FB2026_01 , released March 12, 2026
FB2026_01 , released March 12, 2026
Allele: Dmel\γTub23CA14-9
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General Information
Symbol
Dmel\γTub23CA14-9
Species
D. melanogaster
Name
FlyBase ID
FBal0147073
Feature type
allele
Associated gene
Dmel\γTub23C
Associated Insertion(s)
Carried in Construct
Key Links
Genomic Maps

Allele class

hypomorphic allele - genetic evidence

Mutagen
Nature of the Allele
Allele class

hypomorphic allele - genetic evidence

(Vázquez et al., 2008)
Mutagen
ethyl methanesulfonate
(Ferro, 2002.12)
Progenitor genotype
Cytology
Description

Amino acid replacement: R217H.

(Vázquez et al., 2008)
Mutations Mapped to the Genome
Curation Data
Type
Location
Additional Notes
References
point_mutation
2L:2,973,826..2,973,826 [+]
Nucleotide change:

G2973826A

Amino acid change:

R217H | gammaTub23C-PA

Reported amino acid change:

R217H

Comment:

Site of nucleotide substitution in mutant inferred by FlyBase based on reported amino acid change.

(Vázquez et al., 2008)
Variant Molecular Consequences
Associated Sequence Data
DDBJ / EMBL / GenBank
DNA sequence
Protein sequence
 
UniProtKB/Swiss-Prot
    UniProtKB/TrEMBL
      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

      Almost all γTub23CA15-2/γTub23CA14-9 axonal microtubules (Eb1 comets) travel in an anterograde direction (similar to what is seen in control class IV da neurons) in third instar larvae.

      (Arthur et al., 2015)

      83% of γTub23CA14-9/Df(2L)3G animals survive to eclosion.

      70% of γTub23CA14-9/Df(2L)JS17 animals survive to eclosion.

      65% of γTub23CA14-9/γTub23CA6-2 animals survive to eclosion.

      25% of γTub23CA14-9/γTub23CA15-2 animals survive to eclosion.

      (Vázquez et al., 2008)
      External Data
      Interactions
      Show genetic interaction network for Enhancers & Suppressors
      Phenotypic Class
      Enhanced by
      Statement
      Reference

      Df(2L)3G/γTub23CA14-9 has visible phenotype, enhanceable by brm[+]/brm2

      (Vázquez et al., 2008)
      NOT suppressed by
      Statement
      Reference

      γTub23CA14-9/γTub23CPl-2 has lethal phenotype, non-suppressible by Grip91su(Pl)

      (Vázquez et al., 2008)

      γTub23Cbmps1/γTub23CA14-9 has lethal phenotype, non-suppressible by Grip91su(Pl)

      (Vázquez et al., 2008)
      Phenotype Manifest In
      Enhanced by
      Statement
      Reference

      Df(2L)3G/γTub23CA14-9 has wing phenotype, enhanceable by brm[+]/brm2

      (Vázquez et al., 2008)
      NOT Enhancer of
      Statement
      Reference

      γTub23CA14-9/γTub23CA15-2 is a non-enhancer of microtubule | third instar larval stage phenotype of nudE39A

      (Arthur et al., 2015)
      Additional Comments
      Genetic Interactions
      Statement
      Reference

      γTub23CA15-2/γTub23CA14-9 does not affect the amount of axonal microtubule retrograde transport seen in nudE39A/nudE39A class IV da neurons in third instar larvae.

      (Arthur et al., 2015)

      The reduced viability of γTub23CA14-9/γTub23CA6-2, γTub23CA14-9/γTub23CA15-2 and γTub23CA14-9/Df(2L)3G flies is not further reduced by brm2/+.

      The held-out wings phenotype of γTub23CA14-9/Df(2L)3G flies is enhanced by brm2/+, but the expressivity of pearl-like structures in the wings is not enhanced.

      (Vázquez et al., 2008)
      Xenogenetic Interactions
      Statement
      Reference
      Complementation and Rescue Data
      Images (0)
      Mutant
      Wild-type
      Stocks (1)
      Notes on Origin
      Discoverer

      Induced on: cn1 bw1 chromosome.

      (Ferro, 2002.12)
      Comments
      Comments

      One of n alleles recovered.

      (Ferro, 2002.12)

      Allelic series (in order of decreasing activity): γTub23CA14-9 > γTub23CA6-2 > γTub23CA15-2 = Df(2L)JS17 = Df(2L)3G > γTub23CPl-2.

      (Vázquez et al., 2008)
      External Crossreferences and Linkouts ( 0 )
      Synonyms and Secondary IDs (4)
      Reported As
      Symbol Synonym
      l(2)23CeA14-9
      (Vázquez et al., 2008)
      γ-tub23CA14-9
      (Tang et al., 2020)
      γTub23CA14-9
      (Arthur et al., 2015, Nguyen et al., 2014, Vázquez et al., 2008)
      γTubulin23CA14-9
      (Segura et al., 2025)
      Name Synonyms
      Secondary FlyBase IDs
        References (6)