TABLE 1.
Activity of the gene rplN for r-protein L14 in E. coli B/r growing at different rates at 37°C
| τ (min) | μ (doublings/h) | 1012 L14 molecules/OD460 U of cell massa | 103 L14 molecules/oriCb | No. of rplN genes/oriCc | 103 L14 molecules/rplN genesd | No. of L14 molecules synthesized/min/ rplN genee |
|---|---|---|---|---|---|---|
| 100 | 0.6 | 6 | 3 | 0.90 | 4 | 26 |
| 60 | 1.0 | 7 | 4 | 0.85 | 5 | 58 |
| 40 | 1.5 | 8 | 8 | 0.82 | 9 | 158 |
| 30 | 2.0 | 10 | 9 | 0.80 | 12 | 270 |
| 24 | 2.5 | 11 | 10 | 0.79 | 13 | 369 |
| 20 | 3.0 | 13 | 11 | 0.77 | 14 | 474 |
The number of L14 molecules in a culture was assumed to be equal to the number of ribosomes present. The number of ribosomes per cell mass was obtained from the total amount of RNA per mass (in RNA nucleotides per OD460 unit [Fig. 4b]) by multiplication with 0.84 (84% of total RNA is rRNA) and division by the number of rRNA nucleotides in a 70S ribosome (4,566 [11]).
The number of L14 molecules per oriC was found from the number of L14 molecules per cell mass above by multiplication with mass per oriC (initiation mass [Fig. 5a]).
The number of rplN genes per oriC was found from the map location of rplN (at 73 min [1]) and the C period (Fig. 3a), by equations 4 and 6 (Appendix).
The number of L14 molecules per rplN gene was found by dividing the number of L14 molecules per oriC by the number of rplN genes per oriC.
The synthesis rate of L14 per rplN gene (in L14 molecules per minute per gene) equals the product of the number of L14 molecules per gene multiplied by the growth rate (ln 2/τ).