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Lore2SS
QTL Variant Detail
Summary
QTL variant: Lore2SS
Name: loss of righting induced by ethanol 2; SS
MGI ID: MGI:2155064
QTL: Lore2  Location: Chr2:144515861-180896594 bp  Genetic Position: Chr2, Syntenic
Variant
origin
Strain of Specimen:  SS
Variant
description
Allele Type:    QTL
Mutation:    Undefined
 
Mutation detailsThis allele confers decreased loss of righting response (LORR) following alcohol challenge and increased blood alcohol concentration compared to LS. (J:76104)
Inheritance:    Dominant
Phenotypes
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View phenotypes and curated references for all genotypes (concatenated display).
Expression
In Structures Affected by this Mutation: 1 anatomical structure(s)
Notes

Candidate Genes

J:105312

Candidate genes for ethanol sensitivity QTL Lore1 (loss of righting induced by ethanol 1), Lore2, Lore4, and Lore5 were identified using Affymetrix gene microarray analysis. RNA from the cerebella of male animals from inbred strains LS and SS were hybridized to 2 different sets of Affymetrix gene chips and analyzed for gene expression differences. The inbred strain LS exhibits increased alcohol sensitivity compared to SS. A total of 15 candidate genes were identified, 4 of which have polymorphisms between LS and SS.

Xrcc5 (42 cM) was identified as candidate gene for Lore1 (54 cM) on mouse Chromosome 1. Xrcc5 exhibits 2.5-fold increased expression in the SS inbred strain compared to the LS inbred strain. In addition the human ortholog XRCC5 is also associated with ethanol-induced loss of righting response.

Pcsk2 (81.4 cM), Slc22a4 (28 cM), and Rassf2 were identified as candidate genes for Lore2 (85 cM) on mouse Chromosome 2. Pcsk2 and Slc22a4 exhibit 2.9-fold and 2.4-fold increased expression in LS compared to SS, respectively, whereas Rassf2 exhibits 2.4-fold increased expression in SS compared to LS. Two polymorphisms were detected in the promoter region of Slc22a4, one of which disrupts a putative SP-1 transcription factor binding site in the SS sequence. In addition, the human ortholog SLC22A4 is associated with ethanol-induced loss of righting response in humans. Six polymorphisms were detected in the Rassf2 promoter, two of which disrupt putative SP-1 transcription factor binding sites in the SS sequence.

Myo1d (46 cM), BG075643 (a cDNA clone), Ebf1 (20 cM), Stx8, Tax1bp3, and Tnfaip1 (45 cM) were identified as candidate genes for Lore4 (49 cM) on mouse Chromosome 11. Myo1d and BG075643 are expressed 6.2-fold higher in LS compared to SS strains.Ebf1 is expressed 2.1-fold higher, Stx8 is expressed 2-fold higher, Tax1bp3 is expressed 2.2-fold higher, and Tnfaip1 is expressed 2-fold higher in SS compared to LS strains. The Stx8 promoter sequence has 2 polymorphisms between LS and SS, and the Tax1bp3 promoter sequence has 4 polymorphisms, one of which results in disruption of a putative NF-kB transcription factor binding site in the LS strain.

Cthrc1, Krt2-8 (58.9 cM), Lgals2, Scrt1, and Atf1 were identified as candidate genes for Lore5 (46 cM) onmouse Chromosome 15. Atf1 is expressed 2-fold higher in SS compared to LS strains. Cthrc1 (3.2-fold), Krt2-8 (2.3-fold), Lga1s2 (2-fold), and Scrt1 (2.4-fold) are expressed higher in LS compared to SS strains.

Mapping and Phenotype information for this QTL, its variants and associated markers

J:38534

A large (LSxSS)F2 intercross was used to confirm QTLs involved in ethanol-induced sleep time and identify new QTLs. The LS (long sleep) inbred strain sleeps an average of 2 hours when administered an intraperitoneal ethanol injection. In contrast, the SS(short sleep) inbred strain sleeps an average of 10 minutes when administered an intraperitoneal ethanol injection. Lore1, previously identified in 27 LSxSS RI (recombinant inbred) strains (Bennett, J:40119), was confirmed in this study on mouse chromosome 1 spanning 43 cM-59 cM (peak LOD = 5.4 at 54 cM). Possible candidate genes in this region are Chrnd (Acrd-acetylcholine receptor subunit delta) and Chrng (Acrg-acetylcholine receptor subunit gamma) at 52.3 cM. Lore2 on chromosome 2 spanning 78 cM - 95 cM (peak LOD = 6.6 at 85 cM) was also confirmed. A possible candidate gene for Lore2 is Ntsr at 107 cM on chromosome 2. New QTLs Lore3 (chromosome 8 spanning 44 cM - 71 cM, peak LOD = 3.4 at 59 cM), Lore4 (chromosome 11 spanning 44 cM - 56 cM, peak LOD = 6.5 at 49 cM), and Lore5 (chromosome 15 spanning 32 cM - 55 cM, peak LOD = 4.0 at 46 cM) were mapped. Suggestive QTLs Lore6 mapped to chromosome 18 (spanning 24 cM - tel, peak LOD = 1.8 at 41 cM) and Lore7 mapped to chromosome 7 (spanning 25 cM - 61 cM, peak LOD = 1.7 at 50 cM). Lore1 - Lore7 are inherited in an additive fashion. Lore1, Lore2, Lore4, and Lore5 map near QTLs associated with NT (neurotensin) receptor density. No evidence of epistasis between Lore1 - Lore7 was detected. Loci associated with blood ethanol concentration (BEC) were also analyzed in the (LSxSS)F2 population. SS mice wake with higher BEC than LS mice. 6 putative BEC QTLs (LOD = 2.0 - 3.0) were identified on chromosomes 2, 8, 9, 22, 14, and 15, and will be further analyzed for confirmation.

J:52088

Authors construct several lines of speed congenics using the QMACS (QTL-Marker-Assisted Counter Selection) strategy to confirm previously mapped QTLs associated with hypnotic sensitivity to ethanol (Markel, J:38534). Each Lore QTL was separately backcrossed onto either the inbred short sleep (ISS) background or the inbred long sleep background (ILS) for 6-8 generations. Lore1, Lore2, Lore4, and Lore5 were confirmed using this strategy. Lore3, a suggestive QTL, appears to have been lost. Significance scores for each congenic line Lore QTL are as follows: Lore1 on mouse chromosome 1 at 54 cM, P = 0.01; Lore2 on mouse chromosome 2 at 85 cM, P = 0.006; Lore4 on mouse chromosome 11 at 49 cM, P = 0.0008; and Lore5 on mouse chromosome 15 at 46 cM, P = 0.003.

J:34745

Linkage analysis was performed on a series of LSXSS recombinant inbred (RI) strains to identify QTLs associated with LORR (loss of righting response) and blood ethanol concentration (BEC). 124 polymorphic markers were used for genotyping. Parental strains LS (long sleep) and SS (short sleep) differ significantly with respect to ethanol sensitivity- LS exhibits a long sleep time after ethanol administration whereas SS exhibits a short sleep time.

11 provisional QTLs for LORR and 5 provisional QTLs for BEC were identified using multipoint analysis. The strongest locus mapped to 80 cM on mouse Chromosome 2 and exceeded the threshold for genome-wide significance (P<0.001). This locus is named Lore2 and shows linkage to D2Mit21 at 80 cM. Lore2 explains 40%of the genotypic variance for LORR and 17% of the variance for BEC. Lore2 was also detected using interval mapping (P<0.0002).

J:151159

A multistage mapping strategy involving Long sleep (LS) and short-sleep (SS) mice was employed to refine the QTL mapping of Lore1, Lore2, Lore4 and Lore5. ( see Table 1 of text)

Using 39 progeny from ISCS (Interval-specific congenic strains) lines 11, 4and 13 the mapping of Lore1 was refined to a region of mouse Chromosome 1 bounded by D1Mit180 and D1Mit192.

Using 79 progeny from ISCS (Interval-specific congenic strains) lines 10, 14, 2 and 5 the mapping of Lore2 was refined to a region of mouse Chromosome 2 bounded by D2Mit403 and D2Mit457.

Using 24progeny from ISCS (Interval-specific congenic strains) lines 9 and 1 the mapping of Lore4 was refined to a region of mouse Chromosome 11 bounded by D11Mit40 and D11Mit258.

Using 38 progeny from ISCS (Interval-specific congenic strains) lines 2 and 11 the mapping of Lore5 was refined to a region of mouse Chromosome 15 bounded by D15Mit84 and D15Mit121.

The evidence for these mappings are shown figuratively in figs 2-5 of the text.

References
Original:  J:52088 Bennett B, et al., Development of congenics for hypnotic sensitivity to ethanol by QTL-marker-assisted counter selection. Mamm Genome. 1998 Dec;9(12):969-74
All:  4 reference(s)

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Mouse Genome Database (MGD), Gene Expression Database (GXD), Mouse Models of Human Cancer database (MMHCdb) (formerly Mouse Tumor Biology (MTB)), Gene Ontology (GO)
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last database update
11/12/2024
MGI 6.24
The Jackson Laboratory