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From microbiome to infectious disease, we have what you need

The Axiom Microbiome Array enables the detection of all known microorganisms in a sample with species- and strain-level identification in a single, scalable assay. Utilizing the robust biochemistry of the Axiom 2.0 Assay coupled with manual and automated target preparation methods, this streamlined protocol provides consistent and high-quality results. A simplified, upstream reverse transcriptase reaction enables the detection of RNA virus genomes. Hands-free array processing is performed on GeneTitan Multi-Channel Instrument. The complete research solution includes arrays, reagent kits, and free, easy-to-use microbiome analysis software.


Microbiome product overview

Axiom Microbiome Array

The Applied Biosystems Axiom Microbiome Array enables researchers to detect all known microorganisms in a sample with a single assay. The Axiom Microbiome Array interrogates nonpolymorphic sequences in both family-conserved and target-specific regions from NCBI database sequences. The Axiom Microbiome Array detects over 12,000 species, including archaea, bacteria, fungi, protozoa, and viruses. 


Product applications

Axiom Microbiome Array

Content is sample-type agnostic, suitable for applications in nutrigenomics, agrigenomics, and animal research and modeling.

 

The Microbiome array can be used in Nutrigenomics research to understand the linkage of human gut microbiota to disease states. Researchers can also understand high- resolution profiling of probiotic and prebiotic mixtures to understand their impact on the human gut microbiome. 

 

Agrigenomics application can assess animal gut microbial communities for feed optimization, evaluate microbiota for soil productivity or ascertain livestock animal health. 

 

Animal Research and modeling applications include microbial profiling for pathogen detection, vivarium screening, disease prevention or evaluation of microbial status and response to treatment.

 

The Axiom Microbiome Array provides the power to detect microbial content in complex samples across five groups of organisms. The array content includes probes to more than 12,000 species and allows detection to species and strain levels where available.


Product specifications

Axiom Microbiome Array

Species detection     12,000 species including archaea, bacteria, fungi, protozoa, and viruses. 
Sample type Agnostic
Applications Nutrigenomics, agrigenomics, and animal research and modeling.
Throughput Each 24-format array plate can process 22 samples and 2 controls, and each 96-format array plate can process 94 samples and 2 controls.

Ordering information

Infectious disease overview

Cost effective arrays for rapid epidemiological investigation of SARS-CoV-2 infection (COVID-19) susceptibility in relation to underlying health conditions

A major challenge for clinical researchers and geneticists is to learn how SARS-CoV-2, the coronavirus that causes the COVID-19 disease, interacts with the human genome and to stratify populations in order to understand disease susceptibility, severity, and outcomes.

 

We have launched our new Axiom Human Genotyping SARS-CoV-2 Research Array.

 

Axiom genotyping arrays and associated modules for human genotyping research can be used in various aspects of SARS-CoV-2 infection research:

  • Susceptibility to COVID-19 and relevant GWAS markers: A large GWAS grid of >800K markers can suppoort research of disease associations including chronic obstructive pulmonary disease (COPD), coronary artery disease traits, and high blood pressure traits across multiple populations to assess risk severity.
  • Expression quantitative trait loci (eQTLs): Information about the genetic basis of coronavirus infections in global populations and especially non-Asian Caucasian (CEU) populations is limited. Both ACE2 expression and function may be different in CEU populations.
  • Pharmacogenetics research for drug discovery and targets: The large GWAS grid offers the ability to use results from various association studies and thus incorporate genetics into evaluating a large number of druggable targets. Focused arrays with pharmacogenomic content offer the ability to look at a large number of genes involved in drug absorption, distribution, metabolism, and excretion, including the complex CYP genes.
  • Pharmacogenetics research for drug-drug and drug-gene interactions: Pharmacogenomics research will be important in understanding the efficacy and dosage of drugs administered as part of the various research studies. The pharmacogenomic research content can help with studies of efficacy and therapeutic effects of treatments that include but are not limited to antivirals and anti-malarial drugs.
  • Angiotensin-converting enzyme 2 (ACE2) receptors: The viral receptor protein ACE2 exists on the host cell surface. This is believed to be the mechanism by which the virus enters the body. Study of ACE2 protein requires maximizing the number of X-chromosome markers on the array. There are over 9,000 markers in the ACE2 protein. Any Axiom design can maximize the coverage of these variants.
  • Cytokine genes: Inflammatory cytokine genes may influence the function of immunopathological processes in influenza-like illnesses. Study of these genes may help understand the initiation of immune response, controlling viral replication and hypercytokinaemia.


Summary of relevant content in the new Axiom Human Genotyping SARS-CoV-2 Research Array

 

Category

Number of Markers*

SARS-CoV-2 Susceptibility Research Variant Module

>135,000

SARS-CoV-2 putative receptor variants

>1,200

Signaling pathway variants

>130,000

Variants on X-Chromosome

>60,000

SARS-CoV-2 Severity Research Module – Underlying conditions implicated in severity of SARS-CoV-2 infections

>16,000

Blood phenotypes and blood groups

>1,200

Diabetes

>800

Cardiovascular disease

>1,300

Stroke

>50

Lung function and COPD

>9,000

BMI

>1,000

CKD/RAAS

>450

Asthma

>500

SARS-CoV-2 Immune Response and Therapeutic Treatment Research Variants Module

>24,000

ADME and protein markers for druggable targets

>6,000

Immunoglobulin and miRNA markers for vaccine research

>12,000

HLA/KIR markers for immune response research after vaccination

>9,000

Multi-ethnic Genome Wide Association Study (GWAS) Grid

>725,000

ACMG 59 Variants

>6,000

Functional coding-region variants including eQTL and loss-of-function variants

>24,000


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