Strain Fitness in Rhodosporidium toruloides IFO0880 around mRNA_135

Experiment: YNB Glucose 75mM Methionine

Add experiment(s):

Zoom: Pan:

Only strains with sufficient reads to estimate fitness are shown, but the strain fitness values are still rather noisy and may be biased towards zero. Strains near the edge of a gene are not shown as being associated with that gene (they are in grey). Strains in the central 10-90% of a gene are color coded by the insertions' strand. Conventionally, "+" means that the selectable marker is encoded on the forward strand, i.e., transcribed rightward.

500 nt 8502 and 8503 are separated by 602 nucleotides8503 and 8504 are separated by 774 nucleotides mRNA_134: 8502 - Hypothetical Protein, at 322,161 to 322,511 8502 mRNA_135: 8503 - HMMPfam-Protein kinase domain-PF00069,ProSiteProfiles-Protein kinase domain profile.-PS50011,SUPERFAMILY--SSF56112, at 323,114 to 325,275 8503 mRNA_136: 8504 - HMMPfam-Aldose 1-epimerase-PF01263,SUPERFAMILY--SSF74650, at 326,050 to 327,675 8504

Please try another browser if this message remains

Per-strain Table

Position Strand Gene Sysname Fraction YNB Glucose 75mM Methionine
remove
322,119 + +0.6
322,256 - 8502 mRNA_134 0.27 -0.4
322,269 - 8502 mRNA_134 0.31 -0.0
322,407 - 8502 mRNA_134 0.70 +2.2
322,433 - 8502 mRNA_134 0.77 -1.1
322,543 - +0.2
322,554 + -1.2
322,629 - +1.5
322,668 + +0.2
322,683 - +0.9
322,943 + -1.3
322,969 - +1.4
322,971 - +0.2
323,247 - +0.4
324,278 - 8503 mRNA_135 0.54 +0.2
324,307 + 8503 mRNA_135 0.55 +0.2
324,482 - 8503 mRNA_135 0.63 -0.5
324,532 - 8503 mRNA_135 0.66 -0.2
324,567 - 8503 mRNA_135 0.67 +1.4
324,588 + 8503 mRNA_135 0.68 -0.1
324,612 + 8503 mRNA_135 0.69 -0.7
324,728 - 8503 mRNA_135 0.75 +1.0
324,731 - 8503 mRNA_135 0.75 -1.2
325,032 + 8503 mRNA_135 0.89 -0.1
325,115 - +1.1
325,115 - -0.2
325,291 - +0.3
325,293 + +0.2
325,300 + +0.3
325,301 - +0.5
325,302 + +0.2
325,312 - +0.4
325,317 + +0.9
325,452 - +1.2
325,594 + +0.3
325,595 - -0.1
325,604 - +2.6
325,921 + +0.2
326,033 + +1.1

Or see this region's nucleotide sequence