Welcome to Zynt Bio — your partner in precision bioinformatics delivering reproducible and decision-ready insights.
From Raw Sequencing to Actionable R&D Insights.
Zynt Bio engineers cloud-native, containerized computational pipelines built exclusively for plant genetics, microbial strain engineering, and complex environmental metagenomics. We eliminate the regulatory and infrastructure overhead of generic biomedical providers, delivering secure, auditable, and 100% reproducible data assets designed to advance your intellectual property and regulatory compliance.
Modern biotechnology no longer suffers from a lack of genomic data; it suffers from a lack of reproducible processing and automated infrastructure. Generic bioinformatics firms try to force agricultural and industrial datasets through pipelines optimized for human or mammalian biology.
At Zynt Bio, we approach data differently. We combine deep domain intuition in host-pathogen dynamics and microbial ecosystems with enterprise-grade cloud architecture. We deliver clean, structured genomic insights that commercial R&D directors and federal research agencies can trust implicitly.
All data workloads execute on fully isolated, secure, and elastically scalable AWS infrastructure. This architecture ensures unprecedented data processing speeds, secure data governance, and highly optimized compute cycles tailored precisely to large-scale agronomic and fermentation datasets.
Built natively on Nextflow DSL2 and containerized via Docker, our workflows leverage strict, production-ready community frameworks (including custom-tuned nf-core architectures). You receive zero-install pipeline reproducibility, eliminating local software conflicts and tracking file provenance down to the millisecond.
We don't just deliver raw counts or automated scripts. Every project delivers compliance-grade technical narratives and patent-ready methodology briefs detailing exact command-line parameters, database versions, and workflow hashes for seamless integration into corporate technical records, patent applications, or regulatory dossiers.
Comprehensive mRNA-seq and high-precision small RNA profiling (17–25 nt) to trace target gene knockdown efficiency, mobile RNA signals, and crop genetic traits.
Specialized Dual RNA-Seq pipelines designed to simultaneously align and de-convolve mixed sequence matrices, separating plant immune responses from fungal or bacterial virulence factors.
Moving beyond simple "who is there" taxonomic lists. We use shotgun metagenomics and advanced binning (MetaBAT2, MaxBin2) to reconstruct Metagenome-Assembled Genomes (MAGs) and map active metabolic soil pathways.
Whole-genome resequencing, CRISPR off-target mutation screening, and expression cassette integrity audits to guarantee the genetic stability and efficiency of engineered production strains.