Incidental Mutation 'IGL00325:Nrg2'
ID3362
Institutional Source Australian Phenomics Network (link to record)
Gene Symbol Nrg2
Ensembl Gene ENSMUSG00000060275
Gene Nameneuregulin 2
SynonymsNTAK, Don1
Accession Numbers
Is this an essential gene? Probably non essential (E-score: 0.142) question?
Stock #IGL00325
Quality Score
Status
Chromosome18
Chromosomal Location36017707-36197380 bp(-) (GRCm38)
Type of Mutationmissense
DNA Base Change (assembly) T to C at 36021218 bp
ZygosityHeterozygous
Amino Acid Change Methionine to Valine at position 549 (M549V)
Ref Sequence ENSEMBL: ENSMUSP00000111378 (fasta)
Gene Model predicted gene model for transcript(s): [ENSMUST00000115713]
Predicted Effect unknown
Transcript: ENSMUST00000115712
AA Change: M363V
SMART Domains Protein: ENSMUSP00000111377
Gene: ENSMUSG00000060275
AA Change: M363V

DomainStartEndE-ValueType
low complexity region 19 66 N/A INTRINSIC
low complexity region 69 111 N/A INTRINSIC
IGc2 259 329 3.85e-14 SMART
EGF 355 393 1.66e-2 SMART
Pfam:Neuregulin 403 834 1.7e-79 PFAM
Predicted Effect probably benign
Transcript: ENSMUST00000115713
AA Change: M549V

PolyPhen 2 Score 0.003 (Sensitivity: 0.98; Specificity: 0.44)
SMART Domains Protein: ENSMUSP00000111378
Gene: ENSMUSG00000060275
AA Change: M549V

DomainStartEndE-ValueType
low complexity region 19 66 N/A INTRINSIC
low complexity region 69 111 N/A INTRINSIC
IGc2 259 329 3.85e-14 SMART
EGF 355 393 3.76e-1 SMART
Pfam:Neuregulin 409 844 4.4e-170 PFAM
Coding Region Coverage
Validation Efficiency
MGI Phenotype FUNCTION: [Summary is not available for the mouse gene. This summary is for the human ortholog.] This gene encodes a novel member of the neuregulin family of growth and differentiation factors. Through interaction with the ERBB family of receptors, this protein induces the growth and differentiation of epithelial, neuronal, glial, and other types of cells. The gene consists of 12 exons and the genomic structure is similar to that of neuregulin 1, another member of the neuregulin family of ligands. The products of these genes mediate distinct biological processes by acting at different sites in tissues and eliciting different biological responses in cells. This gene is located close to the region for demyelinating Charcot-Marie-Tooth disease locus, but is not responsible for this disease. Alternative transcript variants encoding distinct isoforms have been described. [provided by RefSeq, May 2010]
PHENOTYPE: About one third of mice homozygous for a knock-out allele die prior to weaning in the absence of cardiac defects or other morphological abnormalities. Homozygotes display an early but transient postnatal growth deficit and reduced reproductive capacity. [provided by MGI curators]
Allele List at MGI
Other mutations in this stock
Total: 32 list
GeneRefVarChr/LocMutationPredicted EffectZygosity
Acap1 A G 11: 69,882,691 S431P possibly damaging Het
Arid1b C A 17: 5,337,110 R1613S possibly damaging Het
Atxn2l T C 7: 126,498,288 D196G possibly damaging Het
Bag3 C A 7: 128,546,341 T560K probably benign Het
BC051076 A G 5: 87,964,495 probably benign Het
Becn1 A T 11: 101,295,622 M18K probably benign Het
C130050O18Rik G A 5: 139,414,738 C182Y probably damaging Het
Cfap43 A G 19: 47,823,188 probably benign Het
Cfap97 C T 8: 46,170,185 S204L probably damaging Het
Gaa A G 11: 119,274,960 T100A probably benign Het
Gab2 C T 7: 97,299,258 P352S probably damaging Het
Gckr T A 5: 31,307,767 I360N possibly damaging Het
Gm4553 T C 7: 142,165,227 S155G unknown Het
Gulo G T 14: 66,005,949 A40D probably damaging Het
Irs1 T C 1: 82,288,483 I671V probably benign Het
Itgax T C 7: 128,148,309 V1028A possibly damaging Het
Lamb3 T C 1: 193,320,447 C67R probably damaging Het
Mpdz A T 4: 81,317,631 V1237E probably damaging Het
Nat8 C T 6: 85,830,597 V185M probably benign Het
Ninj2 A C 6: 120,198,062 T65P probably benign Het
Nwd2 A G 5: 63,805,475 M801V probably benign Het
Pde8b T C 13: 95,034,367 D589G probably damaging Het
Ppp1r35 T A 5: 137,779,537 V155E probably damaging Het
Prss36 T A 7: 127,944,927 probably benign Het
Raver2 A G 4: 101,102,868 K182E probably damaging Het
Ring1 T G 17: 34,023,009 E142A possibly damaging Het
Sidt2 T A 9: 45,942,236 M689L possibly damaging Het
Slc45a4 A G 15: 73,587,655 V95A probably damaging Het
Ssc5d T C 7: 4,944,481 V1278A possibly damaging Het
Stk36 A T 1: 74,634,702 K1251N possibly damaging Het
Utp14b T A 1: 78,664,545 S53R probably damaging Het
Vmn2r17 A T 5: 109,427,992 E243V probably benign Het
Other mutations in Nrg2
AlleleSourceChrCoordTypePredicted EffectPPH Score
IGL01396:Nrg2 APN 18 36045852 splice site probably benign
R0179:Nrg2 UTSW 18 36022415 missense probably benign 0.13
R0976:Nrg2 UTSW 18 36021091 missense probably benign 0.21
R1387:Nrg2 UTSW 18 36196739 missense probably damaging 1.00
R1487:Nrg2 UTSW 18 36052912 missense possibly damaging 0.69
R1746:Nrg2 UTSW 18 36021922 missense probably damaging 1.00
R1882:Nrg2 UTSW 18 36021097 missense probably damaging 1.00
R1940:Nrg2 UTSW 18 36196844 unclassified probably benign
R2090:Nrg2 UTSW 18 36018443 missense probably benign 0.00
R2183:Nrg2 UTSW 18 36196751 missense probably benign 0.11
R4664:Nrg2 UTSW 18 36052895 missense possibly damaging 0.87
R4677:Nrg2 UTSW 18 36021099 missense possibly damaging 0.92
R4860:Nrg2 UTSW 18 36196547 missense probably damaging 1.00
R4860:Nrg2 UTSW 18 36196547 missense probably damaging 1.00
R5091:Nrg2 UTSW 18 36052785 missense probably damaging 1.00
R6657:Nrg2 UTSW 18 36196589 missense probably damaging 0.98
R6968:Nrg2 UTSW 18 36196446 missense probably benign 0.01
R7186:Nrg2 UTSW 18 36045920 missense probably benign 0.17
R7304:Nrg2 UTSW 18 36045941 missense probably benign 0.24
R7467:Nrg2 UTSW 18 36022406 missense probably benign 0.00
R7564:Nrg2 UTSW 18 36024396 missense probably damaging 1.00
R7876:Nrg2 UTSW 18 36197087 missense unknown
R8113:Nrg2 UTSW 18 36021103 missense probably damaging 1.00
R8133:Nrg2 UTSW 18 36032377 missense probably benign 0.00
R8214:Nrg2 UTSW 18 36196676 missense probably benign 0.02
R8261:Nrg2 UTSW 18 36032375 missense probably benign 0.11
Z1176:Nrg2 UTSW 18 36018470 missense probably damaging 0.96
Posted On2012-04-20