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pCMV-TagBFP-SQSTM1(human)-Neo

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$70.00

In stock

SKU

PL40856

NM_003900.5;A170; DMRV; FTDALS3; NADGP; OSIL; p60; p62;p62B; PDB3; ZIP3

100μg liquid plasmid(Instantly):$91

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name	pCMV-TagBFP-SQSTM1(human)-Neo	another name	apCMV-TagBFP-SQSTM1(human)-Neo
Insert Size (bp)	1323bp	Plasmid host	Mammary cell
Plasmid uses	Protein expression	Fragment type	ORF
Fragment species	Human	Prokaryotic resistance	Kan
Selective marker	Neo/G418	Fluorescent labeling	Blue
Promoter	CMV	Replicon	pUC
Competence	DH5a	Growth Temperature	37°C
Vector backbone		5′ sequencing primer
3′ sequencing primer		Copy number
Induction methodanother name

1. All products on this platform are only for scientific research and cannot be used for clinical trials;
2. The small package of plasmids is sold at the price of the template, which only guarantees the correct sequencing of the gene part, and does not guarantee the experimental effect such as the expression of the plasmid;
3. Some plasmids have not been completely sequenced even if they are produced by the company, and if the sequence sequencing of key parts is correct, it is also considered to be the correct plasmid;
4. The after-sales period of small package plasmid products is 3 months from the date you receive the product.
5. Plasmid construction is charged at cost, all plasmids will be shared with other experimenters, please inform and pay confidential fees in advance for confidential plasmids;
6. Because scientific research is an activity to explore the unknown, there is great uncertainty, so Biogege does not bear additional joint and several liability under any circumstances;
7. Publication [Chinese papers] please mark: product name (product item number) provided by Biogege;
8. Please mark Product Name (Product Item Number) was obtained from Biogege,China.

Instructions

Plasmid dry powder (stored at minus 20 degrees, shelf life 90 days, transportation at room temperature)
1. After receiving the dry powder plasmid, please centrifuge at 5000rpm for 1min, and then add 20μl of sterile water to dissolve the plasmid;
2. Thaw the corresponding competent on an ice box, take 2 μl of plasmid and add it to 100 μl of competent for 30min;
3. 42 degrees heat shock for 60s, ice bath for 2min, add 900 of antibiotic-free LB medium, and culture at 180rpm shaking for 45min;
4. Centrifuge at 6000rpm for 3min, leave 100μl of supernatant to resuspend, and then coat it on the corresponding resistant LB plate;
5.After inverting overnight, if there are too many colonies, the plasmid will be diluted for transformation, and if there are no colonies, 10ul plasmid will be taken for transformation;
6. Pick single colonies into the corresponding resistant LB liquid medium overnight shaking culture, and extract the plasmid as needed.

Liquid plasmid (minus 20 degrees storage, shelf life 90 days, ice pack transportation).
1. After receiving the liquid plasmid, please shake the preservation tube so that the liquid plasmid does not adsorb on the tube wall;
2.Take an appropriate amount of plasmid according to the experimental needs, and store the rest in a minus 20 degree freezer.

Glycerol strains (stored at minus 80 degrees, shelf life of 90 days, ice pack transportation).
1. After receiving the glycerol strain, please shake the preservation tube so that the bacterial solution does not adsorb on the tube wall;
2. Use the inoculation loop to mark the line in four areas on the solid plate, and add the corresponding resistance if there is resistance;
3. Inverted culture in constant temperature incubator for 12~16h;
4. Be sure to pick a single colony and inoculate it in the liquid medium, and add the corresponding resistance if there is resistance;
5. Shake the shaker and culture overnight, and culture the strains according to the needs of the experiment.

TAGTTATTAA TAGTAATCAA TTACGGGGTC ATTAGTTCAT AGCCCATATA TGGAGTTCCG CGTTACATAA CTTACGGTAA ATGGCCCGCC TGGCTGACCG CCCAACGACC CCCGCCCATT GACGTCAATA ATGACGTATG TTCCCATAGT AACGCCAATA GGGACTTTCC ATTGACGTCA ATGGGTGGAG TATTTACGGT AAACTGCCCA CTTGGCAGTA CATCAAGTGT ATCATATGCC AAGTACGCCC CCTATTGACG TCAATGACGG TAAATGGCCC GCCTGGCATT ATGCCCAGTA CATGACCTTA TGGGACTTTC CTACTTGGCA GTACATCTAC GTATTAGTCA TCGCTATTAC CATGGTGATG CGGTTTTGGC AGTACATCAA TGGGCGTGGA TAGCGGTTTG ACTCACGGGG ATTTCCAAGT CTCCACCCCA TTGACGTCAA TGGGAGTTTG TTTTGGCACC AAAATCAACG GGACTTTCCA AAATGTCGTA ACAACTCCGC CCCATTGACG CAAATGGGCG GTAGGCGTGT ACGGTGGGAG GTCTATATAA GCAGAGCTGG TTTAGTGAAC CGTCAGATCC GCTAGCGCCA CCATGAGCGA GCTGATTAAG GAGAACATGC ACATGAAGCT GTACATGGAG GGCACCGTGG ACAACCATCA CTTCAAGTGC ACATCCGAGG GCGAAGGCAA GCCCTACGAG GGCACCCAGA CCATGAGAAT CAAGGTGGTC GAGGGCGGCC CTCTCCCCTT CGCCTTCGAC ATCCTGGCTA CTAGCTTCCT CTACGGCAGC AAGACCTTCA TCAACCACAC CCAGGGCATC CCCGACTTCT TCAAGCAGTC CTTCCCTGAG GGCTTCACAT GGGAGAGAGT CACCACATAC GAAGACGGGG GCGTGCTGAC CGCTACCCAG GACACCAGCC TCCAGGACGG CTGCCTCATC TACAACGTCA AGATCAGAGG GGTGAACTTC ACATCCAACG GCCCTGTGAT GCAGAAGAAA ACACTCGGCT GGGAGGCCTT CACCGAGACG CTGTACCCCG CTGACGGCGG CCTGGAAGGC AGAAACGACA TGGCCCTGAA GCTCGTGGGC GGGAGCCATC TGATCGCAAA CATCAAGACC ACATATAGAT CCAAGAAACC CGCTAAGAAC CTCAAGATGC CTGGCGTCTA CTATGTGGAC TACAGACTGG AAAGAATCAA GGAGGCCAAC AACGAGACCT ACGTCGAGCA GCACGAGGTG GCAGTGGCCA GATACTGCGA CCTCCCTAGC AAACTGGGGC ACAAGCTTAA TGGCGGCGGA GGGAGTGGAG GAGGGGGAAG CGGAGGCGGA GGGAGTCTCG AGATGGCGTC GCTCACCGTG AAGGCCTACC TTCTGGGCAA GGAGGACGCG GCGCGCGAGA TTCGCCGCTT CAGCTTCTGC TGCAGCCCCG AGCCTGAGGC GGAAGCCGAG GCTGCGGCGG GTCCGGGACC CTGCGAGCGG CTGCTGAGCC GGGTGGCCGC CCTGTTCCCC GCGCTGCGGC CTGGCGGCTT CCAGGCGCAC TACCGCGATG AGGACGGGGA CTTGGTTGCC TTTTCCAGTG ACGAGGAATT GACAATGGCC ATGTCCTACG TGAAGGATGA CATCTTCCGA ATCTACATTA AAGAGAAAAA AGAGTGCCGG CGGGACCACC GCCCACCGTG TGCTCAGGAG GCGCCCCGCA ACATGGTGCA CCCCAATGTG ATCTGCGATG GCTGCAATGG GCCTGTGGTA GGAACCCGCT ACAAGTGCAG CGTCTGCCCA GACTACGACT TGTGTAGCGT CTGCGAGGGA AAGGGCTTGC ACCGGGGGCA CACCAAGCTC GCATTCCCCA GCCCCTTCGG GCACCTGTCT GAGGGCTTCT CGCACAGCCG CTGGCTCCGG AAGGTGAAAC ACGGACACTT CGGGTGGCCA GGATGGGAAA TGGGTCCACC AGGAAACTGG AGCCCACGTC CTCCTCGTGC AGGGGAGGCC CGCCCTGGCC CCACGGCAGA ATCAGCTTCT GGTCCATCGG AGGATCCGAG TGTGAATTTC CTGAAGAACG TTGGGGAGAG TGTGGCAGCT GCCCTTAGCC CTCTGGGCAT TGAAGTTGAT ATCGATGTGG AGCACGGAGG GAAAAGAAGC CGCCTGACCC CCGTCTCTCC AGAGAGTTCC AGCACAGAGG AGAAGAGCAG CTCACAGCCA AGCAGCTGCT GCTCTGACCC CAGCAAGCCG GGTGGGAATG TTGAGGGCGC CACGCAGTCT CTGGCGGAGC AGATGAGGAA GATCGCCTTG GAGTCCGAGG GGCGCCCTGA GGAACAGATG GAGTCGGATA ACTGTTCAGG AGGAGATGAT GACTGGACCC ATCTGTCTTC AAAAGAAGTG GACCCGTCTA CAGGTGAACT CCAGTCCCTA CAGATGCCAG AATCCGAAGG GCCAAGCTCT CTGGACCCCT CCCAGGAGGG ACCCACAGGG CTGAAGGAAG CTGCCTTGTA CCCACATCTC CCGCCAGAGG CTGACCCGCG GCTGATTGAG TCCCTCTCCC AGATGCTGTC CATGGGCTTC TCTGATGAAG GCGGCTGGCT CACCAGGCTC CTGCAGACCA AGAACTATGA CATCGGAGCG GCTCTGGACA CCATCCAGTA TTCAAAGCAT CCCCCGCCGT TGTGAGAATT CTGCAGTCGA CGGTACCGCG GGCCCGGGAT CCACCGGTGC GGCCGCGACT CTAGATCATA ATCAGCCATA CCACATTTGT AGAGGTTTTA CTTGCTTTAA AAAACCTCCC ACACCTCCCC CTGAACCTGA AACATAAAAT GAATGCAATT GTTGTTGTTA ACTTGTTTAT TGCAGCTTAT AATGGTTACA AATAAAGCAA TAGCATCACA AATTTCACAA ATAAAGCATT TTTTTCACTG CATTCTAGTT GTGGTTTGTC CAAACTCATC AATGTATCTT AAGGCGTAAA TTGTAAGCGT TAATATTTTG TTAAAATTCG CGTTAAATTT TTGTTAAATC AGCTCATTTT TTAACCAATA GGCCGAAATC GGCAAAATCC CTTATAAATC AAAAGAATAG ACCGAGATAG GGTTGAGTGT TGTTCCAGTT TGGAACAAGA GTCCACTATT AAAGAACGTG GACTCCAACG TCAAAGGGCG AAAAACCGTC TATCAGGGCG ATGGCCCACT ACGTGAACCA TCACCCTAAT CAAGTTTTTT GGGGTCGAGG TGCCGTAAAG CACTAAATCG GAACCCTAAA GGGAGCCCCC GATTTAGAGC TTGACGGGGA AAGCCGGCGA ACGTGGCGAG AAAGGAAGGG AAGAAAGCGA AAGGAGCGGG CGCTAGGGCG CTGGCAAGTG TAGCGGTCAC GCTGCGCGTA ACCACCACAC CCGCCGCGCT TAATGCGCCG CTACAGGGCG CGTCAGGTGG CACTTTTCGG GGAAATGTGC GCGGAACCCC TATTTGTTTA TTTTTCTAAA TACATTCAAA TATGTATCCG CTCATGAGAC AATAACCCTG ATAAATGCTT CAATAATATT GAAAAAGGAA GAGTCCTGAG GCGGAAAGAA CCAGCTGTGG AATGTGTGTC AGTTAGGGTG TGGAAAGTCC CCAGGCTCCC CAGCAGGCAG AAGTATGCAA AGCATGCATC TCAATTAGTC AGCAACCAGG TGTGGAAAGT CCCCAGGCTC CCCAGCAGGC AGAAGTATGC AAAGCATGCA TCTCAATTAG TCAGCAACCA TAGTCCCGCC CCTAACTCCG CCCATCCCGC CCCTAACTCC GCCCAGTTCC GCCCATTCTC CGCCCCATGG CTGACTAATT TTTTTTATTT ATGCAGAGGC CGAGGCCGCC TCGGCCTCTG AGCTATTCCA GAAGTAGTGA GGAGGCTTTT TTGGAGGCCT AGGCTTTTGC AAAGATCGAT CAAGAGACAG GATGAGGATC GTTTCGCATG ATTGAACAAG ATGGATTGCA CGCAGGTTCT CCGGCCGCTT GGGTGGAGAG GCTATTCGGC TATGACTGGG CACAACAGAC AATCGGCTGC TCTGATGCCG CCGTGTTCCG GCTGTCAGCG CAGGGGCGCC CGGTTCTTTT TGTCAAGACC GACCTGTCCG GTGCCCTGAA TGAACTGCAA GACGAGGCAG CGCGGCTATC GTGGCTGGCC ACGACGGGCG TTCCTTGCGC AGCTGTGCTC GACGTTGTCA CTGAAGCGGG AAGGGACTGG CTGCTATTGG GCGAAGTGCC GGGGCAGGAT CTCCTGTCAT CTCACCTTGC TCCTGCCGAG AAAGTATCCA TCATGGCTGA TGCAATGCGG CGGCTGCATA CGCTTGATCC GGCTACCTGC CCATTCGACC ACCAAGCGAA ACATCGCATC GAGCGAGCAC GTACTCGGAT GGAAGCCGGT CTTGTCGATC AGGATGATCT GGACGAAGAG CATCAGGGGC TCGCGCCAGC CGAACTGTTC GCCAGGCTCA AGGCGAGCAT GCCCGACGGC GAGGATCTCG TCGTGACCCA TGGCGATGCC TGCTTGCCGA ATATCATGGT GGAAAATGGC CGCTTTTCTG GATTCATCGA CTGTGGCCGG CTGGGTGTGG CGGACCGCTA TCAGGACATA GCGTTGGCTA CCCGTGATAT TGCTGAAGAG CTTGGCGGCG AATGGGCTGA CCGCTTCCTC GTGCTTTACG GTATCGCCGC TCCCGATTCG CAGCGCATCG CCTTCTATCG CCTTCTTGAC GAGTTCTTCT GAGCGGGACT CTGGGGTTCG AAATGACCGA CCAAGCGACG CCCAACCTGC CATCACGAGA TTTCGATTCC ACCGCCGCCT TCTATGAAAG GTTGGGCTTC GGAATCGTTT TCCGGGACGC CGGCTGGATG ATCCTCCAGC GCGGGGATCT CATGCTGGAG TTCTTCGCCC ACCCTAGGGG GAGGCTAACT GAAACACGGA AGGAGACAAT ACCGGAAGGA ACCCGCGCTA TGACGGCAAT AAAAAGACAG AATAAAACGC ACGGTGTTGG GTCGTTTGTT CATAAACGCG GGGTTCGGTC CCAGGGCTGG CACTCTGTCG ATACCCCACC GAGACCCCAT TGGGGCCAAT ACGCCCGCGT TTCTTCCTTT TCCCCACCCC ACCCCCCAAG TTCGGGTGAA GGCCCAGGGC TCGCAGCCAA CGTCGGGGCG GCAGGCCCTG CCATAGCCTC AGGTTACTCA TATATACTTT AGATTGATTT AAAACTTCAT TTTTAATTTA AAAGGATCTA GGTGAAGATC CTTTTTGATA ATCTCATGAC CAAAATCCCT TAACGTGAGT TTTCGTTCCA CTGAGCGTCA GACCCCGTAG AAAAGATCAA AGGATCTTCT TGAGATCCTT TTTTTCTGCG CGTAATCTGC TGCTTGCAAA CAAAAAAACC ACCGCTACCA GCGGTGGTTT GTTTGCCGGA TCAAGAGCTA CCAACTCTTT TTCCGAAGGT AACTGGCTTC AGCAGAGCGC AGATACCAAA TACTGTCCTT CTAGTGTAGC CGTAGTTAGG CCACCACTTC AAGAACTCTG TAGCACCGCC TACATACCTC GCTCTGCTAA TCCTGTTACC AGTGGCTGCT GCCAGTGGCG ATAAGTCGTG TCTTACCGGG TTGGACTCAA GACGATAGTT ACCGGATAAG GCGCAGCGGT CGGGCTGAAC GGGGGGTTCG TGCACACAGC CCAGCTTGGA GCGAACGACC TACACCGAAC TGAGATACCT ACAGCGTGAG CTATGAGAAA GCGCCACGCT TCCCGAAGGG AGAAAGGCGG ACAGGTATCC GGTAAGCGGC AGGGTCGGAA CAGGAGAGCG CACGAGGGAG CTTCCAGGGG GAAACGCCTG GTATCTTTAT AGTCCTGTCG GGTTTCGCCA CCTCTGACTT GAGCGTCGAT TTTTGTGATG CTCGTCAGGG GGGCGGAGCC TATGGAAAAA CGCCAGCAAC GCGGCCTTTT TACGGTTCCT GGCCTTTTGC TGGCCTTTTG CTCACATGTT CTTTCCTGCG TTATCCCCTG ATTCTGTGGA TAACCGTATT ACCGCCATGC AT

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