FB2026_01 , released March 12, 2026
FB2026_01 , released March 12, 2026
Allele: Dmel\Nrx-1Δ83
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General Information
Symbol
Dmel\Nrx-1Δ83
Species
D. melanogaster
Name
FlyBase ID
FBal0258010
Feature type
allele
Associated gene
Dmel\Nrx-1
Associated Insertion(s)
Carried in Construct
Also Known As
dnrx83, dnrxΔ83, nrxΔ83
Key Links
Genomic Maps

Allele class
Mutagen
Nature of the Allele
Allele class
Mutagen
Delta2-3 transposase
(Zeng et al., 2007)
Progenitor genotype
Nrx-1d08766
(Zeng et al., 2007)
Cytology
Description

Mobilisation of P{XP}Nrx-1d08766 by Δ2-3 transposase results in a 4066bp deletion.

(Zeng et al., 2007)
Mutations Mapped to the Genome
Curation Data
Type
Location
Additional Notes
References
deletion
3R:22,470,310..22,474,366 [+]
Comment:

Reported as a 4066 bp deletion resulting from the imprecise excsion of P{XP}Nrx-1d08766 extending from tgccgagtaacaccaacac to tatctcccatttctcatgac.

(Zeng et al., 2007)
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 ( 1 )
      Disease
      Evidence
      References
      model of  autism spectrum disorder
      CEA
      (Guangming et al., 2023)
      CEA with Nlg3KO127
      (Guangming et al., 2023)
      Modifiers Based on Experimental Evidence ( 1 )
      Disease
      Interaction
      References
      model of  autism spectrum disorder
      is exacerbated by Nlg4KO10
      (Guangming et al., 2023)
      is ameliorated by Nrx-1Δ174
      (Guangming et al., 2023)
      Comments on Models/Modifiers Based on Experimental Evidence ( 0 )
       
      Disease-implicated variant(s)
       
      Phenotypic Data
      Phenotypic Class
      Phenotype Manifest In
      Detailed Description
      Statement
      Reference

      Unlike in wild-type, the axon of L4 lamina neuron in Nrx-1Δ83 homozygous as well as Nrx-1Δ83/Nrx-1273 transheterozygous adults is not restricted to a single medulla column but often extends to neighboring columns, although the axons still terminate appropriately in the M4 layers.

      (Liu et al., 2017)

      Third instar neuromuscular junctions of Nrx-1273/Nrx-1Δ83 mutants exhibit a significant Ca[2+]-concentration-dependent reduction in excitatory junction current (EJC) amplitude, and a small but significant reduction in steady-state quantal content, in response to a 1-Hz train of stimulation, as compared to wild type. In response to 40 Hz tetanic nerve stimulation, NMJs in these mutants show a marked activity-dependent reduction in the amplitude of EJCs under 0.5mM Ca[2+] conditions, show rapid synaptic depression with amplitude of evoked currents showing a steeper decline after 8 stimuli under 1.8mM Ca[2+] conditions, and show a significant reduction in steady state EJC and quantal content, but no significant difference in steady state miniature EJC (mEJC), as compared to wild type.

      (Li et al., 2015)

      Mutant flies show a reduced phototactic response to light compared to wild type. Mutant photoreceptors show approximately 10,000-fold light sensitivity compared to wild type. Mutant flies do not show a blue light-induced prolonged depolarization afterpotential.

      Mutant photoreceptors have a normal endoplasmic reticulum structure at 65% of pupal development. However, at 79% of pupal development, the endoplasmic reticulum appears expanded.

      (Tian et al., 2013)

      neuroanatomy defective, enhanceable { neuroligin[KO70]/+ }

      (Sun et al., 2011)

      Nrx-1Δ83 larvae display a severe defect in locomotion and a 49% decrease in bouton number at neuromuscular junctions.

      Nrx-1Δ83 neuromuscular junctions show a severe reduction in synaptic vesicle trafficking.

      Nrx-1Δ83/+ neuromuscular junctions show a small but significant reduction in synaptic vesicle trafficking.

      Induced excitatory potential (EJP) amplitude at Nrx-1Δ83 neuromuscular junctions is significantly decreased compared to wild type.

      Nrx-1Δ83/+ neuromuscular junctions show a small but significant reduction in EJP amplitude.

      Both the spontaneous miniature excitatory potential (mEJP) amplitude and frequency at Nrx-1Δ83 neuromuscular junctions are significantly increased compared to wild type.

      (Sun et al., 2009)

      Nrx-1Δ83 and Nrx-1Δ83/Df(3R)Exel6191 mutants are viable and fertile, with no obvious developmental defects.

      Nrx-1Δ83 mutants are short-lived. At 37 days, only 32.5% of Nrx-1Δ83 mutants are alive, compared with 82.5% of wild-type and 79% of rescue flies (Scer\GAL4elav-C155/+; Nrx-1Scer\UAS.cZa/+; Nrx-1Δ83).

      Nrx-1Δ83 and Nrx-1Δ83/Df(3R)Exel6191 mutants exhibit fewer synapses than controls (approximately half).

      Associative learning is reduced in Nrx-1Δ83 mutants (testing for their ability to associate odors with a fructose reward in an individual-animal assay).

      (Zeng et al., 2007)
      External Data
      Interactions
      Show genetic interaction network for Enhancers & Suppressors
      Phenotypic Class
      Enhanced by
      Statement
      Reference

      Nrx-1Δ83 has abnormal neurophysiology | late third instar larval stage phenotype, enhanceable by CASKX-307/CASK[+]

      (Sun et al., 2009)
      NOT Enhanced by
      Statement
      Reference

      Nrx-1Δ83 has abnormal neuroanatomy | adult stage phenotype, non-enhanceable by Nlg4KO10/Nlg4KO10

      (Liu et al., 2017)
      Enhancer of
      Statement
      Reference

      Nrx-1Δ83 is an enhancer of abnormal neuroanatomy phenotype of Nlg2KO70

      (Sun et al., 2011)

      Nrx-1[+]/Nrx-1Δ83 is an enhancer of abnormal neuroanatomy phenotype of Nlg2KO70

      (Sun et al., 2011)

      Nrx-1[+]/Nrx-1Δ83 is an enhancer of abnormal neurophysiology | late third instar larval stage phenotype of CASKX-307

      (Sun et al., 2009)
      NOT Enhancer of
      Other
      Phenotype Manifest In
      Enhanced by
      Statement
      Reference

      Nrx-1Δ83 has bouton | second instar larval stage phenotype, enhanceable by neuroligin[+]/Nlg2KO70

      (Sun et al., 2011)

      Nrx-1Δ83 has synapse | second instar larval stage phenotype, enhanceable by neuroligin[+]/Nlg2KO70

      (Sun et al., 2011)

      Nrx-1Δ83 has synaptic vesicle phenotype, enhanceable by CASKX-307/CASK[+]

      (Sun et al., 2009)
      NOT Enhanced by
      Statement
      Reference

      Nrx-1Δ83 has lamina monopolar neuron L4 | adult stage phenotype, non-enhanceable by Nlg4KO10/Nlg4KO10

      (Liu et al., 2017)

      Nrx-1Δ83 has axon | adult stage phenotype, non-enhanceable by Nlg4KO10/Nlg4KO10

      (Liu et al., 2017)

      Nrx-1Δ83 has medulla | adult stage phenotype, non-enhanceable by Nlg4KO10/Nlg4KO10

      (Liu et al., 2017)
      Enhancer of
      Statement
      Reference

      Nrx-1Δ83 is an enhancer of bouton | second instar larval stage phenotype of Nlg2KO70

      (Sun et al., 2011)

      Nrx-1Δ83 is an enhancer of synapse | second instar larval stage phenotype of Nlg2KO70

      (Sun et al., 2011)

      Nrx-1[+]/Nrx-1Δ83 is an enhancer of bouton | second instar larval stage phenotype of Nlg2KO70

      (Sun et al., 2011)

      Nrx-1[+]/Nrx-1Δ83 is an enhancer of synapse | second instar larval stage phenotype of Nlg2KO70

      (Sun et al., 2011)

      Nrx-1[+]/Nrx-1Δ83 is an enhancer of synaptic vesicle phenotype of CASKX-307

      (Sun et al., 2009)
      NOT Enhancer of
      Additional Comments
      Genetic Interactions
      Statement
      Reference

      The impaired columnar restriction of L4 lamina neuron axons (which frequently invade adjacent medulla columns) observed in adult flies expressing EphrinHMS01289 under the control of Scer\GAL4GMR31C06 is not worsened further by combination with Nrx-1Δ83/Nrx-1273 (which on its own also causes defects in columnar restriction of the L4 axons).

      The frequency of L4 lamina neuron axons aberrantly invading adjacent medulla columns in adult Nlg4KO10,Nrx-1Δ83 double mutants is not significantly different from each of the single mutants.

      (Liu et al., 2017)

      Homozygous neuroliginKO70;Nrx-1Δ83 double mutants die during the second instar larval stage.

      In early second-instar larvae, neuroliginKO70;Nrx-1Δ83 double mutants show a significant reduction in bouton numbers compared with wild-type as in neuroliginKO70 single mutants. However, the double mutants appear to demonstrate more severe synaptic morphology defects than in the single mutants. Consistent with this, neuroliginKO70;Nrx-1Δ83 double mutants show more severe defects in locomotion than either single mutant.

      Flies homozygous for neuroliginKO70 and heterozygous for Nrx-1Δ83 are viable and show more severe defects in neuromuscular morphology at both muscles 6/7 and muscle 4 than neuroliginKO70 single mutants.

      Nrx-1Δ83 homozygous mutants in a neuroliginKO70 heterozygous background exhibit more severe defects in neuromuscular morphology at both muscles 6/7 and muscle 4 than Nrx-1Δ83 single mutants.

      (Sun et al., 2011)

      In contrast to either heterozygote alone, Nrx-1Δ83/+, CASKX-307/+ larvae display a marked defect in locomotion.

      Similar to either heterozygote alone, Nrx-1Δ83/+, CASKX-307/+ larvae display no significant differences in bouton number at neuromuscular junctions compared to wild type.

      Nrx-1Δ83/+, CASKX-307/+ neuromuscular junctions show a much more severe reduction in synaptic vesicle trafficking compared to either single heterozygote.

      Nrx-1Δ83/+, CASKX-307/+ neuromuscular junctions show a more severe reduction in induced excitatory potential (EJP) amplitude compared to either single heterozygote.

      In contrast to either heterozygote alone, Nrx-1Δ83/+, CASKX-307/+ neuromuscular junctions show a significant increase in the spontaneous miniature excitatory potential (mEJP) amplitude and frequency compared to wild type.

      (Sun et al., 2009)
      Xenogenetic Interactions
      Statement
      Reference
      Complementation and Rescue Data
      Rescued by

      Nrx-1Δ83 is rescued by Scer\GAL4GMR31C06/Nrx-1UAS.cZa

      (Liu et al., 2017)

      Nrx-1273/Nrx-1Δ83 is rescued by Scer\GAL4RapGAP1-OK6/Nrx-1UAS.cZa

      (Li et al., 2015)

      Nrx-1Δ83 is rescued by Nrx-1UAS.cZa/Scer\GAL4GMR.PU

      (Tian et al., 2013)

      Nrx-1Δ83 is rescued by Scer\GAL4elav-C155/Nrx-1UAS.cZa

      (Zeng et al., 2007)
      Partially rescued by

      Nrx-1273/Nrx-1Δ83 is partially rescued by Scer\GAL4RapGAP1-OK6/Nrx-1ΔC.UAS

      (Li et al., 2015)

      Nrx-1273/Nrx-1Δ83 is partially rescued by Scer\GAL4RapGAP1-OK6/Nrx-1ΔPBD.UAS

      (Li et al., 2015)
      Not rescued by

      Nrx-1Δ83 is not rescued by Nrx-1UAS.cZa/Scer\GAL4c739

      (Liu et al., 2017)

      Nrx-1Δ83 is not rescued by Scer\GAL4GMR31C06/Nrx-1Δ1760-1813.UAS

      (Liu et al., 2017)

      Nrx-1Δ83 is not rescued by Scer\GAL4Tab2-201Y/Nrx-1UAS.cZa

      (Zeng et al., 2007)
      Comments

      The defective columnar restriction of L4 lamina neuron axons (which frequently invade adjacent medulla columns) observed in Nrx-1Δ83 mutant adults is fully rescued by expression of Nrx-1Scer\UAS.cZa driven by Scer\GAL4GMR31C06 (but not Scer\GAL4c739). The impaired columnar restriction is also largely restored by Scer\GAL4GMR31C06-controlled expression that is restricted to 48-60 hr after puparium formation (APF) time window using tub-Gal80[ts], while expression induced between 80-92 hr APF fails to rescue the defect.

      Expression of Nrx-1Δ1760-1813.Scer\UAS driven by Scer\GAL4GMR31C06 however cannot rescue the L4 axonal targeting defects of Nrx-1Δ83 mutants.

      (Liu et al., 2017)

      Expression of Nrx-1Scer\UAS.cZa (but not Nrx-1ΔPBD.Scer\UAS or Nrx-1ΔC.Scer\UAS) under the control of Scer\GAL4RapGAP1-OK6 rescues the rapid synaptic depression seen in third instar Nrx-1273/Nrx-1Δ83 mutant NMJs under 1.8mM Ca[2+] conditions, and expression of Nrx-1Scer\UAS.cZa or Nrx-1ΔPBD.Scer\UAS (but not Nrx-1ΔC.Scer\UAS) rescues the reduced mean EJCs, and the reduced quantal content at the steady state seen in third instar Nrx-1273/Nrx-1Δ83 mutant NMJs under 1.8mM Ca[2+] conditions.

      Expression of Nrx-1ΔPBD.Scer\UAS or Nrx-1Scer\UAS.cZa under the control of Scer\GAL4RapGAP1-OK6 restores the decreased initial EJC amplitude and the reduced mean EJCs at the steady state observed in third instar Nrx-1273/Nrx-1Δ83 mutant NMJs under 0.5mM Ca[2+] conditions.

      Expression of Nrx-1ΔPBD.Scer\UAS under the control of Scer\GAL4RapGAP1-OK6 restores the decreased initial EJC amplitude but not the the reduced mean EJCs at the steady state observed in third instar Nrx-1273/Nrx-1Δ83 mutant NMJs under 0.5mM Ca[2+] conditions.

      (Li et al., 2015)

      The reduced light sensitivity of Nrx-1Δ83 photoreceptors is rescued by expression of Nrx-1Scer\UAS.cTa under the control of Scer\GAL4GMR.PU.

      (Tian et al., 2013)

      Synapse number is rescued in Scer\GAL4elav-C155/+; Nrx-1Scer\UAS.cZa/+; Nrx-1Δ83 flies.

      Longevity is rescued in Scer\GAL4elav-C155/+; Nrx-1Scer\UAS.cZa/+; Nrx-1Δ83 flies.

      Associative learning is rescued inScer\GAL4elav-C155/+; Nrx-1Scer\UAS.cZa/+; Nrx-1Δ83 flies.

      (Zeng et al., 2007)
      Images (0)
      Mutant
      Wild-type
      Stocks (0)
      Notes on Origin
      Discoverer
      External Crossreferences and Linkouts ( 0 )
      Synonyms and Secondary IDs (6)
      References (15)