Table 3.
Summary of CFE systems from non-E. coli prokaryotes and their applications.
| Organism | Type | CFE Application | Proteins Made | Ref(s) |
|---|---|---|---|---|
| Bacillus megaterium | Gram positive | Prototyping RBSs, promoters | GFP, mCherry | [38] |
| Bacillus subtilis | Gram positive | Prototyping promoters | GFPmut3b, renilla luciferase | [39,40] |
| Clostridium autoethanogenum | Gram positive | Prototyping genetic parts | Luciferase, metabolic enzymes | [47] |
| Corynebacterium glutamicum | Gram positive | Prototyping promoters | eGFP | [40] |
| Escherichia fergusonii | Gram negative | Prototyping promoters | eGFP | [40] |
| Klebsiella oxytoca | Gram negative | Prototyping promoters | eGFP | [40] |
| Lactococcus lactis | Gram positive | Prototyping promoters | None (only transcription active) | [40] |
| Pantoea agglomerans | Gram negative | Prototyping promoters | eGFP | [40] |
| Pseudomonas fluorescens | Gram negative | Protein synthesis at low temperatures | GFP, apolipoprotein, pancreatic RNase, p37a, glucokinase, peptidases | [143] |
| Pseudomonas putida | Gram negative | Prototyping genetic parts for bioremediation | sfGFP | [40,45] |
| Salmonella enterica | Gram negative | Prototyping promoters | eGFP | [40] |
| Streptomyces species | Gram positive | Natural product biosynthesis | eGFP, sfGFP, metabolic proteins | [41,46,142,144,145] |
| Sulfolobus solfataricus | Archaeal thermophile | Elucidation of archaeal translation mechanisms | ORF 104, ORF 143 | [146,147] |
| Sulfolobus tokodaii | Archaeal thermophile | Translation of single stranded DNA | Polyphenylalanine | [148] |
| Thermococcus kodakaraensis | Archaeal thermophile | Production of thermostable proteins | Chitinase | [149] |
| Thermus thermophilus | Gram negative | Studying mechanisms of thermophilic protein synthesis | Polyphenylalanine | [148,150] |
| Vibrio natriegens | Gram negative | High protein yields | sfGFP, eGFP | [40,[42], [43], [44]] |