NOD与129.H2(g7)回交品系确定了源自129S1/SvImJ的基因组区域，该区域可调节小鼠1型糖尿病的发展。

NOD x 129.H2(g7) backcross delineates 129S1/SvImJ-derived genomic regions modulating type 1 diabetes development in mice.

作者信息

Leiter Edward H, Reifsnyder Peter C, Wallace Racheal, Li Renhua, King Benjamin, Churchill Gary C

机构信息

The Jackson Laboratory, Bar Harbor, ME, USA.

出版信息

Diabetes. 2009 Jul;58(7):1700-3. doi: 10.2337/db09-0120. Epub 2009 Mar 31.

DOI:10.2337/db09-0120

PMID:19336673

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2699846/

Abstract

OBJECTIVE

Introduction of genes targeted in 129/Sv embryonic stem (ES) cells into NOD mice brings about linked genes that may modulate type 1 diabetes. Our objective was to identify 129S1/SvJ non-MHC regions contributing type 1 diabetes resistance or susceptibility in backcross to NOD/LtJ.

RESEARCH DESIGN AND METHODS

After congenic transfer of the NOD H2(g7) haplotype onto 129S1/Sv, 310 females were produced by NOD x (NOD x 129.H2(g7))F1 backcross (N2). A genome scan for quantitative trait locus (QTL) affecting clinical diabetes, age of diabetes onset, and insulitis severity was performed using subphenotype characteristics to improve power and resolution for detection of diabetes susceptibility loci.

RESULTS

Thirty-six of 310 (11.6%) N2 females developed type 1 diabetes between 14 and 40 weeks. Significant evidence of linkage for only a single previously reported Idd complex locus (Idd10/17/18, chromosome [Chr] 3) was indicated for clinical diabetes. The quantitative traits of insulitis either alone or combined with age at type 1 diabetes onset were significantly linked to known Idd regions on Chr 1 (Idd5 region), Chr 4 (Idd9 region), Chr 8 (Idd22), Chr 11 (Idd4.3), and proximal Chr 17 (Idd16 region). Significant 129S1/Sv resistance contributions were identified on Chr 1, 15 (two loci), and 19, with suggestive evidence for additional novel 129/Sv resistance QTL on Chr 5 and 17 and susceptibility on Chr 2.

CONCLUSIONS

The 129S1/SvJ genome harbors collections of both known and potentially novel non-MHC Idd loci. Investigators targeting 129/Sv genes mapping within chromosomal regions reported herein or elsewhere in the genome need to exclude potential contributions from linked Idd loci by generating a NOD.129 control strain expressing the nontargeted allele.

摘要

目的

将靶向129/Sv胚胎干细胞（ES细胞）的基因导入NOD小鼠体内，可带来可能调节1型糖尿病的连锁基因。我们的目标是鉴定在与NOD/LtJ回交过程中对1型糖尿病具有抗性或易感性的129S1/Sv非MHC区域。

研究设计与方法

将NOD H2(g7)单倍型基因导入129S1/Sv后，通过NOD×(NOD×129.H2(g7))F1回交（N2）产生了310只雌性小鼠。利用亚表型特征进行全基因组扫描，以寻找影响临床糖尿病、糖尿病发病年龄和胰岛炎严重程度的数量性状基因座（QTL），从而提高检测糖尿病易感基因座的效能和分辨率。

结果

310只N2雌性小鼠中有36只（11.6%）在14至40周龄时发生了1型糖尿病。对于临床糖尿病，仅发现一个先前报道的Idd复合基因座（Idd10/17/18，位于3号染色体[Chr]）存在显著的连锁证据。胰岛炎的数量性状单独或与1型糖尿病发病年龄相结合时，均与1号染色体（Idd5区域）、4号染色体（Idd9区域）、8号染色体（Idd22）、11号染色体（Idd4.）和17号染色体近端（Idd16区域）上已知的Idd区域显著连锁。在1号、15号染色体（两个基因座）和19号染色体上鉴定出了显著的129S1/Sv抗性贡献，在5号和17号染色体上有额外的新型129/Sv抗性QTL的提示性证据，在2号染色体上有易感证据。

结论

129S1/SvJ基因组包含已知和潜在的新型非MHC Idd基因座。针对本文报道的染色体区域或基因组其他位置的129/Sv基因进行研究的人员，需要通过构建表达非靶向等位基因的NOD.129对照品系，排除连锁Idd基因座的潜在贡献。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/be99/2699846/6b5e39d91c4e/zdb0070957590001.jpg

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NOD与129.H2(g7)回交品系确定了源自129S1/SvImJ的基因组区域，该区域可调节小鼠1型糖尿病的发展。

NOD x 129.H2(g7) backcross delineates 129S1/SvImJ-derived genomic regions modulating type 1 diabetes development in mice.

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出版信息

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RESEARCH DESIGN AND METHODS

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