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  6. Invitrogen™ 1 Kb Plus DNA Ladder 

Invitrogen™ 1 Kb Plus DNA Ladder
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Product Code. 11573127
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11573127 2000 Applications 1000µg
11578636 500 Applications 250µg
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Product Code. 11573127 Supplier Invitrogen™ Supplier No. 10787026

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883.20 EUR valid until 2026-05-08
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Description

Requires

Gel-loading buffer (Invitrogen part no. 10816015)

Powerful tool for estimating molecular weight of linear, double-stranded DNA fragments

One Kb Plus DNA ladder is composed of 20 highly purified, double-stranded DNA bands spanning 100bp to 12,000bp. This ladder has 12 evenly spaced bands ranging from 1Kb to 12Kb, quick orientation band at 1,650bp that forms distinct doublet with 2Kb band, and seven bands of round sizes below 1Kb. One Kb Plus DNA ladder is compatible with agarose gels cast in lab as well as E-Gel™ pre-cast agarose gels. One Kb Plus DNA ladder is most popular DNA ladder used to estimate molecular mass of double-stranded DNA bands from PCR, restriction digests, and other molecular biology protocols. Unlike some other DNA ladders, 1Kb Plus DNA ladder has been specially designed with bands of round, easy-to-remember sizes. Logical band layout, and quick identification doublet, allow to estimate size of band at glance.

  • Round, easy-to-remember band sizes
  • Broad size range (100bp–12Kb)
  • Compatible with all agarose gels
  • Less waste, sustainable packaging

  • Popular and easiest-to-use ladder
  • Single ladder for most of needs
  • Simplified format for use with all DNA agarose gels
  • DNA stain and radiolabel compatible

Acrylamide Gel Electrophoresis, Agarose Gel Electrophoresis, DNA and RNA Purification and Analysis, Nucleic Acid Gel Electrophoresis and Blotting

Order Info

Shipping Condition: Room Temperature

TRUSTED_SUSTAINABILITY

Specifications

Content And Storage • 4 x 500 µL 1 Kb Plus DNA Ladder
• 4 x 1 mL 10X BlueJuice Gel Loading Buffer

Store at -20°C.
Concentration 0.5 μg/μL
Gel Type Agarose
Ready to Load No
Sample Loading Volume 1 mL
Size Range 100 to 15000 bp
Volume (Metric) 500 μL
Gel Compatibility Agarose gel
Kit Contents 4 x 500 μL DNA Ladder, 4 x 1 mL Sample Loading Buffer, 2000 Applications
No. of Reactions 2000 Applications
Quantity 2000 Applications
Shipping Condition Approved for shipment at Room Temperature or on Dry Ice
Technology Individual chromatography-purified DNA fragments
Product Type DNA Ladder
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Frequently Asked Questions (FAQs)

Can I know the sequences of Invitrogen DNA ladders?

Sequences of Invitrogen DNA and RNA ladders are proprietary.
Are Invitrogen DNA ladders composed of linear or circular/supercoiled DNA?

Invitrogen DNA ladders contain linear dsDNA fragments.
Are Invitrogen DNA ladders composed of single-stranded or double-stranded DNA fragments?

Invitrogen DNA ladders are composed of double-stranded DNA fragments only.
Why are the DNA bands from my molecular weight ladder smearing?

Here are a few reasons why you might see smearing of the bands:

- The DNA was degraded. Avoid nuclease contamination of DNA standards.
- Too much DNA was loaded on the gel. Decrease the amount of DNA in the gel.
- The DNA was contaminated by protein. Remove proteins by phenol extraction before electrophoresis.
- For small DNA, the bands may have diffused during staining. Add the ethidium bromide before electrophoresis.
- For radiolabeled DNA, labeling was performed by nick translation. Label the DNA by replacement synthesis with T4 DNA polymerase or label the 5' end with T4 polynucleotide kinase.
- Improper electrophoresis conditions were used. Do not allow voltage to exceed ~20 V/cm. Maintain a temperature <30°C during electrophoresis. Check that the electrophoresis buffer used has sufficient buffering capacity.
- The DNA contained too much salt. Remove excess salt by ethanol precipitation before electrophoresis.

I'm seeing anomalous migration of my DNA ladder. What happened?

This can happen if the marker was heated. Please ensure that the ladders are not heated before use.

What is the difference between the TrackIt DNA Ladders and other DNA ladders?

TrackIt DNA Ladders contain two tracking dyes in the sample buffers, which serve as visual markers for tracking electrophoresis progress through the gel, and also to indicate when maximum resolution is achieved. The tracking dyes should not obscure your visualization of DNA bands in the ladder, as the dyes run outside the limits of most DNA bands in the ladder.

TrackIt Cyan/Orange Loading Buffer is formulated with unique tracking dyes, Xylene Cyanol FF and Orange G. We recommend TrackIt Cyan/Orange Loading Buffer for DNA fragments between 10 bp and 1 kb.

The TrackIt Cyan/Yellow Loading Buffer is formulated with unique tracking dyes, Xylene Cyanol FF and Tartrazine. We recommend TrackIt Cyan/Yellow Loading Buffer for DNA fragments between 100 bp and 10 kb. The molecular weights are Xylene Cyanol FF, 638.6; Orange G, 452.4; Tartrazine, 534.4.

Note: The TrackIt DNA Ladders are not recommended for use with polyacrylamide gels and are not designed for quantitation.

I am using a quantitative DNA standard and see little difference between the bands when they are ethidium bromide stained. How can this occur and what can I do?

Here are a few suggestions:

(1) Excess volume loaded on gel. The smallest loading volume will result in the greatest difference in band thickness between different masses. Basically overloading the ladders gives saturated bands which do not show any variation in intensity. It is best to load all samples in the same volume.

(2) Sample loaded in larger or smaller volume than standard. Load equal volumes of sample and standard DNA for accurate comparison.

(3) Ethidium bromide (EtBr) staining after electrophoresis. Include ethidium bromide in the gel rather than staining after electrophoresis to increase the difference in band intensity.

(4) EtBr was in the gel, but not the running buffer. This results in the absence of EtBr in the lower half of the gel after electrophoresis and therefore differential fluorescence between bands in the upper half of the gel and the lower half of the gel.
What can cause anomalous migration of my DNA markers?

In general there are very few reasons why a DNA marker would run anomalously. Here are a few suggestions:

(1) For Lambda DNA/Hind III Fragments, the cos site reannealed. Heat Lambda DNA/Hind III Fragments at 65 degrees C for no longer than 10 min before electrophoresis.

(2) Improper electrophoresis conditions were used. Do not allow voltage to exceed ~20 V/cm. Maintain a temperature <30 degrees C during electrophoresis. Check that the electrophoresis buffer used has sufficient buffering capacity.

(3) DNA was denatured. Do not heat standards (except Lambda-derived markers) prior to electrophoresis. Dilute markers in a buffer containing 20 mM NaCl.
I ran my DNA molecular weight ladder, and several bands seem to be missing. Can you offer suggestions on how to rectify this?

There are a few possible reasons for this:

(1) Small DNA bands were electrophoresed off the gel. Electrophorese the gel for less time, at lower voltage, or use a higher percentage gel.

(2) The small bands migrated with the dye front due to differences in ionic strength between gel and buffer. Be sure the buffer in the gel is the same as the electrophoresis buffer.

(3) DNA bands of similar molecular size were not resolved. Increase the electrophoresis time and check the proper percentage gel for resolution. For DNA fragments <1,000 bp, try Agarose 1000 (Cat. No. 16550100) instead of agarose.

(4) DNA was denatured. Do not heat standards (except Lambda-derived markers) prior to electrophoresis. Dilute markers in a buffer containing 20 mM NaCl.

Are there any suggestions to improve the detection of the bands of my DNA molecular weight ladder in an agarose gel?

Faint or absent DNA ladders might be due to:

(1) An insufficient quantity or concentration of DNA loaded on the gel. You can increase the amount of DNA.

(2) Degraded DNA. Avoid nuclease contamination of the DNA standards. Use sterile or autoclaved tips.

(3) DNA was electrophoresed off the gel. Electrophorese the gel for less time, at a lower voltage, or use a higher percentage gel.

(4) An improper UV light source was used for ethidium bromide - stained DNA. Use short-wavelength (254 nm) UV light for greater sensitivity.

(5) The fluorescence bleached after long UV exposure. Stain the gel again with ethidium bromide.

(6) For Biotinylated Lambda DNA/Hind III Fragments or Biotinylated PhiX174/Hinf I Fragments, the biotin was removed by exposure to alkaline conditions. Minimize exposure of biotinylated DNA to NaOH. Note: Alkaline transfers to a membrane do not present a problem when performed at room temperature.

How can I label DNA ladders?

Either T4 DNA polymerase or T4 polynucleotide kinase can be used to label the 100 bp DNA Ladder, 1 Kb Plus DNA Ladder, and the DNA Mass Ladders.

What could be causing smearing of my molecular weight DNA ladder?

(1) Incorrect concentration of DNA ladder gives poor separation and smearing of DNA bands.
(2) Samples containing ≥50 mM NaCl, 100 mM KCl, 10 mM acetate ions, or 10 mM EDTA (i.e. certain restriction enzyme and PCR buffers) will cause loss of resolution on E-Gel agarose gels.

For Research Use Only. Not for use in diagnostic procedures.

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