Targeted mRNA AbSeq Reagent Kit 4 Pack

BD Rhapsody™ Targeted mRNA AbSeq Reagent Kit 4 Pack

Name: Targeted mRNA AbSeq Reagent Kit 4 Pack
Brand: BD Rhapsody™
SKU: 633771

(RUO)

Protocol Library

Scientific Resources

Protocol Library

Scientific Resources

Product Details

Brand: BD Rhapsody™

Regulatory Status: RUO

Product Name: Rhapsody Targeted mRNA AbSeq Kit 4 Pack

Description

This kit contains all the reagents required to run the BD Rhapsody™ Single Cell Analysis System or BD Rhapsody™ Express Single-Cell Analysis System 4 times. The kit must be run with a BD pre-designed or custom panel. Kit reagents can be combined with Sample Tags (Catalog No. 633781) for multiplexing of samples on one BD Rhapsody run and/or used with BD AbSeq™ antibody-oligonucleotides.

Preparation And Storage

Store the BD Rhapsody™ Targeted mRNA and AbSeq Amplification Kit and BD Rhapsody™ cDNA Kit at –25°C to –15°C. Store the BD Rhapsody™ Cartridge Reagent Kit 2°C to 8°C and the BD Rhapsody™ Cartridge Kit at room temperature (15°C to 25°C ).

633771 Rev. 1

Components

Description	Quantity/Size	Part Number
Targeted mRNA and AbSeq Amp Kit	1 Each (1 ea)	633774	N/A
cDNA Kit	1 Each (1 ea)	633773	N/A
Cartridge Kit	1 Each (1 ea)	633733	N/A
Cartridge Reagent Kit	1 Each (1 ea)	633731	N/A

633771 Rev. 1

Citations & References

Development References (18)

Alivernini S, MacDonald L, Elmesmari A, et al. Distinct synovial tissue macrophage subsets regulate inflammation and remission in rheumatoid arthritis. Nat Med. 2020; 26(8):1295-1306. (Methodology). View Reference
Arroyo Hornero R, Georgiadis C, Hua P, et al. CD70 expression determines the therapeutic efficacy of expanded human regulatory T cells. Commun Biol. 2020; 3(1):375. (Methodology). View Reference
BD Rhapsody&trade. Single-Cell Analysis System Instrument User Guide (Doc ID: 214062). Available: http://www.bd.com/documents/guides/user-guides/GMX_BD-Rhapsody-Single-Cell-Analysis-System-Instrument_UG_EN.pdf .
Erickson JR, Mair F, Bugos G, et al. AbSeq Protocol Using the Nano-Well Cartridge-Based Rhapsody Platform to Generate Protein and Transcript Expression Data on the Single-Cell Level. STAR Protoc. 2020; 1(2):100092. (Methodology). View Reference
Ferreira RC, Castro Dopico X, Oliveira JJ, et al. Chronic Immune Activation in Systemic Lupus Erythematosus and the Autoimmune PTPN22 Trp620 Risk Allele Drive the Expansion of FOXP3+ Regulatory T Cells and PD-1 Expression. Front Immunol. 2019; 10:2606. (Methodology). View Reference
Gertz ML, Chin CR, Tomoiaga D, et al. Multi-omic, Single-Cell, and Biochemical Profiles of Astronauts Guide Pharmacological Strategies for Returning to Gravity. Cell Rep. 2020; 33(10):108429. (Methodology). View Reference
Hasegawa T, Kikuta J, Sudo T, et al. Identification of a novel arthritis-associated osteoclast precursor macrophage regulated by FoxM1. Nat Immunol. 2019; 20(12):1631-1643. (Methodology). View Reference
Jensen-Cody SO, Flippo KH, Claflin KE, et al. FGF21 Signals to Glutamatergic Neurons in the Ventromedial Hypothalamus to Suppress Carbohydrate Intake. Cell Metab. 2020; 32(2):273-286. (Methodology). View Reference
Jessica Ann Timms, Susann Winter, Steven Hargreaves, Donal P. McLornan, Uwe Platzbecker, Shahram Kordasti. Novel Simultaneous Single Cell mRNA and Protein Expression Profiling Identifies Distinct Treg and T Effector Signatures in the Bone Marrow of MDS Patients. Blood. 2019; 134(1):2980. (Methodology).
Mair F, Erickson JR, Voillet V, et al. A Targeted Multi-omic Analysis Approach Measures Protein Expression and Low-Abundance Transcripts on the Single-Cell Level. Cell Rep. 2020; 31(1):107499. (Methodology). View Reference
Malkani S, Chin CR, Cekanaviciute E, et al. Circulating miRNA Spaceflight Signature Reveals Targets for Countermeasure Development. Cell Rep. 2020; 33(10):108448. (Methodology). View Reference
Mohebiany AN, Ramphal NS, Karram K, et al. Microglial A20 Protects the Brain from CD8 T-Cell-Mediated Immunopathology. Cell Rep. 2020; 30(5):1585-1597. (Methodology). View Reference
Sainson RCA, Thotakura AK, Kosmac M, et al. An Antibody Targeting ICOS Increases Intratumoral Cytotoxic to Regulatory T-cell Ratio and Induces Tumor Regression. Cancer Immunol Res. 2020; 8(12):1568-1582. (Methodology). View Reference
Shamin Li, Yannick Simoni, Etienne Becht, et al. Human Tumor-Infiltrating MAIT Cells Display Hallmarks of Bacterial Antigen Recognition in Colorectal Cancer. Cell Reports Medicine. 2020; 1(3):100039. (Methodology). View Reference
Tang X, Zhang S, Peng Q, et al. Sustained IFN-I stimulation impairs MAIT cell responses to bacteria by inducing IL-10 during chronic HIV-1 infection. Sci Adv. 2020; 6(8):eaaz0374. (Methodology). View Reference
Trzupek D, Dunstan M, Cutler AJ, et al. Discovery of CD80 and CD86 as recent activation markers on regulatory T cells by protein-RNA single-cell analysis. Genome Med. 2020; 12(1):55. (Methodology). View Reference
Wagar LE, Salahudeen A, Constantz CM, et al. Modeling human adaptive immune responses with tonsil organoids. Nat Med. 2021; 27(1):125-135. (Methodology). View Reference
Yang Y, Liu F, Liu W, et al. Analysis of single-cell RNAseq identifies transitional states of T cells associated with hepatocellular carcinoma. Clin Transl Med. 2020; 10(3):e133. (Methodology). View Reference

View All (18)

633771 Rev. 1

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