FB2026_02 , released June 18, 2026
Allele: Dmel\nsl11
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General Information
Symbol
Dmel\nsl11
Species
D. melanogaster
Name
FlyBase ID
FBal0260734
Feature type
allele
Associated gene
Associated Insertion(s)
Carried in Construct
Key Links
Genomic Maps

Allele class
Mutagen
    Nature of the Allele
    Allele class
    Mutagen
    Progenitor genotype
    Cytology
    Description

    Nucleotide substitution: C?T.

    Amino acid replacement: R642term.

    Mutations Mapped to the Genome
    Curation Data
    Type
    Location
    Additional Notes
    References
    Nucleotide change:

    C15797302T

    Reported nucleotide change:

    C?T

    Amino acid change:

    R642term | nsl1-PD; R642term | nsl1-PE; R642term | nsl1-PF; R642term | nsl1-PH; R642term | nsl1-PI; R642term | nsl1-PJ; R642term | nsl1-PK; R642term | nsl1-PL; R642term | nsl1-PM; R642term | nsl1-PN; R642term | nsl1-PO; R642term | nsl1-PP

    Reported amino acid change:

    R642term

    Variant Molecular Consequences
    Associated Sequence Data
    DNA sequence
    Protein sequence
     
    Expression Data
    Reporter Expression
    Additional Information
    Statement
    Reference
     
    Marker for
    Reflects expression of
    Reporter construct used in assay
    Human Disease Associations
    Disease Ontology (DO) Annotations
    Models Based on Experimental Evidence ( 0 )
    Disease
    Evidence
    References
    Modifiers Based on Experimental Evidence ( 0 )
    Disease
    Interaction
    References
    Comments on Models/Modifiers Based on Experimental Evidence ( 0 )
     
    Disease-implicated variant(s)
     
    Phenotypic Data
    Phenotypic Class
    Phenotype Manifest In
    Detailed Description
    Statement
    Reference
    External Data
    Interactions
    Show genetic interaction network for Enhancers & Suppressors
    Phenotypic Class
    Phenotype Manifest In
    Enhancer of
    Statement
    Reference

    nsl11/wah[+] is an enhancer of embryonic abdominal segment phenotype of nanosΔBX, nanosBN

    Other
    Statement
    Reference
    Additional Comments
    Genetic Interactions
    Statement
    Reference

    nosΔBX, nosBN/nosBN females that are also heterozygous for wah1 give rise to embryos that rarely hatch, concomitant with a reduction in the average number of abdominal segments from 3.7 to 1.9.

    Small homozygous wah1 clones in third instar salivary glands do not show any defects in proliferation, survival or endo-reduplication.

    Germline clones of wah1 arrest in early oogenesis.

    wah1 nosBN/nosBN females appear to be significantly less fertile than nosBN/nosBN females.

    In contrast to nosBN homozygous ovaries, ovaries from wah1 nosBN/nosBN females have few normal ovarioles: many contain either no maturing egg chambers or only a single mature stage 13/14 oocyte; and many contain aberrant, small egg chambers that contain only one or two highly polyploid germ line nuclei.

    In contrast to nosBN/nosBN females, wah1, nosBN/nosBN females produce eggs for only 5-6 days after eclosion.

    wah1, nosBN/nosL7 females do not exhibit age-dependent loss of fecundity.

    A single copy of wah+t9.9 can rescue the age-dependent female infertility of wah1, nosBN/nosBN females. However, wah1, nosBN homozygotes expressing a single copy of wah+t9.9 exhibit age-dependent infertility, producing no eggs after the 8th day post-eclosion.

    In ovarioles from very young wah1, nosBN/nosBN flies, the spectrosomes of germline stem cells and cystoblasts and the fusomes of immature cysts appear normal. But slightly older ovaries are bereft of germline cells: some germaria contain only one or two germline cysts and many have none. In these older ovaries, differentiation or development of the few remaining cysts is abnormal, many of which contain one or two large polyploid cells.

    Xenogenetic Interactions
    Statement
    Reference
    Complementation and Rescue Data
    Comments

    A single copy of wah+t9.9 rescues the lethality of wah1 homozygotes and wah1 hemizygotes.

    wah+t9.9 rescues the reduced abdominal segments phenotype seen in embryos produced by nosΔBX, nosBN/nosBN females that are also heterozygous for wah1.

    wahC.T:Avic\GFP-EGFP rescues wah1 hemizygotes to viability.

    wahN.T:Avic\GFP-EGFP rescues wah1 hemizygotes to viability.

    Images (0)
    Mutant
    Wild-type
    Stocks (0)
    Notes on Origin
    Discoverer
    External Crossreferences and Linkouts ( 0 )
    Synonyms and Secondary IDs (3)
    Reported As
    Symbol Synonym
    nsl11
    wah1
    Name Synonyms
    Secondary FlyBase IDs
      References (1)