Module
- Number
- 4
- Regulatory Genes
- 7
- Module Genes
- 61
Regulatory Genes
Public Gene Name | Sequence Name | WB ID | Weight | Description | Actions |
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nhr-276 | Y71A12C.1 | WBGene00013512 | 644 | View | |
srg-24 | Y25C1A.12 | WBGene00005181 | 334 | View | |
srg-62 | C24B9.12 | WBGene00005219 | 287 | View | |
nhr-41 | Y104H12A.1 | WBGene00022423 | 270 |
nhr-41 encodes a nuclear receptor of the NR2D1 subfamily that is orthologous to the Drosophila DHR78 nuclear receptor essential for the onset of metamorphosis, and the mammalian TR2 and TR4 receptors which are expressed in androgen-sensitive organs and brain tissue, respectively; by homology, NHR-41 likely functions as a transcription factor that, based upon RNAi experiments, plays a role in the formation of SDS-resistant dauer larvae; using two different reporter fusions, nhr-41 expression is detected in seam cells, excretory cells, and rectal epithelia, or in chemosensory neurons, gut, and head and tail hypodermis; nhr-41 mRNAs are expressed at all larval stages at precise intervals relative to molting: mRNA produced by upstream promoter sequence is detected at the time larval molts occur, while mRNA produced by promoter sequence in the fourth intron is detected at variable levels during larval development with distinct peaks of expression seen at the beginning of the intermolt.
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ceh-23 | ZK652.5 | WBGene00000446 | 162 |
ceh-23 encodes a homeodomain protein required for a specific differentiated trait of the thermosensory interneuron AIY; a ceh-23::gfp promoter fusion is expressed in nine pairs of head neurons, including seven amphid sensory neurons, the BAG sensory neurons, AIY interneurons, and the CAN neurons that are in close association with the excretory canal.
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Y71A12B.8 | Y71A12B.8 | WBGene00013505 | 144 | View | |
R03E1.4 | R03E1.4 | WBGene00010995 | 117 | View |
CLR Predictions
6 are found.Module Genes
Public Gene Name | Sequence Name | WB ID | Description | Actions |
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btb-18 | F39E9.12 | WBGene00018201 | View | |
C02E7.10 | C02E7.10 | WBGene00015342 | View | |
C05B5.2 | C05B5.2 | WBGene00007320 | View | |
C06C6.7 | C06C6.7 | WBGene00007381 | View | |
C10G11.6 | C10G11.6 | WBGene00015686 | View | |
C26E6.1 | C26E6.1 | WBGene00016137 | View | |
dgn-2 | F56C3.6 | WBGene00018943 | View | |
F22F7.4 | F22F7.4 | WBGene00017722 | View | |
F46B3.14 | F46B3.14 | WBGene00009765 | View | |
F49B2.4 | F49B2.4 | WBGene00009864 | View | |
F52G3.4 | F52G3.4 | WBGene00018712 | View | |
F56C3.4 | F56C3.4 | WBGene00018941 | View | |
fbxb-51 | K05F6.3 | WBGene00019414 | View | |
H01M10.2 | H01M10.2 | WBGene00019144 | View | |
H23L24.4 | H23L24.4 | WBGene00019231 | View | |
K02B2.6 | K02B2.6 | WBGene00019297 | View | |
K03H1.11 | K03H1.11 | WBGene00010546 | View | |
K09A11.5 | K09A11.5 | WBGene00010708 | View | |
K09D9.12 | K09D9.12 | WBGene00019569 | View | |
M163.7 | M163.7 | WBGene00010939 | View | |
nhr-166 | C49D10.2 | WBGene00016772 | View | |
R04B5.7 | R04B5.7 | WBGene00011005 | View | |
R07C3.13 | R07C3.13 | WBGene00019929 | View | |
R07H5.9 | R07H5.9 | WBGene00011129 | View | |
snf-8 | ZK829.10 | WBGene00004907 | View | |
srbc-33 | C02A12.10 | WBGene00044090 | View | |
srbc-58 | R09E12.2 | WBGene00019982 | View | |
srd-17 | Y2H9A.2 | WBGene00005095 | View | |
srd-47 | F17A2.11 | WBGene00005125 | View | |
srd-67 | C39B5.11 | WBGene00005144 | View | |
sre-33 | W05H5.6 | WBGene00012287 | View | |
srh-131 | Y102A5C.31 | WBGene00005348 | View | |
srh-220 | F47C12.5 | WBGene00005430 | View | |
sri-26 | C41G6.14 | WBGene00005538 | View | |
sri-54 | T10D4.8 | WBGene00005566 | View | |
sri-64 | F13A7.6 | WBGene00005576 | View | |
srr-8 | C13D9.3 | WBGene00005659 | View | |
srt-52 | Y38C9B.2 | WBGene00021413 | View | |
srv-15 | Y105C5B.6 | WBGene00005726 | View | |
srv-4 | F15E6.7 | WBGene00005715 | View | |
srw-114 | K12D9.8 | WBGene00005861 | View | |
srw-134 | T05B4.7 | WBGene00005881 | View | |
srw-88 | T06G6.7 | WBGene00005835 | View | |
srz-20 | F56D6.5 | WBGene00018973 | View | |
srz-21 | K03D3.3 | WBGene00010529 | View | |
srz-92 | F49H6.9 | WBGene00009910 | View | |
str-123 | T22H6.4 | WBGene00006174 | View | |
str-166 | T08B6.6 | WBGene00006211 | View | |
str-187 | F26D10.8 | WBGene00006229 | View | |
T02G6.7 | T02G6.7 | WBGene00011390 | View | |
T10D4.11 | T10D4.11 | WBGene00020410 | View | |
T23D5.3 | T23D5.3 | WBGene00011942 | View | |
Y41E3.16 | Y41E3.16 | WBGene00012774 |
Y41E3.16 encodes an unfamiliar protein with an N-terminal DNA-binding SAP domain and extensive regions of low-complexity sequence, which has no clear homologs outside of nematodes; the Y41E3.16 transcription unit has a natural nonsense transcript that is up-regulated in vivo by smg[-] mutations, indicating that Y41E3.16 is a natural substrate for SMG-mediated nonsense suppresssion; since several other natural mRNA substrates of SMG suppression (e.g., rpl-3, rpl-8, rpl-10a, rpl-12) have protein products that are involved in translation, Y41E3.16 protein may function in translation as well.
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Y46G5A.2 | Y46G5A.2 | WBGene00012895 |
Y46G5A.2 is orthologous to the human gene COX10 (YEAST) HOMOLOG, CYTOCHROME C OXIDASE ASSEMBLY PROTEIN (HEME A: FARNESYLTRANSFERASE) (COX10; OMIM:602125), which when mutated leads to disease.
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Y49F6C.6 | Y49F6C.6 | WBGene00021728 | View | |
Y51H4A.2 | Y51H4A.2 | WBGene00013099 | View | |
Y53F4B.1 | Y53F4B.1 | WBGene00013149 | View | |
Y55F3AM.14 | Y55F3AM.14 | WBGene00021931 | View | |
Y57G11C.7 | Y57G11C.7 | WBGene00013305 | View | |
Y79H2A.4 | Y79H2A.4 | WBGene00013581 | View | |
ZK938.3 | ZK938.3 | WBGene00014160 | View |