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Matrix Standard Kit

Human Genomic DNA
NanoPOP™ 10X Running Buffer (with EDTA)

$112.17

Spectral calibration of DNA sequencing instrument is critical to maintaining high throughput sequencing operations. By evaluating multicolor systems of the sequencing instrument, sequencing providers can automatically correct the spectral overlap in samples loaded onto the capillary arrays.

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MSK-100 1 ml for 96 rxn $112.17
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Description

Description

Spectral calibration of DNA sequencing instrument is critical to maintaining high throughput sequencing operations. By evaluating multicolor systems of the sequencing instrument, sequencing providers can automatically correct the spectral overlap in samples loaded onto the capillary arrays.
This matrix standard is for use with capillary electrophoresis (CE) –based genetic analyzers such as Applied Biosystem 310, 3100, 3130 and 3730 series. The DNA contained in the preparation has been lyophilized to maximize stability and the standard has been optimized by using MCLAB’s proprietary technology. The preparation step before loading has been significantly simplified. The matrix standard is sufficient for a minimum of eight array runs (on a 24 capillary) or two array runs (on a 96 capillary).

Applications:

  • DNA sequencing
  • Spectral calibration

 Features:

  • pGEM plasmid  sequenced by M13F primer through dye terminator 3.1 chemistry
  • Highly purified, low background, high signal intensity
  • Consistent intensity for routine QC purposes
  • Replace ABI BigDye® Terminator v3.1 Sequencing Standard Reagents (cat# 4486194, 4486194)

Additional information

OPTIONS

1 ml for 96 rxn, 1 ml for 96 rxn

Manual & Protocols

 

COA ( Certificate of Analysis )

 

MSDS & Certificates

pGEM?-3Zf(+) vector sequence

 

1 GGGCGAATTC GAGCTCGGTA CCCGGGGATC CTCTAGAGTC GACCTGCAGG

51 CATGCAAGCT TGAGTATTCT ATAGTGTCAC CTAAATAGCT TGGCGTAATC

101 ATGGTCATAG CTGTTTCCTG TGTGAAATTG TTATCCGCTC ACAATTCCAC

151 ACAACATACG AGCCGGAAGC ATAAAGTGTA AAGCCTGGGG TGCCTAATGA

201 GTGAGCTAAC TCACATTAAT TGCGTTGCGC TCACTGCCCG CTTTCCAGTC

251 GGGAAACCTG TCGTGCCAGC TGCATTAATG AATCGGCCAA CGCGCGGGGA

301 GAGGCGGTTT GCGTATTGGG CGCTCTTCCG CTTCCTCGCT CACTGACTCG

351 CTGCGCTCGG TCGTTCGGCT GCGGCGAGCG GTATCAGCTC ACTCAAAGGC

401 GGTAATACGG TTATCCACAG AATCAGGGGA TAACGCAGGA AAGAACATGT

451 GAGCAAAAGG CCAGCAAAAG GCCAGGAACC GTAAAAAGGC CGCGTTGCTG

501 GCGTTTTTCC ATAGGCTCCG CCCCCCTGAC GAGCATCACA AAAATCGACG

551 CTCAAGTCAG AGGTGGCGAA ACCCGACAGG ACTATAAAGA TACCAGGCGT

601 TTCCCCCTGG AAGCTCCCTC GTGCGCTCTC CTGTTCCGAC CCTGCCGCTT

651 ACCGGATACC TGTCCGCCTT TCTCCCTTCG GGAAGCGTGG CGCTTTCTCA

701 TAGCTCACGC TGTAGGTATC TCAGTTCGGT GTAGGTCGTT CGCTCCAAGC

751 TGGGCTGTGT GCACGAACCC CCCGTTCAGC CCGACCGCTG CGCCTTATCC

801 GGTAACTATC GTCTTGAGTC CAACCCGGTA AGACACGACT TATCGCCACT

851 GGCAGCAGCC ACTGGTAACA GGATTAGCAG AGCGAGGTAT GTAGGCGGTG

901 CTACAGAGTT CTTGAAGTGG TGGCCTAACT ACGGCTACAC TAGAAGAACA

951 GTATTTGGTA TCTGCGCTCT GCTGAAGCCA GTTACCTTCG GAAAAAGAGT

1001 TGGTAGCTCT TGATCCGGCA AACAAACCAC CGCTGGTAGC GGTGGTTTTT

1051 TTGTTTGCAA GCAGCAGATT ACGCGCAGAA AAAAAGGATC TCAAGAAGAT

1101 CCTTTGATCT TTTCTACGGG GTCTGACGCT CAGTGGAACG AAAACTCACG

1151 TTAAGGGATT TTGGTCATGA GATTATCAAA AAGGATCTTC ACCTAGATCC

1201 TTTTAAATTA AAAATGAAGT TTTAAATCAA TCTAAAGTAT ATATGAGTAA

1251 ACTTGGTCTG ACAGTTACCA ATGCTTAATC AGTGAGGCAC CTATCTCAGC

1301 GATCTGTCTA TTTCGTTCAT CCATAGTTGC CTGACTCCCC GTCGTGTAGA

1351 TAACTACGAT ACGGGAGGGC TTACCATCTG GCCCCAGTGC TGCAATGATA

1401 CCGCGAGACC CACGCTCACC GGCTCCAGAT TTATCAGCAA TAAACCAGCC

1451 AGCCGGAAGG GCCGAGCGCA GAAGTGGTCC TGCAACTTTA TCCGCCTCCA

1501 TCCAGTCTAT TAATTGTTGC CGGGAAGCTA GAGTAAGTAG TTCGCCAGTT

1551 AATAGTTTGC GCAACGTTGT TGCCATTGCT ACAGGCATCG TGGTGTCACG

1601 CTCGTCGTTT GGTATGGCTT CATTCAGCTC CGGTTCCCAA CGATCAAGGC

1651 GAGTTACATG ATCCCCCATG TTGTGCAAAA AAGCGGTTAG CTCCTTCGGT

1701 CCTCCGATCG TTGTCAGAAG TAAGTTGGCC GCAGTGTTAT CACTCATGGT

1751 TATGGCAGCA CTGCATAATT CTCTTACTGT CATGCCATCC GTAAGATGCT

1801 TTTCTGTGAC TGGTGAGTAC TCAACCAAGT CATTCTGAGA ATAGTGTATG

1851 CGGCGACCGA GTTGCTCTTG CCCGGCGTCA ATACGGGATA ATACCGCGCC

1901 ACATAGCAGA ACTTTAAAAG TGCTCATCAT TGGAAAACGT TCTTCGGGGC

1951 GAAAACTCTC AAGGATCTTA CCGCTGTTGA GATCCAGTTC GATGTAACCC

2001 ACTCGTGCAC CCAACTGATC TTCAGCATCT TTTACTTTCA CCAGCGTTTC

2051 TGGGTGAGCA AAAACAGGAA GGCAAAATGC CGCAAAAAAG GGAATAAGGG

2101 CGACACGGAA ATGTTGAATA CTCATACTCT TCCTTTTTCA ATATTATTGA

2151 AGCATTTATC AGGGTTATTG TCTCATGAGC GGATACATAT TTGAATGTAT

2201 TTAGAAAAAT AAACAAATAG GGGTTCCGCG CACATTTCCC CGAAAAGTGC

2251 CACCTGACGT CTAAGAAACC ATTATTATCA TGACATTAAC CTATAAAAAT

2301 AGGCGTATCA CGAGGCCCTT TCGTCTCGCG CGTTTCGGTG ATGACGGTGA

2351 AAACCTCTGA CACATGCAGC TCCCGGAGAC GGTCACAGCT TGTCTGTAAG

2401 CGGATGCCGG GAGCAGACAA GCCCGTCAGG GCGCGTCAGC GGGTGTTGGC

2451 GGGTGTCGGG GCTGGCTTAA CTATGCGGCA TCAGAGCAGA TTGTACTGAG

2501 AGTGCACCAT ATGCGGTGTG AAATACCGCA CAGATGCGTA AGGAGAAAAT

2551 ACCGCATCAG GAAATTGTAA GCGTTAATAT TTTGTTAAAA TTCGCGTTAA

2601 ATTTTTGTTA AATCAGCTCA TTTTTTAACC AATAGGCCGA AATCGGCAAA

2651 ATCCCTTATA AATCAAAAGA ATAGACCGAG ATAGGGTTGA GTGTTGTTCC

2701 AGTTTGGAAC AAGAGTCCAC TATTAAAGAA CGTGGACTCC AACGTCAAAG

2751 GGCGAAAAAC CGTCTATCAG GGCGATGGCC CACTACGTGA ACCATCACCC

2801 TAATCAAGTT TTTTGGGGTC GAGGTGCCGT AAAGCACTAA ATCGGAACCC

2851 TAAAGGGAGC CCCCGATTTA GAGCTTGACG GGGAAAGCCG GCGAACGTGG

2901 CGAGAAAGGA AGGGAAGAAA GCGAAAGGAG CGGGCGCTAG GGCGCTGGCA

2951 AGTGTAGCGG TCACGCTGCG CGTAACCACC ACACCCGCCG CGCTTAATGC

3001 GCCGCTACAG GGCGCGTCCA TTCGCCATTC AGGCTGCGCA ACTGTTGGGA

3051 AGGGCGATCG GTGCGGGCCT CTTCGCTATT ACGCCAGCTG GCGAAAGGGG

3101 GATGTGCTGC AAGGCGATTA AGTTGGGTAA CGCCAGGGTT TTCCCAGTCA

3151 CGACGTTGTA AAACGACGGC CAGTGAATTG TAATACGACT CACTATA