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DNMT1 Knockdown 293T Cell Line, Heterozygous (RM01806)

Genome sequence analysis of PCR products from parental (WT) and DNMT1 Knockdown (KD) 293T cells, using sanger sequencing.

Western blot analysis of extracts from parental (Control) and DNMT1 knockdown (KD) 293T cells, using DNMT1 antibody at 1:1000 dilution.

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货号: RM01806
促销价:   ¥10000
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详细信息

靶点
DNMT1
细胞系
293T
突变描述
DNMT1 Knockdown 293T cell line is engineered from 293T cell line with Gene-Editing Technology.
Allele-1:50bp deletion in exon4
Allele-2:54bp deletion in exon4

Mammalian cells such as human, rat and mouse cells are normally diploid with two alleles.
Homozygote: both alleles were knocked out, mRNA has no signal, no expression of proteins.
Heterozygote: only one allele was knocked out, the mRNA transcript levels was decreased compared to wild type, and the protein expression levels was also lower than that of the wild type.
敲除验证
Sanger Sequencing
产品组成
1 vial parental cell line and 1 vial knockout cell line
细胞数目
1~5x106 cells/vial.
使用方法
Upon arrival, it should be maintained in DMEM medium with 10%(v/v) fetal bovine serum and 100U penicillin-streptomycin, at 37℃ with 5% CO2 condition.
1. Thaw the vial in 37℃ water bath ,and shake it to melt as soon as possible.
2. Transfer the cell suspension to a 15mL conical tube with pre-warmed 5mL complete me-
    dium and centrifuge 1000rpm for approximately 5 minutes at room temperature.
3. Remove and discard the supernatant.
4. Resuspend the cell pellet with 1mL pre-warmed complete medium and seed in 10cm dish.
5. Add 8-10mL of complete medium.
6. Incubate the culture at 37℃ incubator with 5% CO2.
7. A subcultivation ratio of 1:2-1:4 is recommended.
物种
Human
保存条件
Stored in liquid nitrogen for a long time less than -130℃. Minimizing freeze-thaw cycles.
运输条件
Dry ice

背景信息

This gene encodes an enzyme that transfers methyl groups to cytosine nucleotides of genomic DNA. This protein is the major enzyme responsible for maintaining methylation patterns following DNA replication and shows a preference for hemi-methylated DNA. Methylation of DNA is an important component of mammalian epigenetic gene regulation. Aberrant methylation patterns are found in human tumors and associated with developmental abnormalities. Variation in this gene has been associated with cerebellar ataxia, deafness, and narcolepsy, and neuropathy, hereditary sensory, type IE. Alternative splicing results in multiple transcript variants.

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