About   Help   FAQ
Phenotypes associated with this allele
Allele Symbol
Allele Name
Allele ID
Del(8Col4a1-Col4a2)1Epo
deletion, Chr 8, Ernst Poschl 1
MGI:3041149
Summary 1 genotype
Jump to Allelic Composition Genetic Background Genotype ID
hm1
Del(8Col4a1-Col4a2)1Epo/Del(8Col4a1-Col4a2)1Epo involves: 129S1/Sv * 129X1/SvJ * C57BL/6 MGI:3041784


Genotype
MGI:3041784
hm1
Allelic
Composition
Del(8Col4a1-Col4a2)1Epo/Del(8Col4a1-Col4a2)1Epo
Genetic
Background
involves: 129S1/Sv * 129X1/SvJ * C57BL/6
Find Mice Using the International Mouse Strain Resource (IMSR)
No mouse lines available in IMSR.
See publication links below for author information.
phenotype observed in females
phenotype observed in males
N normal phenotype
mortality/aging
• homozygotes are present at the expected Mendelian ratios up to E9.5, but die between E10.5 and E11.5
• occasional homozygotes are detected at E11.5 but they never survive beyond E12

growth/size/body
• many of the mutant embryos display a variable degree of growth retardation at E9.5-E11
• in most cases, reduced embryo size is not linked to a significant reduction in somite number
• occasional mutant embryos are severely developmentally retarded and corresponded to stages 12-36 hrs earlier relative to wild-type embryos
• however, overall early embryonic development and organogenesis appear to occur normally

embryo
• many of the mutant embryos display a variable degree of growth retardation at E9.5-E11
• in most cases, reduced embryo size is not linked to a significant reduction in somite number
• occasional mutant embryos are severely developmentally retarded and corresponded to stages 12-36 hrs earlier relative to wild-type embryos
• however, overall early embryonic development and organogenesis appear to occur normally
• at E10.5, discontinuities or ruptures of basement membranes are observed in mutant extraembryonic tissues
• at E11.5, the contact between maternal and embryonic blood is reduced
• at E11.5, the mutant Reichert's membrane appears fragile, thin, and disorganized
• electron-dense string-like structures are shown to be loosely and abnormally arranged at E10
• ruptures cause severe bleeding of maternal blood into the yolk sac cavity, contributing to the death and resorption of mutant embryos
• at multiple sites the contact with the trophectoderm layer and parietal endoderm cells is lost, suggesting defects in cell-matrix interactions
• at E11.5, the thickness of the placenta labyrinth layer is reduced
• at E11.5, the development of the labyrinth layer of the placenta is retarded in mutant embryos relative to wild-type embryos

cardiovascular system
• at E11.5, the contact between maternal and embryonic blood is reduced
• at E10.5-E11.5, mutant embryos display dilated blood vessels
• at E10.5-E11.5, mutant embryos exhibit bleeding into the pericardium

nervous system
• at E11.5, mutant embryos exhibit neuronal ectopias in the brain because of abnormal migration of neuronal cells through the pial basement membrane into the surrounding mesenchymal layers

homeostasis/metabolism
• at E10.5-E11.5, mutant embryos exhibit bleeding into the pericardium

cellular
• at E11.5, mutant embryos exhibit neuronal ectopias in the brain because of abnormal migration of neuronal cells through the pial basement membrane into the surrounding mesenchymal layers
• at E10.5, discontinuities or ruptures of basement membranes are observed both in mutant embryos and in extraembryonic tissues
• at E11.5, an increased instability of basement membranes is detected in various tissues
• local disruption of the pial basement membrane is the most likely cause of aberrant migration of neural cells (neuronal ectopias) noted in brain at E11.5
• at E10.5, epidermal and pial basement membranes are amorphously deposited or absent; in some areas the deposited material detaches from the surface of cells and forms irregular folds or is almost entirely absent
• in addition, deposited basement membrane-like matrices appear more irregular and less electron-dense
• however, basement membrane-like matrices are correctly deposited during early embryonic development, suggesting that secretion or deposition of laminins, nidogens or perlecan is normal





Contributing Projects:
Mouse Genome Database (MGD), Gene Expression Database (GXD), Mouse Models of Human Cancer database (MMHCdb) (formerly Mouse Tumor Biology (MTB)), Gene Ontology (GO)
Citing These Resources
Funding Information
Warranty Disclaimer, Privacy Notice, Licensing, & Copyright
Send questions and comments to User Support.
last database update
12/10/2024
MGI 6.24
The Jackson Laboratory