Phenotypes associated with this allele

• Allele Symbol: Gars1⁺
• Allele Name: wild type
• Allele ID: MGI:2449058
• Summary: 13 genotypes

Jump to	Allelic Composition	Genetic Background	Genotype ID
ht1	Gars1^Nmf249/Gars1^+	C57BL/6J-Gars1^Nmf249/J	MGI:3513833
ht2	Gars1^em1(IMPC)Tcp/Gars1^+	C57BL/6NCrl-Gars1^em1(IMPC)Tcp/Tcp	MGI:6461286
ht3	Gars1^Gt(XM256)6Byg/Gars1^+	involves: 129P2/OlaHsd * C57BL/6J	MGI:3655851
ht4	Gars1^C201R/Gars1^+	involves: BALB/cAnN * C3H/HeH	MGI:3849419
ht5	Gars1^C201R/Gars1^+	involves: BALB/cAnN * C3H/HeH * C57BL/6J	MGI:3849420
ht6	Gars1^Nmf249/Gars1^+	involves: C57BL/6J * CAST/Ei	MGI:5308205
cx7	Gars1^C201R/Gars1^+ Nrcam^m1J/Nrcam^m1J	involves: BALB/cAnN * C3H/HeH * C57BL/6J	MGI:5882408
cx8	Gars1^C201R/Gars1^+ Tg(Thy1-YFP)16Jrs/?	involves: BALB/cAnN * C3H/HeH * C57BL/6J * CBA	MGI:5752648
cx9	Gars1^C201R/Gars1^+ Tg(CAG-GARS)DRwb/0	involves: BALB/cAnN * C3H/HeH * C57BL/6J * FVB/N	MGI:5308216
cx10	Gars1^C201R/Gars1^+ Scn8a^m10J/Scn8a^+	involves: BALB/cAnN * C3H/HeJ * FVB/NJ	MGI:5882425
cx11	Gars1^Nmf249/Gars1^+ Tg(Thy1-YFP)16Jrs/?	involves: C57BL/6J * CAST/Ei * CBA/J	MGI:5752579
cx12	Gars1^Nmf249/Gars1^+ Tg(CAG-GARS)DRwb/0	involves: C57BL/6J * CAST/Ei * FVB/N	MGI:5308213
cx13	Gars1^Nmf249/Gars1^+ Scn8a^m10J/Scn8a^+	involves: C57BL/6J * FVB/NJ	MGI:5882509

Genotype
MGI:3513833

ht1

• Allelic Composition: Gars1^Nmf249/Gars1⁺
• Genetic Background: C57BL/6J-Gars1^Nmf249/J

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

mortality/aging

premature death ( J:82238 , J:112221 )

• mutant mice die at between 4 and 8 weeks of age (J:82238)

• most animals die by 6-8 weeks of age, with a few surviving longer than 6 months of age (J:112221)

behavior/neurological

abnormal gait ( J:82238 )

• mutant mice develop an unsteady gait by the average age of 3.5 weeks

nervous system

nervous system phenotype ( J:82238 )

N • pathological examination revealed no central nervous system abnormality

abnormal innervation pattern to muscle ( J:82238 )

• immunocytohistology reveals retraction of axons of motor neurons and poor or absent innervation of neuromuscular junctions

abnormal axon morphology ( J:82238 , J:112221 )

• no large diameter myelinated fibers are observed upon microscopic examination of the sciatic nerve (J:82238)

• at P7, sciatic nerve axons appear similar in overall size to controls; however, axon diameter distribution studies revealed normal myelin thickness but decreased axon diameter (J:112221)

• at P35, sciatic nerve axon diameter is decreased further and large-diameter axons are absent; however, internodal distances appear similar to controls (J:112221)

neuromuscular synapse degeneration ( J:112221 )

• at P36-P37, many partially innervated and some denervated synapses are seen in hindlimb muscles

• innervation similar to controls is seen at P7, suggesting a degenerative process

axon degeneration ( J:112221 )

• at P7, neuromuscular synapses of hindlimb muscles are fully occupied with motor nerve terminals

• by P36-37, neuromuscular synapses of hindlimb muscles show 31.3 +/- 6.1% partial occupation and 19.9 +/- 5.9% unoccupied with motor nerve terminals, in contrast to controls which remain fully occupied

• this degeneration appears to be length dependent, as less severe pathology at the same stages is seen in the triangularis sterni, an axial muscle of the ribcage

• at P35, examination of sciatic nerve axons reveals an absence of large diameter axons and other degeneration axons as scored by an absence of axoplasm surrounded by a myelin sheath and basal lamina; other axons remained myelinated and did not exhibit any visble pathology

• at P7-P8, the number of myelinated axons of the motor and sensory branches of the femoral nerve is similar to controls; however, by P32-35, there is a significant decrease in both the motor and sensory axon numbers, most notably the large diameter axons

• at 52-61 weeks of age (in rare mice surviving to this age) a modest increase in motor axon loss is femoral nerves is seen with less change seen in sensory axons

• these axonal pathologies appear more severe distally than proximally; at P34, no changes in axon number are seen in the L5 root or in the spinal cord compared to the femoral nerve, which loses 28% of axons

abnormal nerve conduction ( J:112221 )

• sciatic nerve conduction velocity is reduced by 60% in sciatic nerve (10.4 +/- 1.2 m/s vs. 24.4 +/- 5.1 ms in controls)

abnormal PNS synaptic transmission ( J:112221 )

• in 8 week old mice, a failure of the production and maintenance of muscle force in gastrocnemius muscle in response to tetanic nerve stimulation is seen

• this failure corresponded to a decreased electromyogram amplitude

muscle

decreased muscle weight ( J:112221 )

• mice exhibit reduced muscle weight at P36-37 when normalized to body weight; this appears to be due to a smaller muscle fiber size

• no other muscular pathological changes are seen at this age

muscular atrophy ( J:112221 )

• at 52-61 weeks of age (in rare mice surviving to this age) evidence of muscle atrophy and long-term denervation and reinnervation is seen

growth/size/body

decreased body size ( J:82238 )

• mutant mice are smaller than their littermates

postnatal growth retardation ( J:82238 )

• affected mice fail to thrive

Mouse Models of Human Disease		DO ID	OMIM ID(s)	Ref(s)
Charcot-Marie-Tooth disease type 2D		DOID:0110164	OMIM:601472	J:112221

Genotype
MGI:6461286

ht2

• Allelic Composition: Gars1^em1(IMPC)Tcp/Gars1⁺
• Genetic Background: C57BL/6NCrl-Gars1^em1(IMPC)Tcp/Tcp

Data Sources

IMPC Data for Gars1

behavior/neurological

decreased exploration in new environment ( J:211773 )

♂

IMPC - TCP

cardiovascular system

enlarged heart ( J:211773 )

♂

IMPC - TCP

digestive/alimentary system

abnormal stomach morphology ( J:211773 )

♂

IMPC - TCP

endocrine/exocrine glands

abnormal seminal vesicle morphology ( J:211773 )

♂

IMPC - TCP

growth/size/body

enlarged heart ( J:211773 )

♂

IMPC - TCP

enlarged urinary bladder ( J:211773 )

♂

IMPC - TCP

hematopoietic system

small spleen ( J:211773 )

♂

IMPC - TCP

immune system

small spleen ( J:211773 )

♂

IMPC - TCP

integument

abnormal skin morphology ( J:211773 )

♀

IMPC - TCP

renal/urinary system

enlarged urinary bladder ( J:211773 )

♂

IMPC - TCP

reproductive system

abnormal seminal vesicle morphology ( J:211773 )

♂

IMPC - TCP

skeleton

abnormal sternum morphology ( J:211773 )

♂

IMPC - TCP

vision/eye

abnormal eye morphology ( J:211773 )

♂

IMPC - TCP

Genotype
MGI:3655851

ht3

• Allelic Composition: Gars1^{Gt(XM256)6Byg}/Gars1⁺
• Genetic Background: involves: 129P2/OlaHsd * C57BL/6J

normal phenotype

no abnormal phenotype detected ( J:112221 )

• no nervous system phenotype; no axonal degeneration is seen, with large-caliber axons and neuromuscular synapses with normal morphology present and normal nerve conduction velocities

Genotype
MGI:3849419

ht4

• Allelic Composition: Gars1^C201R/Gars1⁺
• Genetic Background: involves: BALB/cAnN * C3H/HeH

behavior/neurological

impaired coordination ( J:149830 )

• mice exhibit impaired coordination on a rotarod compared with wild-type mice

impaired fine motor coordination ( J:149830 )

• in a mouse reach and grasp assay, mice exhibit reduced motor flexibility and decreased fine motor control compared with wild-type mice

decreased grip strength ( J:149830 )

• Background Sensitivity: male mouse grip strength is reduced 40% compared to that of wild-type mice on mixed BALB/cAnN and C3H/HeH background whereas grip strength is reduced 57% on a mixed BALB/cAnN, C3H/HeH, and C57BL/6 background

decreased locomotor activity ( J:149830 )

nervous system

nervous system phenotype ( J:149830 )

N • at E12.5, the peripheral nervous system appears normal

N • at P15 and 17 months, mice exhibit normal brain and spinal cord morphology

abnormal sciatic nerve morphology ( J:149830 )

• at 17 months, the number of large diameter axons in the sciatic nerve is decreased 50% compared to in wild-type mice

Genotype
MGI:3849420

ht5

• Allelic Composition: Gars1^C201R/Gars1⁺
• Genetic Background: involves: BALB/cAnN * C3H/HeH * C57BL/6J

nervous system

nervous system phenotype ( J:179811 )

N • normal axon numbers

abnormal innervation pattern to muscle ( J:149830 )

• reduced in the tibialis anterior and extensor digitorum longus

abnormal sensory neuron morphology ( J:149830 )

• axons within the saphenous nerve exhibit a shift towards smaller diameters compared to in wild-type mice

abnormal neuromuscular synapse morphology ( J:149830 , J:179811 )

• neuromuscular junctions (NMJs) in the extensor digitorum longus are smaller with much less complex geometry compared to in wild-type mice (J:149830)

• the tibialis anterior NMJs exhibit regions of partial innervation and portions of the terminal arbor appear atrophied unlike in wild-type mice (J:149830)

• neuromuscular junctions have regions of immature morphology or denervation (J:179811)

decreased nerve conduction velocity ( J:149830 , J:179811 )

• sensory nerve compound action potentials exhibit reduced conduction velocity and amplitude compared to in wild-type mice (J:149830)

• nerve conduction velocities are reduced to about 55% of wild-type levels (J:179811)

muscle

abnormal tibialis anterior morphology ( J:149830 )

• the tibialis anterior exhibits increased oxidative capacity, loss of muscle fibers, and increased cross-sectional fiber area consistent with denervation atrophy and compensatory hypertrophy unlike in wild-type mice

decreased tibialis anterior weight ( J:149830 )

• in female mice

decreased skeletal muscle fiber number ( J:149830 )

• in the tibialis anterior and the extensor digitorum longus

muscle weakness ( J:149830 )

• the maximum twitch and tetanic forces of the tibialis anterior are less than those of wild-type muscle

• however, the force output of the extensor digitorum longus is normal

behavior/neurological

decreased grip strength ( J:149830 , J:179811 )

• Background Sensitivity: male mouse grip strength is reduced 57% compared to that of wild-type mice on mixed BALB/cAnN, C3H/HeH, and C57BL/6 background whereas grip strength is reduced 40% on a mixed BALB/cAnN and C3H/HeH background (J:149830)

• mutants exhibit wire hanging deficits, unable to hang for the entire task time (J:179811)

growth/size/body

decreased body weight ( J:149830 )

• in female mice

limbs/digits/tail

abnormal tibialis anterior morphology ( J:149830 )

• the tibialis anterior exhibits increased oxidative capacity, loss of muscle fibers, and increased cross-sectional fiber area consistent with denervation atrophy and compensatory hypertrophy unlike in wild-type mice

decreased tibialis anterior weight ( J:149830 )

• in female mice

Mouse Models of Human Disease		DO ID	OMIM ID(s)	Ref(s)
Charcot-Marie-Tooth disease type 2D		DOID:0110164	OMIM:601472	J:149830 , J:179811

Genotype
MGI:5308205

ht6

• Allelic Composition: Gars1^Nmf249/Gars1⁺
• Genetic Background: involves: C57BL/6J * CAST/Ei

growth/size/body

decreased body weight ( J:179811 )

nervous system

abnormal nervous system morphology ( J:179811 )

• size of the femoral nerve is reduced

abnormal axon morphology ( J:179811 )

• 26% reduction in axons in motor nerves

abnormal neuromuscular synapse morphology ( J:179811 )

• partially denervated neuromuscular junctions

demyelination ( J:179811 )

• motor and sensory branches of the femoral nerve have a reduction in myelinated axon numbers

decreased nerve conduction velocity ( J:179811 )

• nerve conduction is reduced to about 25% of wild-type velocities

Mouse Models of Human Disease		DO ID	OMIM ID(s)	Ref(s)
Charcot-Marie-Tooth disease type 2D		DOID:0110164	OMIM:601472	J:179811

Genotype
MGI:5882408

cx7

• Allelic Composition: Gars1^C201R/Gars1⁺; Nrcam^m1J/Nrcam^m1J
• Genetic Background: involves: BALB/cAnN * C3H/HeH * C57BL/6J

behavior/neurological

tremors ( J:240096 )

impaired coordination ( J:240096 )

• poor motor performance compared with controls, but no progression to paralysis

muscle

muscle hypoplasia ( J:240096 )

• muscles in mice with this compound genotype are smaller than that of either parental mutant alone

nervous system

abnormal innervation pattern to muscle ( J:240096 )

• decreased neuromuscular junction occupancy with an increase in partial innervation as well as some denervation

abnormal axon morphology ( J:240096 )

• reduced axon size in the motor branch of the femoral nerve, similar to that of glycyl-tRNA synthetase mutant mice wildtype for neuronal cell adhesion molecular

abnormal neuromuscular synapse morphology ( J:240096 )

decreased nerve conduction velocity ( J:240096 )

• nerve conductance velocity, assessed in adult sciatic nerve, is reduced further than that in either single parental mutant

Genotype
MGI:5752648

cx8

• Allelic Composition: Gars1^C201R/Gars1⁺; Tg(Thy1-YFP)16Jrs/?
• Genetic Background: involves: BALB/cAnN * C3H/HeH * C57BL/6J * CBA

nervous system

abnormal neuromuscular synapse morphology ( J:229590 )

• at high magnification, but not evident at low magnification, approximately 5% of the neuromuscular junctions assesed in the levator auris longus at 4 months of age are found to be only partially innervated, far fewer than in Nmf249 heterozygotes

• nearly all terminals assessed in the levator auris longus show more diffuse postsynaptic staining, less distinct gutters, thinner axons and presynaptic nerves, synapses that are smaller than in wild-type controls, the average quantal content is significantly lower than normal, and the quantal content and mean evoked endplate currents are lower still at 4 months compared with 2 months

abnormal synaptic transmission ( J:229590 )

abnormal PNS synaptic transmission ( J:229590 )

• at 2 months of age 25% decrease in amplitude of evoked endplate currents, and quantal content in neuromuscular synapses of the levator auris longus muscle, and treatment with 3,4-DAP or physostigmine increases the in vivo evoked endplate currents at 4 months of age

• at 2 months of age the frequency of spontaneous release is consistently lower than normal although the quantal amplitude at synapses is normal, and no differences are found in the miniature endplate current amplitude

behavior/neurological

decreased grip strength ( J:229590 )

• compared with wild-type controls, heterozygotes have impaired grip strength and this is improved by treatment with physostigmine, but made worse by treatment with 3,4-DAP

Genotype
MGI:5308216

cx9

• Allelic Composition: Gars1^C201R/Gars1⁺; Tg(CAG-GARS)DRwb/0
• Genetic Background: involves: BALB/cAnN * C3H/HeH * C57BL/6J * FVB/N

behavior/neurological

decreased grip strength ( J:179811 )

• mutants exhibit a similar wire hanging deficit as single Gars^C201R heterozygotes

nervous system

decreased nerve conduction velocity ( J:179811 )

• nerve conduction velocities are reduced to a similar extent as in single Gars^C201R heterozygotes

Genotype
MGI:5882425

cx10

• Allelic Composition: Gars1^C201R/Gars1⁺; Scn8a^m10J/Scn8a⁺
• Genetic Background: involves: BALB/cAnN * C3H/HeJ * FVB/NJ

nervous system

abnormal motor neuron innervation pattern ( J:240096 )

• neuromuscular junction innervation is decreased compared with either parental mutants, with an increase in both partial innervation and denervation

abnormal neuromuscular synapse morphology ( J:240096 )

decreased nerve conduction velocity ( J:240096 )

• nerve conduction velocity is lower than in either parental mutant

Genotype
MGI:5752579

cx11

• Allelic Composition: Gars1^Nmf249/Gars1⁺; Tg(Thy1-YFP)16Jrs/?
• Genetic Background: involves: C57BL/6J * CAST/Ei * CBA/J

nervous system

abnormal neuromuscular synapse morphology ( J:229590 )

• nearly all terminals assessed in the levator auris longus show more diffuse postsynaptic staining, less distinct gutters, thinner axons and presynaptic nerves, synapses that are smaller than in wild-type controls, fewer mitochondria at the synaptic terminals, and the average quantal content is significantly lower than normal

• at high magnification, but not evident at low magnification, approximately half of the junctions assesed in the levator auris longus at 2 months of age are found to be only partially innervated, even in the mildly affected mice, and there are more than 3 times as many denervated junctions at 2 months of age as are found in carriers of the C201R allele at 4 months of age

abnormal synaptic transmission ( J:229590 )

abnormal PNS synaptic transmission ( J:229590 )

• at 2 months of age 25% decrease in amplitude of evoked endplate currents, and quantal content in neuromuscular synapses the levator auris longus muscle

• at 2 months of age the frequency of spontaneous release is consistently lower than normal although the quantal amplitude at synapses is normal, and no differences are found in the miniature endplate current amplitude

abnormal endplate potential ( J:229590 )

behavior/neurological

decreased grip strength ( J:229590 )

• compared with wild-type controls, heterozygotes have impaired grip strength and this is improved by treatment with physostigmine

Genotype
MGI:5308213

cx12

• Allelic Composition: Gars1^Nmf249/Gars1⁺; Tg(CAG-GARS)DRwb/0
• Genetic Background: involves: C57BL/6J * CAST/Ei * FVB/N

growth/size/body

decreased body weight ( J:179811 )

• mutants exhibit a similar decrease in body weight as single Gars^Nmf249 heterozygotes

nervous system

abnormal axon morphology ( J:179811 )

• mutants exhibit a similar reduction in axon numbers in motor and sensory nerves as single Gars^Nmf249 heterozygotes

abnormal neuromuscular synapse morphology ( J:179811 )

• neuromuscular junctions are disrupted to a similar extent as in Gars^Nmf249 heterozygotes

decreased nerve conduction velocity ( J:179811 )

• nerve conduction velocities are similar to single Gars^Nmf249 heterozygotes

Genotype
MGI:5882509

cx13

• Allelic Composition: Gars1^Nmf249/Gars1⁺; Scn8a^m10J/Scn8a⁺
• Genetic Background: involves: C57BL/6J * FVB/NJ

muscle

skeletal muscle atrophy ( J:240096 )

• slightly more severe than the parental heterozygote

nervous system

abnormal neuromuscular synapse morphology ( J:240096 )

• decreased neuromuscular junction innervation compared with either parental heterozygotes

decreased nerve conduction velocity ( J:240096 )

• decreased relative to either parental heterozygote