Phenotypes associated with this allele

• Allele Symbol: Ephb2^tm2Paw
• Allele Name: targeted mutation 2, Tony Pawson
• Allele ID: MGI:2149670
• Summary: 11 genotypes

Jump to	Allelic Composition	Genetic Background	Genotype ID
hm1	Ephb2^tm2Paw/Ephb2^tm2Paw	either: (involves: 129S1/Sv * 129X1/SvJ) or (involves: 129S1/Sv * 129X1/SvJ * C57BL/6) or (involves: 129S1/Sv * 129X1/SvJ * CD-1)	MGI:3051579
hm2	Ephb2^tm2Paw/Ephb2^tm2Paw	involves: 129S1/Sv * 129X1/SvJ	MGI:5306595
hm3	Ephb2^tm2Paw/Ephb2^tm2Paw	involves: 129S1/Sv * 129X1/SvJ * CD-1	MGI:3695481
ht4	Ephb2^tm2Paw/Ephb2^+	involves: 129S1/Sv * 129X1/SvJ	MGI:5306594
cx5	Efnb2^tm1Henk/Efnb2^+ Ephb2^tm2Paw/Ephb2^tm2Paw Ephb3^tm1Kln/Ephb3^+	either: 129 or (involves: 129 * C57BL/6) or (involves: 129 * CD-1)	MGI:3051580
cx6	Efnb2^tm1Henk/Efnb2^+ Ephb2^tm2Paw/Ephb2^tm2Paw	either: 129 or (involves: 129 * C57BL/6) or (involves: 129 * CD-1)	MGI:3051581
cx7	Ephb1^tm1Cmn/Ephb1^tm1Cmn Ephb2^tm2Paw/Ephb2^tm2Paw	involves: 129S1/Sv * 129X1/SvJ	MGI:5306607
cx8	Ephb2^tm2Paw/Ephb2^tm2Paw Ephb3^tm1Kln/Ephb3^tm1Kln	involves: 129S1/Sv * 129X1/SvJ	MGI:5085268
cx9	Ephb1^tm1Cmn/Ephb1^tm1Cmn Ephb2^tm2Paw/Ephb2^+	involves: 129S1/Sv * 129X1/SvJ	MGI:5306606
cx10	Ephb2^tm2Paw/Ephb2^tm2Paw Ephb3^tm1Kln/Ephb3^tm1Kln	involves: 129S1/Sv * 129X1/SvJ * CD-1	MGI:3695479
cx11	Ephb2^tm2Paw/Ephb2^+ Ephb3^tm1Kln/Ephb3^tm1Kln	involves: 129S1/Sv * 129X1/SvJ * CD-1	MGI:3695480

Genotype
MGI:3051579

hm1

• Allelic Composition: Ephb2^tm2Paw/Ephb2^tm2Paw
• Genetic Background: either: (involves: 129S1/Sv * 129X1/SvJ) or (involves: 129S1/Sv * 129X1/SvJ * C57BL/6) or (involves: 129S1/Sv * 129X1/SvJ * CD-1)

• ♀: phenotype observed in females
• ♂: phenotype observed in males
• N: normal phenotype

digestive/alimentary system

abnormal anogenital distance ( J:91491 )

• the perineal area is reduced in 36% of males

renal/urinary system

hypospadia ( J:91491 )

• 36% of males display hypospadia similar to that seen in Efnb2^tm1Henk heterozygotes

• hypospadia is not seen in either single homozygote

reproductive system

abnormal anogenital distance ( J:91491 )

• the perineal area is reduced in 36% of males

Genotype
MGI:5306595

hm2

• Allelic Composition: Ephb2^tm2Paw/Ephb2^tm2Paw
• Genetic Background: involves: 129S1/Sv * 129X1/SvJ

nervous system

abnormal axon morphology ( J:176056 )

• most mice exhibit ventral-temporal (VT) retinal ganglion cell axon mapping defects compared with control mice

Genotype
MGI:3695481

hm3

• Allelic Composition: Ephb2^tm2Paw/Ephb2^tm2Paw
• Genetic Background: involves: 129S1/Sv * 129X1/SvJ * CD-1

nervous system

nervous system phenotype ( J:34200 )

• Background Sensitivity: on 129 inbred or 129 CD1 mixed backgrounds, all adult homozygotes display an intact anterior commissure, whereas on a C57BL/6 background, adult homozygotes exhibit defective pathfinding of the anterior commissure

• on 129 inbred or 129 CD1 mixed backgrounds, all adult homozygotes display an intact anterior commissure, with no morphometric changes in the lateral tract, and normal pathfinding of temporal cortical axons towards the midline and into the contralateral cortex

delayed axon extension ( J:62565 )

• at E13.5, homozygotes of a predominantly CD-1 background show delayed outgrowth of efferent projections into both the ipsilateral and contralateral inner ears

abnormal axon guidance ( J:62565 )

• at E13.5, both ipsilateral and contralateral projections of inner ear efferent (IEE) axons are disoriented and exhibit a temporary difficulty in reaching their targets

• as a result, ectopic caudal extensions are formed at the midline of the hindbrain with a 1- to 2-day delay in arriving at the ear end organs

• at E14.5 or later, axon tracing of IEEs shows a fairly normal number of crossed and uncrossed fibers in mutant mice

abnormal sensory neuron innervation pattern ( J:62565 )

• at E13.5, homozygotes of a predominantly CD-1 background display delayed growth of efferent projections into both the ipsilateral and contralateral inner ears

• at this stage, growth cones have not yet reached into the sensory epithelia of the semicircular canals and there is an aberrant pausity of axons destined for the saccule and utricle

• in contrast, growth of afferent projections into the inner ear are normal, with afferents reaching all sensory epithelia by E12.5

cellular

delayed axon extension ( J:62565 )

• at E13.5, homozygotes of a predominantly CD-1 background show delayed outgrowth of efferent projections into both the ipsilateral and contralateral inner ears

abnormal axon guidance ( J:62565 )

• at E13.5, both ipsilateral and contralateral projections of inner ear efferent (IEE) axons are disoriented and exhibit a temporary difficulty in reaching their targets

• as a result, ectopic caudal extensions are formed at the midline of the hindbrain with a 1- to 2-day delay in arriving at the ear end organs

• at E14.5 or later, axon tracing of IEEs shows a fairly normal number of crossed and uncrossed fibers in mutant mice

Genotype
MGI:5306594

ht4

• Allelic Composition: Ephb2^tm2Paw/Ephb2⁺
• Genetic Background: involves: 129S1/Sv * 129X1/SvJ

nervous system

abnormal axon morphology ( J:176056 )

• some mice exhibit ventral-temporal (VT) retinal ganglion cell axon mapping defects compared with control mice

Genotype
MGI:3051580

cx5

• Allelic Composition: Efnb2^tm1Henk/Efnb2⁺; Ephb2^tm2Paw/Ephb2^tm2Paw; Ephb3^tm1Kln/Ephb3⁺
• Genetic Background: either: 129 or (involves: 129 * C57BL/6) or (involves: 129 * CD-1)

renal/urinary system

hypospadia ( J:91491 )

• an increased incidence of hypospadia compared to Efnb2^tm1Henk heterozygotes is seen

Genotype
MGI:3051581

cx6

• Allelic Composition: Efnb2^tm1Henk/Efnb2⁺; Ephb2^tm2Paw/Ephb2^tm2Paw
• Genetic Background: either: 129 or (involves: 129 * C57BL/6) or (involves: 129 * CD-1)

renal/urinary system

hypospadia ( J:91491 )

• an increased incidence of hypospadia compared to Efnb2^tm1Henk heterozygotes is seen

Genotype
MGI:5306607

cx7

• Allelic Composition: Ephb1^tm1Cmn/Ephb1^tm1Cmn; Ephb2^tm2Paw/Ephb2^tm2Paw
• Genetic Background: involves: 129S1/Sv * 129X1/SvJ

nervous system

abnormal axon morphology ( J:176056 )

• most mice exhibit dorsal retinal ganglion cell axon mapping defects compared with control mice

Genotype
MGI:5085268

cx8

• Allelic Composition: Ephb2^tm2Paw/Ephb2^tm2Paw; Ephb3^tm1Kln/Ephb3^tm1Kln
• Genetic Background: involves: 129S1/Sv * 129X1/SvJ

growth/size/body

omphalocele ( J:173636 )

• Background Sensitivity: failure of midline closure of the abdominal wall resembling omphalocele in 9% of mice on a 129 background but not in mice on a CD-1 background

Genotype
MGI:5306606

cx9

• Allelic Composition: Ephb1^tm1Cmn/Ephb1^tm1Cmn; Ephb2^tm2Paw/Ephb2⁺
• Genetic Background: involves: 129S1/Sv * 129X1/SvJ

nervous system

abnormal axon morphology ( J:176056 )

• most mice exhibit dorsal retinal ganglion cell axon mapping defects compared with control mice

Genotype
MGI:3695479

cx10

• Allelic Composition: Ephb2^tm2Paw/Ephb2^tm2Paw; Ephb3^tm1Kln/Ephb3^tm1Kln
• Genetic Background: involves: 129S1/Sv * 129X1/SvJ * CD-1

mortality/aging

premature death ( J:62565 )

• on a predominantly CD-1 background, only 18% of the expected double homozygotes survive to adulthood

behavior/neurological

circling ( J:62565 )

• on a predominantly CD-1 background (5 to 9 backcross generations), 91% of double homozygotes that survive to adulthood exhibit circling

nervous system

delayed axon extension ( J:62565 )

• at E13.5, double homozygotes show delayed outgrowth of efferent projections into both the ipsilateral and contralateral inner ears

abnormal axon guidance ( J:62565 )

• at E13.5, both ipsilateral and contralateral projections of inner ear efferent (IEE) axons are disoriented and exhibit a temporary difficulty in reaching their targets

• as a result, ectopic caudal extensions are formed at the midline of the hindbrain with a 1- to 2-day delay in arriving at the ear end organs

• at E14.5 or later, axon tracing of IEEs shows a fairly normal number of crossed and uncrossed fibers in mutant mice

abnormal sensory neuron innervation pattern ( J:62565 )

• at E13.5, double homozygotes display delayed growth of efferent projections into both the ipsilateral and contralateral inner ears

• at this stage, growth cones have not yet reached into the sensory epithelia of the semicircular canals and there is an aberrant pausity of axons destined for the saccule and utricle

• in contrast, growth of afferent projections into the inner ear are normal, with afferents reaching all sensory epithelia by E12.5

hearing/vestibular/ear

abnormal semicircular canal morphology ( J:62565 )

• all adult circling mutants display much thinner semicircular canals (SCCs), with a significantly reduced (5-fold) cross-sectional diameter, esp. in the anterior vertical SCC

small endolymphatic duct ( J:62565 )

• at P7, the endolymph-filled membranous ducts are severely reduced by 53-fold in accord with a collapsed lumen and deflated SCCs

abnormal endolymph physiology ( J:116671 )

• on a CD-1 background, reduced endolymph-filled lumens lead to a significant reduction in the flow of endolymph fluid through the semicircular canals

• [K⁺] is significantly reduced from a mean of 118 mM in wild-type mice to 29 mM in double homozygotes

abnormal vestibular endolymph physiology ( J:116671 )

• on a CD-1 background, transepithelial utricular potential (UP) of the vestibular endolymph is significantly reduced from a mean of 0.4 mV in wild-type mice to -14.0 mV in double homozygotes

abnormal vestibular endolymph ionic homeostasis ( J:116671 )

• on a CD-1 background, double homozygotes fail to properly regulate the ionic homeostasis of vestibular endolymph

• however, blood hematocrit, [K+], and osmolarity appear to be nomal

abnormal vestibular system physiology ( J:62565 )

• severe vestibular dysfunction is associated with a drastic reduction in the volume of endolymph fluid within the vestibular apparatus

digestive/alimentary system

cleft palate ( J:173636 )

• severe cleft palate in 41% of mice at E18.5

abnormal large intestine crypts of Lieberkuhn morphology ( J:115873 )

• about a 50% decrease in the number of proliferating cells is seen in the colon; however, no change in the number of apoptotic cells is seen and the number of proliferating cells in small intestinal crypts is similar to wild-type

abnormal Paneth cell morphology ( J:115873 )

• in the small intestine Paneth cells are displaced from the base of the crypts by proliferating cells while the number of proliferating cells in the normal progenitor niche (along the sides of the crypt) are reduced

ectopic Paneth cells ( J:157019 )

• differentiated Paneth cells are mispositioned and spread throughout the crypt-villus axis

abnormal digestive system physiology ( J:157019 )

• decrease in proliferation in colon crypts

endocrine/exocrine glands

abnormal large intestine crypts of Lieberkuhn morphology ( J:115873 )

• about a 50% decrease in the number of proliferating cells is seen in the colon; however, no change in the number of apoptotic cells is seen and the number of proliferating cells in small intestinal crypts is similar to wild-type

abnormal Paneth cell morphology ( J:115873 )

• in the small intestine Paneth cells are displaced from the base of the crypts by proliferating cells while the number of proliferating cells in the normal progenitor niche (along the sides of the crypt) are reduced

ectopic Paneth cells ( J:157019 )

• differentiated Paneth cells are mispositioned and spread throughout the crypt-villus axis

craniofacial

cleft palate ( J:173636 )

• severe cleft palate in 41% of mice at E18.5

cellular

delayed axon extension ( J:62565 )

• at E13.5, double homozygotes show delayed outgrowth of efferent projections into both the ipsilateral and contralateral inner ears

abnormal axon guidance ( J:62565 )

• at E13.5, both ipsilateral and contralateral projections of inner ear efferent (IEE) axons are disoriented and exhibit a temporary difficulty in reaching their targets

• as a result, ectopic caudal extensions are formed at the midline of the hindbrain with a 1- to 2-day delay in arriving at the ear end organs

• at E14.5 or later, axon tracing of IEEs shows a fairly normal number of crossed and uncrossed fibers in mutant mice

growth/size/body

cleft palate ( J:173636 )

• severe cleft palate in 41% of mice at E18.5

Genotype
MGI:3695480

cx11

• Allelic Composition: Ephb2^tm2Paw/Ephb2⁺; Ephb3^tm1Kln/Ephb3^tm1Kln
• Genetic Background: involves: 129S1/Sv * 129X1/SvJ * CD-1

behavior/neurological

circling ( J:62565 )

• on a predominantly CD-1 background, 8 of 315 (2.5%) of adult mutant mice exhibit circling