early conceptus |
embryo ectoderm |
embryo endoderm |
embryo mesoderm |
embryo mesenchyme |
extraembryonic component |
alimentary system |
auditory system |
branchial arches |
cardiovascular system |
connective tissue |
endocrine system |
exocrine system |
hemolymphoid system |
integumental system |
limbs |
liver and biliary system |
musculoskeletal system |
nervous system |
olfactory system |
reproductive system |
respiratory system |
urinary system |
visual system |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Transcription Start Site | Location | Distance from Gene 5'-end |
Tssr159955 | Chr19:58444379-58444394 (-) | -46 bp |
Tssr159954 | Chr19:58444335-58444346 (-) | 0 bp |
Tssr159953 | Chr19:58444250-58444304 (-) | 64 bp |
Tssr159952 | Chr19:58444216-58444227 (-) | 119 bp |
Tssr159951 | Chr19:58444040-58444054 (-) | 294 bp |
Tssr159950 | Chr19:58444027-58444036 (-) | 309 bp |
Tssr159949 | Chr19:58443913-58443927 (-) | 421 bp |
Tssr159948 | Chr19:58443898-58443908 (-) | 438 bp |
Tssr159947 | Chr19:58443847-58443890 (-) | 472 bp |
Tssr159946 | Chr19:58443691-58443756 (-) | 617 bp |
Tssr159945 | Chr19:58443012-58443073 (-) | 1,298 bp |
Tssr159944 | Chr19:58442957-58442984 (-) | 1,370 bp |
Tssr159943 | Chr19:58442922-58442944 (-) | 1,408 bp |
Tssr159942 | Chr19:58442867-58442905 (-) | 1,455 bp |
Tssr159941 | Chr19:58442761-58442805 (-) | 1,558 bp |
Tssr159940 | Chr19:58442747-58442753 (-) | 1,591 bp |
Tssr159939 | Chr19:58432014-58432020 (-) | 12,324 bp |
Tssr159938 | Chr19:58400596-58400599 (-) | 43,743 bp |
Tssr159937 | Chr19:58358830-58358833 (-) | 85,509 bp |
QTL | Genetic Location* | Genome Location (GRCm39) | Reference | QTL Note |
Afw8 | Chr19, syntenic | J:99477 | Authors used novel data mining tool ExQuest to identify novel candidate genes for existing diabesity QTLs. Next, candidate gene expression in the liver, adipose, and pancreas of diabesity-prone Tally Ho mice and diabesity-resistant C57BL/6J mice was assessed by quantitative PCR analysis. Several potential candidate genes, some with no previous association to diabesity QTLs, were identified. Since QTL intervals may be large and could contain hundreds or thousands of potential candidate genes, this method allows researchers to focus on those with strong potential as well as identify novel candidate genes. Potential candidate genes for Iba4 (20 cM) on mouse Chromosome 19 as identified by ExQuest are Aldh1a1 (12 cM), Aldh1a7, Vldlr (20 cM), and Plce1. Vldlr exhibits 15.6-fold increased expression in the liver of Tally Ho compared to C57BL/6 animals. For QTL Afw8 (26 cM), potential candidate genes Pi4k2a, Cpn1, and Elovl3 (47 cM) were identified. For QTLs Nobq2 (47 cM) and Bglq13 (51 cM), potential candidate genes Ins1 (49 cM), Gpam (52 cM), and Acsl5 were identified. For QTLs Tanidd1 (50 cM) and T2dm2 (53 cM), potential candidate genes Gfra1, Pnlip (29 cM), Pnliprp1 (29 cM), and Pnliprp2 were identified. Pnliprp2 exhibits 21.8-fold decreased expression in the pancreas of Tally Ho animals in response to a 4% fat diet. | |
Bglq13 | Chr19, syntenic | J:99477 | Authors used novel data mining tool ExQuest to identify novel candidate genes for existing diabesity QTLs. Next, candidate gene expression in the liver, adipose, and pancreas of diabesity-prone Tally Ho mice and diabesity-resistant C57BL/6J mice was assessed by quantitative PCR analysis. Several potential candidate genes, some with no previous association to diabesity QTLs, were identified. Since QTL intervals may be large and could contain hundreds or thousands of potential candidate genes, this method allows researchers to focus on those with strong potential as well as identify novel candidate genes. Potential candidate genes for Iba4 (20 cM) on mouse Chromosome 19 as identified by ExQuest are Aldh1a1 (12 cM), Aldh1a7, Vldlr (20 cM), and Plce1. Vldlr exhibits 15.6-fold increased expression in the liver of Tally Ho compared to C57BL/6 animals. For QTL Afw8 (26 cM), potential candidate genes Pi4k2a, Cpn1, and Elovl3 (47 cM) were identified. For QTLs Nobq2 (47 cM) and Bglq13 (51 cM), potential candidate genes Ins1 (49 cM), Gpam (52 cM), and Acsl5 were identified. For QTLs Tanidd1 (50 cM) and T2dm2 (53 cM), potential candidate genes Gfra1, Pnlip (29 cM), Pnliprp1 (29 cM), and Pnliprp2 were identified. Pnliprp2 exhibits 21.8-fold decreased expression in the pancreas of Tally Ho animals in response to a 4% fat diet. | |
Iba4 | Chr19, 20.99 cM | Chr19:26305715-26305821 | J:99477 | Authors used novel data mining tool ExQuest to identify novel candidate genes for existing diabesity QTLs. Next, candidate gene expression in the liver, adipose, and pancreas of diabesity-prone Tally Ho mice and diabesity-resistant C57BL/6J mice was assessed by quantitative PCR analysis. Several potential candidate genes, some with no previous association to diabesity QTLs, were identified. Since QTL intervals may be large and could contain hundreds or thousands of potential candidate genes, this method allows researchers to focus on those with strong potential as well as identify novel candidate genes. Potential candidate genes for Iba4 (20 cM) on mouse Chromosome 19 as identified by ExQuest are Aldh1a1 (12 cM), Aldh1a7, Vldlr (20 cM), and Plce1. Vldlr exhibits 15.6-fold increased expression in the liver of Tally Ho compared to C57BL/6 animals. For QTL Afw8 (26 cM), potential candidate genes Pi4k2a, Cpn1, and Elovl3 (47 cM) were identified. For QTLs Nobq2 (47 cM) and Bglq13 (51 cM), potential candidate genes Ins1 (49 cM), Gpam (52 cM), and Acsl5 were identified. For QTLs Tanidd1 (50 cM) and T2dm2 (53 cM), potential candidate genes Gfra1, Pnlip (29 cM), Pnliprp1 (29 cM), and Pnliprp2 were identified. Pnliprp2 exhibits 21.8-fold decreased expression in the pancreas of Tally Ho animals in response to a 4% fat diet. |
Nobq2 | Chr19, 40.53 cM | Chr19:47897880-47897988 | J:99477 | Authors used novel data mining tool ExQuest to identify novel candidate genes for existing diabesity QTLs. Next, candidate gene expression in the liver, adipose, and pancreas of diabesity-prone Tally Ho mice and diabesity-resistant C57BL/6J mice was assessed by quantitative PCR analysis. Several potential candidate genes, some with no previous association to diabesity QTLs, were identified. Since QTL intervals may be large and could contain hundreds or thousands of potential candidate genes, this method allows researchers to focus on those with strong potential as well as identify novel candidate genes. Potential candidate genes for Iba4 (20 cM) on mouse Chromosome 19 as identified by ExQuest are Aldh1a1 (12 cM), Aldh1a7, Vldlr (20 cM), and Plce1. Vldlr exhibits 15.6-fold increased expression in the liver of Tally Ho compared to C57BL/6 animals. For QTL Afw8 (26 cM), potential candidate genes Pi4k2a, Cpn1, and Elovl3 (47 cM) were identified. For QTLs Nobq2 (47 cM) and Bglq13 (51 cM), potential candidate genes Ins1 (49 cM), Gpam (52 cM), and Acsl5 were identified. For QTLs Tanidd1 (50 cM) and T2dm2 (53 cM), potential candidate genes Gfra1, Pnlip (29 cM), Pnliprp1 (29 cM), and Pnliprp2 were identified. Pnliprp2 exhibits 21.8-fold decreased expression in the pancreas of Tally Ho animals in response to a 4% fat diet. |
T2dm2 | Chr19, 50.72 cM | Chr19:55376050-55376167 | J:99477 | Authors used novel data mining tool ExQuest to identify novel candidate genes for existing diabesity QTLs. Next, candidate gene expression in the liver, adipose, and pancreas of diabesity-prone Tally Ho mice and diabesity-resistant C57BL/6J mice was assessed by quantitative PCR analysis. Several potential candidate genes, some with no previous association to diabesity QTLs, were identified. Since QTL intervals may be large and could contain hundreds or thousands of potential candidate genes, this method allows researchers to focus on those with strong potential as well as identify novel candidate genes. Potential candidate genes for Iba4 (20 cM) on mouse Chromosome 19 as identified by ExQuest are Aldh1a1 (12 cM), Aldh1a7, Vldlr (20 cM), and Plce1. Vldlr exhibits 15.6-fold increased expression in the liver of Tally Ho compared to C57BL/6 animals. For QTL Afw8 (26 cM), potential candidate genes Pi4k2a, Cpn1, and Elovl3 (47 cM) were identified. For QTLs Nobq2 (47 cM) and Bglq13 (51 cM), potential candidate genes Ins1 (49 cM), Gpam (52 cM), and Acsl5 were identified. For QTLs Tanidd1 (50 cM) and T2dm2 (53 cM), potential candidate genes Gfra1, Pnlip (29 cM), Pnliprp1 (29 cM), and Pnliprp2 were identified. Pnliprp2 exhibits 21.8-fold decreased expression in the pancreas of Tally Ho animals in response to a 4% fat diet. |
Tanidd1 | Chr19, 48.46 cM | Chr19:53752597-53752718 | J:99477 | Authors used novel data mining tool ExQuest to identify novel candidate genes for existing diabesity QTLs. Next, candidate gene expression in the liver, adipose, and pancreas of diabesity-prone Tally Ho mice and diabesity-resistant C57BL/6J mice was assessed by quantitative PCR analysis. Several potential candidate genes, some with no previous association to diabesity QTLs, were identified. Since QTL intervals may be large and could contain hundreds or thousands of potential candidate genes, this method allows researchers to focus on those with strong potential as well as identify novel candidate genes. Potential candidate genes for Iba4 (20 cM) on mouse Chromosome 19 as identified by ExQuest are Aldh1a1 (12 cM), Aldh1a7, Vldlr (20 cM), and Plce1. Vldlr exhibits 15.6-fold increased expression in the liver of Tally Ho compared to C57BL/6 animals. For QTL Afw8 (26 cM), potential candidate genes Pi4k2a, Cpn1, and Elovl3 (47 cM) were identified. For QTLs Nobq2 (47 cM) and Bglq13 (51 cM), potential candidate genes Ins1 (49 cM), Gpam (52 cM), and Acsl5 were identified. For QTLs Tanidd1 (50 cM) and T2dm2 (53 cM), potential candidate genes Gfra1, Pnlip (29 cM), Pnliprp1 (29 cM), and Pnliprp2 were identified. Pnliprp2 exhibits 21.8-fold decreased expression in the pancreas of Tally Ho animals in response to a 4% fat diet. |
Mouse Genome Database (MGD), Gene Expression Database (GXD), Mouse Models of Human Cancer database (MMHCdb) (formerly Mouse Tumor Biology (MTB)), Gene Ontology (GO) |
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last database update 11/19/2024 MGI 6.24 |
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