Tag Archives: DNA Quantification

Illumina Methylation Library Quantification – BS-seq Oly/C.gigas Libraries

Re-quantified the libraries that were completed yesterday using the Qubit3.0 dsDNA HS (high sensitivity) assay because the library concentrations were too low for the normal broad range kit.

Results:

Qubit Quants and Library Normalization Calcs: 20151222_qubit_illumina_methylation_libraries

SAMPLE	CONCENTRATION (ng/μL)
1NF11	2.42
1NF15	1.88
1NF16	2.74
1NF17	2.54
2NF5	2.72
2NF6	2.44
2NF7	2.38
2NF8	1.88
M2	2.18
M3	2.56
NF2_6	2.5
NF_18	2.66

Things look pretty good. The TruSeq DNA Methylation Library Kit (Illumina) suggests that the libraries produced should end up with concentrations >3ng/μL, but we have plenty of DNA here to make a pool for running on the HiSeq2500.

DNA Isolation – Oly gDNA for BS-seq

0000-0002-2747-368X

Need DNA to prep our own libraries for bisulfite-treated high-throughput sequencing (BS-seq).

Isolated gDNA from the following tissue samples stored in RNAlater (tissue was not weighed) using DNAzol:

2NF1

2NF2

2NF3

2NF4

2NF5

2NF6

2NF7

2NF8

1NF11

1NF12

1NF13

1NF14

1NF15

1NF16

1NF17

1NF18

The sample coding breaks down as follows (see the project wiki for a full explanation):

2NF#

2 = Oysters outplanted in Fidalgo Bay

NF = Broodstock originated in Fidalgo Bay

# = Sample number

1NF#

1 = Oysters outplanted in Oyster Bay

NF = Broodstock originated in Fidalgo Bay

# = Sample number

DNA was isolated in the following manner:

Homogenized tissues in 500μL of DNAzol (Molecular Research Center; MRC).
Added additional 500μL of DNAzol.
Added 10μL of RNase A (10mg/mL, ThermoFisher); incubated 10mins @ RT.
Added 300μL of chloroform and mixed moderately fast by hand.
Incubated 5mins @ RT.
Centrifuged 12,000g, 10mins, RT.
Transferred aqueous phase to clean tube.
Added 500μL of 100% EtOH and mixed by inversion.
Pelleted DNA 5,000g, 5mins @ RT.
Performed 3 washes w/70% EtOH.
Dried pellet 3mins.
Resuspended in 100μL of Buffer EB (Qiagen).
Centrifuged 12,000g, 10mins, RT to pellet insoluble material.
Transferred supe to clean tube.

The samples were quantified using the Qubit dsDNA BR reagents (Invitrogen) according to the manufacturer’s protocol and used 1μL of sample for measurement.

Results:

Qubit data (Google Sheet): 20151216_Oly_gDNA_qubit_quants

SAMPLE	CONCENTRATION (ng/μL)
2NF1	76.4
2NF2	175
2NF3	690
2NF4	11.7
2NF5	142
2NF6	244
2NF7	25
2NF8	456
1NF11	182
1NF12	432
1NF13	155
1NF14	21
1NF15	244
1NF16	112
1NF17	25.2
1NF18	278

Will run samples on gel tomorrow to evaluate gDNA integrity.

DNA Isolation – Olympia Oyster Outer Mantle gDNA

0000-0002-2747-368X

Isolated additional gDNA for the genome sequencing. To try to improve the quality (260/280 & 260/230 ratios) of the gDNA, I added a chloroform step after the initial tissue homogenization.

Used 123mg of Ostrea lurida outer mantle collected by Brent & Steven on 20150812.

Homogenized in 500μL of DNAzol.
Added additional 500μL of DNAzol.
Centrifuged 12,000g, 10mins, @ RT.
Split supernatant equally into two tubes.
Added 500μL of chloroform and mixed moderately fast by hand.
Centrifuged 12,000g, 10mins, RT.
Combined aqueous phases from both tubes in a clean tube.
Added 500μL of 100% EtOH and mixed by inversion.
Spooled precipitated gDNA and transferred to clean tube.
Performed 3 washes w/70% EtOH.
Dried pellet 3mins.
Resuspended in 200μL of Buffer EB (Qiagen).
Centrifuged 10,000g, 5mins, RT to pellet insoluble material.
Transferred supe to clean tube.

DNA was quantified using two methods: NanoDrop1000 & Qubit 3.0 (ThermoFisher).

For the Qubit, the samples were quantified using the Qubit dsDNA BR reagents (Invitrogen) according to the manufacturer’s protocol and used 1μL of sample for measurement.

Results:

Qubit Data (Google Sheet): 20151125_qubit_gDNA_geoduck_oly_quants

METHOD	CONCENTRATION (ng/μL)	TOTAL (μg)
Qubit	137	27.4
NanoDrop1000	295	59.0

Yield is solid. We should finally have sufficient quantities of gDNA to allow for BGI to proceed with the rest of the genome sequencing! Will run sample on gel to evaluate integrity and then send off to BGI.

The NanoDrop & Qubit numbers still aren’t close (as expected).

The addition of the chloroform step definitely helped improve the 260/280 OD ratio (see below). However, the addition of that step had no noticeable impact on the 260/230 OD ratios, which is a bit disappointing.

NanoDrop Absorbance Values & Plots

DNA Isolation – Geoduck Ctenidia gDNA

0000-0002-2747-368X

Isolated additional gDNA for the genome sequencing. In an attempt to obtain better yields, I used ctenidia (instead of adductor muscle). Additionally, to try to improve the quality (260/280 & 260/230 ratios) of the gDNA, I added a chloroform step after the initial tissue homogenization.

Used 190mg of Panopea generosa ctenidia collected by Brent & Steven on 20150811.

Homogenized in 500μL of DNAzol.
Added additional 500μL of DNAzol.
Centrifuged 12,000g, 10mins, @ RT.
Split supernatant equally into two tubes.
Added 500μL of chloroform and mixed moderately fast by hand.
Centrifuged 12,000g, 10mins, RT.
Combined aqueous phases from both tubes in a clean tube.
Added 500μL of 100% EtOH and mixed by inversion.
Spooled precipitated gDNA and transferred to clean tube.
Performed 3 washes w/70% EtOH.
Dried pellet 3mins.
Resuspended in 200μL of Buffer EB (Qiagen).
Centrifuged 10,000g, 5mins, RT to pellet insoluble material.
Transferred supe to clean tube.

DNA was quantified using two methods: NanoDrop1000 & Qubit 3.0 (ThermoFisher).

For the Qubit, the samples were quantified using the Qubit dsDNA BR reagents (Invitrogen) according to the manufacturer’s protocol and used 1μL of sample for measurement.

Results:

Qubit Data (Google Sheet): 20151125_qubit_gDNA_geoduck_oly_quants

METHOD	CONCENTRATION (ng/μL)	TOTAL (μg)
Qubit	105	21.0
NanoDrop1000	173	34.6

Yield is definitely much, much better than adductor muscle! Should’ve switched to a different tissue a long time ago! We should finally have sufficient quantities of gDNA to allow for BGI to proceed with the rest of the genome sequencing! Will run sample on gel to evaluate integrity and then send off to BGI.

The NanoDrop & Qubit numbers still aren’t close (as expected).

NanoDrop Absorbance Values & Plots

Phenol-Chloroform DNA Cleanup – Geoduck gDNA

0000-0002-2747-368X

The gDNA I extracted on 20151104 didn’t look great on the NanoDrop so I decided to perform a phenol-chloroform cleanup to see if I could improve the NanoDrop1000 absorbance spectrum and, in turn, the quality of the gDNA.

Added an equal volume (500μL) of phenol:chloroform:isoamyl alcohol (25:24:1) to the DNA
Mixed by hand – moderate shaking
Centrifuged 2mins, 10,000g, RT
Transferred aqueous phase to clean tube and discarded interphase & organic phase
Added an equal volume (280μL) of chlforoform:isoamyl alcohol (24:1)
Mixed by hand – moderate shaking
Centrifuged 2mins, 10,000g, RT
Transferred aqueous phase (210μL) to clean tube
Added 0.1vols (21μL) of 3M sodium acetate (pH = 5.2)
Added 2vols (420μL) of 100% EtOH
Mixed by inversion
Incubated @ -20C, 1hr (probably not necessary since gDNA clearly precipitated out as soon as I mixed the sample)
Pelleted DNA by centrifuging 15mins, 12,000g, RT
Discarded supe
Washed pellet with 1000μL cold (-20C) 70% EtOH
Centrifuged 5mins, 12,000g, RT
Discarded supe
Repeated was steps three more times
Resuspended pellet in 100μL of Buffer EB (Qiagen)

DNA was quantified using two methods: NanoDrop1000 & QuantIT dsDNA BR Kit

For the Quant-IT kit, the samples were quantified using the QuantIT dsDNA BR Kit (Invitrogen) according to the manufacturer’s protocol.

Standards were run in triplicate, samples were run in duplicate.

96-well black (opaque) plate was used.

Fluorescence was measured on the Seeb Lab’s Victor 1420 plate reader (Perkin Elmer).

Results:

METHOD	CONCENTRATION (ng/μL)	VOLUME (μL)	YIELD (ng)
NanoDrop1000	371.83	100	37,183
Quant-IT	100.83	100	10,082

The NanoDrop1000 overestimates the concentration of the sample by 3.7x!

Regardless, the yield isn’t all that great (using yield from Quant-IT), which has generally been the case for all of the geoduck gDNA isolations I’ve performed. It would probably be prudent to try isolating gDNA from a different tissue to see if yields improve…

Will evaluate gDNA quality on a gel.

Fluorescence (Google Sheet): 20151124_geoduck_oly_gDNA_quants

NanoDrop1000 Measurements and Plots

The clean up procedure didn’t really seem to help with the geoduck sample, as we’re still seeing a significant amount of absorbance from 230 – 250nm.

Phenol-Chloroform DNA Cleanup – Olympia Oyster gDNA

0000-0002-2747-368X

Added an equal volume (500μL) of phenol:chloroform:isoamyl alcohol (25:24:1) to the DNA
Mixed by hand – moderate shaking
Centrifuged 2mins, 10,000g, RT
Transferred aqueous phase to clean tube and discarded interphase & organic phase
Added an equal volume (380μL) of chlforoform:isoamyl alcohol (24:1)
Mixed by hand – moderate shaking
Centrifuged 2mins, 10,000g, RT
Transferred aqueous phase (320μL) to clean tube
Added 0.1vols (32μL) of 3M sodium acetate (pH = 5.2)
Added 2vols (640μL) of 100% EtOH
Mixed by inversion
Incubated @ -20C, 1hr (probably not necessary since gDNA clearly precipitated out as soon as I mixed the sample)
Pelleted DNA by centrifuging 15mins, 12,000g, RT
Discarded supe
Washed pellet with 1000μL cold (-20C) 70% EtOH
Centrifuged 5mins, 12,000g, RT
Discarded supe
Repeated was steps three more times
Resuspended pellet in 100μL of Buffer EB (Qiagen)

DNA was quantified using two methods: NanoDrop1000 & QuantIT dsDNA BR Kit

For the Quant-IT kit, the samples were quantified using the QuantIT dsDNA BR Kit (Invitrogen) according to the manufacturer’s protocol.

Standards were run in triplicate, samples were run in duplicate.

96-well black (opaque) plate was used.

Fluorescence was measured on the Seeb Lab’s Victor 1420 plate reader (Perkin Elmer).

Results:

METHOD	CONCENTRATION (ng/μL)	VOLUME (μL)	YIELD (ng)
NanoDrop1000	547.15	200	109,430
Quant-IT	74.26	200	14,851

The NanoDrop1000 overestimates the concentration of the sample by 7.4x! That’s really insane!

Regardless, this is a solid yield (using yield from Quant-IT) and, when combined with the other Ostrea lurida gDNA that I isolated today, should push the total amount of gDNA submitted to BGI over the required threshold.

Will evaluate gDNA quality on a gel.

Fluorescence (Google Sheet): 20151124_geoduck_oly_gDNA_quants

NanoDrop1000 Measurements and Plots

The clean up seems to have worked well, as the absorbance spectrum is much improved and nearly mirrors that of the Oly gDNA isolated with the Mollusc Kit.

DNA Isolation – Geoduck Adductor Muscle gDNA

0000-0002-2747-368X

Since we still don’t have sufficient gDNA for the full scope of the genome sequencing, I isolated more gDNA.

Isolated gDNA from 257mg adductor muscle tissue collected by Steven & Brent on 20150811.

Tissue was thoroughly minced with a clean razor blade and then processed with the E.Z.N.A. Mollusc Kit (Omega BioTek) with the following changes:

Doubled solution volumes for steps before sample was loaded on columns
Sample was split equally in two tubes prior to addition of 100% EtOH
All mixing was done by shaking – no vortexing! Done this way to, hopefully, maintain gDNA integrity
Elution volume = 50μL
Elution was repeated using the initial elution to maximize recovery while maintaining low sample volume.
The two preps were pooled – final volume = 79μL

DNA was quantified using two methods: NanoDrop1000 & QuantIT dsDNA BR Kit

For the Quant-IT kit, the samples were quantified using the QuantIT dsDNA BR Kit (Invitrogen) according to the manufacturer’s protocol.

Standards were run in triplicate, samples were run in duplicate.

96-well black (opaque) plate was used.

Fluorescence was measured on the Seeb Lab’s Victor 1420 plate reader (Perkin Elmer).

Results:

METHOD	CONCENTRATION (ng/μL)	VOLUME (μL)	YIELD (ng)
NanoDrop1000	54.93	79	4,339
Quant-IT	34.52	79	2,727

The NanoDrop1000 overestimates the concentration of the sample by 1.6x!

Regardless, the yield isn’t all that great, which has generally been the case for all of the geoduck gDNA isolations I’ve performed. It would probably be prudent to try isolating gDNA from a different tissue to see if yields improve…

Will evaluate gDNA quality on a gel.

Fluorescence (Google Sheet): 20151124_geoduck_oly_gDNA_quants

NanoDrop1000 Measurements and Plots

DNA Isolation – Olympia Oyster Outer Mantle gDNA

0000-0002-2747-368X

Since we still don’t have sufficient gDNA for the full scope of the Olympia oyster genome sequencing, I isolated more gDNA.

Isolated gDNA from 118mg outer mantle tissue collected by Steven & Brent on 20150812.

Tissue was thoroughly minced with a clean razor blade and then processed with the E.Z.N.A. Mollusc Kit (Omega BioTek) with the following changes:

Doubled solution volumes for steps before sample was loaded on columns
Sample was split equally in two tubes prior to addition of 100% EtOH
All mixing was done by shaking – no vortexing! Done this way to, hopefully, maintain gDNA integrity
Elution volume = 50μL
Elution was repeated using the initial elution to maximize recovery while maintaining low sample volume.
The two preps were pooled – final volume = 79μL

DNA was quantified using two methods: NanoDrop1000 & QuantIT dsDNA BR Kit

For the Quant-IT kit, the samples were quantified using the QuantIT dsDNA BR Kit (Invitrogen) according to the manufacturer’s protocol.

Standards were run in triplicate, samples were run in duplicate.

96-well black (opaque) plate was used.

Fluorescence was measured on the Seeb Lab’s Victor 1420 plate reader (Perkin Elmer).

Results:

METHOD	CONCENTRATION (ng/μL)	VOLUME (μL)	YIELD (ng)
NanoDrop1000	552.53	79	43,650
Quant-IT	219.07	79	17,307

The NanoDrop1000 overestimates the concentration of the sample by 2.5x!

Regardless, this is a solid yield and, when combined with the other Ostrea lurida gDNA that I cleaned up today, should push the total amount of gDNA submitted to BGI over the required threshold.

Will evaluate gDNA quality on a gel.

Fluorescence (Google Sheet): 20151124_geoduck_oly_gDNA_quants

NanoDrop1000 Measurements and Plots