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Dynabeads myone strepavidin t1

Manufactured by Thermo Fisher Scientific
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Dynabeads MyOne Strepavidin T1 are uniform, superparamagnetic beads coated with streptavidin. They are designed for efficient capture and purification of biotinylated molecules.

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Lab products found in correlation

Bam114, by R&D Systems (2 mentions) Bam1430, by Bio-Rad (2 mentions) Anti human cd66b antibody, by Bio-Rad (2 mentions) Ampure xp bead, by Thermo Fisher Scientific (2 mentions) Ampure xp beads, by Agilent Technologies (2 mentions) Agilent bioanalyzer high sensitivity chip, by Agilent Technologies (2 mentions) Sureselectxt kit, by Agilent Technologies (2 mentions) Ngs system, by Agilent Technologies (2 mentions) Paired end oligo adapters, by Agilent Technologies (2 mentions) Quant it br kit, by Thermo Fisher Scientific (2 mentions) Biotinylated sureselect v4 exome utr capture library, by Agilent Technologies (2 mentions) Ampure xp bead, by Beckman Coulter (2 mentions)

4 protocols using dynabeads myone strepavidin t1

1

Unbiased CTC Enrichment Procedure

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Given the desire for an unbiased enrichment system, the previously presented negative depletion technology was selected for this application. Before running blood, mouse and human blood were analyzed by a cell blood count machine to determine total WBC count. For mouse CTC samples, a rat anti-mouse CD45 antibody (BAM114, R&D Systems) was preconjugated to Dynabeads MyOne Strepavidin T1 (Life Technologies, 65602). Beads were added at a ratio of 125 beads/WBC, mixed, and incubated for 40 min at room temperature. Human CTC samples utilized a primary and secondary immunolabeling approach. Biotinylated primary antibodies against anti-human CD45 antibody (clone 2D1, R&D Systems, BAM1430) and anti-human CD66b antibody (Abd Serotec, 80H3) were spiked into whole blood at 100 fg/WBC and 37.5 fg/WBC, respectively, and incubated rocking at room temperature for 20 min. Dynabeads MyOne Strepavidin T1 (Life Technologies, 65602) were then added and incubated rocking at room temperature for an additional 20 min.
Ting D.T., Wittner B.S., Ligorio M., Jordan N.V., Shah A.M., Miyamoto D.T., Aceto N., Bersani F., Brannigan B.W., Xega K., Ciciliano J.C., Zhu H., MacKenzie O.C., Trautwein J., Arora K.S., Shahid M., Ellis H.L., Qu N., Bardeesy N., Rivera M.N., Deshpande V., Ferrone C.R., Kapur R., Ramaswamy S., Shioda T., Toner M., Maheswaran S, & Haber D.A. (2014). Single-Cell RNA Sequencing Identifies Extracellular Matrix Gene Expression by Pancreatic Circulating Tumor Cells. Cell reports, 8(6), 1905-1918.
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2

Unbiased CTC Enrichment Procedure

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Given the desire for an unbiased enrichment system, the previously presented negative depletion technology was selected for this application. Before running blood, mouse and human blood were analyzed by a cell blood count machine to determine total WBC count. For mouse CTC samples, a rat anti-mouse CD45 antibody (BAM114, R&D Systems) was preconjugated to Dynabeads MyOne Strepavidin T1 (Life Technologies, 65602). Beads were added at a ratio of 125 beads/WBC, mixed, and incubated for 40 min at room temperature. Human CTC samples utilized a primary and secondary immunolabeling approach. Biotinylated primary antibodies against anti-human CD45 antibody (clone 2D1, R&D Systems, BAM1430) and anti-human CD66b antibody (Abd Serotec, 80H3) were spiked into whole blood at 100 fg/WBC and 37.5 fg/WBC, respectively, and incubated rocking at room temperature for 20 min. Dynabeads MyOne Strepavidin T1 (Life Technologies, 65602) were then added and incubated rocking at room temperature for an additional 20 min.
Ting D.T., Wittner B.S., Ligorio M., Jordan N.V., Shah A.M., Miyamoto D.T., Aceto N., Bersani F., Brannigan B.W., Xega K., Ciciliano J.C., Zhu H., MacKenzie O.C., Trautwein J., Arora K.S., Shahid M., Ellis H.L., Qu N., Bardeesy N., Rivera M.N., Deshpande V., Ferrone C.R., Kapur R., Ramaswamy S., Shioda T., Toner M., Maheswaran S, & Haber D.A. (2014). Single-Cell RNA Sequencing Identifies Extracellular Matrix Gene Expression by Pancreatic Circulating Tumor Cells. Cell reports, 8(6), 1905-1918.
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3

Exome Sequencing of Tumor-Normal Pairs

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Exome libraries of matched pairs of tumor / normal genomic DNAs were generated using the Agilent SureSelect XT kit and Agilent Automation Systems NGS system per manufacturer’s instructions. 1 ug of each genomic DNA was sheared using a Covaris E220 to a peak target size of 150 bp. Fragmented DNA was concentrated using AMPureXP beads (Beckman Coulter), and DNA ends were repaired using T4 DNA polymerase, Klenow polymerase, and T4 polynucleotide kinase. 3’ A-tailing with exo-minus Klenow polymerase was followed by ligation of Agilent paired-end oligo adapters to the genomic DNA fragment. Ligated DNA was PCR amplified for 8 cycles and purified using AMPure XP beads and quantitated using the Quant-It BR kit (Invitrogen). 500 ng of sample libraries were hybridized to the Agilent biotinylated SureSelect v4 Exome + UTR Capture Library at 65°C for 72 hr following the manuufacturer’s protocol. The targeted exon fragments were captured on Dynabeads MyOne Strepavidin T1 (Invitrogen), washed, eluted, and enriched by amplification with Agilent post-capture primer and an indexed reverse primer for multiplexing 12 additional cycles. After purification of the PCR products with AMPure XP beads, the quality and quantity of the resulting exome libraries were analyzed using an Agilent Bioanalyzer High Sensitivity chip.
Grasso C.S., Tang Y., Truffaux N., Berlow N.E., Liu L., Debily M.A., Quist M.J., Davis L.E., Huang E.C., Woo P.J., Ponnuswami A., Chen S., Johung T.B., Sun W., Kogiso M., Du Y., Lin Q., Huang Y., Hütt-Cabezas M., Warren K.E., Dret L.L., Meltzer P.S., Mao H., Quezado M., van Vuurden D.G., Abraham J., Fouladi M., Svalina M.N., Wang N., Hawkins C., Nazarian J., Alonso M.M., Raabe E., Hulleman E., Spellman P.T., Li X.N., Keller C., Pal R., Grill J, & Monje M. (2015). Functionally-defined Therapeutic Targets in Diffuse Intrinsic Pontine Glioma: A Report of the Children’s Oncology Group DIPG Preclinical Consortium. Nature medicine, 21(6), 555-559.
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4

Exome Sequencing of Tumor-Normal Pairs

Check if the same lab product or an alternative is used in the 5 most similar protocols
Exome libraries of matched pairs of tumor / normal genomic DNAs were generated using the Agilent SureSelect XT kit and Agilent Automation Systems NGS system per manufacturer’s instructions. 1 ug of each genomic DNA was sheared using a Covaris E220 to a peak target size of 150 bp. Fragmented DNA was concentrated using AMPureXP beads (Beckman Coulter), and DNA ends were repaired using T4 DNA polymerase, Klenow polymerase, and T4 polynucleotide kinase. 3’ A-tailing with exo-minus Klenow polymerase was followed by ligation of Agilent paired-end oligo adapters to the genomic DNA fragment. Ligated DNA was PCR amplified for 8 cycles and purified using AMPure XP beads and quantitated using the Quant-It BR kit (Invitrogen). 500 ng of sample libraries were hybridized to the Agilent biotinylated SureSelect v4 Exome + UTR Capture Library at 65°C for 72 hr following the manuufacturer’s protocol. The targeted exon fragments were captured on Dynabeads MyOne Strepavidin T1 (Invitrogen), washed, eluted, and enriched by amplification with Agilent post-capture primer and an indexed reverse primer for multiplexing 12 additional cycles. After purification of the PCR products with AMPure XP beads, the quality and quantity of the resulting exome libraries were analyzed using an Agilent Bioanalyzer High Sensitivity chip.
Grasso C.S., Tang Y., Truffaux N., Berlow N.E., Liu L., Debily M.A., Quist M.J., Davis L.E., Huang E.C., Woo P.J., Ponnuswami A., Chen S., Johung T.B., Sun W., Kogiso M., Du Y., Lin Q., Huang Y., Hütt-Cabezas M., Warren K.E., Dret L.L., Meltzer P.S., Mao H., Quezado M., van Vuurden D.G., Abraham J., Fouladi M., Svalina M.N., Wang N., Hawkins C., Nazarian J., Alonso M.M., Raabe E., Hulleman E., Spellman P.T., Li X.N., Keller C., Pal R., Grill J, & Monje M. (2015). Functionally-defined Therapeutic Targets in Diffuse Intrinsic Pontine Glioma: A Report of the Children’s Oncology Group DIPG Preclinical Consortium. Nature medicine, 21(6), 555-559.
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