Fitness for 5 genes in Rhodospirillum rubrum S1H

Add gene:

Number of genes on each side:  

Top 30 experiments (either direction), sorted by average fitness

Or view all 60 experiments or choose conditions or try the comparative fitness browser

500 ntRru_A0651 and Rru_A0652 overlap by 4 nucleotidesRru_A0652 and Rru_A0653 overlap by 1 nucleotidesRru_A0653 and Rru_A0654 are separated by 47 nucleotidesRru_A0654 and Rru_A0655 are separated by 135 nucleotides Rru_A0651: Rru_A0651 - Glutamine amidotransferase class-I (NCBI), at 772,117 to 772,845 _A0651 Rru_A0652: Rru_A0652 - Pseudouridine synthase, Rsu (NCBI), at 772,842 to 773,723 _A0652 Rru_A0653: Rru_A0653 - hypothetical protein (NCBI), at 773,723 to 774,301 _A0653 Rru_A0654: Rru_A0654 - Multiple antibiotic resistance (MarC)-related proteins (NCBI), at 774,349 to 775,002 _A0654 Rru_A0655: Rru_A0655 - Transcriptional Regulator, AsnC family (NCBI), at 775,138 to 775,728 _A0655
Group Condition Rru_A0651 Rru_A0652 Rru_A0653 Rru_A0654 Rru_A0655
carbon source Hexanoic 21 mM; anaerobic -1.2 -5.1 N.D. -0.1 -0.8
carbon source Hexanoic 21 mM; anaerobic -0.8 -2.8 N.D. +0.5 -1.0
carbon source carbon source anaerobic Succinic Acid 31.25 mM -3.2 -0.1 N.D. -3.2 +2.7
carbon source Succinic Acid 31.25 mM; anaerobic -0.7 -0.3 N.D. -2.0 -0.4
anaerboic nitrogen source L-Malic Acid (C) with ammonium chloride; high light -0.5 -2.6 N.D. +0.0 -0.2
carbon source Hexanoic 21 mM; anaerobic -0.1 -1.3 N.D. -1.1 -0.7
carbon source Valeric 25 mM; anaerobic -0.4 -1.0 N.D. -1.5 -0.3
carbon source Succinic Acid 31.25 mM; anaerobic -0.4 -1.6 N.D. -1.5 +0.3
carbon source Succinic Acid 31.25 mM; anaerobic -0.3 -1.0 N.D. -1.7 -0.1
carbon source Hexanoic 21 mM; anaerobic -0.5 -1.5 N.D. -0.5 -0.5
light Succinic Acid; Light intensity 18 uM -1.0 +0.1 N.D. -1.0 -0.6
carbon source Valeric 25 mM; anaerobic -0.8 -0.8 N.D. -0.6 -0.1
anaerboic nitrogen source L-Malic Acid (C) with ammonium chloride; no light -0.6 -0.8 N.D. -0.3 -0.5
carbon source Valeric 25 mM; anaerobic -0.2 -0.3 N.D. -0.9 -0.6
anaerboic nitrogen source L-Malic Acid (C) with ammonium chloride; high light -0.4 -1.5 N.D. +0.2 -0.3
anaerboic nitrogen source L-Malic Acid (C) with ammonium chloride; high light -0.2 -0.9 N.D. -0.6 -0.3
anaerboic nitrogen source L-Malic Acid (C) with ammonium chloride; high light +0.1 -0.8 N.D. -0.8 -0.3
light acetate; Light intensity 18 uM -0.9 +0.5 N.D. -0.7 -0.6
anaerboic nitrogen source L-Malic Acid (C) and N2; anaerobic; high light -0.7 +0.1 N.D. -0.3 -0.8
light Succinic Acid; Light intensity 9 uM -0.6 +0.0 N.D. -0.9 +0.3
anaerboic nitrogen source L-Malic Acid (C) and N2; anaerobic; high light -0.5 +0.4 N.D. -0.2 -0.7
light Succinic Acid; Light intensity 75 uM -0.3 +0.5 N.D. -1.1 +0.0
carbon source Hexanoic 21 mM; anaerobic -0.8 -0.1 N.D. +1.0 -0.6
anaerboic nitrogen source L-Malic Acid (C) with ammonium chloride; no light -0.5 +0.8 N.D. -0.0 -0.5
light acetate; Light intensity 75 uM -0.6 +1.2 N.D. -0.4 -0.1
carbon source Succinic Acid 31.25 mM; anaerobic -0.5 +0.7 N.D. -0.3 +0.3
light acetate; Light intensity 18 uM -0.0 +1.2 N.D. +0.5 -0.3
light acetate; Light intensity 38 uM -0.3 +2.2 N.D. -0.3 +0.1
light Succinic Acid; Light intensity 150 uM -0.0 +2.5 N.D. -0.2 +0.2
light Succinic Acid; Light intensity 150 uM +0.4 +4.2 N.D. +0.9 +0.7
remove
Rru_A0651
plot		 remove
Rru_A0652
plot		 remove
Rru_A0653		 remove
Rru_A0654
plot		 remove
Rru_A0655
plot