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- HZ0140
- 2025年07月10日
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- 技术资料
- 保存条件:
-20℃
- 保质期:
半年
- 英文名:
pDsRed2-C1
- 库存:
200
- 供应商:
沪震生物
- 规格:
5ug
pDsRed2-C1
产品信息
| 产品货号 | 产品名称 | 产品规格 | 优惠价 |
|---|---|---|---|
| HZ0140 | pDsRed2-C1 | 5μg |
¥请询价 |
使用说明
沪震质粒平台的各批次质粒菌株发货前均经过严格的多重验证,如存在质量问题,请在收到产品的三个月内通知我司。收到质粒后请短暂离心,取2μl转化至对应感受态中,挑取单克隆重新提取质粒后使用。
基本信息
| 启动子: | CMV promoter |
|---|---|
| 复制子: | pUC ori,f1 ori |
| 终止子: | SV40 poly(A) signal |
| 质粒分类: | 哺乳系列质粒;哺乳荧光质粒;哺乳红色质粒 |
| 质粒大小: | 4675bp |
| 质粒标签: | N-DsRed2 |
| 原核抗性: | 卡那霉素Kan(50μg/ml) |
| 筛选标记: | 新霉素Neo/G418 |
| 克隆菌株: | DH5α等大肠杆菌 |
| 培养条件: | 37℃,有氧 LB |
| 表达宿主: | 293T等哺乳细胞 |
| 诱导方式: | 无须诱导,瞬时表达 |
| 5'测序引物: | CMV-F(CGCAAATGGGCGGTAGGCGTG) |
| 3'测序引物: | Sv40-polyA-R (GAAATTTGTGATGCTATTGC) |
| 备注: | 哺乳细胞红色荧光表达质粒 |
质粒简介
pDsRed2-C1编码DsRed2,一种DsRed变体,其设计用于更快的成熟和较低的非特异性聚集。衍生自Discosoma sp。红色荧光蛋白DsRed2,如其祖细胞DsRed1,含有一系列沉默的碱基对变化,对应于哺乳动物细胞中高表达的人类密码子使用偏好。除了这些变化外,DsRed2含有六个氨基酸取代:V105A,I161T和S197A,导致转染细胞系中红色荧光的出现更加快速;和R2A,K5E和K9T,其阻止蛋白质聚集。(DsRed2可能与DsRed1形成相同的四聚体结构。)在DsRed2组成型表达的哺乳动物细胞培养物中,转染后24小时内可通过荧光显微镜检测发红细胞。在表达DsRed1的细菌和哺乳动物细胞系统中经常观察到的蛋白质的大不溶性聚集体在表达DsRed2的生物体中显着降低。更快成熟,更可溶性的红色荧光蛋白也被宿主细胞耐受良好;用DsRed2转染的哺乳动物细胞培养物在测试的这些细胞系中没有显示出降低的存活力的明显迹象,表达DsRed2的细胞显示与非转染对照相同的形态和生长特征。
pDsRed2-C1 encodes DsRed2, a DsRed variant that has been engineered for faster maturation and lower non-specifc aggregation. Derived from the Discosoma sp. red fuorescent protein (drFP583; 1), DsRed2, like its progenitor DsRed1, contains a series of silent base-pair changes that correspond to human codon-usage preferences for high expression in mammalian cells (2). In addition to these changes, DsRed2 contains six amino acid substitutions: V105A, I161T, and S197A, which result in the more rapid appearance of red fuorescence in transfected cell lines; and R2A, K5E, and K9T, which prevent the protein from aggregating. (DsRed2 may, however, form the same tetrameric structure as DsRed1 [3].) In mammalian cell cultures when DsRed2 is expressed constitutively, red-emitting cells can be detected by fuorescence microscopy within 24 hours of transfection. Large insoluble aggregates of protein, often observed in bacterial and mammalian cell systems expressing DsRed1, are dramatically reduced in organisms expressing DsRed2. The faster-maturing, more soluble red fuorescent protein is also well tolerated by host cells; mammalian cell cultures transfected with DsRed2 show no obvious signs of reduced viability—in those cell lines tested, cells expressing DsRed2 display the same morphology (e.g., adherence, light-refraction) and growth characteristics as non-transfected controls.
The multiple cloning site (MCS) in pDsRed2-C1 is positioned between the DsRed2 coding sequence and the SV40 polyadenylation signal (SV40 poly A). Genes cloned into the MCS will be expressed as fusions to the C-terminus of DsRed2 if they are in the same reading frame as DsRed2 and there are no intervening stop codons. A Kozak consensus translation initiation site upstream of DsRed2 increases the translation efficiency in eukaryotic cells (4). SV40 poly A signals downstream of the MCS direct proper processing of the 3' end of mRNA transcripts. The vector backbone also contains an SV40 origin for replication in mammalian cells expressing the SV40 T-antigen, a pUC origin of replication for propagation in E. coli, and an f1 origin for single-stranded DNA production. A neomycin resistance cassette (Neor ), consisting of the SV40 early promoter, the neomycin/kanamycin resistance gene of Tn5, and polyadenylation signals from the Herpes simplex virus thymidine kinase (HSV TK) gene, allows stably transfected eukaryotic cells to be selected using G418. A bacterial promoter upstream of this cassette expresses kanamycin resistance in E. coli.
pDsRed2-C1 can be used to construct fusions to the C-terminus of DsRed2. If a fusion construct retains the fluorescent properties of the native DsRed2 protein, its expression can be monitored by flow cytometry and its localization in vivo can be determined by fluorescence microscopy. The target gene should be cloned into pDsRed2-C1 so that it is in frame with the DsRed2 coding sequences, with no intervening in-frame stop codons. The recombinant DsRed2 vector can be transfected into mammalian cells using any standard transfection method. If required, stable transformants can be selected using G418 (5). pDsRed2-C1 can also be used as a cotransfection marker; the unmodified vector will express DsRed2.
pDsRed2-C1 encodes DsRed2, a DsRed variant that has been engineered for faster maturation and lower non-specifc aggregation. Derived from the Discosoma sp. red fuorescent protein (drFP583; 1), DsRed2, like its progenitor DsRed1, contains a series of silent base-pair changes that correspond to human codon-usage preferences for high expression in mammalian cells (2). In addition to these changes, DsRed2 contains six amino acid substitutions: V105A, I161T, and S197A, which result in the more rapid appearance of red fuorescence in transfected cell lines; and R2A, K5E, and K9T, which prevent the protein from aggregating. (DsRed2 may, however, form the same tetrameric structure as DsRed1 [3].) In mammalian cell cultures when DsRed2 is expressed constitutively, red-emitting cells can be detected by fuorescence microscopy within 24 hours of transfection. Large insoluble aggregates of protein, often observed in bacterial and mammalian cell systems expressing DsRed1, are dramatically reduced in organisms expressing DsRed2. The faster-maturing, more soluble red fuorescent protein is also well tolerated by host cells; mammalian cell cultures transfected with DsRed2 show no obvious signs of reduced viability—in those cell lines tested, cells expressing DsRed2 display the same morphology (e.g., adherence, light-refraction) and growth characteristics as non-transfected controls.
The multiple cloning site (MCS) in pDsRed2-C1 is positioned between the DsRed2 coding sequence and the SV40 polyadenylation signal (SV40 poly A). Genes cloned into the MCS will be expressed as fusions to the C-terminus of DsRed2 if they are in the same reading frame as DsRed2 and there are no intervening stop codons. A Kozak consensus translation initiation site upstream of DsRed2 increases the translation efficiency in eukaryotic cells (4). SV40 poly A signals downstream of the MCS direct proper processing of the 3' end of mRNA transcripts. The vector backbone also contains an SV40 origin for replication in mammalian cells expressing the SV40 T-antigen, a pUC origin of replication for propagation in E. coli, and an f1 origin for single-stranded DNA production. A neomycin resistance cassette (Neor ), consisting of the SV40 early promoter, the neomycin/kanamycin resistance gene of Tn5, and polyadenylation signals from the Herpes simplex virus thymidine kinase (HSV TK) gene, allows stably transfected eukaryotic cells to be selected using G418. A bacterial promoter upstream of this cassette expresses kanamycin resistance in E. coli.
pDsRed2-C1 can be used to construct fusions to the C-terminus of DsRed2. If a fusion construct retains the fluorescent properties of the native DsRed2 protein, its expression can be monitored by flow cytometry and its localization in vivo can be determined by fluorescence microscopy. The target gene should be cloned into pDsRed2-C1 so that it is in frame with the DsRed2 coding sequences, with no intervening in-frame stop codons. The recombinant DsRed2 vector can be transfected into mammalian cells using any standard transfection method. If required, stable transformants can be selected using G418 (5). pDsRed2-C1 can also be used as a cotransfection marker; the unmodified vector will express DsRed2.
质粒图谱
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文献和实验相关实验
是由IRES序列行使功能的,但要注意的是,这部分的翻译水平比较低,比前面的MCSA大概低一个数量级。所以要选择好两个蛋白的各自位置。 3)、哺乳动物/真核荧光载体 pEGFP-N1 pEGFPN1 表达 绿色 荧光蛋白和目的基因的融合蛋白,目的基因位于N端 kan/neo 4.7kb E. coli/mammals pEGFP-N3 pEGFPN3 表达 绿色 荧光蛋白和目的基因的融合蛋白,目的基因位于N端 kan/neo 4.7kb E. coli/mammals pEGFP-C1
ono1180 求助各位同道: 我想过表达一个基因,想选用一个质粒载体连接此基因再转染入细胞,选用的载体需要有绿色荧光标记,而且能筛选出稳定转染的细胞系,上网查了一下觉得pEGFP系列的好像符合我的要求。 请问这个载体怎么样,大家还有什么载体觉得挺好,请指教,感谢了。 xiaokangkuaile 我用的是pEGFP-C1表达载体,但我的目的基因对GFP表达有影响,转染效果很差
rebeccagold 大家好。 最近在做建一个高表达某G蛋白偶联受体的CHO细胞株,载体是pEGFP-C1。 稳定筛选后,细胞的荧光表达很好。 但奇怪的问题是,该受体定位出现了问题。原本该定位在膜的G蛋白偶联受体,现在基本上呈全细胞分布,而且核尤其亮。百思不得其解。 请各位战友指点。 附图为该细胞的Confocal图,没有染核。 多谢大家啦! woxingwosu 呵呵,你的
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载体pDsRed2-C1
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