3C11 (anti SYNORF1)

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SKU: 3C11 (anti SYNORF1)
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DSHB Data Sheet

Catalog Fields

Antigen: Synapsin
Hybridoma Cells Available: Yes
Antigen Species: Drosophila
Depositor: Buchner, E.
Isotype: MIgG2b, kappa light chain
Antigen Sequence:
Host Species: mouse
Depositors Institution: Inst. of Clinical Neurobiology, Universitaetsklinikim Wuerzburg
Positive Tested Species Reactivity: Cephalopod, Crustacean, Drosophila, Insect, Invertebrate, Leech, Mosquito, Moth, Planaria, Rat
Depositors Notes: Cross-reacts with many invertebrate species. Stains neuropil and synaptic active zones. 3C11 recognizes the synapsin-1 cleaved fragment. Immunostaining is improved when fixed with zinc-formaldehyde instead of formaldehyde which allows for greater penetration of the 3C11 mAb in whole-mount brains. See PMID: 18585788.
Antigen Molecular Weight: Apparent: multiple bands at 70, 74, 80, and 143kDa
Human Protein Atlas:  
Predicted Species Reactivity:  
Gene: Syn
Immunogen: GST-Synapsin-GST fusion protein expressed in E. coli and purified by glutathione affinity.
Alternate Gene Names: Dsyn-1; syn; SYN; SYN1; SYN2; Syn-1; Syn-2
Alternate Antibody Name:
Clonality: Monoclonal
Alternate Antigen Name:
Epitope Mapped: Yes
Myeloma Strain: P3X63Ag8.653
Epitope Location or Sequence: Peptide sequence LFGGMEVCGL which lies in the conserved C domain.
Uniprot ID: Q24546 
Immunogen Sequence: SYNORF1 which corresponds to Synapsin-1 from Uniprot
Entrez Gene ID: 41247 
Additional Characterization:  
Antibody Registry ID: AB_528479 
Additional Information: RRID: AB_528479
Recommended Applications: FFPE, Immunofluorescence, Immunohistochemistry, Western Blot
These hybridomas were created by your colleagues. Please acknowledge the hybridoma contributor and the Developmental Studies Hybridoma Bank (DSHB) in the Materials and Methods of your publications. Please email the citation to us.
For your Materials & Methods section:
3C11 (anti SYNORF1) was deposited to the DSHB by Buchner, E. (DSHB Hybridoma Product 3C11 (anti SYNORF1))
Storage and Handling Recommendations
Although many cell products are maintained at 4°C for years without loss of activity, shelf-life at 4°C is highly variable. For immediate use, short term storage at 4°C up to two weeks is recommended. For long term storage, divide the solution into volumes of no less than 20 ul for freezing at -20°C or -80°C. The small volume aliquot should provide sufficient reagent for short term use. Freeze-thaw cycles should be avoided. For concentrate or bioreactor products, an equal volume of glycerol, a cryoprotectant, may be added prior to freezing.
Usage Recommendations
Although the optimal Ig concentration for an application varies for each product and must be optimized for each laboratory, a good starting concentration for immunohistochemistry (IHC), immunofluorescence (IF), and immunocytochemistry (ICC) is 2-5 ug/ml. For western blots, the recommended concentration range is 0.2-0.5 ug/ml.
All cell products contain the antimicrobial ProClin. Click here for additional information.

66 References

  • Initial Publication
  • IF References
  • WB References
  • IHC References
  • FFPE References
  • Epitope Map References
  • All References
  • Initial Publication

    Invertebrate synapsins: a single gene codes for several isoforms in Drosophila.
    Buchner E
    The Journal of neuroscience : the official journal of the Society for Neuroscience 16.10 (1996 May 15): 3154-65.

    IF References

    Genome-wide analysis of the bHLH gene family in planarians identifies factors required for adult neurogenesis and neuronal regeneration.
    Zayas RM
    Development (Cambridge, England) 140.23 (2013 Dec): 4691-702.

    The microcephaly protein Asp regulates neuroepithelium morphogenesis by controlling the spatial distribution of myosin II.
    Basto R
    Nature cell biology 15.11 (2013 Nov): 1294-306.

    Neurofibromin mediates FAK signaling in confining synapse growth at Drosophila neuromuscular junctions.
    Chien CT
    The Journal of neuroscience : the official journal of the Society for Neuroscience 32.47 (2012 Nov 21): 16971-81.

    Transsynaptic coordination of synaptic growth, function, and stability by the L1-type CAM Neuroglian.
    Pielage J
    PLoS biology 11.4 (2013): e1001537.

    Presynaptic CK2 promotes synapse organization and stability by targeting Ankyrin2.
    Pielage J
    The Journal of cell biology 204.1 (2014 Jan 6): 77-94.

    Organization of the nervous system in the model planarian Schmidtea mediterranea: an immunocytochemical study.
    Cebrià F
    Neuroscience research 61.4 (2008 Aug): 375-84.

    CaMKII is differentially localized in synaptic regions of Kenyon cells within the mushroom bodies of the honeybee brain.
    Rössler W
    The Journal of comparative neurology 519.18 (2011 Dec 15): 3700-12.

    Comparison of microglomerular structures in the mushroom body calyx of neopteran insects.
    Rössler W
    Arthropod structure & development 40.4 (2011 Jul): 358-67.

    Age-related plasticity in the synaptic ultrastructure of neurons in the mushroom body calyx of the adult honeybee Apis mellifera.
    Rössler W
    The Journal of comparative neurology 520.15 (2012 Oct 15): 3509-27.

    Drosophila rugose is a functional homolog of mammalian Neurobeachin and affects synaptic architecture, brain morphology, and associative learning.
    Schwärzel M
    The Journal of neuroscience : the official journal of the Society for Neuroscience 32.43 (2012 Oct 24): 15193-204.

    A multisensory centrifugal neuron in the olfactory pathway of heliothine moths.
    Berg BG
    The Journal of comparative neurology 521.1 (2013 Jan 1): 152-68.

    Regeneration of olfactory afferent axons in the locust brain.
    Bicker G
    The Journal of comparative neurology 520.4 (2012 Mar 1): 679-93.

    Immunocytochemical localization of synaptic proteins to photoreceptor synapses of Drosophila melanogaster.
    Meinertzhagen IA
    The Journal of comparative neurology 518.7 (2010 Apr 1): 1133-55.

    External and circadian inputs modulate synaptic protein expression in the visual system of Drosophila melanogaster.
    Pyza EM
    Frontiers in physiology 5. (2014): 102.

    The central complex of the flesh fly, Neobellieria bullata: recordings and morphologies of protocerebral inputs and small-field neurons.
    Phillips-Portillo J
    The Journal of comparative neurology 520.14 (2012 Oct 1): 3088-104.

    Neuronal organization of the hemiellipsoid body of the land hermit crab, Coenobita clypeatus: correspondence with the mushroom body ground pattern.
    Strausfeld N
    The Journal of comparative neurology 520.13 (2012 Sep 1): 2824-46.

    New insights into an ancient insect nose: the olfactory pathway of Lepismachilis y-signata (Archaeognatha: Machilidae).
    Hansson BS
    Arthropod structure & development 40.4 (2011 Jul): 317-33.

    Synapsin function in GABA-ergic interneurons is required for short-term olfactory habituation.
    Ramaswami M
    The Journal of neuroscience : the official journal of the Society for Neuroscience 33.42 (2013 Oct 16): 16576-85.

    Caste and sex specific olfactory glomerular organization and brain architecture in two sympatric ant species Camponotus sericeus and Camponotus compressus (Fabricius, 1798).
    Rodrigues V
    Arthropod structure & development 38.6 (2009 Nov): 485-97.

    Cloning and distribution of Ca2+-activated K+ channels in lobster Panulirus interruptus.
    Harris-Warrick RM
    Neuroscience 170.3 (2010 Oct 27): 692-702.

    Drosophila huntingtin-interacting protein 14 is a presynaptic protein required for photoreceptor synaptic transmission and expression of the palmitoylated proteins synaptosome-associated protein 25 and cysteine string protein.
    Isacoff EY
    The Journal of neuroscience : the official journal of the Society for Neuroscience 27.47 (2007 Nov 21): 12874-83.

    Loss of Drosophila melanogaster p21-activated kinase 3 suppresses defects in synapse structure and function caused by spastin mutations.
    Sherwood NT
    Genetics 189.1 (2011 Sep): 123-35.

    Multiple neuropeptides in the Drosophila antennal lobe suggest complex modulatory circuits.
    Nässel DR
    The Journal of comparative neurology 518.16 (2010 Aug 15): 3359-80.

    Glial investment of the adult and developing antennal lobe of Drosophila.
    Tolbert LP
    The Journal of comparative neurology 509.5 (2008 Aug 10): 526-50.

    Anatomical basis of sun compass navigation II: the neuronal composition of the central complex of the monarch butterfly.
    Reppert SM
    The Journal of comparative neurology 521.2 (2013 Feb 1): 267-98.

    Drosophila Syd-1, liprin-α, and protein phosphatase 2A B' subunit Wrd function in a linear pathway to prevent ectopic accumulation of synaptic materials in distal axons.
    Wu C
    The Journal of neuroscience : the official journal of the Society for Neuroscience 34.25 (2014 Jun 18): 8474-87.

    Interactions between Tau and α-synuclein augment neurotoxicity in a Drosophila model of Parkinson's disease.
    Jackson GR
    Human molecular genetics 23.11 (2014 Jun 1): 3008-23.

    Planarian MBD2/3 is required for adult stem cell pluripotency independently of DNA methylation.
    Aziz Aboobaker A
    Developmental biology 384.1 (2013 Dec 1): 141-53.

    Neuroanatomy of the vestimentiferan tubeworm Lamellibrachia satsuma provides insights into the evolution of the polychaete nervous system.
    Fujiwara Y
    PloS one 8.1 (2013): e55151.

    Restoration of anterior regeneration in a planarian with limited regenerative ability.
    Newmark PA
    Nature 500.7460 (2013 Aug 1): 77-80.

    Expression patterns of the Drosophila neuropeptide CCHamide-2 and its receptor may suggest hormonal signaling from the gut to the brain.
    Grimmelikhuijzen CJ
    PloS one 8.10 (2013): e76131.

    Two clusters of GABAergic ellipsoid body neurons modulate olfactory labile memory in Drosophila.
    Guo A
    The Journal of neuroscience : the official journal of the Society for Neuroscience 33.12 (2013 Mar 20): 5175-81.

    Reactivating head regrowth in a regeneration-deficient planarian species.
    Rink JC
    Nature 500.7460 (2013 Aug 1): 81-4.

    PBX/extradenticle is required to re-establish axial structures and polarity during planarian regeneration.
    Aboobaker AA
    Development (Cambridge, England) 140.4 (2013 Feb): 730-9.

    Flies lacking all synapsins are unexpectedly healthy but are impaired in complex behaviour.
    Buchner E
    The European journal of neuroscience 20.3 (2004 Aug): 611-22.

    Neurotransmitter-induced changes in the intracellular calcium concentration suggest a differential central modulation of CCAP neuron subsets in Drosophila.
    Wegener C
    Developmental neurobiology 67.6 (2007 May): 792-808.

    New insights on the olfactory lobe of decapod crustaceans.
    Allodi S
    Brain, behavior and evolution 72.1 (2008): 27-36.

    Gregarious desert locusts have substantially larger brains with altered proportions compared with the solitarious phase.
    Rogers SM
    Proceedings. Biological sciences 277.1697 (2010 Oct 22): 3087-96.

    Confocal microscopy in large insect brains: zinc-formaldehyde fixation improves synapsin immunostaining and preservation of morphology in whole-mounts.
    Ott SR
    Journal of neuroscience methods 172.2 (2008 Jul 30): 220-30.

    Developmental changes in expression, subcellular distribution, and function of Drosophila N-cadherin, guided by a cell-intrinsic program during neuronal differentiation.
    Suzuki E
    Developmental biology 366.2 (2012 Jun 15): 204-17.

    Heterotrimeric Go protein links Wnt-Frizzled signaling with ankyrins to regulate the neuronal microtubule cytoskeleton.
    Katanaev VL
    Development (Cambridge, England) 141.17 (2014 Sep): 3399-409.

    Experience-dependent mushroom body plasticity in butterflies: consequences of search complexity and host range.
    Carlsson MA
    Proceedings. Biological sciences 284.1866 (2017 Nov 15): .

    SUMOylation controls stem cell proliferation and regional cell death through Hedgehog signaling in planarians.
    Oviedo NJ
    Cellular and molecular life sciences : CMLS 75.7 (2018 Apr): 1285-1301.

    Dysfunction of <i>GRAP</i>, encoding the GRB2-related adaptor protein, is linked to sensorineural hearing loss.
    Tekin M
    Proceedings of the National Academy of Sciences of the United States of America 116.4 (2019 Jan 22): 1347-1352.

    Brain composition in Godyris zavaleta, a diurnal butterfly, Reflects an increased reliance on olfactory information.
    Ott SR
    The Journal of comparative neurology 523.6 (2015 Apr 15): 869-91.

    Neurotropism and behavioral changes associated with Zika infection in the vector Aedes aegypti.
    Duchemin JB
    Emerging microbes & infections 7.1 (2018 Apr 25): 68.

    SoxB1 Activity Regulates Sensory Neuron Regeneration, Maintenance, and Function in Planarians.
    Zayas RM
    Developmental cell 47.3 (2018 Nov 5): 331-347.e5.

    Neuroprotective effects of blueberry anthocyanins against perfluorooctanoic sulfonate on planarian Dugesia japonica.
    Zhang J
    Ecotoxicology and environmental safety 175. (2019 Jul 15): 39-47.

    Distribution of Pheromone Biosynthesis-Activating Neuropeptide in the Central Nervous System of Plutella xylostella (Lepidoptera: Plutellidae).
    Wei H
    Journal of economic entomology 112.6 (2019 Dec 9): 2638-2648.

    The brain and the corresponding sense organs in calanoid copepods - Evidence of vestiges of compound eyes.
    Richter S
    Arthropod structure & development 54. (2020 Jan): 100902.

    WB References

    Invertebrate synapsins: a single gene codes for several isoforms in Drosophila.
    Buchner E
    The Journal of neuroscience : the official journal of the Society for Neuroscience 16.10 (1996 May 15): 3154-65.

    Using Drosophila as an integrated model to study mild repetitive traumatic brain injury.
    Ratliff EP
    Scientific reports 6. (2016 May 4): 25252.

    Neurexin-1 is required for synapse formation and larvae associative learning in Drosophila.
    Xie W
    FEBS letters 581.13 (2007 May 29): 2509-16.

    Proteomics reveal rat hippocampal lateral asymmetry.
    Tsangaris GT
    Hippocampus 21.1 (2011 Jan): 108-19.

    CaMKII is differentially localized in synaptic regions of Kenyon cells within the mushroom bodies of the honeybee brain.
    Rössler W
    The Journal of comparative neurology 519.18 (2011 Dec 15): 3700-12.

    External and circadian inputs modulate synaptic protein expression in the visual system of Drosophila melanogaster.
    Pyza EM
    Frontiers in physiology 5. (2014): 102.

    Synapsin function in GABA-ergic interneurons is required for short-term olfactory habituation.
    Ramaswami M
    The Journal of neuroscience : the official journal of the Society for Neuroscience 33.42 (2013 Oct 16): 16576-85.

    Caste and sex specific olfactory glomerular organization and brain architecture in two sympatric ant species Camponotus sericeus and Camponotus compressus (Fabricius, 1798).
    Rodrigues V
    Arthropod structure & development 38.6 (2009 Nov): 485-97.

    Fast and efficient Drosophila melanogaster gene knock-ins using MiMIC transposons.
    Verstreken P
    G3 (Bethesda, Md.) 4.12 (2014 Oct 8): 2381-7.

    Flies lacking all synapsins are unexpectedly healthy but are impaired in complex behaviour.
    Buchner E
    The European journal of neuroscience 20.3 (2004 Aug): 611-22.

    IHC References
    FFPE References

    Regeneration of olfactory afferent axons in the locust brain.
    Bicker G
    The Journal of comparative neurology 520.4 (2012 Mar 1): 679-93.

    New insights on the olfactory lobe of decapod crustaceans.
    Allodi S
    Brain, behavior and evolution 72.1 (2008): 27-36.

    Neuroanatomy of a hydrothermal vent shrimp provides insights into the evolution of crustacean integrative brain centers.
    Harzsch S
    eLife 8. (2019 Aug 6): .

    Epitope Map References

    Invertebrate synapsins: a single gene codes for several isoforms in Drosophila.
    Buchner E
    The Journal of neuroscience : the official journal of the Society for Neuroscience 16.10 (1996 May 15): 3154-65.

    The Wuerzburg hybridoma library against Drosophila brain.
    Buchner E
    Journal of neurogenetics 23.1-2 (2009): 78-91.

    All References

    Invertebrate synapsins: a single gene codes for several isoforms in Drosophila.
    Buchner E
    The Journal of neuroscience : the official journal of the Society for Neuroscience 16.10 (1996 May 15): 3154-65.

    The Wuerzburg hybridoma library against Drosophila brain.
    Buchner E
    Journal of neurogenetics 23.1-2 (2009): 78-91.

    Flies lacking all synapsins are unexpectedly healthy but are impaired in complex behaviour.
    Buchner E
    The European journal of neuroscience 20.3 (2004 Aug): 611-22.

    Abundance of phosphorylated Apis mellifera CREB in the honeybee's mushroom body inner compact cells varies with age.
    Eisenhardt D
    The Journal of comparative neurology 524.6 (2016 Apr 15): 1165-80.

    Neuroanatomy of a hydrothermal vent shrimp provides insights into the evolution of crustacean integrative brain centers.
    Harzsch S
    eLife 8. (2019 Aug 6): .

    cindr, the Drosophila Homolog of the CD2AP Alzheimer's Disease Risk Gene, Is Required for Synaptic Transmission and Proteostasis.
    Shulman JM
    Cell reports 28.7 (2019 Aug 13): 1799-1813.e5.

    Analysis of the genetically tractable crustacean Parhyale hawaiensis reveals the organisation of a sensory system for low-resolution vision.
    Averof M
    BMC biology 17.1 (2019 Aug 15): 67.

    Genome-wide analysis of the bHLH gene family in planarians identifies factors required for adult neurogenesis and neuronal regeneration.
    Zayas RM
    Development (Cambridge, England) 140.23 (2013 Dec): 4691-702.

    The microcephaly protein Asp regulates neuroepithelium morphogenesis by controlling the spatial distribution of myosin II.
    Basto R
    Nature cell biology 15.11 (2013 Nov): 1294-306.

    Neurofibromin mediates FAK signaling in confining synapse growth at Drosophila neuromuscular junctions.
    Chien CT
    The Journal of neuroscience : the official journal of the Society for Neuroscience 32.47 (2012 Nov 21): 16971-81.

    Transsynaptic coordination of synaptic growth, function, and stability by the L1-type CAM Neuroglian.
    Pielage J
    PLoS biology 11.4 (2013): e1001537.

    Presynaptic CK2 promotes synapse organization and stability by targeting Ankyrin2.
    Pielage J
    The Journal of cell biology 204.1 (2014 Jan 6): 77-94.

    Organization of the nervous system in the model planarian Schmidtea mediterranea: an immunocytochemical study.
    Cebrià F
    Neuroscience research 61.4 (2008 Aug): 375-84.

    CaMKII is differentially localized in synaptic regions of Kenyon cells within the mushroom bodies of the honeybee brain.
    Rössler W
    The Journal of comparative neurology 519.18 (2011 Dec 15): 3700-12.

    Comparison of microglomerular structures in the mushroom body calyx of neopteran insects.
    Rössler W
    Arthropod structure & development 40.4 (2011 Jul): 358-67.

    Age-related plasticity in the synaptic ultrastructure of neurons in the mushroom body calyx of the adult honeybee Apis mellifera.
    Rössler W
    The Journal of comparative neurology 520.15 (2012 Oct 15): 3509-27.

    Drosophila rugose is a functional homolog of mammalian Neurobeachin and affects synaptic architecture, brain morphology, and associative learning.
    Schwärzel M
    The Journal of neuroscience : the official journal of the Society for Neuroscience 32.43 (2012 Oct 24): 15193-204.

    A multisensory centrifugal neuron in the olfactory pathway of heliothine moths.
    Berg BG
    The Journal of comparative neurology 521.1 (2013 Jan 1): 152-68.

    Regeneration of olfactory afferent axons in the locust brain.
    Bicker G
    The Journal of comparative neurology 520.4 (2012 Mar 1): 679-93.

    Immunocytochemical localization of synaptic proteins to photoreceptor synapses of Drosophila melanogaster.
    Meinertzhagen IA
    The Journal of comparative neurology 518.7 (2010 Apr 1): 1133-55.

    External and circadian inputs modulate synaptic protein expression in the visual system of Drosophila melanogaster.
    Pyza EM
    Frontiers in physiology 5. (2014): 102.

    The central complex of the flesh fly, Neobellieria bullata: recordings and morphologies of protocerebral inputs and small-field neurons.
    Phillips-Portillo J
    The Journal of comparative neurology 520.14 (2012 Oct 1): 3088-104.

    Neuronal organization of the hemiellipsoid body of the land hermit crab, Coenobita clypeatus: correspondence with the mushroom body ground pattern.
    Strausfeld N
    The Journal of comparative neurology 520.13 (2012 Sep 1): 2824-46.

    New insights into an ancient insect nose: the olfactory pathway of Lepismachilis y-signata (Archaeognatha: Machilidae).
    Hansson BS
    Arthropod structure & development 40.4 (2011 Jul): 317-33.

    Synapsin function in GABA-ergic interneurons is required for short-term olfactory habituation.
    Ramaswami M
    The Journal of neuroscience : the official journal of the Society for Neuroscience 33.42 (2013 Oct 16): 16576-85.

    Caste and sex specific olfactory glomerular organization and brain architecture in two sympatric ant species Camponotus sericeus and Camponotus compressus (Fabricius, 1798).
    Rodrigues V
    Arthropod structure & development 38.6 (2009 Nov): 485-97.

    Cloning and distribution of Ca2+-activated K+ channels in lobster Panulirus interruptus.
    Harris-Warrick RM
    Neuroscience 170.3 (2010 Oct 27): 692-702.

    Drosophila huntingtin-interacting protein 14 is a presynaptic protein required for photoreceptor synaptic transmission and expression of the palmitoylated proteins synaptosome-associated protein 25 and cysteine string protein.
    Isacoff EY
    The Journal of neuroscience : the official journal of the Society for Neuroscience 27.47 (2007 Nov 21): 12874-83.

    Loss of Drosophila melanogaster p21-activated kinase 3 suppresses defects in synapse structure and function caused by spastin mutations.
    Sherwood NT
    Genetics 189.1 (2011 Sep): 123-35.

    Multiple neuropeptides in the Drosophila antennal lobe suggest complex modulatory circuits.
    Nässel DR
    The Journal of comparative neurology 518.16 (2010 Aug 15): 3359-80.

    Glial investment of the adult and developing antennal lobe of Drosophila.
    Tolbert LP
    The Journal of comparative neurology 509.5 (2008 Aug 10): 526-50.

    Anatomical basis of sun compass navigation II: the neuronal composition of the central complex of the monarch butterfly.
    Reppert SM
    The Journal of comparative neurology 521.2 (2013 Feb 1): 267-98.

    Drosophila Syd-1, liprin-α, and protein phosphatase 2A B' subunit Wrd function in a linear pathway to prevent ectopic accumulation of synaptic materials in distal axons.
    Wu C
    The Journal of neuroscience : the official journal of the Society for Neuroscience 34.25 (2014 Jun 18): 8474-87.

    Interactions between Tau and α-synuclein augment neurotoxicity in a Drosophila model of Parkinson's disease.
    Jackson GR
    Human molecular genetics 23.11 (2014 Jun 1): 3008-23.

    Planarian MBD2/3 is required for adult stem cell pluripotency independently of DNA methylation.
    Aziz Aboobaker A
    Developmental biology 384.1 (2013 Dec 1): 141-53.

    Neuroanatomy of the vestimentiferan tubeworm Lamellibrachia satsuma provides insights into the evolution of the polychaete nervous system.
    Fujiwara Y
    PloS one 8.1 (2013): e55151.

    Restoration of anterior regeneration in a planarian with limited regenerative ability.
    Newmark PA
    Nature 500.7460 (2013 Aug 1): 77-80.

    Expression patterns of the Drosophila neuropeptide CCHamide-2 and its receptor may suggest hormonal signaling from the gut to the brain.
    Grimmelikhuijzen CJ
    PloS one 8.10 (2013): e76131.

    Two clusters of GABAergic ellipsoid body neurons modulate olfactory labile memory in Drosophila.
    Guo A
    The Journal of neuroscience : the official journal of the Society for Neuroscience 33.12 (2013 Mar 20): 5175-81.

    Reactivating head regrowth in a regeneration-deficient planarian species.
    Rink JC
    Nature 500.7460 (2013 Aug 1): 81-4.

    PBX/extradenticle is required to re-establish axial structures and polarity during planarian regeneration.
    Aboobaker AA
    Development (Cambridge, England) 140.4 (2013 Feb): 730-9.

    Neurotransmitter-induced changes in the intracellular calcium concentration suggest a differential central modulation of CCAP neuron subsets in Drosophila.
    Wegener C
    Developmental neurobiology 67.6 (2007 May): 792-808.

    New insights on the olfactory lobe of decapod crustaceans.
    Allodi S
    Brain, behavior and evolution 72.1 (2008): 27-36.

    Gregarious desert locusts have substantially larger brains with altered proportions compared with the solitarious phase.
    Rogers SM
    Proceedings. Biological sciences 277.1697 (2010 Oct 22): 3087-96.

    Confocal microscopy in large insect brains: zinc-formaldehyde fixation improves synapsin immunostaining and preservation of morphology in whole-mounts.
    Ott SR
    Journal of neuroscience methods 172.2 (2008 Jul 30): 220-30.

    Developmental changes in expression, subcellular distribution, and function of Drosophila N-cadherin, guided by a cell-intrinsic program during neuronal differentiation.
    Suzuki E
    Developmental biology 366.2 (2012 Jun 15): 204-17.

    Heterotrimeric Go protein links Wnt-Frizzled signaling with ankyrins to regulate the neuronal microtubule cytoskeleton.
    Katanaev VL
    Development (Cambridge, England) 141.17 (2014 Sep): 3399-409.

    Experience-dependent mushroom body plasticity in butterflies: consequences of search complexity and host range.
    Carlsson MA
    Proceedings. Biological sciences 284.1866 (2017 Nov 15): .

    SUMOylation controls stem cell proliferation and regional cell death through Hedgehog signaling in planarians.
    Oviedo NJ
    Cellular and molecular life sciences : CMLS 75.7 (2018 Apr): 1285-1301.

    Dysfunction of <i>GRAP</i>, encoding the GRB2-related adaptor protein, is linked to sensorineural hearing loss.
    Tekin M
    Proceedings of the National Academy of Sciences of the United States of America 116.4 (2019 Jan 22): 1347-1352.

    Brain composition in Godyris zavaleta, a diurnal butterfly, Reflects an increased reliance on olfactory information.
    Ott SR
    The Journal of comparative neurology 523.6 (2015 Apr 15): 869-91.

    Neurotropism and behavioral changes associated with Zika infection in the vector Aedes aegypti.
    Duchemin JB
    Emerging microbes & infections 7.1 (2018 Apr 25): 68.

    SoxB1 Activity Regulates Sensory Neuron Regeneration, Maintenance, and Function in Planarians.
    Zayas RM
    Developmental cell 47.3 (2018 Nov 5): 331-347.e5.

    Neuroprotective effects of blueberry anthocyanins against perfluorooctanoic sulfonate on planarian Dugesia japonica.
    Zhang J
    Ecotoxicology and environmental safety 175. (2019 Jul 15): 39-47.

    Distribution of Pheromone Biosynthesis-Activating Neuropeptide in the Central Nervous System of Plutella xylostella (Lepidoptera: Plutellidae).
    Wei H
    Journal of economic entomology 112.6 (2019 Dec 9): 2638-2648.

    The brain and the corresponding sense organs in calanoid copepods - Evidence of vestiges of compound eyes.
    Richter S
    Arthropod structure & development 54. (2020 Jan): 100902.

    Using Drosophila as an integrated model to study mild repetitive traumatic brain injury.
    Ratliff EP
    Scientific reports 6. (2016 May 4): 25252.

    Neurexin-1 is required for synapse formation and larvae associative learning in Drosophila.
    Xie W
    FEBS letters 581.13 (2007 May 29): 2509-16.

    Proteomics reveal rat hippocampal lateral asymmetry.
    Tsangaris GT
    Hippocampus 21.1 (2011 Jan): 108-19.

    Fast and efficient Drosophila melanogaster gene knock-ins using MiMIC transposons.
    Verstreken P
    G3 (Bethesda, Md.) 4.12 (2014 Oct 8): 2381-7.

    Loss and gain of Drosophila TDP-43 impair synaptic efficacy and motor control leading to age-related neurodegeneration by loss-of-function phenotypes.
    Hirth F
    Human molecular genetics 22.8 (2013 Apr 15): 1539-57.

    Flybrain neuron database: a comprehensive database system of the Drosophila brain neurons.
    Ito K
    The Journal of comparative neurology 519.5 (2011 Apr 1): 807-33.

    Drosophila TDP-43 dysfunction in glia and muscle cells cause cytological and behavioural phenotypes that characterize ALS and FTLD.
    Hirth F
    Human molecular genetics 22.19 (2013 Oct 1): 3883-93.

    Rhythmic changes in synapse numbers in Drosophila melanogaster motor terminals.
    Cantera R
    PloS one 8.6 (2013): e67161.

    A Pitx transcription factor controls the establishment and maintenance of the serotonergic lineage in planarians.
    Bartscherer K
    Development (Cambridge, England) 140.22 (2013 Nov): 4499-509.

    Olfactory coding in five moth species from two families.
    Hansson BS
    The Journal of experimental biology 215.Pt 9 (2012 May 1): 1542-51.

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