Our high-throughput molecular platform at your service

Emerging technologies developed in the last decades (qPCR arrays, DNA microarrays or Next-Generation Sequencing (NGS)) generate large volume of complex data that require experiment managing, strict procedures and real bioinformatic tools and knowledge.


AnyGenes offers you a full range of services to respond to your research needs. You do not even have to think about all the quality controls, long and development steps, data analysis... We can perform your experiments for you from various biological samples: tissues, cell lines, RNA and we will process your samples from the beginning, to final quality controls and data analysis, in a very short time on our high-throughput molecular platform.


Our scientists team will be pleased to help you design your projects to get the best results.


  A large choice of full services for high-throughput analysis

AnyGenes® provides full services for high-throughput data analysis concerning many application fields:


In Vitro Drug analysis
Histoculture Drug Response Assays (HDRA) systems
Biomarkers identification and validation studies based on our own qPCR signaling pathways (SignArrays®)
DNA Methylation analysis by pyrosequencing and epigenetic regulation signaling pathways
Next-Generation Sequencing (NGS) data analysis
and so much more !


  Advantages of AnyGenes services:

Save money: we guarantee the lowest prices in the market.
Save time: our technical experts perform the whole experiment for you.
No need to invest in instruments or reagents!

Robust and reliable results:
- our signaling pathways are based on spanning intron primer design and experimentally validated,
- we include all necessary quality controls in all our experiments and technologies,
- high-throughput data analysis are only made with robust statistical tools and softwares validated by high impact factor scientific publications.


DEVELOPED FOR SEVERAL SPECIES

AnyGenes offers you a whole range of services for many species on its high-throughput molecular platform.