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Explore The Properties Of MOPS Buffer 1132-61-2 At Different Temperatures

Dettagli del prodotto

Luogo di origine: HUBEI

Marca: desheng

Certificazione: ISO9000

Numero di modello: AR

Termini di pagamento e di spedizione

Quantità di ordine minimo: 20kg

Prezzo: Detailed discussion

Imballaggi particolari: 25 kg/barile

Tempi di consegna: 3 giorni

Termini di pagamento: L/C,T/T,D/P,Western Union

Capacità di alimentazione: 1t/giorno

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Specificità
Evidenziare:

3-morpholinopropane sulfonic acid

,

MOPS buffer

,

1132-61-2

CAS:
1132-61-2
Aspetto:
Polvere bianca
Confezione:
25 kg/barile
ALIAS:
Tampone MOPS
CAS:
1132-61-2
Aspetto:
Polvere bianca
Confezione:
25 kg/barile
ALIAS:
Tampone MOPS
Descrizione
Explore The Properties Of MOPS Buffer 1132-61-2 At Different Temperatures

MOPS (3-morpholinosulfonic acid), a key component of Good's buffers, is widely used in RNA denaturing electrophoresis. With a pKa close to physiological pH, minimal UV absorption, and limited permeability through biological membranes, it ensures stable performance in maintaining formaldehyde-denaturing conditions and preserving nucleic acid migration behavior. However, practical applications frequently encounter issues such as abnormal electrophoretic bands and buffer aging, which directly affect data interpretation. This article focuses on the core challenges of MOPS products in electrophoretic applications, analyzes the causes, and proposes streamlined yet effective optimization solutions.


Product Name

3-morpholinopropane sulfonic acid

Chemical Abbreviation

MOPS buffer

CAS Number

1132-61-2

Product Appearance

Pure white crystalline powder

Molecular Weight

209.26

Molecular Formula

C7H15NO4S

Storage Conditions

Room temperature, away from light and moisture

Purity

More than 99%

Standard Packaging

500g/bottle, plastic bottle

Manufacturer

Hubei Xindesheng


Product Characteristics and Electrophoretic Compatibility Overview


MOPS is a white crystalline powder with good water solubility. Its pKa at 20 ℃ is approximately 7.2, which is highly compatible with the alkaline denaturation conditions required for RNA electrophoresis. The buffer has no significant light absorption near 260 nm, avoiding background interference during gel imaging. Meanwhile, MOPS has no significant promoting effect on RNase activity and is suitable for long-term storage and isolation of RNA samples. However, based on these ideal characteristics, researchers tend to overlook the performance degradation of buffer solutions during repeated use, which can lead to various image anomalies.


Explore The Properties Of MOPS Buffer 1132-61-2 At Different Temperatures 0

MOPS buffer


Analysis of the causes of stripe dispersion and tailing phenomena


The widening and blurred edges of the bands in the electrophoresis image usually reflect uneven forces on nucleic acid molecules during migration. After excluding sample degradation factors, the aging of MOPS buffer became the primary suspect. After multiple electrophoresis runs, hydrogen ions and hydroxyl ions generated by electrode reactions accumulate in the anode and cathode regions respectively, causing the ion composition and concentration gradient of the buffer to deviate from the initial state. This change in ion strength directly distorts the uniformity of the electric field distribution, resulting in inconsistent migration rates of RNA fragments at different positions within the same lane, ultimately presenting a dispersed morphology. The tailing phenomenon is mainly caused by the accumulation of impurity ions or organic compounds in the buffer solution, which compete with nucleic acids for charge carriers, resulting in delayed migration of small fragments and the formation of elongated shadows at the trailing edge of the band.


Chemical evolution and contamination risk of buffer aging


MOPS solution undergoes slow chemical evolution during storage and repeated use. The carbon dioxide in the air gradually dissolves, generating carbonate ions and weakening the original buffering capacity. The reactive oxygen species generated during electrophoresis may oxidize MOPS molecules, producing by-products with UV absorption that can increase the background noise of fluorescence detection. What is more alarming is that MOPS solution does not contain bacteriostatic ingredients, and it is easy to breed microorganisms after being placed at room temperature. Once the nuclease secreted by MOPS solution penetrates into gel with buffer solution, it can directly lead to the overall dispersion of all bands. When a thin film or flocculent substance appears on the liquid surface, the contamination has entered the dominant stage and the batch of buffer solution must be immediately discarded.


Systematic optimization plan and operational standards


To address the above issues, standardized operating procedures can be established around MOPS products. Firstly, freshly prepared buffer should be used for each electrophoresis, and the inner and outer compartments should be strictly distinguished for use. The contact area between the outer groove and the electrode is large, and the accumulation of by-products is rapid. After each experiment, all of them must be replaced and cannot be retained. If the inner tank needs to be reused, it should only be used once, and the current value should be compared before the second use. If the deviation is large, it indicates that the buffer solution has failed.


In the preparation process, high-purity deionized water should be used to dissolve MOPS powder, and a 0.22 micron filter membrane should be used for sterilization to avoid high temperature and high pressure treatment. The reserve solution is divided into sterile polypropylene tubes according to a single dose, stored in the dark and refrigerated. When using, the required volume is taken out, and the remaining part cannot be stored back. Record the batch of buffer solution, usage frequency, and current changes for each experiment, and create a traceable ledger.


For sudden band abnormalities, a simple control can be designed: parallel electrophoresis can be performed on both the new batch and the aging batch. If the bands in the new batch are clear, the original buffer solution is confirmed to be invalid. In addition, appropriately reducing the electrophoresis operating voltage and controlling the stable ambient temperature can slow down the buffer electrolysis rate and extend the effective use window. For solutions with slight discoloration or turbidity, regardless of whether flocculent substances are visible, they should be considered ineffective and resolutely discarded.

Through the above measures, the performance of MOPS buffer in electrophoresis tends to stabilize, and the band clarity and experimental reproducibility can be improved. Experimenters only need to pay attention to operational details to leverage the inherent advantages of MOPS and obtain high-quality electrophoresis data.


Explore The Properties Of MOPS Buffer 1132-61-2 At Different Temperatures 1

Product packaging


Hubei Xindesheng Material Technology Co., Ltd. is a supplier of MOPS buffer raw materials, with accurate buffering range and equipped with usage guidelines. It provides detailed information on the amount of MOPS buffer raw materials added, preparation methods, and compatibility considerations with other reagents in different experimental scenarios. Researchers and business producers can quickly get started and fully utilize the performance of MOPS buffer, greatly improving experimental and production efficiency. If you have any purchasing needs, please feel free to contact us!

 

 

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