BpiI (BbsI) (10 U/μL)
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BpiI (BbsI) (10 U/μL)
BpiI (BbsI) (10 U/μL)
BpiI (BbsI) (10 U/μL)
Thermo Scientific™

BpiI (BbsI) (10 U/μL)

BpiI (BbsI) 제한 효소는 GAAGAC(2/6)^ 부위를 인지하고 37°C, G 버퍼(isoschizomer: BbsI, BpuAI, BstV2I)에서 가장 잘 절단됩니다. Thermo Scientific의 기존 restriction자세히 알아보기
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카탈로그 번호수량
ER1011200 units
ER10121,000 units
카탈로그 번호 ER1011
제품 가격(KRW)
72,000
온라인 행사
Ends: 31-Dec-2025
84,000
할인액 12,000 (14%)
Each
카트에 추가하기
수량:
200 units
대량 주문 또는 맞춤형 요청
제품 가격(KRW)
72,000
온라인 행사
Ends: 31-Dec-2025
84,000
할인액 12,000 (14%)
Each
카트에 추가하기
BpiI (BbsI) 제한 효소는 GAAGAC(2/6)^ 부위를 인지하고 37°C, G 버퍼(isoschizomer: BbsI, BpuAI, BstV2I)에서 가장 잘 절단됩니다. Thermo Scientific의 기존 restriction endonuclease는 다양한 고품질 제한 효소 제품군으로, 여러 Five Buffer System 버퍼 중 하나에서 작용하도록 최적화되어 있습니다. 또한, 보편적인 Tango 버퍼는 이중 절단 시 편리합니다. 모든 효소는 권장 버퍼와 반응 조건에서 100% 활성을 나타냅니다. 일관된 성능을 보장하기 위해 Thermo Scientific 반응 효소 반응 버퍼에는 사전 혼합된 BSA가 포함되어 있으므로, 많은 효소의 안정성을 강화하고 DNA 조제물에 존재할 수 있는 오염물과 결합합니다.

주요 특징

• 우수한 품질—엄격한 품질 관리와 업계 최고의 제조 공정
• 편리하게 색으로 구분된 Five Buffer System
• 이중 절단을 위한 보편적인 Tango 버퍼 함유
• 반응 버퍼에서 사전 혼합된 BSA
• 다양한 restriction endonuclease 특이성

어플리케이션
• 분자 클로닝
• 제한 부위 매핑
• 유전형 분석
• Southern blotting
• RFLP(Restriction fragment length polymorphism)
• SNP

참고: BpiI는 다음 단계의 인지 부위를 절단하고 필요한 염기 5'-돌출부 4개를 생성할 수 있습니다. 이 기능은 direct PCR 산물 클로닝에서 유용합니다. 메틸화 민감도에 대해서는 제품 사양을 참조하십시오.
For Research Use Only. Not for use in diagnostic procedures.
사양
함께 사용가능한 버퍼10X Buffer G
제품 유형Restriction Enzyme
수량200 units
농도10 U/μL
효소BpiI (BbsI)
메틸화 민감도Not Dam Methylation-Sensitive, Not Dcm Methylation-Sensitive, Not CpG Methylation-Sensitive
최적 반응 온도37°C
연구 카테고리Scarless Cloning
열 불활성화에 대한 민감성Yes
Type IIS REYes
Unit SizeEach

자주 묻는 질문(FAQ)

Can I double digest my DNA using a Thermo Scientific conventional restriction enzyme and a FastDigest restriction enzyme?

For optimal results with fast reaction and 100% buffer compatibility, we highly recommend using FastDigest restriction enzymes in double digestion. In certain cases however, it may be possible to perform double digestion using a mix of Thermo Scientific conventional and Fastdigest restriction enzymes. For specific recommendations, please contact our technical service with detailed information about the enzymes and DNA template you plan to use.

Why do you recommend only 2 µL of 10X Reaction Buffer when digesting unpurified PCR product in a 30 µL reaction?

We recommend only 2 µl 10X Buffer in digestion of unpurified PCR products in 30 ul since salts and ions from the PCR reaction would be carried over to the digestion reaction.

Find additional tips, troubleshooting help, and resources within our Restriction Enzyme Cloning Support Center.

What are key factors promoting star activity?

Star activty may be contributed by:

• Prolonged incubation
• High enzyme concentration
• High glycerol concentration (usually 5% or higher)
• Small reaction volume

Find additional tips, troubleshooting help, and resources within our Restriction Enzyme Cloning Support Center.

Unexpected DNA bands were observed on agarose gel electrophoresis after restriction digestion. What may have caused this?

Unexpected cleavage patterns may be caused by the following reasons:

• Star activity of the restriction enzyme: Make sure to follow the reaction recommendations as specified in the protocol. Star activity may be improved by changing several key factors such as decreasing the reaction time, increasing the reaction volume, and decreasing the enzyme amount.

• Partial or incomplete cleavage (incomplete restriction reaction): Efficiency of the enzyme can be improved by adding more enzyme, prolonging the reaction time, or purifying DNA samples to remove inhibitory contaminants.

• Contamination with non-specific endonucleases: Non-specific endonucleases may be introduced to the DNA sample and/or the enzyme from improper handling, pipetting, etc.

•Improper reaction setup: Mix the digestion reaction thoroughly.

Find additional tips, troubleshooting help, and resources within ourRestriction Enzyme Cloning Support Center.

What are possible reasons for incomplete/failed restriction digestion?

The main reason for DNA cleavage reaction failure is the presence of contaminating inhibitors in the template DNA (for example: phenol, chloroform, detergents, ethanol, excess salts, EDTA, etc.). The best way to troubleshoot is to perform control reactions:

1) negative control (experimental DNA in the reaction buffer without the restriction enzyme) to access degradation of DNA by contaminants in the DNA template and/or reaction buffer
2) positive control reaction I (digestion of highly pure control DNA with the restriction enzyme) to access reaction conditions and enzyme activity
3) positive control reaction II (highly pure control DNA + experimental DNA + Restriction Enzyme) to access possible issues with the experimental DNA.

In addition, please check for sensitivity of the restriction enzymes to template DNA methylation.

Find additional tips, troubleshooting help, and resources within our Restriction Enzyme Cloning Support Center.

View all BpiI (BbsI) (10 U/μL), 200 units FAQs