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pEYFP-Mem载体

Product Introduction

品牌

酶研生物

货号

MY1124

规格

2ug

价格

询价

货期

现货
质粒类型: 荧光蛋白报告载体
启动子: CMV
克隆方法: 多克隆位点,限制性内切酶
载体大小: 4.8kb 
载体抗性: Kanamycin (卡那霉素)
筛选标记: 新霉素(Neomycin)

订购信息

产品编号 产品名称 规格 价格
1124 pEYFP-Mem

2ug质粒

询价

质粒图谱

pEYFP-Mem 质粒图谱

载体描述

载体说明

pEYFP-Mem encodes a fusion protein consisting of the N-terminal 20 amino acids of neuromodulin, also called GAP-43 (1), and a yellow-green fluorescent variant of the enhanced green fluorescent protein (EGFP). The neuromodulin fragment contains a signal for posttranslational palmitoylation of cysteines 3 and 4 that targets EYFP to membranes. The EYFP gene contains four amino acid substitutions previously published as GFP-10C (2). The fluorescence excitation maximum of EYFP is 513 nm, and the emission maximum is 527 nm (in the yellow-green region).

In addition to the chromophore mutations, EYFP contains >190 silent mutations that create an open reading frame comprised almost entirely of preferred human codons (3). Furthermore, upstream sequences flanking the EYFP-Mem fusion protein have been converted to a Kozak consensus translation initiation site (4). These changes increase the translational efficiency of the fusion protein and consequently its expression in mammalian cells.

Expression of EYFP-Mem is driven by the immediate early promoter of CMV (PCMV IE). The vector contains an SV40 origin of replication and a neomycin resistance (Neor) gene for selection in mammalian cells. A bacterial promoter upstream of this cassette (P) expresses kanamycin resistance in E. coli. The vector backbone also provides a pUC19 origin of replication for propagation in E. coli and an f1 origin for singlestranded DNA production.

载体应用

pEYFP-Mem can be transfected into mammalian cells using any standard method. If required, stable transformants can be selected using G418 (5). Expression of EYFP-Mem in mammalian cells results in strong labeling of the plasma membrane and allows easy tracking of individual cells in a population. This membrane labeling also permits study of fine cellular processes such as neuronal axons (6), leading edges of migrating cells, filopodia, or microvilli on cell surfaces. pEYFP-Mem cannot be used as an exclusive plasma membrane marker because it also partially labels intracellular membranes.

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