WormBase Tree Display for Gene: WBGene00000209

WBGene00000209 SMap: S_parent: Sequence: K07A12
  Identity: Version: 1
    Name: CGC_name: asg-1 Person_evidence: WBPerson284
      Sequence_name: K07A12.3
      Molecular_name: K07A12.3
        K07A12.3.1
        CE11868
      Other_name: CELE_K07A12.3 Accession_evidence: NDB BX284601
      Public_name: asg-1
    DB_info: Database: AceView gene 1J269
        WormQTL gene WBGene00000209
        WormFlux gene WBGene00000209
        NDB locus_tag CELE_K07A12.3
        Panther gene CAEEL|WormBase=WBGene00000209|UniProtKB=P90921
          family PTHR12386
        NCBI gene 172673
        RefSeq protein NM_059951.8
        SwissProt UniProtAcc P90921
        TREEFAM TREEFAM_ID TF313978
        UniProt_GCRP UniProtAcc P90921
    Species: Caenorhabditis elegans
    History: Version_change: 1 07 Apr 2004 11:29:20 WBPerson1971 Event: Imported: Initial conversion from geneace
    Status: Live
  Gene_info: Biotype: SO:0001217
    Gene_class: asg
    Allele (16)
    Strain: WBStrain00037232
    RNASeq_FPKM (74)
    GO_annotation (14)
    Ortholog (39)
    Paralog: WBGene00000210 Caenorhabditis elegans From_analysis: Inparanoid_8
            Panther
            WormBase-Compara
    Structured_description: Concise_description: asg-1 encodes a homolog of the proton-translocating F0 ATP synthase complex subunit g; by homology, ASG-1 is predicted to function in ATP synthesis, although its precise role in ATP anabolism is not yet known; in C. elegans, asg-1 activity is required for transposon silencing in the germline, suggesting that healthy energy metabolism is necessary for this process; in addition, large-scale RNAi screens indicate that asg-1 activity is required for embryonic and germline development, normal post-embryonic growth rates, and normal body morphology. Paper_evidence: WBPaper00004402
            WBPaper00006028
            WBPaper00006395
          Curator_confirmed: WBPerson1843
          Date_last_updated: 17 Jun 2004 00:00:00
      Automated_description: Predicted to enable proton transmembrane transporter activity. Predicted to contribute to proton-transporting ATP synthase activity, rotational mechanism. Predicted to be involved in proton motive force-driven ATP synthesis. Predicted to be located in mitochondrial membrane. Predicted to be part of mitochondrial proton-transporting ATP synthase complex, coupling factor F(o). Human ortholog(s) of this gene implicated in Alzheimer's disease. Is an ortholog of human ATP5MG (ATP synthase membrane subunit g). Paper_evidence: WBPaper00065943
          Curator_confirmed: WBPerson324
            WBPerson37462
          Inferred_automatically: This description was generated automatically by a script based on data from the WS291 version of WormBase
          Date_last_updated: 29 Nov 2023 00:00:00
  Disease_info: Potential_model: DOID:10652 Homo sapiens Inferred_automatically: Inferred by orthology to human genes with DO annotation (HGNC:14247)
  Molecular_info: Corresponding_CDS: K07A12.3
    Corresponding_transcript: K07A12.3.1
    Other_sequence (100)
    Associated_feature: WBsf643541
      WBsf643542
      WBsf218193
  Experimental_info: RNAi_result (21)
    Expr_pattern: Expr1013546
      Expr1030128
      Expr1153799
      Expr2009449
      Expr2027686
    Drives_construct: WBCnstr00037663
    Construct_product: WBCnstr00037663
    Microarray_results (19)
    Expression_cluster (140)
    Interaction (126)
    WBProcess: WBbiopr:00000012
  Map_info: Map: I Position: 3.01799 Error: 0.000118
    Positive: Positive_clone: K07A12 Inferred_automatically: From CDS info
            From sequence, transcript, pseudogene data
    Pseudo_map_position
  Reference (11)
  Remark: Sequence connection from [Iino Y]
    Map position created from combination of previous interpolated map position (based on known location of sequence) and allele information. Therefore this is not a genetic map position based on recombination frequencies or genetic experiments. This was done on advice of the CGC. CGC_data_submission
  Method: Gene