B6.129P2-Sema6aGt(KST069)Byg/Ieg

Status

Available to order

EMMA IDEM:02480
Citation informationRRID:IMSR_EM:02480 

Research Resource Identifiers (RRID) are persistent unique ID numbers assigned to help researchers cite key resources (e.g. antibodies, model organisms and software projects) in the biomedical literature to improve transparency and reproducibility in research. See https://www.rrids.org/ for more information.

International strain nameB6.129P2-Sema6aGt(KST069)Byg/Ieg
Alternative nameKST69
Strain typeGene-trap
Allele/Transgene symbolSema6aGt(KST069)Byg
Gene/Transgene symbolSema6a

Information from provider

ProviderRoland Friedel
Provider affiliationSoriano Lab, Department of Developomental & Regenerative Biology, Mount Sinai School of Medicine
Additional ownerDr. Kevin Mitchell, Trinity College Dublin, Smurfit Institute of Genetics, Dublin, Ireland
Genetic informationOfficial MGI allele name: Sema6Gt(pGT1TM)69Wcs. Short name: KST69. The allele KST69 is an insertion of a gene trap vector (pGT1TMpfs) into the intron that disrupts amino acid 473. This results in the complete abolition of wildtype transcript. The trap vector contains lacZ and PLAP reporters.
Phenotypic informationHomozygous mutants are viable. Homozygous mutants reveal misprojections of axons in the forebrain and a migration defect of granule cells in the cerebellum.
Breeding historyBackcrossed for 16 generations to C57BL/6.
References
  • Defining brain wiring patterns and mechanisms through gene trapping in mice.;Leighton P A, Mitchell K J, Goodrich L V, Lu X, Pinson K, Scherz P, Skarnes W C, Tessier-Lavigne M, ;2001;Nature;410;174-9; 11242070
  • Functional analysis of secreted and transmembrane proteins critical to mouse development.;Mitchell K J, Pinson K I, Kelly O G, Brennan J, Zupicich J, Scherz P, Leighton P A, Goodrich L V, Lu X, Avery B J, Tate P, Dill K, Pangilinan E, Wakenight P, Tessier-Lavigne M, Skarnes W C, ;2001;Nature genetics;28;241-9; 11431694
  • Plexin-A2 and its ligand, Sema6A, control nucleus-centrosome coupling in migrating granule cells.;Renaud Julie, Kerjan Géraldine, Sumita Itsuko, Zagar Yvrick, Georget Virginie, Kim Doyeun, Fouquet Coralie, Suda Kazunori, Sanbo Makoto, Suto Fumikazu, Ackerman Susan L, Mitchell Kevin J, Fujisawa Hajime, Chédotal Alain, ;2008;Nature neuroscience;11;440-9; 18327254
  • The transmembrane semaphorin Sema6A controls cerebellar granule cell migration.;Kerjan Géraldine, Dolan Jackie, Haumaitre Cécile, Schneider-Maunoury Sylvie, Fujisawa Hajime, Mitchell Kevin J, Chédotal Alain, ;2005;Nature neuroscience;8;1516-24; 16205717
  • Interactions between plexin-A2, plexin-A4, and semaphorin 6A control lamina-restricted projection of hippocampal mossy fibers.;Suto Fumikazu, Tsuboi Miu, Kamiya Haruyuki, Mizuno Hidenobu, Kiyama Yuji, Komai Shoji, Shimizu Masayuki, Sanbo Makoto, Yagi Takeshi, Hiromi Yasushi, Chédotal Alain, Mitchell Kevin J, Manabe Toshiya, Fujisawa Hajime, ;2007;Neuron;53;535-47; 17296555
Homozygous fertilenot known
Homozygous viableyes
Homozygous matings requiredno
Immunocompromisedno

Information from EMMA

Archiving centreHelmholtz Zentrum Muenchen - German Research Center for Environmental Health (GmbH), Oberschleißheim, Germany
Animals used for archivingheterozygous C57BL/6J males, wild-type C57BL/6J females
Stage of embryos2-cell

Disease and phenotype information

MGI phenotypes (allele matching)
  • abnormal hippocampal mossy fiber morphology / MGI
  • nervous system phenotype / MGI
  • abnormal retinal inner plexiform layer morphology / MGI
  • abnormal amacrine cell morphology / MGI
  • abnormal retinal ganglion cell morphology / MGI
  • abnormal dendrite morphology / MGI
  • abnormal neurite morphology / MGI
  • abnormal forebrain morphology / MGI
  • behavior/neurological phenotype / MGI
  • reproductive system phenotype / MGI
MGI phenotypes (gene matching)
  • abnormal forebrain morphology / MGI
  • abnormal hippocampal mossy fiber morphology / MGI
  • nervous system phenotype / MGI
  • abnormal retinal inner plexiform layer morphology / MGI
  • abnormal amacrine cell morphology / MGI
  • behavior/neurological phenotype / MGI
  • reproductive system phenotype / MGI
  • abnormal retinal ganglion cell morphology / MGI
  • abnormal dendrite morphology / MGI
  • abnormal neurite morphology / MGI

Literature references

  • Defining brain wiring patterns and mechanisms through gene trapping in mice.;Leighton P A, Mitchell K J, Goodrich L V, Lu X, Pinson K, Scherz P, Skarnes W C, Tessier-Lavigne M, ;2001;Nature;410;174-9; 11242070
  • Functional analysis of secreted and transmembrane proteins critical to mouse development.;Mitchell K J, Pinson K I, Kelly O G, Brennan J, Zupicich J, Scherz P, Leighton P A, Goodrich L V, Lu X, Avery B J, Tate P, Dill K, Pangilinan E, Wakenight P, Tessier-Lavigne M, Skarnes W C, ;2001;Nature genetics;28;241-9; 11431694
  • Plexin-A2 and its ligand, Sema6A, control nucleus-centrosome coupling in migrating granule cells.;Renaud Julie, Kerjan Géraldine, Sumita Itsuko, Zagar Yvrick, Georget Virginie, Kim Doyeun, Fouquet Coralie, Suda Kazunori, Sanbo Makoto, Suto Fumikazu, Ackerman Susan L, Mitchell Kevin J, Fujisawa Hajime, Chédotal Alain, ;2008;Nature neuroscience;11;440-9; 18327254
  • The transmembrane semaphorin Sema6A controls cerebellar granule cell migration.;Kerjan Géraldine, Dolan Jackie, Haumaitre Cécile, Schneider-Maunoury Sylvie, Fujisawa Hajime, Mitchell Kevin J, Chédotal Alain, ;2005;Nature neuroscience;8;1516-24; 16205717
  • Interactions between plexin-A2, plexin-A4, and semaphorin 6A control lamina-restricted projection of hippocampal mossy fibers.;Suto Fumikazu, Tsuboi Miu, Kamiya Haruyuki, Mizuno Hidenobu, Kiyama Yuji, Komai Shoji, Shimizu Masayuki, Sanbo Makoto, Yagi Takeshi, Hiromi Yasushi, Chédotal Alain, Mitchell Kevin J, Manabe Toshiya, Fujisawa Hajime, ;2007;Neuron;53;535-47; 17296555

Information on how we integrate external resources can be found here

Order

Availabilities

Requesting frozen sperm or embryos is generally advisable wherever possible, in order to minimise the shipment of live mice.

  • Frozen embryos. Delivered in 4 weeks (after paperwork in place). €1740*

Due to the dynamic nature of our processes strain availability may change at short notice. The local repository manager will advise you in these circumstances.

* In addition users have to cover all the shipping costs (including the cost for returning dry-shippers, where applicable).

More details on pricing and delivery times

Practical information

Genotyping protocol

Example health report
(Current health report will be provided later)

Material Transfer Agreement (MTA)
Distribution of this strain is subject to a provider MTA. Both signing of the MTA and submission of the online EMMA Mutant Request Form are required before material can be shipped.

EMMA conditions
Legally binding conditions for the transfer

Right strain for your research?

The information provided on this page is, to the best of EMMA’s knowledge, based on data supplied by the original provider. End users are responsible for reviewing these details and for validating the strain and its suitability for their experimental use.​
Not found what you were looking for? Search here for other strains available from EMMA.


Search
INFRAFRONTIER® and European Mouse Mutant Archive - EMMA® are registered trademarks at the European Union Intellectual Property Office (EUIPO).