The network for 'invasive growth in response to glucose limitation' 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

invasive growth in response to glucose limitation

A growth pattern exhibited by budding haploid cells under certain growth conditions, in which cells retain the typical axial budding pattern of haploids, but become elongated and fail to separate after division; during growth on a solid substrate, this results in penetration of cells into the agar medium. An example of this process is found in Saccharomyces cerevisiae.

Name Description Probability Func Analog Organism
CLA4 Cla4p 0.893
FLO8 Flo8p 0.851
MSS11 Mss11p 0.809
DIG1 Dig1p 0.778
MUC1 Muc1p 0.656
SIN3 Sin3p 0.651
BEM1 Bem1p 0.610
STE7 Ste7p 0.587
GLN3 Gln3p 0.501
TEC1 Tec1p 0.500
STE11 Ste11p 0.465
RIM101 Rim101p 0.465
STE5 Ste5p 0.428
DBF2 Dbf2p 0.419
KSS1 Kss1p 0.417
STE12 Ste12p 0.395
SSK2 Ssk2p 0.391
CKA1 Cka1p 0.389
FUS3 Fus3p 0.376
FYV8 Fyv8p 0.359
TPK1 Tpk1p 0.350
MSN1 Msn1p 0.345
FAR1 Far1p 0.338
BEM4 Bem4p 0.315
UBA4 Uba4p 0.305
CTI6 Cti6p 0.299
NRG1 Nrg1p 0.286
PBS2 Pbs2p 0.249
RIM20 Rim20p 0.246
MSG5 Msg5p 0.246
UME1 Ume1p 0.246
DOT6 Dot6p 0.233
SSK1 Ssk1p 0.226
YKR015C hypothetical protein 0.220
SNF5 Snf5p 0.216
SLT2 Slt2p 0.207
FLO10 Flo10p 0.205
RHO1 Rho1p 0.200
RXT3 Rxt3p 0.196
TPK2 Tpk2p 0.186
RIM15 Rim15p 0.183
ROM2 Rom2p 0.182
VAC7 Vac7p 0.181
SNF1 Snf1p 0.158
NTO1 Nto1p 0.155
SWI1 Swi1p 0.154
SNT1 Snt1p 0.149
RXT2 Rxt2p 0.146
CSR2 Csr2p 0.142
MDS3 Mds3p 0.134
VPS27 Vps27p 0.126
SGF73 Sgf73p 0.125
GPB2 Gpb2p 0.123
RIM8 Rim8p 0.121
YKR075C hypothetical protein 0.118
SFL1 Sfl1p 0.116
UTP20 Utp20p 0.110
HDA2 Hda2p 0.106
SST2 Sst2p 0.105
GIC2 Gic2p 0.104
STD1 Std1p 0.104
PTC1 Ptc1p 0.103
CDC4 Cdc4p 0.103
SIN4 Sin4p 0.101
DSE2 Dse2p 0.100
YNL194C hypothetical protein 0.100
ASH1 Ash1p 0.098
VHS1 Vhs1p 0.097
NBP2 Nbp2p 0.096
KIN3 Kin3p 0.096
HAL5 Hal5p 0.095
BCK1 Bck1p 0.095
PEP5 Pep5p 0.093
IRA1 Ira1p 0.093
PST1 Pst1p 0.093
SAP30 Sap30p 0.093
SNF4 Snf4p 0.090
RIM13 Rim13p 0.088
OPY1 Opy1p 0.086
HXT3 Hxt3p 0.086
SIP1 Sip1p 0.084
LYS5 Lys5p 0.084
YLR297W hypothetical protein 0.082
DFG16 Dfg16p 0.082
GPR1 Gpr1p 0.080
DIG2 Dig2p 0.079
MSN4 Msn4p 0.079
KIC1 Kic1p 0.079
MCX1 Mcx1p 0.078
IMD2 Imd2p 0.077
YMR102C hypothetical protein 0.077
STE20 Ste20p 0.076
FLO9 Flo9p 0.075
CYR1 Cyr1p 0.074
TYE7 Tye7p 0.074
AGA1 Aga1p 0.073
KEM1 Kem1p 0.072
CDC24 Cdc24p 0.071
YTA7 Yta7p 0.070
MSA1 Msa1p 0.070
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Caenorhabditis elegans
Name Description Probability Func Analog Organism
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Danio rerio
Name Description Probability Func Analog Organism
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Drosophila melanogaster
Name Description Probability Func Analog Organism
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Homo sapiens
Name Description Probability Func Analog Organism
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Mus musculus
Name Description Probability Func Analog Organism
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Rattus norvegicus
Name Description Probability Func Analog Organism