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BenchMark™ Pre-stained Protein Ladder
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BenchMark™ Pre-stained Protein Ladder
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BenchMark™ Pre-stained Protein Ladder

BenchMark Pre-Stained Protein Ladder contains 10 proteins ranging in apparent molecular weight from 6 to 180 kDa for use inRead more
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Catalog NumberQuantity
107480102 x 250 μL
Catalog number 10748010
Price (USD)
276.65
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294.00
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Estimated availability date 04-Aug-2025
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Price (USD)
276.65
Online Exclusive
294.00
Save 17.35 (6%)
Each
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Ask our AI about this Product
BenchMark Pre-Stained Protein Ladder contains 10 proteins ranging in apparent molecular weight from 6 to 180 kDa for use in monitoring electrophoresis or transfer from gel to membrane in western blotting. The protein standard is supplied in a ready-to-use format for direct loading onto gels; no need to heat, reduce, or add sample buffer prior to use.

Compare and view all other protein standards and ladders ›

Applications
• Monitoring protein migration during SDS-polyacrylamide gel electrophoresis
• Monitoring protein transfer onto membranes after western blotting
• Sizing of proteins on SDS-PAGE gels and western blots

For Research Use Only. Not for use in diagnostic procedures.
Specifications
Detection MethodColorimetric
Gel CompatibilityNovex™ Tris-Glycine Gels
Molecular Weight (g/mol)180, 115, 82, 64, 49, 37, 26, 19, 15, 6 kDa
Product LineBenchMark™
Product TypeProtein Ladder
Quantity2 x 250 μL
Ready to LoadYes
Shipping ConditionDry Ice
Stain Type2 color: Blue, Pink
System TypeWestern Blotting, SDS-PAGE
Number of Markers10
Size Range6 to 180 kDa
Unit SizeEach
Contents & Storage
Two vials of 250 μL each are provided in loading buffer consisting of 50 mM Tris-HCl (pH 6.8), 5 mM EDTA, 10 mM DTT, 1% (w/v) SDS, 10% (w/v) glycerol.

Store at -20°C. Avoid repeated freezing and thawing.
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Frequently asked questions (FAQs)

What is the amount of protein in BenchMark Pre-Stained Ladders?

BenchMark Pre-Stained Ladder has approximately 0.1 ug/uL protein per band.

Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.

I used one of your pre-stained protein standards for a western transfer and I noticed that the intensity of the band faded from the membrane during the transfer process. Why is this?

The fading is most likely due to detergent in the western blocking/washing solutions that can remove some of the proteins from the membrane. The dye itself will not wash off of the proteins because it is covalently bound. We have found that smaller pore size membranes retain the proteins better during blocking and wash procedures, and hence recommend use of 0.2 µm instead of 0.45 µm membranes for best resolution and protein retention. After transfer, it is a good idea to circle the pre-stained bands with a pencil on the membrane, so band positions can be identified after blocking and processing.

Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.

I used one of your protein standards for a western transfer and noticed that some of the lower-molecular weight protein bands passed through the membrane. How can I resolve this issue?

- Decrease voltage, current or length of transfer time
- Make sure that the methanol concentration in the transfer buffer is proper; use a methanol concentration of 10-20% methanol removes the SDS from SDS-protein complexes and improves the binding of protein to the membrane.
- Make sure that the SDS concentration (if added) in the transfer buffer is proper, don't use more than 0.02-0.04% SDS. Using too much SDS can prevent binding of proteins to the membrane.
- Check the pore size of the membrane and the size of the target protein. Proteins smaller than 10 kDa will easily pass through a 0.45 µm pore size membrane. If proteins smaller than 10 kDa are of interest, it would be better to use a 0.2 µm pore size membrane.

Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.

I used one of your protein standards for a western transfer and noticed that some of the higher-molecular weight bands transferred very poorly to the membrane. Can you offer some tips?

- Increase voltage, current or length of time for transfer
- SDS in the gel and in the SDS-protein complexes promotes elution of the protein from the gels but inhibits binding of the protein to membranes. This inhibition is higher for nitrocellulose than for PVDF. For proteins that are difficult to elute from the gel such as large molecular weight proteins, a small amount of SDS may be added to the transfer buffer to improve transfer. We recommend pre-equilibrating the gel in 2X Transfer buffer (without methanol) containing 0.02-0.04% SDS for 10 minutes before assembling the sandwich and then transferring using 1X transfer buffer containing 10% methanol and 0.01%SDS.
- Methanol removes the SDS from SDS-protein complexes and improves the binding of protein to the membrane, but has some negative effects on the gel itself, leading to a decrease in transfer efficiency. It may cause a reduction in pore size, precipitation of some proteins, and some basic proteins to become positively charged or neutral. Make sure that the methanol concentration in the transfer buffer is not more than 10-20% and that high-quality, analytical grade methanol is used.

Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.

I used one of your pre-stained standards on a Tris-Glycine gel and noticed that the molecular weights of the proteins were different than on a NuPAGE Bis-Tris gel. What is the reason for this?

Pre-stained standards have a dye that is covalently bound to each protein that will result in the standard migrating differently in different buffer systems (i.e., different gels). As a result, using a pre-stained standard for molecular weight estimation will only give the apparent molecular weight of the protein. Pre-stained standards may be used for molecular weight approximation, confirming gel migration and estimating blotting efficiency but for accurate molecular weight estimation, an unstained standard should be used.

Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.

View all BenchMark™ Pre-stained Protein Ladder FAQs

Figures

BenchMark Pre-stained Protein Ladder band profile
BenchMark Pre-stained Protein Ladder band profile

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Lot #Certificate TypeDateCatalog Number(s)
3135237Certificate of AnalysisJul 10, 202510748010
3104174Certificate of AnalysisJan 16, 202510748010
2999810Certificate of AnalysisDec 02, 202410748010
2964009Certificate of AnalysisJul 11, 202410748010
2883657Certificate of AnalysisApr 11, 202410748010
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BenchMark™ Pre-Stained Protein Ladder

Citations & References (5)

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Citations & References
Abstract
2F3 monoclonal antibody recognizes the O26 O-antigen moiety of the lipopolysaccharide of enterohemorrhagic Escherichia coli strain 4276.
Authors:Szalo IM, Taminiau B, Goffaux F, Pirson V, McCappin J, Ball HJ, Mainil JG,
Journal:Clin Diagn Lab Immunol
PubMed ID:15138178
'Enterohemorrhagic Escherichia coli (EHEC) and enteropathogenic E. coli (EPEC) organisms are groups of pathogenic strains whose infections are characterized by a typical lesion of enterocyte attachment and effacement. They are involved in enteric diseases both in humans and in animals, and EHEC strains can be responsible for hemolytic uremic syndrome ... More
In the Absence of the First Membrane-spanning Segment of Subunit 4(b), the Yeast ATP Synthase Is Functional but Does Not Dimerize or Oligomerize.
Authors: Soubannier Vincent; Vaillier Jacques; Paumard Patrick; Coulary Benedicte; Schaeffer Jacques; Velours Jean;
Journal:J Biol Chem
PubMed ID:11799128
'The N-terminal portion of the mitochondrial b-subunit is anchored in the inner mitochondrial membrane by two hydrophobic segments. We investigated the role of the first membrane-spanning segment, which is absent in prokaryotic and chloroplastic enzymes. In the absence of the first membrane-spanning segment of the yeast subunit (subunit 4), a ... More
The formation of highly soluble oligomers of alpha-synuclein is regulated by fatty acids and enhanced in Parkinson's disease.
Authors:Sharon R, Bar-Joseph I, Frosch MP, Walsh DM, Hamilton JA, Selkoe DJ,
Journal:Neuron
PubMed ID:12597857
Accumulation of misfolded proteins as insoluble aggregates occurs in several neurodegenerative diseases. In Parkinson's disease (PD) and dementia with Lewy bodies (DLB), alpha-synuclein (alpha S) accumulates in insoluble inclusions. To identify soluble alpha S oligomers that precede insoluble aggregates, we probed the cytosols of mesencephalic neuronal (MES) cells, normal and ... More
The typically mitochondrial DNA-encoded ATP6 subunit of the F1F0-ATPase is encoded by a nuclear gene in Chlamydomonas reinhardtii.
Authors: Funes Soledad; Davidson Edgar; Claros M Gonzalo; van Lis Robert; Pérez-Martínez Xochitl; Vázquez-Acevedo Miriam; King Michael P; González-Halphen Diego;
Journal:J Biol Chem
PubMed ID:11744727
The atp6 gene, encoding the ATP6 subunit of F(1)F(0)-ATP synthase, has thus far been found only as an mtDNA-encoded gene. However, atp6 is absent from mtDNAs of some species, including that of Chlamydomonas reinhardtii. Analysis of C. reinhardtii expressed sequence tags revealed three overlapping sequences that encoded a protein with ... More
Bee Venom Phospholipase Inhibits Malaria Parasite Development in Transgenic Mosquitoes.
Authors: Moreira Luciano A.; Ito Junitsu; Ghosh Anil; Devenport Martin; Zieler Helge; Abraham Eappen G.; Crisanti Andrea; Nolan Tony; Catteruccia Flaminia; Jacobs-Lorena Marcelo;
Journal:J Biol Chem
PubMed ID:12167627
Malaria kills millions of people every year, and new control measures are urgently needed. The recent demonstration that (effector) genes can be introduced into the mosquito germ line to diminish their ability to transmit the malaria parasite offers new hope toward the fight of the disease (Ito, J., Ghosh, A., ... More
5 total citations

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