Overview

Also Known As:LXS73

The ILSXISS#/Tej recombinant inbred (RI) strains originate from crosses between ILS/IbgTejJ (009324) and ISS/IbgTejJ (009325) They may be used to study the genetics of neurogenetic, neuropharmacological and behavioral phenotypes involved in alcohol-related traits and complex or potentially complex physiologic phenotypes (including differences in longevity under ad libitum and dietary restriction conditions, aging, body temperature and body weight).

Donating Investigator

Thomas Johnson, University of Colorado at Boulder

Genetic overview

Genetic Background	Generation

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Research Applications

Research Tools

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Base Price

Starting at:

$2,854.50 Domestic price Cryo Recovery

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Details

Detailed Description

The ILSXISS recombinant inbred (RI) strains are used to study the genetics of
neurogenetic, neuropharmacological and behavioral phenotypes involved in alcohol-related traits including ethanol-induced loss of righting, psychomotor activation, hypothermia, blood ethanol concentration at wakening and numerous morphometric CNS traits as well as complex or potentially complex physiologic phenotypes including differences in longevity under ad libitum and dietary restriction conditions, aging, body temperature and body weight.

The strain distribution pattern (SDP) for the ILSXISS RI strains is available through
Gene Network.

Additional tools and information are presented through the Mouse Phenome Database

Specialized Strain Panel Query Form, and

Gene Network.

Development

The ILSXISS#/Tej (formerly LXS) recombinant inbred lines were generated from crosses between ILS/Ibg (Inbred Long Sleep)(009324) and ISS/Ibg(Inbred Short Sleep) (009325). These two progenitor strains were developed
from the LS and SS selected lines derived from a heterogenous stock
derived from an 8 way cross (A, AKR, BALB/c,
C3H/2, C57BL, DBA/2, IS/Bi and RIII) created at the Cancer Research
Genetics Laboratory at the University of California, Berkley. ILS and ISS are the product of inbreeding LS and SS, lines selected for long or short duration of loss-of-righting response following high dose intraperitoneal administration of ethanol.

The ILSXISS set was initiated in the laboratory of John DeFries and colleagues at the Institute of Behavioral Genetics, Boulder CO in 1996. Crosses at the F2 generation ensured that the Y chromosome and mitochondrial genes were randomly segregating. Three hundred-thirty MIT markers were used for screening. Seventy-seven RI strains reached the 22nd generation of inbreeding, however, since that time, a number have become extinct. Approximately 65 lines and the progenitors were donated to The Jackson Laboratory Repository in 2009 by Dr. Thomas E. Johnson and Dr. Jerry Stitzel at the University of Colorado, Boulder.

Control Suggestions

None Available

Additional Information

Considerations for Choosing Controls

Selected References

Williams RW; Bennett B; Lu L; Gu J; DeFries JC; Carosone-Link PJ; Rikke BA; Belknap JK; Johnson TE. 2004. Genetic structure of the LXS panel of recombinant inbred mouse strains: a powerful resource for complex trait analysis. Mamm Genome 15(8):637-47PubMed: 15457343 MGI: J:93073

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Genetics

Currently there are no related genes or alleles for this strain.

Disease/Phenotype

Disease Terms

Research Areas By Phenotype

This mouse can be used to support research in many areas including:

Research Tools
- Genetics Research
  - Gene Mapping: Tools for QTL Mapping, Segregation and Linkage Analysis
  - Gene Mapping

Mammalian Phenotype Terms by Genotype

Phenotype Information

References

Williams RW; Bennett B; Lu L; Gu J; DeFries JC; Carosone-Link PJ; Rikke BA; Belknap JK; Johnson TE. 2004. Genetic structure of the LXS panel of recombinant inbred mouse strains: a powerful resource for complex trait analysis. Mamm Genome 15(8):637-47PubMed: 15457343 MGI: J:93073

Additional References

Bennett B; Carosone-Link P. 2006. Replication of small effect quantitative trait loci for behavioral traits facilitated by estimation of effect size from independent cohorts. Genes Brain Behav 5(5):404-12PubMed: 16879634 MGI: J:114153
Bennett B; Carosone-Link P; Zahniser NR; Johnson TE. 2006. Confirmation and fine mapping of ethanol sensitivity quantitative trait loci, and candidate gene testing in the LXS recombinant inbred mice. J Pharmacol Exp Ther 319(1):299-307PubMed: 16803863 MGI: J:114558
Bennett B; Carosone-Link PJ; Lu L; Chesler EJ; Johnson TE. 2005. Genetics of body weight in the LXS recombinant inbred mouse strains. Mamm Genome 16(10):764-74PubMed: 16261418 MGI: J:102637
Downing C; Carosone-Link P; Bennett B; Johnson T. 2006. QTL mapping for low-dose ethanol activation in the LXS recombinant inbred strains. Alcohol Clin Exp Res 30(7):1111-20PubMed: 16792557 MGI: J:114560
Haughey HM; Kaiser AL; Johnson TE; Bennett B; Sikela JM; Zahniser NR. 2005. Norepinephrine transporter: a candidate gene for initial ethanol sensitivity in inbred long-sleep and short-sleep mice. Alcohol Clin Exp Res 29(10):1759-68PubMed: 16269905 MGI: J:145526
Rikke BA; Battaglia ME; Allison DB; Johnson TE. 2006. Murine weight loss exhibits significant genetic variation during dietary restriction. Physiol Genomics 27(2):122-30PubMed: 16849633 MGI: J:113658
Rikke BA; Johnson TE. 2007. Physiological genetics of dietary restriction: uncoupling the body temperature and body weight responses. Am J Physiol Regul Integr Comp Physiol 293(4):R1522-7PubMed: 17686887 MGI: J:145527
Rikke BA; Liao CY; McQueen MB; Nelson JF; Johnson TE. 2010. Genetic dissection of dietary restriction in mice supports the metabolic efficiency model of life extension. Exp Gerontol 45(9):691-701PubMed: 20452416 MGI: J:164267
Rikke BA; Yerg JE 3rd; Battaglia ME; Nagy TR; Allison DB; Johnson TE. 2003. Strain variation in the response of body temperature to dietary restriction. Mech Ageing Dev 124(5):663-78PubMed: 12735906 MGI: J:145528
Rikke BA; Yerg JE 3rd; Battaglia ME; Nagy TR; Allison DB; Johnson TE. 2004. Quantitative trait Loci specifying the response of body temperature to dietary restriction. J Gerontol A Biol Sci Med Sci 59(2):118-25PubMed: 14999024 MGI: J:88523
Swindell WR. 2012. Dietary restriction in rats and mice: a meta-analysis and review of the evidence for genotype-dependent effects on lifespan. Ageing Res Rev 11(2):254-70PubMed: 22210149 MGI: J:204726

Technical Support

CONTACT TECHNICAL SUPPORT

Genotyping Protocols
- Genotyping resources and troubleshooting
Citation
When using the ILSXISS73/TejJ mouse strain in a publication, please cite the originating article(s) and include JAX stock #009277 in your Materials and Methods section.

Animal Health Reports

Facility Barrier Level Descriptions

Production of mice from cryopreserved embryos or sperm occurs in a maximum barrier room, G200

Pricing & Availability

Cryo Recovery

Domestic
International

Live Mouse

Age

Genotype

Price

weeks

Cryorecovery - Pricing

Service/Product	Description	Price
> >	Inbred, 1 pair minimum will be supplied

Related Products and Services

Frozen Mouse Embryo	ILSXISS73/TejJ Frozen Embryos	$2595.00
Frozen Mouse Embryo	ILSXISS73/TejJ Frozen Embryos	$2595.00
Frozen Mouse Embryo	ILSXISS73/TejJ Frozen Embryos	$3373.50
Frozen Mouse Embryo	ILSXISS73/TejJ Frozen Embryos	$3373.50

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The Jackson Laboratory's Genotype Promise

The Jackson Laboratory has rigorous genetic quality control and mutant gene genotyping programs to ensure the genetic background of JAX® Mice strains as well as the genotypes of strains with identified molecular mutations. JAX® Mice strains are only made available to researchers after meeting our standards. However, the phenotype of each strain may not be fully characterized and/or captured in the strain data sheets. Therefore, we cannot guarantee a strain's phenotype will meet all expectations. To ensure that JAX® Mice will meet the needs of individual research projects or when requesting a strain that is new to your research, we suggest ordering and performing tests on a small number of mice to determine suitability for your particular project. We do not guarantee breeding performance and therefore suggest that investigators order more than one breeding pair to avoid delays in their research.

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Questions about Terms of Use

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Licensing Information

Phone: 207-288-6470

Email: TechTran@jax.org