Technology

Rezo’s unique approach integrates data from several advanced technologies to give a more complete and accurate view of mechanisms that cause disease.

We do this by capitalizing on the abundance of genomic data available and recognizing the inherent limitations in translating sequence to function.

Approach

Sequence to Systems to Drugs (SSD)

The company’s Sequence to Systems to Drugs (SSD) platform is able to map molecular disease networks and identify new therapies by integrating leading edge approaches in proteomics, genetics, structural biology, chemistry and bioinformatics.

Methodology

Areas of Research

Proteomics

Rezo utilizes advanced proteomics technologies to identify and characterize proteins involved in various biological processes, such as disease pathways or drug targets. By analyzing the proteome, Rezo can gain insights into how proteins interact with each other and with small molecules, which can be leveraged to develop new drugs or optimize existing ones.

By analyzing a patient's proteome, Rezo can identify unique biomarkers that can be used to guide the selection of therapies that are most likely to be effective for that patient.

Genetics

Using a patient's genome, Rezo can identify unique genetic variations that will guide the selection of therapies that are most likely to be effective for that patient. This personalized approach to medicine has the potential to improve patient outcomes and reduce healthcare costs by avoiding the use of ineffective or poorly tolerated therapies. Overall, Rezo's use of genetics is helping to drive innovation in drug development and improve patient care.

Rezo can gain insights into how genes interact with each other and with environmental factors, which can be leveraged to develop new drugs or optimize existing ones.

Structural Biology

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Chemical Biology

Chemical biology utilizes chemical methods, including synthesis, spectroscopy, imaging, and computational modeling, to investigate and manipulate biological systems. It involves the design and synthesis of small molecules, peptides, and probes that can selectively interact with biological targets, such as proteins or nucleic acids, to modulate their activity or understand their function. These chemical tools are used to probe the structure, dynamics, and function of biological molecules, as well as to develop new therapeutic agents or diagnostic tools.

Bioinformatics

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