Search Criteria: Strain Type is "Recombinant Inbred (Ri)"
Strains from the Research Colonies of Jackson Laboratory Scientists
New Strains Under Development
| Stock Number |
Strain Name Phenotype |
Standard Supply |
| 001673 | AXB1/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form | ||
| 001681 | AXB10/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form | ||
| 001683 | AXB12/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form | ||
| 001826 | AXB13/PgnJ | Repository- Live |
| Through high density SNP analysis, some AXB and BXA recombinant inbred strains were shown to be the same or nearly the same genetically. AXB13/PgnJ and AXB14/PgnJ are considered ?sister strains? being identical throughout much of the genome but differing in large regions of Chromosomes 11, 12, 13, and in small regions of a few other Chromosomes. Because these two strains are "near congenics" a nomenclature change has been made to update AXB14/PgnJ to AXB13a/PgnJ. In general, 'sister" strains (those with suffixes of a or b) should not be used for primary screening/QTL mapping. However, if a QTL is located in a region of difference in a sister recombinant inbred then this strain can serve as a ?near congenic? for additional analysis. The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their suscepti
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| 001685 | AXB15/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form | ||
| 001687 | AXB19/PgnJ | Repository- Live |
| Through high density SNP analysis, some AXB and BXA recombinant inbred strains were shown to be the same or nearly the same genetically. AXB18/Pgn, AXB19/Pgn, and AXB20/Pgn were found to be highly similar in their overall genomes, but with particular Chromosomes differing between them. Two of these "sister" strains were renamed. AXB19/Pgn was designated the primary strain since it has the best traceable history, and therefore its name remained unchanged. AXB18/Pgn was renamed AXB19a/Pgn and AXB20/Pgn was renamed AXB19b/Pgn. In general, the "sister" strains (those with suffixes of a or b) should not be used for primary screening/QTL mapping. However, if a QTL is located in a region of difference in a sister recombinant inbred then this strain can serve as a "near congenic" for additional analysis. The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalu ..... For more information please see the full phenotype on the strain data sheet | ||
| 001686 | AXB19a/PgnJ | Repository- Live |
| Through high density SNP analysis, some AXB and BXA recombinant inbred strains were shown to be the same or nearly the same genetically. AXB18/Pgn, AXB19/Pgn, and AXB20/Pgn were found to be highly similar in their overall genomes, but with particular Chromosomes differing between them. Two of these "sister" strains were renamed. AXB19/Pgn was designated the primary strain since it has the best traceable history, and therefore its name remained unchanged. AXB18/Pgn was renamed AXB19a/Pgn and AXB20/Pgn was renamed AXB19b/Pgn. In general, the "sister" strains (those with suffixes of a or b) should not be used for primary screening/QTL mapping. However, if a QTL is located in a region of difference in a sister recombinant inbred then this strain can serve as a "near congenic" for additional analysis. The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalu ..... For more information please see the full phenotype on the strain data sheet | ||
| 001688 | AXB19b/PgnJ | Repository- Live |
| Through high density SNP analysis, some AXB and BXA recombinant inbred strains were shown to be the same or nearly the same genetically. AXB18/Pgn, AXB19/Pgn, and AXB20/Pgn were found to be highly similar in their overall genomes, but with particular Chromosomes differing between them. Two of these "sister" strains were renamed. AXB19/Pgn was designated the primary strain since it has the best traceable history, and therefore its name remained unchanged. AXB18/Pgn was renamed AXB19a/Pgn and AXB20/Pgn was renamed AXB19b/Pgn. In general, the "sister" strains (those with suffixes of a or b) should not be used for primary screening/QTL mapping. However, if a QTL is located in a region of difference in a sister recombinant inbred then this strain can serve as a "near congenic" for additional analysis. The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalu ..... For more information please see the full phenotype on the strain data sheet | ||
| 001674 | AXB2/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form | ||
| 001690 | AXB23/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001691 | AXB24/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001676 | AXB4/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form | ||
| 001677 | AXB5/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form | ||
| 001678 | AXB6/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form | ||
| 001679 | AXB8/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form | ||
| 001692 | BXA1/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin.The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001699 | BXA11/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001700 | BXA12/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001701 | BXA13/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001702 | BXA14/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. In 2004 a phenotype of small body size was found to be segregating in this colony after recovery from cryopreservation. It appears that this phenotype is segregating recessively in this strain and is present in the cryopreserved bank stock. The expressed phenotype is small size relative to littermates and mice with this diminished body size often catch up to their littermantes in body size af ..... For more information please see the full phenotype on the strain data sheet | ||
| 001703 | BXA16/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001693 | BXA2/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001710 | BXA24/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001711 | BXA25/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001999 | BXA26/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001694 | BXA4/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001696 | BXA7/PgnJ | Repository- Live |
| The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001697 | BXA8/PgnJ | Repository- Live |
| Through high density SNP analysis, some AXB and BXA recombinant inbred strains were shown to be the same or nearly the same genetically. BXA17/Pgn was found to be a replica of BXA8/Pgn. BXA17/Pgn was lost in 1989 or 1990. The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their susceptibility to infectious diseases and in their responses to alcohol, stress, and endotoxin. The strain distribution pattern (SDP) for both the AXB and BXA RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000036 | BXD1/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity.The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 007143 | BXD100/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 000012 | BXD11/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000045 | BXD12/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000040 | BXD13/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000329 | BXD14/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000095 | BXD15/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000013 | BXD16/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. A mutation has been identified in the BXD16 strain in the amylase 1 gene from the parental Amy1a allele to an allele that has an electrophoretic mobility closer to that of Amy1b. This allele is distinct from all others identified and no evidence of genetic contamination was found. Thus, this is believed to have resulted from a spontaneous mutation. (Hjorth, 1982.) | ||
| 000015 | BXD18/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000010 | BXD19/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000075 | BXD2/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form.
The BXD2/TyJ strain develops spontaneous arthritis in 50% of females by 8 months of age and 90% of males greater than 12 months of age. The progressive, age-related arthritis includes extensive synovial hyperplasia and marginal invasion of the metatarsophalangeal, forelimb and hindlimb joints. Adult mice exhibit glomerulonephritis, proteinuria (by 6 months), splenomegaly, and autoantibody production. (Mountz JD, et
..... | ||
| 000330 | BXD20/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity.The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000077 | BXD21/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000043 | BXD22/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 005243 | BXD24a/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000031 | BXD24b/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000041 | BXD27/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000047 | BXD28/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000029 | BXD29/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000083 | BXD31/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000078 | BXD32/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 003222 | BXD33/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 003223 | BXD34/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 003225 | BXD36/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 003227 | BXD38/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 003228 | BXD39/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 003229 | BXD40/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 003230 | BXD42/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 007094 | BXD44/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 007097 | BXD48/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 000037 | BXD5/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 007099 | BXD50/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 007103 | BXD55/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 000007 | BXD6/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 007106 | BXD61/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 007107 | BXD62/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 007111 | BXD66/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 007113 | BXD68/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 007114 | BXD69/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 007117 | BXD73/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 000084 | BXD8/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity.The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 007129 | BXD86/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 007130 | BXD87/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 007132 | BXD89/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 000105 | BXD9/TyJ | Repository- Live |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 007133 | BXD90/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 007139 | BXD96/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 007140 | BXD97/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 007141 | BXD98/RwwJ | Repository- Live |
| The BXD recombinant inbred (RI) strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The BXD#/Rww set was generated using a strategy of advanced intercrosses (AI). The AI technique produces recombinant RI strains which incorporate approximately twice as many recombinations as the standard RI strains. The addition of the AI BXD RI lines to the existing BXD set creates the largest of the mouse RI mapping panels. This set is useful in QTL mapping and analysis of gene function. | ||
| 000032 | BXH10/TyJ | Repository- Live |
| 000039 | BXH11/TyJ | Repository- Live |
| 000009 | BXH14/TyJ | Repository- Live |
| 000033 | BXH19/TyJ | Repository- Live |
| 000034 | BXH2/TyJ | Repository- Live |
| 003784 | BXH20/KccJ | Repository- Live |
| 003786 | BXH22/KccJ | Repository- Live |
| 000011 | BXH4/TyJ | Repository- Live |
| 000038 | BXH6/TyJ | Repository- Live |
| 000014 | BXH7/TyJ | Repository- Live |
| 000076 | BXH8/TyJ | Repository- Live |
| 000008 | BXH9/TyJ | Repository- Live |
| 000740 | BXSB/MpJ | Repository- Live |
| Mice of the BXSB strain develop spontaneous autoimmune disease characterized by moderate lymph node and spleen enlargement, hemolytic anemia, hypergammaglobulinemia, and immune complex glomerulonephritis. The disease process in BXSB is strikingly accelerated in males, which live little more than a third as long as females. The acceleration is due to the presence of the Yaa gene on the Y chromosome. Similar acceleration occurs in males but not in females from an outcross of BXSB males to females of strain NZB. It does not occur in offspring of the reciprocal cross. The same effect of Yaa is seen in offspring of outcrosses to strains SJL, C57BL/6, and AKR. A dramatic increase in number of peripheral monocytes is seen in BXSB males beginning at 2 months of age. Males become deficient in pre-B-cells after about 4 weeks and remain so throughout life. | ||
| 000351 | CXB1/ByJ | Repository- Live |
| Like BALB/cByJ, this recombinant inbred carries the mutation hippocampal lamination defect or Hld, an allele responsible for abnormal neuronal migration to the pyramidal cell layer (Nowakowski RS, et al, Jnl Neurogen, 1984). | ||
| 001631 | CXB10/HiAJ | Repository- Live |
| 001632 | CXB11/HiAJ | Repository- Live |
| 001633 | CXB12/HiAJ | Repository- Live |
| 001634 | CXB13/HiAJ | Repository- Live |
| 000352 | CXB2/ByJ | Repository- Live |
| 000353 | CXB3/ByJ | Repository- Live |
| Like BALB/cByJ, this recombinant inbred carries the mutation hippocampal lamination defect or Hld, an allele responsible for abnormal neuronal migration to the pyramidal cell layer (Nowakowski RS, et al, Jnl Neurogen, 1984). | ||
| 000354 | CXB4/ByJ | Repository- Live |
| Like BALB/cByJ, this recombinant inbred carries the mutation hippocampal lamination defect or Hld, an allele responsible for abnormal neuronal migration to the pyramidal cell layer (Nowakowski RS, et al, Jnl Neurogen, 1984). | ||
| 000355 | CXB5/ByJ | Repository- Live |
| Like BALB/cByJ, this recombinant inbred carries the mutation hippocampal lamination defect or Hld, an allele responsible for abnormal neuronal migration to the pyramidal cell layer (Nowakowski RS, et al, Jnl Neurogen, 1984). | ||
| 000356 | CXB6/ByJ | Repository- Live |
| 000357 | CXB7/ByJ | Repository- Live |
| The CXB7/ByJ recombinant inbred strain is widely used because of a deficiency in mu opioid receptors. Like BALB/cByJ, this recombinant inbred carries the mutation hippocampal lamination defect or Hld, an allele responsible for abnormal neuronal migration to the pyramidal cell layer (Nowakowski RS, et al, Jnl Neurogen, 1984). | ||
| 001629 | CXB8/HiAJ | Repository- Live |
| 001630 | CXB9/HiAJ | Repository- Live |
| 001258 | 129XAE/SvJ | Repository-Cryopreserved |
| According to Leroy C. Stevens, 82% (28 of 34) of 9XAE male genital ridges grafted to the testes of adults develop into testes with teratomas. Spontaneous teratomas were seen in 0 of 101. | ||
| 001263 | 129XAM/SvJ | Repository-Cryopreserved |
| Leroy Stevens reported that 96% (81 or 84) of 9XAM male genital ridges grafted to the testes of adults develop into testes with teratomas. Spontaneous teratomas were found in 1 of 187. | ||
| 006356 | 129XB1 Chr YPOSA/JbwEi | Repository-Cryopreserved |
| 000313 | 58NXL4/Ty | Repository-Cryopreserved |
| 000564 | 58NXL8/TyJ | Repository-Cryopreserved |
| 001005 | AKXD1/TyJ | Repository-Cryopreserved |
| 001017 | AKXD10/TyJ | Repository-Cryopreserved |
| 001003 | AKXD11/TyJ | Repository-Cryopreserved |
| 000765 | AKXD13/TyJ | Repository-Cryopreserved |
| 000779 | AKXD14/TyJ | Repository-Cryopreserved |
| 000954 | AKXD15/TyJ | Repository-Cryopreserved |
| 000958 | AKXD16/TyJ | Repository-Cryopreserved |
| 001093 | AKXD18/TyJ | Repository-Cryopreserved |
| 000776 | AKXD2/TyJ | Repository-Cryopreserved |
| 001001 | AKXD20/TyJ | Repository-Cryopreserved |
| 001062 | AKXD21/TyJ | Repository-Cryopreserved |
| 000947 | AKXD22/TyJ | Repository-Cryopreserved |
| 000780 | AKXD23/TyJ | Repository-Cryopreserved |
| 000969 | AKXD24/TyJ | Repository-Cryopreserved |
| 000949 | AKXD25/TyJ | Repository-Cryopreserved |
| 000764 | AKXD27/TyJ | Repository-Cryopreserved |
| 000957 | AKXD28/TyJ | Repository-Cryopreserved |
| 000959 | AKXD3/TyJ | Repository-Cryopreserved |
| 000777 | AKXD6/TyJ | Repository-Cryopreserved |
| 000763 | AKXD9/TyJ | Repository-Cryopreserved |
| 000089 | AKXL13/TyJ | Repository-Cryopreserved |
| 000404 | AKXL16A/TyJ | Repository-Cryopreserved |
| 000088 | AKXL17/TyJ | Repository-Cryopreserved |
| 000748 | AKXL17A/TyJ | Repository-Cryopreserved |
| 000782 | AKXL21/TyJ | Repository-Cryopreserved |
| 000046 | AKXL24/TyJ | Repository-Cryopreserved |
| 000042 | AKXL29/TyJ | Repository-Cryopreserved |
| 000044 | AKXL37/TyJ | Repository-Cryopreserved |
| 000328 | AKXL38/TyJ | Repository-Cryopreserved |
| 000747 | AKXL38A/TyJ | Repository-Cryopreserved |
| 003699 | AKXL39/TyJ | Repository-Cryopreserved |
| 003700 | AKXL43/TyJ | Repository-Cryopreserved |
| 003701 | AKXL46/TyJ | Repository-Cryopreserved |
| 000087 | AKXL6/TyJ | Repository-Cryopreserved |
| 000757 | AKXL6A/TyJ | Repository-Cryopreserved |
| 001684 | AXB13a/PgnJ | Repository-Cryopreserved |
| Through high density SNP analysis, some AXB and BXA recombinant inbred strains were shown to be the same or nearly the same genetically. AXB13/PgnJ and AXB14/PgnJ are considered “sister strains” being identical throughout much of the genome but differing in large regions of Chromosomes 11, 12, 13, and in small regions of a few other Chromosomes. Because these two strains are “near congenics” a nomenclature change has been made to update AXB14/PgnJ to AXB13a/PgnJ. In general, “sister” strains (those with suffixes of a or b) should not be used for primary screening/QTL mapping. However, if a QTL is located in a region of difference in a sister recombinant inbred then this strain can serve as a “near congenic” for additional analysis. The AXB and BXA set of RI strains are useful in the genetic analysis of several complex diseases including cardiovascular disease, diabetes, cancer, cleft palate, and hydrocephalus. The individual strains within the RI set also differ in their sus ..... For more information please see the full phenotype on the strain data sheet | ||
| 000753 | BRX58N1/TyJ | Repository-Cryopreserved |
| 000750 | BRX58N11/TyJ | Repository-Cryopreserved |
| 000282 | BRX58N12/Ty | Repository-Cryopreserved |
| 000749 | BRX58N13/TyJ | Repository-Cryopreserved |
| 000752 | BRX58N7/TyJ | Repository-Cryopreserved |
| 000698 | BRX58N8/TyJ | Repository-Cryopreserved |
| 000756 | BRX58N9/TyJ | Repository-Cryopreserved |
| 003929 | BXA4/Pgn-Tmiesr-J/J | Repository-Cryopreserved |
| 000081 | BXD25/TyJ | Repository-Cryopreserved |
| The BXD RI strains are used to study the genetics of behavioral phenotypes including alcohol and drug addiction, stress, and locomotor activity. The BXD set of RI strains also are used in the genetic analysis of numerous complex or potentially complex physiologic phenotypes including differences in organ weight and bone mineral density. The strain distribution pattern (SDP) for BXD RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 002632 | BXH2/Ty1BedJ | Repository-Cryopreserved |
| 000096 | BXJ2/TyJ | Repository-Cryopreserved |
| 001568 | CX8B/EiJ | Repository-Cryopreserved |
| 001569 | CX8D/EiJ | Repository-Cryopreserved |
| 001566 | CX8G/EiJ | Repository-Cryopreserved |
| 001570 | CX8I1/EiJ | Repository-Cryopreserved |
| 001571 | CX8I2/EiJ | Repository-Cryopreserved |
| 001550 | CX8M/EiJ | Repository-Cryopreserved |
| 001532 | CX8N/EiJ | Repository-Cryopreserved |
| 001577 | CXJ1/SlkJ | Repository-Cryopreserved |
| 001583 | CXJ15/SlkJ | Repository-Cryopreserved |
| 001578 | CXJ3/SlkJ | Repository-Cryopreserved |
| 001579 | CXJ4/SlkJ | Repository-Cryopreserved |
| 001580 | CXJ6/SlkJ | Repository-Cryopreserved |
| 001581 | CXJ8/SlkJ | Repository-Cryopreserved |
| 001582 | CXJ9/SlkJ | Repository-Cryopreserved |
| 002109 | LTXBJ/NaJ | Repository-Cryopreserved |
| 000402 | LTXBO/SvJ | Repository-Cryopreserved |
| 000754 | LXB3/TyJ | Repository-Cryopreserved |
| 000303 | LXPL2/TyJ | Repository-Cryopreserved |
| 000307 | LXPL6/TyJ | Repository-Cryopreserved |
| 001850 | MEV-Q/TyJ | Repository-Cryopreserved |
| In 1989 Taylor and Rowe described generating a linkage testing stock homozygous for 11 ecotropic MuLV proviruses on 10 distinct chromosomes. The strain was named MEV/1Ty for Multiple Ecotropic proVirus. These proviral insertions can be identified via Southern blot analysis of PvuII or HindIII digests using the MuLV-specific pEcB4 probe. The first progenitor strain C58/J contributed the following proviruses identified by the PvuII junction fragments indicated in parenthesis: Emv20 (8.2kb), Emv21 (6.6 kb), Emv23 (3.7 kb), Emv24 (3.5 kb), Emv25 (3.4 kb), Emv26 (2.9 kb), and Emv27 (9.4 kb). The second progenitor strain AKXD-14/Ty contributed Emv11 (4.3 kb), Emv13 (3.4 kb), and Emv14 (8.6 kb) from AKR/J and Emv3 (5.2 kb) from DBA/2J. Emv3 is the proviral insertion causing the dilute allele of Myo5a. This strain is also homozygous for nonagouti (a). Further analysis of MEV/1Ty progeny identified subsequent MuLV provirus re-insertions that were used to
..... For more information please see the full phenotype on the strain data sheet | ||
| 001193 | NX129-1/TyJ | Repository-Cryopreserved |
| The NX129 set of RI strains are used in the genetic analysis of complex physiologic phenotypes. The strain distribution pattern (SDP) for NX129 RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 000948 | NX129-10/TyJ | Repository-Cryopreserved |
| The NX129 set of RI strains are used in the genetic analysis of complex physiologic phenotypes. The strain distribution pattern (SDP) for NX129 RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 001539 | NX129-18/TyJ | Repository-Cryopreserved |
| The NX129 set of RI strains are used in the genetic analysis of complex physiologic phenotypes. The strain distribution pattern (SDP) for NX129 RI strains is available through the Mouse Genome Informatics Recombinant Inbred Strain Distribution Patterns Query Form. | ||
| 002345 | NXSMC/Ei-Dctslt-2J/J | Repository-Cryopreserved |
| 001651 | NXSMC/EiJ | Repository-Cryopreserved |
| 001652 | NXSMD/EiJ | Repository-Cryopreserved |
| 001653 | NXSME/EiJ | Repository-Cryopreserved |
| 001654 | NXSMF/EiJ | Repository-Cryopreserved |
| 001655 | NXSMI/EiJ | Repository-Cryopreserved |
| 001656 | NXSML/EiJ | Repository-Cryopreserved |
| 001657 | NXSMN/EiJ | Repository-Cryopreserved |
| 001659 | NXSMP/EiJ | Repository-Cryopreserved |
| 001660 | NXSMQ/EiJ | Repository-Cryopreserved |
| 001661 | NXSMT1/EiJ | Repository-Cryopreserved |
| 001662 | NXSMT2/EiJ | Repository-Cryopreserved |
| 001663 | NXSMU/EiJ | Repository-Cryopreserved |
| 001665 | NXSMW/EiJ | Repository-Cryopreserved |
| 001666 | NXSMX/EiJ | Repository-Cryopreserved |
| 001667 | NXSMZ/EiJ | Repository-Cryopreserved |
| 001080 | SWXJ10/BmJ | Repository-Cryopreserved |
| 001081 | SWXJ11/BmJ | Repository-Cryopreserved |
| 001082 | SWXJ12/BmJ | Repository-Cryopreserved |
| 001083 | SWXJ13/BmJ | Repository-Cryopreserved |
| 001084 | SWXJ14/BmJ | Repository-Cryopreserved |
| 001072 | SWXJ2/BmJ | Repository-Cryopreserved |
| 001073 | SWXJ3/BmJ | Repository-Cryopreserved |
| 001074 | SWXJ4/BmJ | Repository-Cryopreserved |
| 001075 | SWXJ5/BmJ | Repository-Cryopreserved |
| 001076 | SWXJ6/BmJ | Repository-Cryopreserved |
| 001077 | SWXJ7/BmJ | Repository-Cryopreserved |
| 001078 | SWXJ8/BmJ | Repository-Cryopreserved |
| 000332 | SWXL12/TyJ | Repository-Cryopreserved |
| 000334 | SWXL15/TyJ | Repository-Cryopreserved |
| 000335 | SWXL16/TyJ | Repository-Cryopreserved |
| 000336 | SWXL17/TyJ | Repository-Cryopreserved |
| 000074 | SWXL4/TyJ | Repository-Cryopreserved |
| SWXL4/Ty recombinant inbred mice exhibit tonic-clonic and generalized seizures similar to the commonest epilepsies in humans. Seizures are observed following routine handling beginning around 80 days of age and may be induced as early as 55 days by rhythmic gentle tossing. Seizures are accompanied by rapid, bilateral high frequency spike cortical discharges and followed by a quiescent post-ictal phase. F1 hybrids generated from SWXL4 and other common inbred strains results in mice that have seizure at least as frequently as SWXL4 itself suggesting that the susceptibility alleles are dominant. | ||
(211 stocks) Back to Top
IMPORTANT NOTE: Price information is on the strain data sheet which can be viewed by clicking on the strain name.
| Stock Number |
Strain Name Phenotype |
Standard Supply |
| 003423 | BXSB.129P2(B6)-B2mtm1Unc/Dcr | Research Strain |
| BXSB mice develop spontaneous autoimmune disease characterized by moderate lymph node and spleen enlargement, hemolytic anemia, hypergammaglobulinemia, and immune complex glomerulonephritis. The disease process in BXSB is strikingly accelerated in males, which live little more than a third as long as females. The acceleration is due to the presence of the Yaa gene on the Y chromosome. Characteristics of mice homozygous for the B2mtm1Unc targeted mutation include a lack of MHC class I protein expression on the cell surface. There are few CD8+ cytotoxic T-cells and under some circumstances a compensatory increase in CD4+ cytotoxic T-cells. Immune responses involving CD8+ T-cells are severely deficient providing a model to assess the role of CD8+ cells and class I MHC in various experimental systems. Hemachromatosis has been noted in certain genetic backgrounds (Rothenberg BE, Voland JR, Proc Natl Acad Sci USA 93:
..... For more information please see the full phenotype on the strain data sheet | ||
| 001925 | BXSB.B6-Yaa+/MobJ | Research Strain |
| This BXSB strain carries the wild-type allele of the Yaa gene from C57BL/6 and serves as a control strain for BXSB/MpJ Yaa (Stock No. 000740). BXSB/MpJ Yaa mice develop spontaneous autoimmune disease characterized by moderate lymph node and spleen enlargement, hemolytic anemia, hypergammaglobulinemia, and immune complex glomerulonephritis. | ||
| 001079 | SWXJ9/BmJ | Research Strain |
| SWXJ-9 female mice develop ovarian granulosa cell carcinomas with an incidence of approximately 12% and a latency of 4-6 weeks. Tumor incidence can be increased to approximately 40% by treatment with dehydroepiandrosterone (DHEA) or testosterone immediately after weaning. Treatment with estradiol during this period completely suppresses tumorigenesis. Neoplasias are first observed as hemorrhagic follicles in which the antrum is blood-filled and lined with irregular masses of proliferating granulosa cells. By 6-10 weeks of age, the primary tumor encompasses the entire ovary. Metastases to lung, renal node, and liver are common by 6 to 9 months of age, with other sites occasionally affected. Susceptibility to granulosa cell carcinomas is controlled by a small number of genes, including a major susceptibility locus on Chromosome 4 and a major modifier locus on the X chromosome. | ||
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Please indicate your interest in purchasing any of the strains listed below when they become available for distribution by checking the box next to the strain(s) of interest and then selecting the "Continue" button which leads to an Interest Form.View a Data sheet for New Strains Under Development
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New Strains Under DevelopmentThe Jackson Laboratory serves as a worldwide distributor and national repository for common and rare strains of inbred mice and mice carrying spontaneous mutations or induced mutations (i.e., transgenic, targeted/"knockout", or chemically induced mutations). At any one time, we have over 100 strains at various stages of development and colony expansion. Strains "Under Development" fall into two categories depending on the anticipated demand from the scientific community.
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