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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 B7

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

cp1_sf4_jun_20_19

D04

cp1_uf5_jul_23_19

E04

cp1_nb2_mar_15_19

F04

cp1_sf3_aug_19_19

G04

5D_nana_nov_22_19

H04

cp1_nb2_aug_19_19

A05

cp2_nb2_jun_21_19

B05

cp1_sf5_may_22_19

C05

cp1_sf4_jul_23_19

D05

blank

E05

cp1_nb5_apr_15_19

F05

cp1_uf5_jun_20_19

G05

cp1_sf1_sep_23_19

H05

MP101_G1

A06

MP101_H1

B06

MP101_H4

C06

MP101_A11

D06

MP102_A1

E06

MP102_E1

F06

MP102_B2

G06

MP102_H2

H06

MP102_B3

A07

MP102_H3

B07

MP102_D5

C07

MP102_D8

D07

MP102_H9

E07

MP102_G12

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

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