Our Vision
Decoding Sequence
Function Across Biological Scales
Biological function is encoded in sequence, but the rules governing that relationship are often hidden.
Our laboratory seeks to uncover these rules by systematically perturbing biological systems and measuring their functional consequences at scale. By combining large-scale experiments with machine learning and quantitative modeling, we identify the principles that govern biological behavior and use them to design new biological functions. Through this approach, we aim to transform biology from a descriptive science into a predictive engineering discipline capable of creating programmable proteins, viral systems, and cellular behaviors.
Our Research
Diverse Biological Systems for
Large-Scale Functional Measurement
Chromatin
Modifiers
Protein
Allostery
Biosensors
Our Pattents
Methods of designing programmable inducible promoters,
2018
Raman S, Ansari AZ, Liu X, Rodriguez-Martinez JA
Methods of Selecting Microbes from a Diverse Genetically Modified Library to Detect and Optimize the Production of Metabolites, 2016
Church GM, Raman S, Rogers JK, Taylor ND