<aside> <img src="/icons/playback-play_gray.svg" alt="/icons/playback-play_gray.svg" width="40px" /> Getting Started

</aside>

Cytosols are the insides of synthetic cells, aqueous mixtures of proteins, RNAs, small organic molecules, and salts that recapitulate user desired biological functions. We recommend the PURE system as our cytosol of choice. PURE is a defined set of molecules that recapitulate transcription and translation. PURE is commercially available in small quantities (~1 mL) from several providers, or can be prepared by following PURE Protocols.

<aside> <img src="/icons/map_gray.svg" alt="/icons/map_gray.svg" width="40px" /> Guides

</aside>

Base PURE Guide

Introduction to PURE and how to make it.

OnePot PURE workshop module

Documentation for running an educational five-day OnePot PURE workshop.

<aside> <img src="/icons/table_gray.svg" alt="/icons/table_gray.svg" width="40px" /> Nucleus PURE Design Specification

</aside>

Our latest cytosol release is Nucleus PURE v0.3.0. Our Protein Mix and Energy Mix are working at ~100% the performance of NEB PURExpress. We are working on our Ribosome purification protocol; stay tuned for v0.4.

Performance of Nucleus PURE v0.3 Components with complementary NEB PURExpress Components supplemented.

• click here to see Protein Mix Design Specification (v0.3.0)
• click here to see Energy Mix Design Specification (v0.3.0)

<aside> <img src="/icons/list_gray.svg" alt="/icons/list_gray.svg" width="40px" /> Protocols

</aside>

For a comprehensive list of protocols used to make PURE, check out PURE Protocols.

Making PURE

BOM - Making PURE.pdf

1. Make Protein Mix
   1. Prepare the consumables you will need. Make buffers and cell culture media. Assemble gravity columns, pack them with affinity resin, equilibrate, and store. Prepare Columns, Make Protein Purification Buffers and Media
   2. Grow out E.coli expression strains expressing the thirty-six (36) protein of PURE, induce protein expression, and collect bacterial pellets for downstream purification. Grow and Induce Expression Strains
   3. Lyse your bacteria using a sonicator, allowing you to access the proteins inside. The resulting mixture of cell debris and target proteins is called “lysate”. Remove debris by centrifugation and filtering to make “clarified lysate”. Lyse Bacteria by Sonication
   4. Purify your target proteins from clarified lysate by flowing them through your affinity columns. PURE proteins are expressed with a polyhistidine affinity tag, which selectively binds Ni2+ affinity resin. Flow your clarified lysate through your columns, wash out debris, and elute your target proteins with a high salt (Imidazole) buffer. Purify Proteins by Ni2+ Gravity Column
   5. Wash and Concentrate your proteins simultaneously using a centrifugal filter. Load your sample, remove the high salt buffer by centrifugation. Then, wash with fresh buffer, centrifuge, and repeat. Finally, centrifuge to remove buffer from your sample until you reach your target concentration. Exchange Buffers and Concentrate by Spin Filtration
   6. Measure the concentration and purity of your proteins by protein gel electrophoresis and Pierce660 Assay, respectively. Protein Gel Pierce660 Assay.
   7. Assemble Protein Mix by combining each purified protein at its specified concentration. Aliquot and store at -80C. Assemble Protein Mix
2. Make Energy Mix
   1. Make tRNAs by growing out an E. coli culture, extracting small nucleic acids with acid phenol, and purifying tRNAs from small DNA by alcohol precipitation. Measure the purity and concentration of your tRNAs by urea gel elecrophoresis and UV-Vis spectroscopy (Nanodrop), respectively. Make tRNAs
   2. Make Amino Acid Mix by weighing, resuspending, and combining twenty (20) amino acids. Make Amino Acid Mix
   3. Assemble Energy Mix. Prepare the remaining eleven (11) components of Energy Mix. Then, combine with tRNA and Amino Acid Mix. Aliquot and store at -80C. Make Energy Mix . Make Energy Mix
3. Assemble PURE Reactions
   1. Make Ribosomes by growing out an E. coli culture, purify ribosomes by FPLC and ultracentrifugation. Measure the purity and concentration of your ribosomes by protein gel electrophoresis and UV-Vis spectroscopy (Nanodrop), respectively. Aliquot and store at -80C. Make Ribosomes
   2. Assemble PURE reactions.

<aside> <img src="/icons/drafts_gray.svg" alt="/icons/drafts_gray.svg" width="40px" /> Developer Notes

</aside>

Untitled

<aside> <img src="/icons/book-closed_gray.svg" alt="/icons/book-closed_gray.svg" width="40px" /> Further Reading

</aside>