Our promise to you:
Guaranteed product quality, expert customer support.



The methods, IntegrateRNA provides, are developed over many years of work, research and accumulation of nucleotide analysis, all of which overcome the instability of RNA molecules. We analyzed millions of RNA sequences to develop unparalleled insight into endogenous RNA language. These findings allow us to continually develop improved RNA research methods that will allow us to provide the best experimental design for your research.

The goal of IntegrateRNA is to develop and improve RNA research methods to help researchers analyze RNA diversity, new transcripts, sequences and structures, and functions and applications to facilitate the development of new RNA discoveries, thereby facilitating the development of RNA biology.

qPCR array

qPCR array, also known as gene function classification chip or PCR array, combines the high sensitivity and high specificity of real-time PCR technology and microarray technology to simultaneously detect the advantages of multiple genes. It is an analysis of signaling pathways or organisms.

RNA microarray

Microarray analysis is a useful, reproducible and cost-effective tool for evaluating transcription levels in various experimental paradigms. The most common form of microarrays is used to measure gene expression, isolation of RNA from the matched samples of interest.

RNA next-generation sequencing

RNA-Seq is used to reveal the presence and amount of RNA in biological samples at a given time, thereby analyzing the ever-changing cellular transcriptome.

RNA synthesis

In vitro synthesis of single-stranded RNA molecules is a routine laboratory procedure that is critical to the rapidly evolving field of RNA research.

RIP (RNA immunoprecipitation)

RIP is not only a technique for studying the binding of RNA to proteins in cells but also a powerful tool for understanding the dynamic processes of post-transcriptional regulatory networks.

RNA pull-down

RNA pulldown is a method for studying RNA-protein interactions based on complementary sequences designed near the interface sequences for capture.


FISH (fluorescence in situ hybridization) enables relative qualitative and localization analysis of target nucleic acid sequences. FISH has been widely used in various fields of biomedical science because of its safety, rapid, sensitivity, long probe retention time and simultaneous display of multiple colors.

RNA interference (RNAi)

RNAi is a revolutionary way for researchers to study mammalian gene expression. RNAi technology enables the analysis of deletions in gene function in mammalian cells and animal models and significantly improves the convenience, speed, and specificity of this procedure. It has become a major choice for researchers to conduct functional deficit studies.

Figure 1: RNA research strategies Figure 1: RNA research strategies

For research use only. Not intended for any clinical use.
Verification code