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NEXTFLEX 16S V4 Amplicon-Seq Kit 2.0

The NEXTFLEX® 16S V4 Amplicon-Seq Library Prep Kit 2.0 is designed for the preparation of multiplexed amplicon libraries spanning the V4 hypervariable domain of microbial 16S ribosomal RNA (rRNA) genes. These libraries are compatible with paired-end sequencing on the Illumina® and Element Biosciences® sequencing platforms.

For research use only. Not for use in diagnostic procedures.

Feature Specification
Automation Compatible Yes
Product Group 16S amplicon-seq

The NEXTFLEX® 16S V4 Amplicon-Seq Library Prep Kit 2.0 is designed for the preparation of multiplexed amplicon libraries spanning the V4 hypervariable domain of microbial 16S ribosomal RNA (rRNA) genes. These libraries are compatible with paired-end sequencing on the Illumina® and Element Biosciences® sequencing platforms.

For research use only. Not for use in diagnostic procedures.

Product Variants
Unit Size: 24 rxns
Analysis
Included
Barcodes
1 - 12
Part #:
NOVA-4203-02S
List Price
USD 791.00
Unit Size: 24 rxns
Analysis
Not Included
Barcodes
1 - 12
Part #:
NOVA-4203-02
List Price
USD 578.00
Unit Size: 96 rxns
Analysis
Included
Barcodes
1 - 48
Part #:
NOVA-4203-03S
List Price
USD 3,042.00
Unit Size: 96 rxns
Analysis
Not Included
Barcodes
1 - 48
Part #:
NOVA-4203-03
List Price
USD 2,082.00
Unit Size: 192 rxns
Analysis
Included
Barcodes
1 - 96
Part #:
NOVA-4203-04S
List Price
USD 5,872.00
Unit Size: 192 rxns
Analysis
Not Included
Barcodes
1 - 96
Part #:
NOVA-4203-04
List Price
USD 3,952.00
Unit Size: 192 rxns
Analysis
Included
Barcodes
97 - 192
Part #:
NOVA-4203-05S
List Price
USD 5,872.00
Unit Size: 192 rxns
Analysis
Not Included
Barcodes
97 - 192
Part #:
NOVA-4203-05
List Price
USD 3,952.00
Unit Size: 192 rxns
Analysis
Included
Barcodes
193 - 288
Part #:
NOVA-4203-06S
List Price
USD 5,872.00
Unit Size: 192 rxns
Analysis
Not Included
Barcodes
193 - 288
Part #:
NOVA-4203-06
List Price
USD 3,952.00
Unit Size: 192 rxns
Analysis
Included
Barcodes
289 - 384
Part #:
NOVA-4203-07S
List Price
USD 5,872.00
Unit Size: 192 rxns
Analysis
Not Included
Barcodes
289 - 384
Part #:
NOVA-4203-07
List Price
USD 3,952.00

Overview

16S V4 rRNA library prep for broad-range analysis of mixed microbial populations
  • Fast and easy library prep protocol
  • Low input – Only 1 ng of input required
  • Multiplex up to 384 libraries
  • Custom sequencing primers are not required
  • Automation protocols are now available for the Sciclone® NGS and NGSx Workstations to automate your 16S sequencing
  • Functionally tested with Illumina® sequencing platforms

Analysis Powered by CosmosID HUB®

The NEXTFLEX 16S V4 rRNA Amplicon-seq panels are now available bundled with access to CosmosID-HUB; an online software solution that enables fast and easy analysis of complex microbiome data. CosmosID-HUB gives scientists user-friendly access to version-controlled and validated 16S pipelines. The machine-learning powered software also enables rapid data interpretation through a comparative analysis software with features such as tables, heatmaps, bar charts, multiple Alpha & Beta Diversity indexes, abundance distribution plots, differential abundance testing, as well as comprehensive statistics between groups. Learn more about CosmosID-HUB.

Revvity 16S rRNA Analysis - Online Demonstration

Now you can schedule a one-on-one 30-minute online demonstration that will cover everything you need to know about the CosmosID-Hub® which is now available with Revvity’s NEXTFLEX™ 16S rRNA Amplicon-seq Kits. You will be able to see the analysis demonstrated and our experts will be able to answer any questions that you may have. Please choose a timeframe that suits you best and we will provide you a Microsoft Teams personal link to join when the time comes. We look forward to speaking with you.

Additional product information

Low Input Requirements for 16S rRNA Sequencing

As little as 1 ng of genomic DNA can be used to generate libraries using the NEXTFLEX 16S V4 Amplicon-Seq Library Prep Kit 2.0.

fig-1 genera diversity measured by 16s v4 sequencing

Fig 1. Genera measured by analysis of 16S V4 reads

Optimized Protocol Offers Lower PCR Bias and Fewer Off-target Reads

The NEXTFLEX 16S V4 Amplicon-Seq Kit 2.0 incorporates a second PCR step in the protocol for the addition of the sample-specific index which reduces off-target reads encountered during amplicon sequencing.

384 Barcodes Available for Cost-effective 16S V4 rRNA Sequencing

The NEXTFLEX 16S V4 Amplicon-Seq Library Prep Kit 2.0 can be used for multiplexing up to 384 samples, to greatly reduce the cost of sequencing. The barcodes are offered in sets of 12, 48 or 96 barcodes and supplied with 2 reactions worth of each barcode.

Automate your 16S V4 Library Prep to Increase Throughput and Reduce Errors

A NEXTFLEX® automation protocol is now available on the Sciclone® NGS and NGSx workstations to help labs increase their throughput and reduce human errors.

Specifications

Analysis
Not Included
Automation Compatible
Yes
Barcodes
1 - 48
Product Group
16S amplicon-seq
Shipping Conditions
Shipped in Dry Ice
Unit Size
96 rxns

References

  • Bekker, V., Zwittink, R. D., Knetsch, C. W., Sanders, I. M., Berghuis, D., Heidt, P. J., . . . Kuijper, E. J. (2019). Dynamics of the Gut Microbiota in Children Receiving Selective or Total Gut Decontamination Treatment During Hematopoietic Stem Cell Transplantation. Biology of Blood and Marrow Transplantation. doi:10.1016/j.bbmt.2019.01.037.
  • Bruce-Keller, A. J., Fernandez-Kim, S., Townsend, R. L., Kruger, C., Carmouche, R., Newman, S., . . . Berthoud, H. (2017). Maternal obese-type gut microbiota differentially impact cognition, anxiety and compulsive behavior in male and female offspring in mice. Plos One, 12(4). doi:10.1371/journal.pone.0175577.
  • Davey, M. P., Norman, L., Sterk, P., Huete-Ortega, M., Bunbury, F., Loh, B. K., . . . Smith, A. G. (2019). Snow algae communities in Antarctica – metabolic and taxonomic composition. New Phytologist. doi:10.1111/nph.15701.
  • Ford, S. L., Lohmann, P., Preidis, G. A., Gordon, P. S., Odonnell, A., Hagan, J., . . . Hair, A. B. (2019). Improved feeding tolerance and growth are linked to increased gut microbial community diversity in very-low-birth-weight infants fed mothers own milk compared with donor breast milk. The American Journal of Clinical Nutrition,109(4), 1088-1097. doi:10.1093/ajcn/nqz006.
  • Luk, B., Veeraragavan, S., Engevik, M., Balderas, M., Major, A., Runge, J., . . . Versalovic, J. (2018). Postnatal colonization with human “infant-type” Bifidobacterium species alters behavior of adult gnotobiotic mice. Plos One, 13(5). doi:10.1371/journal.pone.0196510.
  • Luna, R. A., Oezguen, N., Balderas, M., Venkatachalam, A., Runge, J. K., Versalovic, J., . . . Williams, K. C. (2017). Distinct Microbiome-Neuroimmune Signatures Correlate With Functional Abdominal Pain in Children With Autism Spectrum Disorder. Cellular and Molecular Gastroenterology and Hepatology, 3(2), 218-230. doi:10.1016/j.jcmgh.2016.11.008
  • Moon, C., Stupp, G. S., Su, A. I., & Wolan, D. W. (2017). Metaproteomics of colonic microbiota unveils discrete protein functions among colitic mice and control groups. doi:10.1101/219782.
  • Stalenhoef, J. E., et al. (2017) Fecal Microbiota Transfer for Multidrug-Resistant Gram-Negatives: A Clinical Success Combined With Microbiological Failure. Open Forum Infectious Diseases, 4(2). doi:10.1093/ofid/ofx047.
  • Svensson, K., Paruch, L., Gaby, J. C., & Linjordet, R. (2018). Feeding frequency influences process performance and microbial community composition in anaerobic digesters treating steam exploded food waste. Bioresource Technology, 269, 276-284. doi:10.1016/j.biortech.2018.08.096.
  • Sylvia, K. E., Deyoe, J. E., & Demas, G. E. (2018). Early-life sickness may predispose Siberian hamsters to behavioral changes following alterations of the gut microbiome in adulthood. Brain, Behavior, and Immunity, 73, 571-583. doi:10.1016/j.bbi.2018.07.001.
  • Whon, T. W., Chung, W., Lim, M. Y., Song, E., Kim, P. S., Hyun, D., . . . Nam, Y. (2018). The effects of sequencing platforms on phylogenetic resolution in 16 S rRNA gene profiling of human feces. Scientific Data, 5, 180068. doi:10.1038/sdata.2018.68.
  • Wotzkas, S. Y., Kreuzer, M., Maier, L., Zuend, M., Schlumberger, M., Nguyen, B., . . . Misselwitz, B. (2018). Microbiota stability in healthy individuals after single-dose lactulose challenge – a randomized controlled study. doi:10.1101/424531.
  • Zhao, R., Yang, W., Pei, F., Zhao, L., & Hu, Q. (2018). In vitro fermentation of six kinds of edible mushrooms and its effects on fecal microbiota composition. Lwt, 96, 627-635. doi:10.1016/j.lwt.2018.06.012.

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