Phenotypes Associated with This Genotype

Genotype
MGI:3046864

• Allelic Composition: Bmp7^{Tg(BCL2)114Cro}/Bmp7^{Tg(BCL2)114Cro}
• Genetic Background: involves: C3H/HeJ * C57BL/6

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

mortality/aging

premature death ( J:38288 )

• a few homozygotes survive to the age of one month but show severe growth retardation

neonatal lethality, incomplete penetrance ( J:38288 )

• most homozygotes die within 24 hours after birth

pigmentation

abnormal retina pigment epithelium morphology ( J:38288 )

• the pigment layer of the retina is poorly organized

• the inner and outer nuclear layers of the retina appear developmentally retarded relative to wild-type

abnormal retina pigmentation ( J:38288 )

• homozygotes display impaired ocular growth and are born without retinal pigment in either eye

behavior/neurological

tremors ( J:38288 )

• homozygotes displayed whole-body tremors before death

impaired coordination ( J:38288 )

• homozygotes showed loss of coordinated movement before death

craniofacial

basisphenoid bone foramen ( J:38288 )

• mutant newborns show holes in the basisphenoid bone

growth/size/body

decreased birth weight ( J:38288 )

• the birth weight of homozygous null mice is ~0.75 times that of wild-type littermates

polycystic kidney ( J:38288 )

• most neonates or pups that survive for a few days after birth show unilateral or bilateral polycystic kidneys

limbs/digits/tail

polydactyly ( J:38288 )

• some homozygotes show polydactyly of the inner digit on either one or both of the hindlimbs

• the extra digit can resemble any of the other five digits

• sometimes the metatarsal of the extra digit is fused to that of the inner digit

kinked tail ( J:38288 )

• a few days after birth, homozygotes display a kinked tail due to the uneven thickness of intervertrebral discs

renal/urinary system

polycystic kidney ( J:38288 )

• most neonates or pups that survive for a few days after birth show unilateral or bilateral polycystic kidneys

abnormal kidney development ( J:38288 )

• newborn homozygotes display poor kidney development

• mutant kidneys exhibit sufficient glomerulogenesis but poor nephron development

small kidney ( J:38288 )

decreased nephron number ( J:38288 )

• a reduced number of nephrons is observed

abnormal distal convoluted tubule morphology ( J:38288 )

• distal convoluted tubules appear underdeveloped

• in contrast, proximal convoluted tubules are well formed

skeleton

abnormal skeleton morphology ( J:38288 )

• the overall size of the mutant skeleton is smaller relative to wild-type

basisphenoid bone foramen ( J:38288 )

• mutant newborns show holes in the basisphenoid bone

xiphoid process foramen ( J:38288 )

• mutant newborns show holes in the in the xyphoid process; however, this phenotype is normalized at the age of 12 days

rib fusion ( J:38288 )

• the mutant with fused vertebrae also showed fusion of some ribs and neural arches

abnormal vertebrae morphology ( J:38288 )

• homozygotes lack fusion of the neural spines of the atlas, 12th thoracic, and 1st sacral vertebrae

• also, mutants show openings on one or both sides of the neural arches of the 3rd and 4th thoracic vertebrae

• both phenotypes occur with variable penetrance

decreased lumbar vertebrae number ( J:38288 )

• homozygotes lack one lumbar vertebra

abnormal sacral vertebrae morphology ( J:38288 )

• the neural arches of the 11th thoracic to the 4th sacral vertebrae taper toward the midline, leaving gaps between consecutive vertebrae on the dorsal side

• the fused zygapophyses are missing on the dorsal side of the sacral vertebrae

fusion of vertebral bodies ( J:38288 )

• one mutant showed fusion of the vertebral bodies of a few thoracic vertebrae

decreased bone mineral density ( J:38288 )

• little or no mineralization is noted in various skeletal structures (including vertebral bodies, neural arches, proximal ribs, tibia, fibula and some parts of femur) of newborn mutant mice

• however, these differences are no longer apparent in 12-day-old mutant mice

delayed bone ossification ( J:38288 )

• the ossification centers of the vertebral bodies of the cervical vertebrae are either minute or almost missing

vision/eye

abnormal retina pigment epithelium morphology ( J:38288 )

• the pigment layer of the retina is poorly organized

• the inner and outer nuclear layers of the retina appear developmentally retarded relative to wild-type

abnormal retina pigmentation ( J:38288 )

• homozygotes display impaired ocular growth and are born without retinal pigment in either eye

aphakia ( J:38288 )

• homozygotes lack a detectable lens

• the nuclear layer of the retina is invaginated and occupies the space where the lens would normally be present

eyelids fail to open ( J:38288 )

• the mutant eyes remain closed even one month after birth