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查看更多产品信息 BLOCK-iT™ HiPerform™ Lentiviral Pol II miR RNAi Expression System with EmGFP - FAQs (K493400)
26 个常见问题解答
请使用推荐的滤波装置对所用荧光进行检测。使用倒置荧光显微镜进行分析。如有需要,可使蛋白表达持续1-3天,再进行荧光检测。
所用目标序列可能与其他基因具有较高的同源性;请选择一个不同的目标区域。
做一个杀死曲线,确定细胞株对抗生素的敏感性。应确保将病毒储液正确保存于-80°C,并且冻融次数不超过3次。最后,使用Polybrene试剂,将重组慢病毒转导至细胞。
应确保所用的感受态细胞被正确保存于-80°C,在冰上融化并立即使用。加入DNA时,轻轻混合感受态细胞:不要使用移液管反复吹打混合。同时,转化所用DNA不要超过最大推荐用量(100 ng),或者DNA加入体积不要超过感受态细胞体积的10%,否则会抑制转化。
有些转化子所含质粒在5’和3’ LTR之间出现了不必要的重组。建议使用我们的One Shot Stbl3化学感受态E. coli细胞,因为它们有助于稳定含正向重复序列的慢病毒DNA,通常可减少不必要的重组体。我们建议筛选两种大小的菌落;但是,通常情况下对慢病毒质粒,小菌落可能是正确的克隆。较大的菌落可能是由于发生过重组事件,删除了质粒的部分序列,从而使细胞的生长速度更快。
有多种因素可导致敲低效果较差。请参见以下建议:
•低转染效率:应确保转染所用培养基不含抗生素,并且细胞的汇合度合适;通过改变转染试剂用量而优化转染条件。
•做一个时间梯度检测,确定达到最高基因敲低水平的时间点。
•重组子中存在突变:对转化子中双链寡核苷酸插入片段进行测序验证。
•目标区域不是最佳的:选择一个不同的目标区域。
•应根据相应使用手册中的指南,设计siRNA。
你可尝试减少转染试剂的用量,或使用其他转染试剂。此外,应确保使用的质粒是纯净的,并为转染实验准备的。
我们强烈建议对阳性转化子进行测序,确认双链寡核苷酸插入片段的序列。在筛选转化子时,我们发现多达20%的克隆可能包含突变的插入片段(通常在双链寡核苷酸中有1或2 bp缺失)。其原因尚不清楚,但可能是由于双链寡核苷酸插入片段中的反向重复序列触发了E. coli的修复机制引起的。注意:双链寡核苷酸插入片段有突变的入门克隆,在哺乳细胞中RNAi效果通常较差。应确认入门克隆具有正确的双链寡核苷酸序列,并将这种克隆用于您的RNAi分析。
使用劣质的单链寡核苷酸也会导致出现突变的插入片段。为避免出现这类问题,可使用质谱分析法来检验质量错误的峰,或订购HPLC或PAGE纯化的寡核苷酸。
•应确认下游寡核苷酸链的序列与上游寡核苷酸链的序列是互补的。
•使用shRNA载体时,应将互补序列的单链寡核苷酸混合。上游寡核苷酸链的5’末端应含有CACC,而下游寡核苷酸链的5’末端应含有AAAA。
•使用miRNA载体时,应确保上游寡核苷酸链的5’末端含有TGCT,而下游寡核苷酸链的5’末端含有CCTG
请查看以下可能原因:
•单链寡核苷酸的设计错误;应确认下游链寡核苷酸的序列与上游链寡核苷酸的序列是互补的。
•在寡核苷酸加热至95°C后,确保在室温下退火5-10分钟。
•应检查退火所用的上游链和下游链寡核苷酸的摩尔比,用量应相同。
腺病毒不是一种活跃的裂解病毒,一般成熟病毒颗粒经过2-3天可在细胞中积累。随着细胞内病毒的积累和绝对数量增加,生产细胞发生聚合并最终破裂。一旦发生这种情况,邻近细胞也会被感染,并开始重复为期3天的循环。“细胞病变效应”或CPE,可用于描述上述情况,该效应通常出现在感染后7天内,表现为经过2个周期感染、复制和细胞破裂形成的“彗星状”空斑。
•感染7天后,CPE会扩大;感染后约10天,CPE将最终遍及整个培养皿。
•培养皿中的细胞被感染后,需要约10天的时间才能收获病毒(如上所述)。
•一旦获得原代病毒储液,即可使用感染复数(MOI)为3的病毒储液感染新鲜的293A细胞而直接进行扩增。
请参见以下定义:
•感染:适用于发生病毒复制并生成传染性子代病毒的情况。只有稳定表达E1的细胞系能够被感染。
•转导:适用于无病毒复制且不生成传染性子代病毒的情况。不表达E1的哺乳细胞可被转导。在这种情况下,您可使用腺病毒作为shRNA的传递载体。
请参见以下步骤:
1.将编码shRNA或miR RNAi的双链DNA寡核苷酸克隆进入一种BLOCK-iT入门(shRNA)或表达(miR RNAi)载体中。
2.通过Gateway重组反应将RNAi表达盒转移到腺病毒(仅shRNA)或慢病毒目的载体。
3.将RNAi载体转染到病毒生产细胞中,获得病毒储液,该储液可立即使用或保存于–80°C。
4.收集病毒上清液并测定滴度(根据需要对腺病毒储液进行扩增)。
5.将慢病毒或腺病毒储液转导至任意细胞类型。
Please ensure that the recommended filter sets for detection of fluorescence are used. Use an inverted fluorescence microscope for analysis. If desired, allow the protein expression to continue for 1-3 days before assaying for fluorescence.
The target sequence used may contain strong homology to other genes; please select a different target region.
Perform a kill curve to determine the antibiotic sensitivity of your cell line. Ensure that viral stocks are stored properly at -80 degrees C, and do not undergo freeze/thaw more than 3 times. Lastly, transducer the lentiviral contruct into cells in the presence of Polybrene reagent.
Ensure that the competent cells used were stored properly at -80 degrees C, and thawed on ice for immediate use. When adding DNA, mix competent cells gently: do not mix by pipetting up and down. Also do not exceed the maximum recommended amount of DNA for transformation (100 ng) or allow the volume of DNA added to exceed 10% of the volume of the competent cells, as these may inhibit the transformation.
Some transformants may contain plasmids in which unwanted recombination has occurred between the 5' and 3' LTR. We recommend using our One Shot Stbl3 Chemically Competent E. coli cells, as they help in stabilizing lentiviral DNA containing direct repeats, and generally give rise to fewer unwanted recombinants. We recommend screening both colony sizes; however, in general, for lentiviral plasmids the small colonies tend to be the correct clones. Large colonies may have undergone a recombination event to delete part of the plasmid, thus allowing the cells to grow faster.
Low expression levels can be due to several factors. Please see the suggestions below:
- Low transfection efficiency: ensure that antibiotics are not added to the media during transfection, and that cells are at the proper cell confluency; optimize transfection conditions by varying the amount of transfection reagent used.
- Try a time course assay to determine the point at which the highest degree of gene knockdown occurs.
- Mutations are present in your construct: analyze the transformants by sequencing the ds oligo insert to verify its sequence.
- Target region is not optimal: select a different target region.
- Ensure siRNA is designed according to guidelines listed in the respective manual.
Find additional tips, troubleshooting help, and resources within our RNAi Support Center.
You can try to scale back the amount of transfection reagent used, or use a different reagent for the transfection. Additionally, ensure that the plasmid used is pure and properly prepared for transfection.
Find additional tips, troubleshooting help, and resources within our RNAi Support Center.
We highly recommend sequencing positive transformants to confirm the sequence of the ds oligo insert. When screening transformants, we find that up to 20% of the clones may contain mutated inserts (generally 1 or 2 bp deletions within the ds oligo). The reason for this is not known, but may be due to triggering of repair mechanisms within E. coli as a result of the inverted repeat sequence within the ds oligo insert. Note: Entry clones containing mutated ds oligo inserts generally elicit a poor RNAi response in mammalian cells. Identify entry clones with the correct ds oligo sequence and use these clones for your RNAi analysis.
Mutated inserts could also be caused by using poor-quality single-stranded oligos. Use mass spectrometry to check for peaks of the wrong mass, or order HPLC- or PAGE-purified oligos to avoid this problem.
- Verify that the sequence of the bottom-strand oligo is complementary to the sequence of the top-strand oligo.
- For the shRNA vectors, make sure that you mix single-stranded oligos with complementary sequences. The top-strand oligo should include CACC on the 5' end, while the bottom-strand oligo should include AAAA on the 5' end.
- For the miRNA vectors, make sure that the top-strand oligo includes TGCT at the 5' end and that the bottom-strand oligo includes CCTG at the 5' end.
Please review the possibilities below:
- Single-stranded oligos designed incorrectly; verify that the sequence of the bottom-strand oligo is complementary to the sequence of the top strand oligo.
- Ensure that oligos are annealed at room temp for 5-10 minutes after heating to 95 degrees C.
- Check the molar ratio you are using for annealing top and bottom-strand oligo; equal amounts should be used.
Adenovirus is not an actively lytic virus, meaning that mature viral particles accumulate in the cell over the course of two to three days. As virus accumulates, the producer cell rounds up and eventually bursts due to the sheer number of virus particles inside. Once this occurs, neighboring cells become infected and the three-day cycle begins again. The term “cytopathic effect”, or CPE, is used to describe this and is typically visible within approximately 7 days posttransfection in the form of “comet-shaped” plaques resulting from two rounds of infection, replication and cell burst.
After 7 days, CPE will expand and eventually take over the plate by approximately 10 days posttransfection.
10 days are required to produce virus from a transfected dish of cells (as just described).
Once an initial viral stock is produced, it can be amplified directly by infection of fresh 293A cells at a multiplicity of infection (MOI) of 3.
Please see the definitions below:
Infection: Applies to situations where viral replication occurs and infectious viral progeny are generated. Only cell lines that stably express E1 can be infected.
Transduction: Applies to situations where no viral replication occurs and no infectious viral progeny are generated. Mammalian cell lines that do not express E1 are transduced. In this case, you are using adenovirus as a vehicle to deliver shRNA.
Please see the steps below:
Clone the double-stranded DNA oligo encoding an shRNA or miR RNAi into one of the BLOCK-iT entry (shRNA) or expression (miR RNAi) vectors.
Transfer the RNAi cassette into the adenoviral (shRNA only) or lentiviral destination vector by Gateway recombination.
Transfect RNAi vectors into the viral producer cells to produce viral stocks, which can be used immediately or stored at -80 degrees C.
Harvest viral supernatants and determine the titer (amplify adenoviral stocks if desired).
Transduce lentiviral or adenoviral stocks to any cell type.
Find additional tips, troubleshooting help, and resources within our RNAi Support Center.