Search Criteria: Strain Type is "Consomic"
Strains from the Research Colonies of Jackson Laboratory Scientists
New Strains Under Development
| Stock Number |
Strain Name Phenotype |
Standard Supply |
| 006359 | C3H/HeJ-Chr 3C57BL/6J/J | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and C3H/HeJ inbred strains were selected for this consomic because they differ in their susceptibility to infectious disease, specifically Chlamydia trachomatis. Consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 007600 | C57BL/6J-Chr 10.1PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 006599 | C57BL/6J-Chr 10.3PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004388 | C57BL/6J-Chr 10A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005997 | C57BL/6J-Chr 11.1PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 005998 | C57BL/6J-Chr 11.2PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 006372 | C57BL/6J-Chr 11.3PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004389 | C57BL/6J-Chr 11A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 006358 | C57BL/6J-Chr 11C3H/HeJ/J | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and C3H/HeJ inbred strains were selected for this consomic because they differ in their susceptibility to infectious disease, specifically Chlamydia trachomatis. Consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 004390 | C57BL/6J-Chr 12A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005263 | C57BL/6J-Chr 12PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004391 | C57BL/6J-Chr 13A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 004392 | C57BL/6J-Chr 14A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005264 | C57BL/6J-Chr 14PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004393 | C57BL/6J-Chr 15A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005265 | C57BL/6J-Chr 15PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004394 | C57BL/6J-Chr 16A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005266 | C57BL/6J-Chr 16PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004395 | C57BL/6J-Chr 17A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005267 | C57BL/6J-Chr 17PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004396 | C57BL/6J-Chr 18A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005268 | C57BL/6J-Chr 18PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004397 | C57BL/6J-Chr 19A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005269 | C57BL/6J-Chr 19PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004379 | C57BL/6J-Chr 1A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005259 | C57BL/6J-Chr 1PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004380 | C57BL/6J-Chr 2A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 006357 | C57BL/6J-Chr 2C3H/HeJ/J | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and C3H/HeJ inbred strains were selected for this consomic because they differ in their susceptibility to infectious disease, specifically Chlamydia trachomatis. Consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005995 | C57BL/6J-Chr 2PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004381 | C57BL/6J-Chr 3A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005518 | C57BL/6J-Chr 3PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004382 | C57BL/6J-Chr 4A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 004383 | C57BL/6J-Chr 5A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005260 | C57BL/6J-Chr 5PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004384 | C57BL/6J-Chr 6A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005261 | C57BL/6J-Chr 6PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004385 | C57BL/6J-Chr 7A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 004386 | C57BL/6J-Chr 8A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 006597 | C57BL/6J-Chr 8PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004387 | C57BL/6J-Chr 9A/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005262 | C57BL/6J-Chr 9PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 005762 | C57BL/6J-Chr X.1PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 006598 | C57BL/6J-Chr X.2PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 006227 | C57BL/6J-Chr X.3PWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 004398 | C57BL/6J-Chr XA/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 004399 | C57BL/6J-Chr YA/J/NaJ | Repository- Live |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains in this set were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 005270 | C57BL/6J-Chr YPWD/Ph/ForeJ | Repository- Live |
| This strain represents one of a panel of inter-species chromosome substitution (or consomic) strains (IC-ISS). Each strain carries a chromosome from the Mus musculus musculus wild-derived strain PWD/Ph introgressed into a Mus musculus domesticus C57BL/6J background. The two species are believed to have diverged 350,000 to one million years ago and exhibit multiple genetic and phenotypic differences. The strain set also includes a conplastic strain (mtPWD/Ph) created by sequential backcrossing of the donor female to the host male. A conplastic strain carries the mitochondrial genome of the donor strain. The IC-ISS strains represent a tool for dissection of quantitative trait loci. | ||
| 008063 | NOD-Chr 17NZM2328/McdfJ | Repository- Live |
| This NOD consomic strain, commonly referred to as NOD.Zc17 carries Chromosome 17 alleles, D17Mit164 (38Mb) through D17Mit73 (79Mb) derived from NZM2328. Diabetes incidence in this diabetes/lupus resistant strain is reported to be 0 in both females and males compared to 70% in female and 40% in male NOD/Bdc control mice. This strain will be useful to identify candidate genes associated with diabetes resistance and to identify genes with common roots in multiple autoimmune diseases. | ||
| 008062 | NOD-Chr 1NZM2328/McdfJ | Repository- Live |
| This NOD consomic strain, commonly referred to as NOD.Zc1, carries Chromosome 1 alleles, D1Mit316 (10Mb) through D1Mit293 (194Mb) derived from NZM2328 that includes the Idd5 region. NOD.Zc1 is viable, fertile, normal in size, and do not display any gross physical or behavioral abnormalities. Diabetes incidence in this diabetes/lupus resistant strain is reported to be 10% in the females and 0% in males compared to 70% in female and 40% in male NOD/Bdc control mice. This strain will be useful to identify candidate genes associated with diabetes resistance and to identify genes with common roots in multiple autoimmune diseases. | ||
| 008064 | NOD-Chr 4NZM2328/McdfJ | Repository- Live |
| This NOD consomic strain, commonly referred to as NOD.Zc4 carries Chromosome 4 alleles, D4Mit18 (13Mb) through D4Mit59 (154Mb) derived from NZM2328. Diabetes incidence in this diabetes/lupus resistant strain is reported to be 7% in females and 0 for males compared to 70% in female and 40% in male NOD/Bdc control mice. This strain is useful for identifying candidate genes associated with diabetes resistance and to identify genes with common roots in multiple autoimmune diseases. | ||
| 005548 | 129S1/SvImJ-Chr YC57BL/6J/NaJ | Repository-Cryopreserved |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 006356 | 129XB1 Chr YPOSA/JbwEi | Repository-Cryopreserved |
| 005546 | A/J-Chr YC57BL/6J/NaJ | Repository-Cryopreserved |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. The C57BL/6J and A/J strains were chosen because they differ in their susceptibility to diseases such as arthritis, asthma, atherosclerosis, cancer, several infectious diseases, inflammatory responses, and physiological, behavioral and sensory phenotypes. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 002016 | B6(Cg)-Aw-J EdaTa-6J Chr YB6-Sxr/EiJ | Repository-Cryopreserved |
| 006305 | B6Ei.Cg-Nr0b1tm1.1Lja Tg(Sry)2Ei Chr Y |
Repository-Cryopreserved |
| 002021 | B6Ei.LT-Y*/EiJ | Repository-Cryopreserved |
| 001452 | BALB/cByJ-Chr YC57BL/6By/J | Repository-Cryopreserved |
| This consomic has the Y chromosome from C57BL/6J on the BALB/cBy background | ||
| 000787 | BALB/cByJ-Chr YMET/J | Repository-Cryopreserved |
| This strain carries a metacentric Y chromosome that can be identified by looking at G-banded metaphase chromosomes. | ||
| 002110 | C3.SW/Lt-Chr YC3HeB/FeChp/J | Repository-Cryopreserved |
| C3.SW-H2b/SnJ (Stock number 000438) males exhibit maturity onset impairment of glucose tolerance and hyperinsulinemia. Transfer of the Y chromosome from the C3HeB/FeChp background into the C3.SW-H2b/SnJ background leads to a reduction in hyperinsulinemic and hyperglycemic stress on the pancreatic islets. This strain and Stock number 002111 demonstrate that the Y chromosome modulates the level of hyperinsulinemic and glycemic stress exerted upon pancreatic beta cells. | ||
| 002111 | C3.SW/Lt-Chr YSW/J | Repository-Cryopreserved |
| C3.SW-H2b/SnJ (Stock number 000438) males exhibit maturity onset impairment of glucose tolerance and hyperinsulinemia. In contrast to Stock number 002110, this strain carries the C3.SW-H2b/SnJ Y chromosome. Males develop extreme hyperinsulinemia, transiently elevated plasma glucose and extreme islet hyperplasia. This strain and Stock number 002110 demonstrate that the Y chromosome modulates the level of hyperinsulinemic and glycemic stress exerted upon pancreatic beta cells. | ||
| 007265 | C57BL/6-Tg(Sry-EGFP)92Ei Chr YAKR/J/EiJ | Repository-Cryopreserved |
| 007264 | C57BL/6-Tg(Sry-EGFP)92Ei Tg(Sry)4Ei Chr YPOS/EiJ | Repository-Cryopreserved |
| 005547 | C57BL/6J-Chr Y129S1/SvImJ/NaJ | Repository-Cryopreserved |
| A chromosome substitution or consomic strain is an inbred strain with one of its chromosomes replaced by the homologous chromosome of another inbred strain. Chromosome substitution strain nomenclature is designated as Host Strain - Chromosome #<Donor Strain>/Laboratory code. For example, C57BL/6J-Chr1A/NaJ carries chromosome 1 for strain A/J (A) on a C57BL/6J background, was constructed in the laboratory of Joseph Nadeau (Na) and is maintained at The Jackson Laboratory (J). Chromosome substitution strains or consomic strains can accelerate quantitative trait loci identification and mapping. | ||
| 000908 | C57BL/6J-Chr YMET/J | Repository-Cryopreserved |
| This strain carries a metacentric Y chromosome that can be identified by looking at G-banded metaphase chromosomes. | ||
| 002603 | C57BL/6JEi-Chr Y129P3/J/EiJ | Repository-Cryopreserved |
| 002602 | C57BL/6JEi-Chr YA/HeJ/EiJ | Repository-Cryopreserved |
| 007030 | C57BL/6JEi-Chr YA/J/EiJ | Repository-Cryopreserved |
| 002705 | C57BL/6JEi-Chr YACH/EiJ | Repository-Cryopreserved |
| 007250 | C57BL/6JEi-Chr YAKR/J/Ei | Repository-Cryopreserved |
| This consomic is valuable in the study of sex determination. The TOrl /+ XYAKR/J offspring, from the cross of B6.Cg-TOrl /+ females with C57BL/6JEi-Chr YAKR/J/EiJ males, are sex reversed, with ovarian tissue development. | ||
| 002890 | C57BL/6JEi-Chr YAPP/EiJ | Repository-Cryopreserved |
| 002889 | C57BL/6JEi-Chr YBUB/BnJ/EiJ | Repository-Cryopreserved |
| 001543 | C57BL/6JEi-Chr YCB/EiJ | Repository-Cryopreserved |
| This YCB Chromosome on the C57BL/6J background results in Y-linked sex reversal wherein XYCB are frequently hermaphrodites. These hermaphrodites often do breed. | ||
| 001614 | C57BL/6JEi-Chr YCZECHII/Ei/EiJ | Repository-Cryopreserved |
| 002891 | C57BL/6JEi-Chr YKAM/EiJ | Repository-Cryopreserved |
| 007876 | C57BL/6JEi-Chr YLEWES/EiJ | Repository-Cryopreserved |
| 001541 | C57BL/6JEi-Chr YLIP/EiJ | Repository-Cryopreserved |
| 001590 | C57BL/6JEi-Chr YLUB/EiJ | Repository-Cryopreserved |
| 002605 | C57BL/6JEi-Chr YMA/MyJ/EiJ | Repository-Cryopreserved |
| This consomic is valuable in the study of sex determination. The TOrl /+ XYMA/MyJ offspring, from the cross of B6.Cg-TOrl /+ females with C57BL/6JEi-Chr YMA/MyJ/EiJ males, are sex reversed, with ovarian tissue development. | ||
| 002604 | C57BL/6JEi-Chr YRF/J/EiJ | Repository-Cryopreserved |
| This consomic is valuable in the study of sex determination. The TOrl /+ XYRF offspring, from the cross of B6.Cg-TOrl /+ females with C57BL/6JEi-Chr YRF/J males, are sex reversed, having ovarian tissue development. | ||
| 002608 | C57BL/6JEi-Chr YSJL/J/EiJ | Repository-Cryopreserved |
| 002606 | C57BL/6JEi-Chr YST/bJ/EiJ | Repository-Cryopreserved |
| 002607 | C57BL/6JEi-Chr YSWR/J/EiJ | Repository-Cryopreserved |
| 001542 | C57BL/6JEi-Chr YVIB/EiJ | Repository-Cryopreserved |
| 001574 | C57BL/6JEi-Chr YWSB/Ei/EiJ | Repository-Cryopreserved |
| This consomic is valuable in the study of sex determination. The TOrl /+ XYWSB offspring, from the cross of B6.Cg-TOrl /+ females with C57BL/6JEi-Chr YWSB/EiJ males, are sex reversed, with ovarian tissue development. | ||
| 002063 | C57BL/6JEi-Tg(Sry)1Ei Chr YAKR/J/EiJ | Repository-Cryopreserved |
| In this strain, XX mice that carry the Tg(Sry)1Ei transgene are sex-reversed males. XYAKR/J mice heterozygous for TOrl on a C57BL/6J background develop as sex reversed females, but in the presence of the Tg(Sry)1Ei transgene these XY mice develop as normal males with testes. | ||
| 002708 | C57BL/6JEi-Tg(Sry)2Ei Chr YAKR/J/EiJ | Repository-Cryopreserved |
| In this strain, XX mice that carry the Tg(Sry)2Ei transgene are sex-reversed males. | ||
| 002837 | C57BL/6JEi-Tg(Sry)3Ei Chr YAKR/J/EiJ | Repository-Cryopreserved |
| In this strain, XX mice that carry the Tg(Sry)3Ei transgene are sex-reversed males. | ||
| 002183 | C57BL/6JEi-Tg(Sry)4Ei Chr YPOS/EiJ | Repository-Cryopreserved |
| 006818 | DBA/2J-Chr YAKR/J/EiJ | Repository-Cryopreserved |
| 002961 | FVB/N-Tg(KRT10BMP6)VI632Mbl Chr YFVB/N/J | Repository-Cryopreserved |
| Male mice carrying the VI632 transgene incorporated on the Y chromosome appear normal at birth, but begin to show skin abnormalities at about 6 days of age. Inflammatory lesions develop by 2-3 weeks of age. The skin condition progressively worsens and is characterized by hair loss, flaky skin, and nail abnormalities. | ||
| 004184 | STOCK Tg(Wap-HRAS)69Lln Chr YSJL-Edaraddcr-3J/J | Repository-Cryopreserved |
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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 |
| 002410 | FVB.Cg-Tg(Wap-HRAS)69Lln Chr YSJL/J | Research Strain |
| The transgene integrated into the Y chromosome. These transgenics serve as models for male mammary cancer and ras-mediated solid tumors. The transgene also can be used as a Y-chromosome marker. On the B6,SJL background males develop multiple mammary tumors and salivary gland tumors by one year of age. The salivary tumors are adenocarcinomas arising from serous areas of the submandibular gland. The mammary gland tumors are adenosquamous carcinomas. Microscopic lung metastases were present in 14% of tumor bearing animals. On the FVB background males develop multiple mammary tumors at 6-8 weeks. The tumors are adenosquamous carcinomas with multiple foci of squamous differentiation or adenocarcinomas containing glandular tissue. There is no metastasis observed. | ||
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How to Register Interest
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
Select the strain name to link to the strain data sheet.
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.
- Receive periodic updates on the status of the colony UNDER DEVELOPMENT
- Obtain advance notification of strain availability and opportunity to order prior to the strain being published as available
- Provide input affecting speed and quantity of availability
It is VERY IMPORTANT that you register interest in strains Under Development. The anticipated demand for a strain enables us to determine effectively the distribution plan for each strain Under Development. Registering interest also provides benefits to you (including advance notification of pending availability). Whether a strain is made available from a live colony OR from our cryopreservation repository, you may want to consider the option of Dedicated Supply. To learn more about Dedicated Supply, go to Services.
- Strains that will be made available from a live distribution colony at The Jackson Laboratory.
These strains are designated as: "Under Development for Distribution Colony"- Strains that will be made available through the Cryopreservation Repository.
These strains are designated as: "Under Development for Cryopreservation Repository"
Send questions to our Technical Support team using the Express Technical Support Form.
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