Invitrogen™

Chargeswitch™ Pro ET Removal Wash Buffer

Chargeswitch™ Pro ET Removal Wash Buffer is a component in the Chargeswitch™ Pro Filter Plasmid kits. With the endotoxin removal자세히 알아보기

카탈로그 번호	수량
CS31110	1 each

카탈로그 번호 CS31110

제품 가격(KRW)

1 each

Chargeswitch™ Pro ET Removal Wash Buffer is a component in the Chargeswitch™ Pro Filter Plasmid kits. With the endotoxin removal buffer, the endotoxin levels of <10 EU/ug can be achievable and it can be used in all Chargeswitch™ Pro plasmids.

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

버퍼Wash Buffer

최종 제품 유형Plasmid DNA

고처리량 호환성Not High-throughput Compatible (Manual)

제품라인ChargeSwitch

제품 유형Pro ET Removal Wash Buffer

수량1 each

샘플 종류DNA (Plasmid)

배송 조건Room Temperature

시스템 유형ChargeSwitch™

Isolation TechnologyChargeSwitch Chemistry

Unit SizeEach

구성 및 보관

500 mL Wash Buffer. Store (at room temperature)

자주 묻는 질문(FAQ)

I used water to elute my plasmid instead of the Elution Buffer with my ChargeSwitch kit, but saw very low plasmid yield. Why is this?

We strongly recommend using the Elution Buffer provided in the kit, and do not recommend elution with water. If you need to elute in any other buffer, be sure to use a buffer of pH 8.5-9.0 for efficient DNA elution.

What is the difference between the ChargeSwitch Pro kit and the Charge-Switch Pro filter kit?

The filter kit is based upon a dual nested column design, which facilitates the fastest and simplest protocol for obtaining high quality plasmid (less than 10 EU/µg DNA). Modified wash buffer 1 removes more endotoxin.

What is the typical yield when using the ChargeSwitch Pro Filter Plasmid Mini or Midi Kits?

The typical yield is 25 µg from a 5 mL culture for the ChargeSwitch Pro mini kit, 200 µg from a 25 mL culture for the midi kit, and 800 µg from a 100 mL culture from the maxi kit. The plasmid size range for the kits is typically 3-9 kb.

How does ChargeSwitch technology work?

Based on a patented switchable chemistry, ChargeSwitch purification utilizes the charge on a solid surface for nucleic acid capture. At lower pH, the surface chemistry holds a positive charge and attracts nucleic acid. At higher pH, the surface chemistry is neutral and any bound nucleic acid is released.