

2

MP102

B3

MP102_B3

740

B

3

MP102

H3

MP102_H3

5542

H

3

MP102

D5

MP102_D5

758

D

5

MP102

D8

MP102_D8

374

D

8

MP102

H9

MP102_H9

453

H

9

MP102

G12

MP102_G12

8669

G

12

Well Position

Sample

A01

cp3_nb2_aug_19_19

B01

cp1_sf4_oct_18_19

C01

cp3_nb2_jun_24_19

D01

cp1_nb2_sep_23_19

E01

cp1_nb2_may_22_19

F01

cp1_nb2_jul_23_19

G01

cp1_sf1_jun_20_19

H01

cp1_sf2_sep_23_19

A02

cp1_uf7_jul_23_19

B02

cp3_uf1_aug_19_19

C02

cp1_nb1_aug_19_19

D02

cp1_uf6_may_22_19

E02

cp1_uf3_apr_08_19

F02

cp1_uf6_sep_23_19

G02

cp1_uf4_apr_08_19

H02

cp1_uf5_apr_15_19

A03

1B_nana_nov_22_19

B03

cp1_uf6_aug_19_19

C03

cp2_sf3_aug_20_19

D03

cp3_nb1_jun_24_19

E03

cp3_uf2_jun_24_19

F03

cp2_sf3_jun_21_19

G03

6B_nana_nov_22_19

H03

cp1_nb4_sep_23_19

A04

cp1_nb1_jun_20_19

B04

cp1_sf3_jun_20_19

C04

D04

E04

F04

G04

H04

A05

B05

C05

D05

E05

F05

G05

H05

A06

B06

C06

D06

E06

F06

G06

H06

A07

B07

C07

D07

E07

F07

Mock Community

G07

Mock Community

H07

Mock Community

PCR1 (Manual):

  • Create MasterMix:

ul/rxn

Reagent

# of rxns

ul needed

3

5X Kapa HiFi Buffer

224

840

0.45

10M dNTPs

224

126

0.3

Kapa HiFi HotStart DNA Pol

224

84

3.25

HPLC H2O

224

910

7

Total Volume

224

1960

  • Add 7 ul to each well of 6 hard shell, full skirt plates, Seal with tape seals, rub with kimwipe across all wells twice, and then around the edge, store in refrigerator until needed labeled “PCR1”

  • Spin down 4 “PCR1” plates. Vortex and spin 1 “_Norm” plate. Vortex and spin to 16S MID plates and 2 ITS MID plates.

  • Remove the seals from the 4 “PCR1” plates. Attach tips from a freshly opened 20 ul tip box TO THE BENCHSMART. Add 2 ul to a “PCR1” plate.

  • Dispose of these tips.

  • Grab 1 new 20 ul tip box. Cover 3 of the “PCR1” plates. Grab one of the MID plates.

  • Remove the bubble caps from the appropriate MID plate.

  • Transfer 6 ul to the corresponding column of the “PCR1” plate. Recap the MID plate and cap the resulting plate.

  • Repeat the previous 5 steps matching each “PCR1” plate with a unique MID plate.

  • Move “_Norm” plate to -80 storage. Move MID plates to “Used MIDs” storage section.

  • Spin down resulting “PCR1”s and then add to thermocyclers running “35GSAF1”

Temp C

Cycles

Time

95*

1X

3:00

98

15X

0:30

62

15X

0:30

72

15X

0:30

72

1X

5:00

4

1X

0:00

PCR2 Mastermix Preparation:

ul/rxn

Reagent

# of rxns

ul needed

3

5X Kapa HF Buffer

112

540

0.45

10M dNTPs

112

81

0.3

Kapa HiFi HotStart DNA Pol

112

54

0.5 ul

5 uM F and R FlowCell Primers

112

90

0.75

HPLC H2O

112

135

5

Total Volume

112

900

Add 5 ul master mix to all wells of 4 hard shell full skirted plates. Seal with tape seals and store in refrigerator.

Intermediate Cleanup:

The majority of this was done on the Nimbus platform using “AxyPrep MagBead PCR1 No MM”

Manually, it was done:

  • Equilibrate Beads to room Temperature

  • Add 24 ul of MagBeads to each well and 15 ul of replicate to same well of replicate

  • Pipette mix up and down 10 times.

  • Incubate at RT for 5 minutes

  • Secure plate on magnet plate; incubate at RT for 5 minutes (until wells are clear)

  • Remove 65 ul from each well; keep tips to left or right depending on the column to avoid bead pellet.

  • Add 100 ul Fresh 80% EtOH to each well. Incubate 30 seconds. Remove 100 ul from each well

  • Add 100 ul Fresh 80% EtOH to each well. Incubate 30 seconds. Remove 100 ul from each well

  • Reaspirate from each well to assure maximum EtOH removal

  • Allow plate to air dry for 7 minutes.

  • Remove sample plate from magnet plate.

  • Add 40 ul TE; pipette mix 10+ times. Incubate 2 minutes at RT.

  • Place sample plate back on magnet for 5 minutes or until all wells are cleared.

  • Transfer 40 ul to labeled transparent plate (Plate1 PCR1 MIDPlate1 MIDPlate2)

  • Transfer 10 ul from transparent plate to “PCR2” plate with Mastermix already added.

  • Label Plate1 PCR2 MIDPlate1 MIDPlate2

  • Seal “PCR2”s with bubble strips and run on thermocycler 35GSAF2 program

Temp C

Cycles

Time

Temp C

Cycles

Time

95*

1X

3:00

98

19X

0:30

55*

19X

0:30

72

19X

0:30

72

1X

5:00

4

1X

0:00


*PCR2 actually had 20 cycles, not 19

Final Cleanup:

Equilibrate Beads to room Temperature

Add 15 ul H2O to each sample

Add 24 ul (0.8 x 60 ul) of MagBeads to each well; Pipette mix up and down 10 times

Incubate at RT for 5 minutes

Secure plate on magnet plate; incubate at RT for 5 minutes (until wells are clear)

Remove 54 ul from each well; keep tips to left or right depending on the column to avoid bead pellet.

Add 100 ul Fresh 80% EtOH to each well. Incubate 30 seconds. Remove 100 ul from each well.

Add 100 ul Fresh 80% EtOH to each well. Incubate 30 seconds. Remove 100 ul from each well.

Allow plate to air dry for 7 minutes.

Remove sample plate from magnet plate.

Add 40 ul TE per GSAF protocol; pipette mix 10 times

Incubate at RT for 2 minutes

Place sample plate back on magnet for 5 minutes or until all wells are cleared.

Transfer 40 ul to a clean transparent PCR plate labeled “Plate1 PCR2 MIDPlate1 MIDPlate2

  • No labels