The network for 'endonucleolytic cleavage to generate mature 5 end of ssu rrna from ssu rrna 5 8s rrna lsu rrna ' in your query organism is displayed on the left, if relationships are supported by the integrated data. Moving any of the genes in that network will simultaneously update the homologs in the networks displayed to the right (if they exist). Additionally, hovering over any nodes will highlight the identified functionally similar homologs in the other networks. Last, the bar above the networks allows you to remove/add additional organisms. Simily drag and drop the organism names in the desired order.

Multiple Organisms

endonucleolytic cleavage to generate mature 5 end of ssu rrna from ssu rrna 5 8s rrna lsu rrna

Endonucleolytic cleavage between the 5'-External Transcribed Spacer (5'-ETS) and the 5' end of the SSU-rRNA of a tricistronic rRNA transcript that contains the Small Subunit (SSU) rRNA, the 5.8S rRNA, and the Large Subunit (LSU) rRNA in that order from 5' to 3' along the primary transcript, to produce the mature end of the SSU-rRNA.

NameDescriptionProbabilityFunc Analog Organism
FAF1Faf1p0.999
BUD21Bud21p0.997
NOP14Nop14p0.996
MPP10Mpp10p0.996
BFR2Bfr2p0.994
DIP2Dip2p0.992
UTP9Utp9p0.991
KRR1Krr1p0.990
RRP9Rrp9p0.990
UTP4Utp4p0.989
PWP2Pwp2p0.989
UTP8Utp8p0.989
UTP7Utp7p0.988
UTP6Utp6p0.988
BMS1Bms1p0.986
ENP1Enp1p0.984
MRD1Mrd1p0.981
SOF1Sof1p0.980
UTP18Utp18p0.977
UTP22Utp22p0.968
NAN1Nan1p0.961
ENP2Enp2p0.950
IMP3Imp3p0.943
ECM16Ecm16p0.942
UTP10Utp10p0.939
UTP11Utp11p0.923
UTP20Utp20p0.882
ESF1Esf1p0.854
UTP25Utp25p0.822
NOP6Nop6p0.717
DIM1Dim1p0.692
ESF2Esf2p0.688
UTP21Utp21p0.662
NOC4Noc4p0.656
LCP5Lcp5p0.639
UTP13Utp13p0.580
FCF2Fcf2p0.537
KRE33Kre33p0.528
RRP7Rrp7p0.510
UTP15Utp15p0.486
RRP36Rrp36p0.486
UTP30Utp30p0.472
EFG1Efg1p0.464
PXR1Pxr1p0.461
CMS1Cms1p0.440
ROK1Rok1p0.420
EMG1Emg1p0.409
RRP12Rrp12p0.404
NOP8Nop8p0.377
NOB1Nob1p0.373
UTP23Utp23p0.370
RCL1Rcl1p0.311
IMP4Imp4p0.258
RRP45Rrp45p0.241
RIO1Rio1p0.222
UTP14Utp14p0.189
NOP58Nop58p0.177
PNO1Pno1p0.173
SAS10Sas10p0.160
SLX9Slx9p0.159
FYV7Fyv7p0.146
UBP10Ubp10p0.139
DHR2Dhr2p0.133
NOP56Nop56p0.122
RIO2Rio2p0.115
RET1Ret1p0.114
PRS2Prs2p0.111
RRP5Rrp5p0.109
TMA16Tma16p0.103
RRN3Rrn3p0.080
MPP6Mpp6p0.079
NOP1Nop1p0.078
HCA4Hca4p0.074
PRP28Prp28p0.069
NOP9Nop9p0.068
TSR3Tsr3p0.067
MAK21Mak21p0.060
RRP17Rrp17p0.059
RRP14Rrp14p0.055
YLR264C-Ahypothetical protein0.054
SRD1Srd1p0.054
BCD1Bcd1p0.049
RRP3Rrp3p0.048
YGR251Whypothetical protein0.047
TSR1Tsr1p0.047
TRM112Trm112p0.047
UTP5Utp5p0.046
BCP1Bcp1p0.046
GFD2Gfd2p0.045
KRI1Kri1p0.045
YLR162Whypothetical protein0.042
LEU2Leu2p0.042
SQT1Sqt1p0.041
ARP10Arp10p0.041
MER1Mer1p0.041
SGD1Sgd1p0.040
URA3Ura3p0.037
YOL038C-Ahypothetical protein0.037
BSC1Bsc1p0.036
CNS1Cns1p0.035
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Caenorhabditis elegans
NameDescriptionProbabilityFunc Analog Organism
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Danio rerio
NameDescriptionProbabilityFunc Analog Organism
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Drosophila melanogaster
NameDescriptionProbabilityFunc Analog Organism
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Homo sapiens
NameDescriptionProbabilityFunc Analog Organism
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Mus musculus
NameDescriptionProbabilityFunc Analog Organism
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Rattus norvegicus
NameDescriptionProbabilityFunc Analog Organism