LITMUS28i

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At a Glance

LITMUS28i, Image provided by NEB

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Type

Cloning

Origin of Replication

Single-stranded (M13)[1] , pUC19[1]

Copy #

High[1]

Markers

Ampicillin[1]

Link to Sequence

NEB

Features

T7 Promoter[1]
MCS[1]
lacZα[1]

Accession Number


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Notes

Small (< 3 kb), Compatible with pUC/M13 sequencing primers as well as LITMUS sequencing primers. It is a multi-purpose cloning/in vitro transcription phagemid vector. To purify LITMUS 28i it is isolated from E.coli ER2738 by a standard purification procedure.

History

Litmus 28i was designed for the efficient transcription of double-stranded RNA using NEB's HiScribe RNAi Transcription Kit.

Sources

New England Biolabs

Sequence

GTTAACTACG TCAGGTGGCA CTTTTCGGGG AAATGTGCGC GGAACCCCTA 
TTTGTTTATT TTTCTAAATA CATTCAAATA TGTATCCGCT CATGAGACAA 
TAACCCTGAT AAATGCTTCA ATAATATTGA AAAAGGAAGA GTATGAGTAT 
TCAACATTTC CGTGTCGCCC TTATTCCCTT TTTTGCGGCA TTTTGCCTTC 
CTGTTTTTGC TCACCCAGAA ACGCTGGTGA AAGTAAAAGA TGCTGAAGAT 
CAGTTGGGTG CACGAGTGGG TTACATCGAA CTGGATCTCA ACAGCGGTAA 
GATCCTTGAG AGTTTTCGCC CCGAAGAACG TTCTCCAATG ATGAGCACTT 
TTAAAGTTCT GCTATGTGGC GCGGTATTAT CCCGTGTTGA CGCCGGGCAA 
GAGCAACTCG GTCGCCGCAT ACACTATTCT CAGAATGACT TGGTTGAGTA 
CTCACCAGTC ACAGAAAAGC ATCTTACGGA TGGCATGACA GTAAGAGAAT 
TATGCAGTGC TGCCATAACC ATGAGTGATA ACACTGCGGC CAACTTACTT 
CTGACAACGA TCGGAGGACC GAAGGAGCTA ACCGCTTTTT TGCACAACAT 
GGGGGATCAT GTAACTCGCC TTGATCGTTG GGAACCGGAG CTGAATGAAG 
CCATACCAAA CGACGAGCGT GACACCACGA TGCCTGTAGC AATGGCAACA 
ACGTTGCGCA AACTATTAAC TGGCGAACTA CTTACTCTAG CTTCCCGGCA 
ACAATTAATA GACTGGATGG AGGCGGATAA AGTTGCAGGA CCACTTCTGC 
GCTCGGCCCT TCCGGCTGGC TGGTTTATTG CTGATAAATC TGGAGCCGGT 
GAGCGTGGGT CTCGCGGTAT CATTGCAGCA CTGGGGCCAG ATGGTAAGCC 
CTCCCGTATC GTAGTTATCT ACACGACGGG GAGTCAGGCA ACTATGGATG 
AACGAAATAG ACAGATCGCT GAGATAGGTG CCTCACTGAT TAAGCATTGG 
TAACTGTCAG ACCAAGTTTA CTCATATATA CTTTAGATTG ATTTACCCCG 
GTTGATAATC AGAAAAGCCC CAAAAACAGG AAGATTGTAT AAGCAAATAT 
TTAAATTGTA AACGTTAATA TTTTGTTAAA ATTCGCGTTA AATTTTTGTT 
AAATCAGCTC ATTTTTTAAC CAATAGGCCG AAATCGGCAA AATCCCTTAT 
AAATCAAAAG AATAGCCCGA GATAGGGTTG AGTGTTGTTC CAGTTTGGAA 
CAAGAGTCCA CTATTAAAGA ACGTGGACTC CAACGTCAAA GGGCGAAAAA 
CCGTCTATCA GGGCGATGGC CCACTACGTG AACCATCACC CAAATCAAGT 
TTTTTGGGGT CGAGGTGCCG TAAAGCACTA AATCGGAACC CTAAAGGGAG 
CCCCCGATTT AGAGCTTGAC GGGGAAAGCG AACGTGGCGA GAAAGGAAGG 
GAAGAAAGCG AAAGGAGCGG GCGCTAGGGC GCTGGCAAGT GTAGCGGTCA 
CGCTGCGCGT AACCACCACA CCCGCCGCGC TTAATGCGCC GCTACAGGGC 
GCGTAAAAGG ATCTAGGTGA AGATCCTTTT TGATAATCTC ATGACCAAAA 
TCCCTTAACG TGAGTTTTCG TTCCACTGAG CGTCAGACCC CGTAGAAAAG 
ATCAAAGGAT CTTCTTGAGA TCCTTTTTTT CTGCGCGTAA TCTGCTGCTT 
GCAAACAAAA AAACCACCGC TACCAGCGGT GGTTTGTTTG CCGGATCAAG 
AGCTACCAAC TCTTTTTCCG AAGGTAACTG GCTTCAGCAG AGCGCAGATA 
CCAAATACTG TTCTTCTAGT GTAGCCGTAG TTAGGCCACC ACTTCAAGAA 
CTCTGTAGCA CCGCCTACAT ACCTCGCTCT GCTAATCCTG TTACCAGTGG 
CTGCTGCCAG TGGCGATAAG TCGTGTCTTA CCGGGTTGGA CTCAAGACGA 
TAGTTACCGG ATAAGGCGCA GCGGTCGGGC TGAACGGGGG GTTCGTGCAC 
ACAGCCCAGC TTGGAGCGAA CGACCTACAC CGAACTGAGA TACCTACAGC 
GTGAGCTATG AGAAAGCGCC ACGCTTCCCG AAGGGAGAAA GGCGGACAGG 
TATCCGGTAA GCGGCAGGGT CGGAACAGGA GAGCGCACGA GGGAGCTTCC 
AGGGGGAAAC GCCTGGTATC TTTATAGTCC TGTCGGGTTT CGCCACCTCT 
GACTTGAGCG TCGATTTTTG TGATGCTCGT CAGGGGGGCG GAGCCTATGG 
AAAAACGCCA GCAACGCGGC CTTTTTACGG TTCCTGGCCT TTTGCTGGCC 
TTTTGCTCAC ATGTAATGTG AGTTAGCTCA CTCATTAGGC ACCCCAGGCT 
TTACACTTTA TGCTTCCGGC TCGTATGTTG TGTGGAATTG TGAGCGGATA 
ACAATTTCAC ACAGGAAACA GCTATGACCA TGATTACGCC AAGCTACGTA 
ATACGACTCA CTATAGGGCA GATCTTCGAA TGCATCGCGC GCACCGTACG 
TCTCGAGGAA TTCCTGCAGG ATATCTGGAT CCACGAAGCT TCCCATGGTG 
ACGTCACCGG TTCTAGATAC CTAGGTGAGC TCTGGTACCC TCTAGTCAAG 
GCCTATAGTG AGTCGTATTA CGGACTGGCC GTCGTTTTAC AACGTCGTGA 
CTGGGAAAAC CCTGGCGTTA CCCAACTTAA TCGCCTTGCA GCACATCCCC 
CTTTCGCCAG CTGGCGTAAT AGCGAAGAGG CCCGCACCGA TCGCCCTTCC 
CAACAGTTGC GCAGCCTGAA TGGCGAATGG CGCTTCGCTT GGTAATAAAG 
CCCGCTTCGG CGGGCTTTTT TTT



References

[1]

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 Evans, PD et al. (1995) LITMUS: multipurpose cloning vectors with a novel system for bidirectional in vitro transcription. BioTechniques 19 130-5 PubMed