Puromycin Dihydrochloride
Puromycin Dihydrochloride
인용 및 참조 문헌 (6)
Gibco™

Puromycin Dihydrochloride

Puromycin Dihydrochloride는 Streptomyces alboniger에서 만든 aminonucleoside 항생제입니다. 이는 진핵세포와 원핵세포 모두에서 peptidyl 전달을 억제합니다. 또한 이 항생제는 그램 양성 박테리아와자세히 알아보기
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카탈로그 번호수량
A111380220 mL
A111380310 x 1 mL
카탈로그 번호 A1113802
제품 가격(KRW)
958,000
Online offer
Ends: 31-Dec-2025
1,008,000
할인액 50,000 (5%)
Each
카트에 추가하기
수량:
20 mL
제품 가격(KRW)
958,000
Online offer
Ends: 31-Dec-2025
1,008,000
할인액 50,000 (5%)
Each
카트에 추가하기
Puromycin Dihydrochloride는 Streptomyces alboniger에서 만든 aminonucleoside 항생제입니다. 이는 진핵세포와 원핵세포 모두에서 peptidyl 전달을 억제합니다. 또한 이 항생제는 그램 양성 박테리아와 다양한 동물 및 곤충 세포 성장을 억제합니다. Puromycin의 내성은 “pac” 유전자 발현으로 확인합니다. 이는 세포 생물학에서 포유류 및 줄기세포 배양 시스템의 선택제로 널리 사용됩니다.

Puromycin은 -20°C에 보관 시 용액 상태로 1년 간 안정합니다. 권장 용량은 10-100 μg⁄ml입니다. 단 원핵세포에는 1 μg⁄ml 농도에서 독성이 있을 수 있습니다. 이는 신속하게 작용하여 2일 내에 비내성 세포를 최대 99% 없앨 수 있습니다. 실험 수행 시 용량-반응 곡선을 만들어 숙주 cell line을 죽이는 데 필요한 항생제 최적 농도를 확인하도록 권장합니다.

화학식: C22H29N7O5, 2HCl 화학식량: 544.3 g⁄mole. 제형: 액체 용액 (멸균 여과), 10mg⁄mL용량: 10 x 1mL

본 제품은 냉장/냉동제품으로 반송된 제품은 전량 폐기 처리 되오니 주문 전 상세 내용 다시 한번 확인 부탁드립니다.
For Research Use Only. Not for use in diagnostic procedures.
사양
세포 유형Eukaryotic Cells, Prokaryotic Cells
농도10 mg/mL
배양 유형Mammalian Cell Culture, Insect Cell Culture
용도(애플리케이션)Eukaryotic Selection⁄Stable Cell Line Generation
제품라인Gibco
수량20 mL
유통 기한12 Months
배송 조건Dry Ice
형태Liquid
제품 유형Antibiotic
멸균Sterile-filtered
첨가제 포함HEPES
Unit SizeEach
구성 및 보관
Storage conditions: -5 to -20°C
Shipping conditions: Frozen
Shelf life: 12 months from date of manufacture

자주 묻는 질문(FAQ)

Which of your antibiotics (Geneticin, Zeocin, Hygromycin B, Blasticidin, and Puromycin) can be used together for stable selection in mammalian cells?

All of our antibiotics (Geneticin, Zeocin, Hygromycin B, Blasticidin, and Puromycin) can be used together for making multiple stable cell lines. However, kill curves will need to be performed for each combination of antibiotics since sensitivity to a given antibiotic tends to increase when combined with other antibiotics.

How light-sensitive is Puromycin Dihydrochloride?

Puromycin Dihydrochloride is light sensitive on par with the light sensitivity of most basal media like DMEM and RPMI 1640. We would recommend limiting exposure of this product to light as much as possible (i.e,. don't leave on the bench or under hood lights longer than necessary). That said, using a light microscope to observe cells under normal conditions and timeframes will not break down the antibiotic.

Find additional tips, troubleshooting help, and resources within our Cell Culture Support Center.

How can I decontaminate my cultures?

When an irreplaceable culture becomes contaminated, researchers may attempt to eliminate or control the contamination.

1. Determine if the contamination is bacteria, fungus, mycoplasma, or yeast. Read more here to view characteristics of each contaminant.
2. Isolate the contaminated culture from other cell lines.
3. Clean incubators and laminar flow hoods with a laboratory disinfectant, and check HEPA filters.
4. Antibiotics and antimycotics at high concentrations can be toxic to some cell lines. Therefore, perform a dose-response test to determine the level at which an antibiotic or antimycotic becomes toxic. This is particularly important when using an antimycotic such as Gibco Fungizone reagent or an antibiotic such as tylosin.

The following is a suggested procedure for determining toxicity levels and decontaminating cultures:

1. Dissociate, count, and dilute the cells in antibiotic-free media. Dilute the cells to the concentration used for regular cell passage.
2. Dispense the cell suspension into a multiwell culture plate or several small flasks. Add the antibiotic of choice to each well in a range of concentrations. For example, we suggest the following concentrations for Gibco Fungizone reagent: 0.25, 0.50, 1.0, 2.0, 4.0, and 8.0 µg/mL.
3. Observe the cells daily for signs of toxicity such as sloughing, appearance of vacuoles, decrease in confluency, and rounding.
4. When the toxic antibiotic level has been determined, culture the cells for two to three passages using the antibiotic at a concentration one- to two-fold lower than the toxic concentration.
5. Culture the cells for one passage in antibiotic-free media.
6. Repeat step 4.
7. Culture the cells in antibiotic-free medium for four to six passages to determine if the contamination has been eliminated.

Find additional tips, troubleshooting help, and resources within our Cell Culture Support Center.

What antibiotics do you offer to help control or eliminate cell culture contamination?

Please view the following page to browse the cell culture antibiotics we offer (https://www.thermofisher.com/us/en/home/life-science/cell-culture/mammalian-cell-culture/antibiotics.html).

Find additional tips, troubleshooting help, and resources within our Cell Culture Support Center.

인용 및 참조 문헌 (6)

인용 및 참조 문헌
Abstract
Hypermethylation of
Authors:Zhao Y, Lei Y, He SW, Li YQ, Wang YQ, Hong XH, Liang YL, Li JY, Chen Y, Luo WJ, Zhang PP, Yang XJ, He QM, Ma J, Liu N, Tang LL
Journal:Cells
PubMed ID:32120844
'Epigenetic regulation plays an important role in the development and progression of nasopharyngeal carcinoma (NPC), but the epigenetic mechanisms underlying NPC metastasis remain poorly understood. Here, we demonstrate that hypermethylation of the' ... More
MINA53 deficiency leads to glioblastoma cell apoptosis via inducing DNA replication stress and diminishing DNA damage response.
Authors:Xuan F, Huang M, Zhao E, Cui H
Journal:Cell Death Dis
PubMed ID:30333481
'MYC-induced nuclear antigen (MINA53) is a JmjC (jumonji C domain)-containing protein, which is highly expressed in many cancers including glioblastoma. We have revealed in our previous report that MINA53 is a poor prognostic indicator for glioblastoma patients, and knockdown of MINA53 could reduce glioblastoma malignancy. In this study, we found ... More
The Mitotic and Metabolic Effects of Phosphatidic Acid in the Primary Muscle Cells of Turbot (
Authors:Wang T, Wang X, Zhou H, Jiang H, Mai K, He G
Journal:Front Endocrinol (Lausanne)
PubMed ID:29780359
'Searching for nutraceuticals and understanding the underlying mechanism that promote fish growth is at high demand for aquaculture industry. In this study, the modulatory effects of soy phosphatidic acids (PA) on cell proliferation, nutrient sensing, and metabolic pathways were systematically examined in primary muscle cells of turbot (' ... More
The NAD
Authors:Murphy JP, Giacomantonio MA, Paulo JA, Everley RA, Kennedy BE, Pathak GP, Clements DR, Kim Y, Dai C, Sharif T, Gygi SP, Gujar S
Journal:Cell Rep
PubMed ID:30157431
NAD
Inhibition of MUC1 biosynthesis via threonyl-tRNA synthetase suppresses pancreatic cancer cell migration.
Authors:Jeong SJ, Kim JH, Lim BJ, Yoon I, Song JA, Moon HS, Kim D, Lee DK, Kim S
Journal:Exp Mol Med
PubMed ID:29328069
Mucin1 (MUC1), a heterodimeric oncoprotein, containing tandem repeat structures with a high proportion of threonine, is aberrantly overexpressed in many human cancers including pancreatic cancer. Since the overall survival rate of pancreatic cancer patients has remained low for several decades, novel therapeutic approaches are highly needed. Intestinal mucin has been ... More
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