Bacterial Genomic DNA Isolation Kit

Features and Benefits

Isolate genomic DNA from all types of bacteria (both Gram-positive and Gram-negative)
Rapid and convenient spin column protocol
96-well format available for high throughput
High yield, high quality DNA for sensitive downstream applications including sequencing, PCR, qPCR and more

This kit is designed for the rapid spin column preparation of genomic DNA from 2 x 10⁹ viable bacterial cells (between 0.5 and 1.0 mL of culture). This kit can be used for both Gram-negative and Gram-positive bacteria including Escherichia coli and Bacillus cereus. Purified genomic DNA is of an excellent quality and yield, and is fully compatible with restriction enzyme digestions, sequencing, PCR, qPCR and more. Also available in 96-well format for high throughput applications.

Details

Supporting Data

Figure 1. Isolation of Genomic DNA from both Gram Positive and Gram Negative Bacteria. The Bacterial Genomic DNA Isolation Kit was used to isolate genomic DNA from 1 mL overnight culture (1 x 10⁹ cells) of the Gram negative bacteria E. coli (Lanes 1 and 2), the lysozyme-resistant Gram positive bacteria B. cereus (Lanes 3 and 4) and the Gram positive bacteria M. luteus (Lanes 5 and 6). Lane M is Norgen's UltraRanger 1kb DNA Ladder. For analysis 5 µL of the 200 µL eluted genomic DNA were loaded on a 1X TAE, 0.9% agarose gel.

Figure 2. High Yield Purification. The high yield of Norgen's Bacterial Genomic DNA Isolation Kit is illustrated by purifying genomic DNA from 1 mL overnight culture (1 x 10⁹ cells) of both a Gram positive (B. cereus) and a Gram negative strain (E coli), and comparing the yield with two major competitors. The quantification of the DNA yield was performed by resolving 5 µL of the 200 µL of eluted DNA on a 1X TAE, 0.9% agarose gel followed by densitometry. With both types of bacteria, Norgen's kit was found to give a higher recovery than the competitor’s kits.

Kit Specifications (Spin Columns)
Input	2 x 10⁹ bacterial cells
Column Binding Capacity	25 µg
Average Yield*	Up to 20 µg
Time to Complete 10 Purifications	1 hour

* Yield will vary depending on the type of sample processed

Storage Conditions and Product Stability
All solutions should be kept tightly sealed and stored at room temperature. This kit is stable for 2 years after the date of shipment. The kit contains a ready-to-use Proteinase K, which is dissolved in a specially prepared storage buffer. The buffered Proteinase K is stable for up to 2 years after the date of shipment when stored at room temperature.

Component	Cat. 17900 (50 preps)	Cat. 17950 (192 preps)
Resuspension Solution A	20 mL	60 mL
Lysis Buffer P	18 mL	60 mL
Solution BX	28 mL	110 mL
Wash Solution A	18 mL	2 x 38 mL
Elution Buffer B	30 mL	2 x 30 mL
Proteinase K	12 mg	50 mg
Spin Columns	50	-
96-Well Plate	-	2
Adhesive Tape	-	4
Collection Plate	-	2
Collection Tubes	50	-
Elution Tubes (1.7 mL)	50	-
Elution Plate	-	2
Product Insert	1	1

Documentation

PROTOCOLS

(17900) Bacterial Genomic DNA Isolation Kit - Protocol (50 prep)

(17950) Bacterial Genomic DNA Isolation 96-Well Kit - Protocol (96-well)

SAFETY DATA SHEETS

17900 - Bacterial Genomic DNA Isolation Kit (Spin Column 50 Prep)- SDS

17950 - Bacterial Genomic DNA Isolation Kit (2x96 Well Plate)- SDS

FLYERS

Flyer

FAQs

Spin Column, High Throughput

I noticed the columns/wells were clogged. What causes this?

Column clogging can result from the following:

The sample is too large.
Too many cells were applied to the column. Ensure that the amount of cells used is less than 2 x 10⁹ viable cells, and that no more than 1 mL of culture is applied to the column/well. Clogging can be alleviated by increasing the g force and/or centrifuging for a longer period of time until the lysate passes through the column.
Insufficient Vacuum (for High-throughput only).
Ensure that a vacuum pressure of at least -650 mbar or -25 in. Hg is developed.
Centrifuge temperature is too low.
Ensure that the centrifuge remains at room temperature throughout the procedure. Temperatures below 15℃ may cause precipitates to form that can cause the wells to clog.

Why is the lysate very gelatinous prior to loading onto the column?

Experiencing gelatinous lysate prior to loading onto the column may be due to:

The lysate/binding solution mixture is not homogeneous.
To ensure a homogeneous solution, vortex for 10-15 seconds before applying the lysate to the spin column.
The sample is too large.
Too many cells are in the lysate preparation. Ensure that the amount of cells used is less than 2 x 10⁹ viable cells, and that no more than 1 mL of culture is applied to the column/well.

Why do I have a low genomic DNA yield?

A low genomic DNA yield may be caused by the following:

The sample is old/overgrown.
The culture may have been overgrown, allowing lysis of older cells to occur more readily. This will lead to premature degradation of the genomic DNA. It may be necessary to use bacterial cultures before they reach maximum density.
Incomplete lysis of cells.
Extend the incubation time of Proteinase K digestion or reduce the amount of bacterial cells used for lysis. Increase the lysozyme incubation time for gram-positive strains.
The DNA elution is incomplete.
Ensure that centrifugation at 20,000 x g is performed after the 3,000 x g centrifugation cycle to ensure that all the DNA is eluted.

Why is the genomic DNA sheared?

Sheared genomic DNA could be caused by:

Improper handling of genomic DNA.
Pipetting steps should be handled as gently as possible. Reduce vortexing times during mixing steps (no more than 10-15 seconds).
The cells are old.
Older cultures contain prematurely lysed cells which release endonucleases and can degrade DNA. Fresh cultures are recommended.

Why is the purified DNA not performing well in downstream applications?

If the DNA does not perform well in downstream applications, it may be due to one or more of the following:

DNA was not washed two times with the provided Wash Solution A.
Ensure the column/plate was washed two times with Wash Solution A. An additional wash with Wash Solution A can improve DNA performance in downstream applications, although it may reduce DNA yield.
Ethanol carryover.
Ensure that the column/plate drying step after the Wash procedure is performed in order to remove traces of ethanol prior to elution. Ethanol is known to interfere with many downstream applications.

Can the DNA isolated using Bacterial Genomic DNA Isolation kit be used for Nanopore sequencing and Long-read-sequencing?

Yes, the DNA from this kit is good for both Nanopore sequencing and Long-read sequencing. Please contact our Tech support team at support@norgenbiotek.com and ask for reference publications.

Citations

Title	Draft genome sequence of the highly copper-tolerant Methylobacterium radiotolerans MLP1 isolated from the rhizosphere of grasses adjacent to mine tailings
Citation	Environmental Microbiology 2023.
Authors	Araceli Dávalos, Luis Fernando Lozano-Aguirre Beltrán and Alejandro García-de los Santos

Title	Effect of freezing and microwave cooking on survival of Yersinia enterocolitica isolated from uncooked kofta with special reference to its virulence genes
Citation	Animal Health Research Journal V 2023.
Authors	Ghada, M. Mohamed; Lubna, M. Ebraheem and Ammar, M.A.M.

Title	Functional validation of putative toxin-antitoxin genes from the Gram-positive pathogen Streptococcus pneumoniae: phd-doc is the fourth bona-fide operon
Citation	Frontiers in Microbiology 2023.
Authors	WT Chan, CC Yeo, E Sadowy, M Espinosa

Title	Genome Sequence of Anoxybacillus flavithermus Strain AK1, a Thermophile Isolated from a Hot Spring in Saudi Arabia
Citation	Genome Announcements 2023.
Authors	A Khalil, N Sivakumar, S Qarawi

Title	Genome Sequence of Growth-Improving Paenibacillus mucilaginosus Strain KNP414
Citation	Genome Announcements 2023.
Authors	JJ Lu, JF Wang, XF Hu

Title	Genome Sequence of the Historical Clinical Isolate Burkholderia pseudomallei PHLS 6
Citation	Genome Announcements 2023.
Authors	D'haeseleer, P., Johnson, S. L., Davenport, K. W., Chain, P. S., Schoeniger, J., Ray, D., ... & El-Etr, S

Title	Genomic Analysis of the Carrot Bacterial Blight Pathogen Xanthomonas hortorum pv. carotae in Korea
Citation	the plant patholog journal 2023.
Authors	Mi-Hyun Lee, Sung-Jun Hong, Dong Suk Park, Hyeonheui Ham, and Hyun Gi Kong

Title	Genotypic and Phenotypic Heterogeneity in Alicyclobacillus acidoterrestris: A Contribution to Species Characterization
Citation	PLoS One 2023.
Authors	Bevilacqua, A., Mischitelli, M., Pietropaolo, V., Ciuffreda, E., Sinigaglia, M., & Corbo, M. R Milena Sinigaglia1, Maria Rosaria Corbo1

Title	Genotypic and phenotypic virulence characteristics and antimicrobial resistance of Yersinia spp. Isolated from meat and milk products
Citation	Journal of Food Science 2023.
Authors	F Ozdemir, S Arslan

Title	Heterologous Expression and Characterization of an N-Acetyl-#-D-hexosaminidase from Lactrococcus lactis ssp. Lactis IL 1403
Citation	J. Agric. Food Chem 2023.
Authors	Hoang Anh Nguyen, Thu-Ha Nguyen, Vladimir Kren, Vincent G.H. Eijsink, Dietmar Haltrich, Clemens K. Peterbauer

Bacterial Genomic DNA Isolation Kit