The IMPC applies a panel of phenotyping screens to characterise single-gene knockout mice by comparison to wild types. Click on the different tabs to visualise significant phenotypes identified by the IMPC, as well as all data that was measured.
Images submitted by IMPC centres for a selection of procedures. Each set of images is available to view in our image comparator.
The analysis uses data from IMPC, along with published data on other mouse mutants, in comparison to human disease reports in OMIM, Orphanet, and DECIPHER.
Phenotype comparisons summarize the similarity of mouse phenotypes with human disease phenotypes.
The table below shows human diseases associated to Sdhaf2 by orthology or direct annotation.
The table below lists publications which used either products generated by the IMPC or data produced by the phenotyping efforts of the IMPC. These publications have also been associated to Sdhaf2.
There are 1 publication which use IMPC produced mice or data.
|Title||Journal||IMPC Allele||PubMed ID|
|Nuclear-encoded mitochondrial ribosomal proteins are required to initiate gastrulation.||Development (Cambridge, England) (May 2020)||Sdhaf2em1(IMPC)J||32376682|
All available products are supplied via our member's centres or partnerships. When ordering a product from the IMPC you will be redirected to one of their websites or prompted to start an email.
|MGI Allele||Allele Type||Produced|
|Sdhaf2tm2a(EUCOMM)Wtsi||KO first allele (reporter-tagged insertion with conditional potential)||Targeting vectors, ES Cells|
|Sdhaf2tm1e(EUCOMM)Wtsi||Targeted, non-conditional allele||ES Cells|
|Sdhaf2tm1a(EUCOMM)Wtsi||KO first allele (reporter-tagged insertion with conditional potential)||Targeting vectors, ES Cells|
|Sdhaf2tm2e(EUCOMM)Wtsi||Targeted, non-conditional allele||ES Cells|