Allabio’s Gene Analysis category is designed to read genes the way biology actually writes them—as quantities, variations, and structures embedded within chromosomes, not as abstract signals detached from context. By integrating ddPCR and mFISH, this category connects molecular precision with chromosomal insight, enabling gene analysis across scales, from single-copy changes to genome-wide rearrangements.
At the quantitative level, ddPCR anchors gene analysis in absolute measurement. By partitioning DNA into thousands of independent micro-reactions, ddPCR enables direct counting of gene copies without reference standards or amplification assumptions. This makes it uniquely suited for gene copy number analysis, rare variant detection, allelic imbalance, mosaicism, and validation of gene editing outcomes. ddPCR answers the most fundamental question in gene analysis with clarity and restraint: how many copies are truly there.
Yet genes do not exist in isolation—they live on chromosomes, shaped by structural context. This is where mFISH expands gene analysis from numbers into space. Through multiplex chromosome painting, mFISH reveals gene localization, chromosomal translocations, complex rearrangements, aneuploidy, and karyotypic instability at the single-cell level. It exposes how genes are repositioned, fragmented, or fused—patterns that directly influence expression, function, and disease progression.
What defines Allabio’s Gene Analysis category is integration, not juxtaposition. ddPCR functions as a high-sensitivity, high-throughput quantitative gatekeeper—screening and stratifying gene-level abnormalities with speed and statistical confidence. mFISH then provides structural resolution, uncovering the chromosomal architecture behind those signals. Together, they transform gene analysis into a coherent narrative: from copy number to chromosomal context, from probability to physical evidence.
This category serves researchers and translational teams working at the edge of complexity—oncology, genetic disease, cell and gene therapy, and genome stability studies. Allabio’s Gene Analysis is not about louder signals or bigger datasets. It is about seeing genes truthfully—measured precisely, placed accurately, and understood in the architecture that gives them meaning.es to entire chromosomes, from invisible fractions to visible architecture. In research, translational medicine, and advanced therapeutics, Allabio offers not just data—but a coherent way to understand the genome as it truly exists.