Incidental Mutation 'IGL02986:Hgfac'
ID406723
Institutional Source Australian Phenomics Network (link to record)
Gene Symbol Hgfac
Ensembl Gene ENSMUSG00000029102
Gene Namehepatocyte growth factor activator
SynonymsHGFA
Accession Numbers
Is this an essential gene? Probably non essential (E-score: 0.085) question?
Stock #IGL02986
Quality Score
Status
Chromosome5
Chromosomal Location35041509-35048461 bp(+) (GRCm38)
Type of Mutationmissense
DNA Base Change (assembly) T to C at 35043863 bp
ZygosityHeterozygous
Amino Acid Change Valine to Alanine at position 210 (V210A)
Ref Sequence ENSEMBL: ENSMUSP00000030985 (fasta)
Gene Model predicted gene model for transcript(s): [ENSMUST00000030985] [ENSMUST00000087684] [ENSMUST00000114283] [ENSMUST00000114285] [ENSMUST00000202573]
Predicted Effect probably benign
Transcript: ENSMUST00000030985
AA Change: V210A

PolyPhen 2 Score 0.002 (Sensitivity: 0.99; Specificity: 0.30)
SMART Domains Protein: ENSMUSP00000030985
Gene: ENSMUSG00000029102
AA Change: V210A

DomainStartEndE-ValueType
signal peptide 1 32 N/A INTRINSIC
low complexity region 43 59 N/A INTRINSIC
low complexity region 85 93 N/A INTRINSIC
FN2 98 145 7.31e-27 SMART
EGF 160 195 2.11e-4 SMART
Pfam:fn1 199 234 7.7e-11 PFAM
EGF 241 276 1.69e-3 SMART
KR 281 366 5.2e-36 SMART
Tryp_SPc 405 639 2.07e-90 SMART
Predicted Effect probably benign
Transcript: ENSMUST00000087684
SMART Domains Protein: ENSMUSP00000084970
Gene: ENSMUSG00000029101

DomainStartEndE-ValueType
PDZ 29 98 5.25e-18 SMART
PTB 224 373 5.05e-28 SMART
low complexity region 443 456 N/A INTRINSIC
low complexity region 643 661 N/A INTRINSIC
low complexity region 685 697 N/A INTRINSIC
RGS 715 832 2.84e-41 SMART
Pfam:RGS12_us1 836 953 4.3e-61 PFAM
RBD 962 1032 3.12e-28 SMART
RBD 1034 1104 2.44e-21 SMART
Pfam:RGS12_us2 1106 1180 2.4e-37 PFAM
GoLoco 1187 1209 9.74e-9 SMART
Pfam:RGS12_usC 1238 1379 9.2e-49 PFAM
Predicted Effect probably benign
Transcript: ENSMUST00000114283
SMART Domains Protein: ENSMUSP00000109922
Gene: ENSMUSG00000029101

DomainStartEndE-ValueType
low complexity region 27 39 N/A INTRINSIC
RGS 57 174 2.84e-41 SMART
low complexity region 191 207 N/A INTRINSIC
low complexity region 210 222 N/A INTRINSIC
low complexity region 253 270 N/A INTRINSIC
RBD 304 374 3.12e-28 SMART
RBD 376 446 2.44e-21 SMART
GoLoco 529 551 9.74e-9 SMART
low complexity region 601 622 N/A INTRINSIC
low complexity region 634 650 N/A INTRINSIC
low complexity region 697 729 N/A INTRINSIC
Predicted Effect probably benign
Transcript: ENSMUST00000114285
SMART Domains Protein: ENSMUSP00000109924
Gene: ENSMUSG00000029101

DomainStartEndE-ValueType
low complexity region 37 49 N/A INTRINSIC
RGS 67 184 2.84e-41 SMART
low complexity region 201 217 N/A INTRINSIC
low complexity region 220 232 N/A INTRINSIC
low complexity region 263 280 N/A INTRINSIC
RBD 314 384 3.12e-28 SMART
RBD 386 456 2.44e-21 SMART
GoLoco 539 561 9.74e-9 SMART
low complexity region 611 632 N/A INTRINSIC
low complexity region 644 660 N/A INTRINSIC
low complexity region 707 739 N/A INTRINSIC
Predicted Effect probably benign
Transcript: ENSMUST00000150139
SMART Domains Protein: ENSMUSP00000117158
Gene: ENSMUSG00000029101

DomainStartEndE-ValueType
Blast:RBD 2 33 5e-13 BLAST
Pfam:RGS12_us2 35 80 5.8e-13 PFAM
Predicted Effect noncoding transcript
Transcript: ENSMUST00000201038
Predicted Effect noncoding transcript
Transcript: ENSMUST00000201994
Predicted Effect noncoding transcript
Transcript: ENSMUST00000202126
Predicted Effect noncoding transcript
Transcript: ENSMUST00000202168
Predicted Effect probably benign
Transcript: ENSMUST00000202573
SMART Domains Protein: ENSMUSP00000144344
Gene: ENSMUSG00000029102

DomainStartEndE-ValueType
signal peptide 1 34 N/A INTRINSIC
Predicted Effect probably benign
Transcript: ENSMUST00000202921
Coding Region Coverage
Validation Efficiency
MGI Phenotype FUNCTION: This gene encodes a serine protease enzyme that proteolytically activates hepatocyte growth factor (HGF) and plays a vital role in the regulation of HGF activity in the regeneration and repair of various tissues. The encoded protein is an inactive zymogen that is proteolytically activated to generate a heterodimeric enzyme consisting of a short chain and a long chain linked by a disulfide bridge. Mice lacking the encoded protein display an impairment in mucosal regeneration after injury. [provided by RefSeq, Jul 2015]
PHENOTYPE: Homozygous null mice display impaired intestinal regeneration and increased mortality after intestinal injury. [provided by MGI curators]
Allele List at MGI
Other mutations in this stock
Total: 43 list
GeneRefVarChr/LocMutationPredicted EffectZygosity
Agrn A G 4: 156,178,854 V264A possibly damaging Het
Akr1c6 G T 13: 4,436,415 V74L probably benign Het
Atp10a T G 7: 58,828,721 V1504G probably benign Het
Ccng1 A G 11: 40,750,863 probably benign Het
Celsr3 A T 9: 108,841,255 probably null Het
Coro1b T C 19: 4,149,471 V43A possibly damaging Het
Dab1 A G 4: 104,479,221 T5A probably benign Het
Dennd5a C T 7: 109,935,524 A47T probably benign Het
Dgkb A G 12: 38,100,400 T69A possibly damaging Het
Dhx37 G A 5: 125,419,315 P721L probably damaging Het
Efr3b T C 12: 3,966,495 N641D probably benign Het
Espnl A T 1: 91,344,850 Q600L probably benign Het
Esyt1 A G 10: 128,516,757 V693A probably damaging Het
Fscn2 A G 11: 120,367,350 D366G possibly damaging Het
Gcsam C A 16: 45,620,003 F136L probably benign Het
Gm10643 A T 8: 84,064,258 probably benign Het
Habp2 A T 19: 56,311,192 D174V probably benign Het
Hipk3 T C 2: 104,433,741 D804G probably damaging Het
L3mbtl1 T C 2: 162,970,305 W757R probably damaging Het
Lrrfip2 A G 9: 111,161,393 probably null Het
Ly75 T C 2: 60,308,191 D1444G probably damaging Het
Mars A G 10: 127,297,569 V765A probably benign Het
Med1 A G 11: 98,156,260 probably benign Het
Msln G A 17: 25,752,933 probably benign Het
Nup188 T A 2: 30,307,633 probably null Het
Olfr406 T G 11: 74,270,102 F238V possibly damaging Het
Olfr866 A T 9: 20,027,711 F76I probably benign Het
Otop2 T A 11: 115,329,567 M411K probably benign Het
Picalm A G 7: 90,207,585 I649M probably benign Het
Plekha8 T C 6: 54,629,866 L382P probably damaging Het
Pspn A G 17: 56,999,853 probably benign Het
Rnf215 A G 11: 4,139,793 T269A probably damaging Het
Rps6kc1 A T 1: 190,834,061 L329Q probably damaging Het
Srms T A 2: 181,212,497 R92S possibly damaging Het
Ssxb10 C A X: 8,335,606 S157* probably null Het
Tfap2c T C 2: 172,557,251 S448P probably damaging Het
Thsd7b A G 1: 129,915,615 N855D probably benign Het
Timeless A C 10: 128,249,760 D887A possibly damaging Het
Tyms T C 5: 30,061,999 Y169C probably damaging Het
Unc45b T A 11: 82,917,179 C207S probably damaging Het
Utp20 A G 10: 88,775,285 F1390S probably damaging Het
Vmn2r53 A T 7: 12,581,466 probably benign Het
Zfp369 A T 13: 65,280,281 D18V probably damaging Het
Other mutations in Hgfac
AlleleSourceChrCoordTypePredicted EffectPPH Score
IGL00471:Hgfac APN 5 35046526 missense probably damaging 1.00
IGL01999:Hgfac APN 5 35044811 missense probably benign
IGL02133:Hgfac APN 5 35046587 missense probably damaging 1.00
IGL02314:Hgfac APN 5 35041597 start codon destroyed probably benign 0.21
IGL02337:Hgfac APN 5 35042378 missense probably benign 0.00
IGL02405:Hgfac APN 5 35044480 missense probably benign 0.19
IGL02451:Hgfac APN 5 35043814 splice site probably null
IGL02508:Hgfac APN 5 35047220 missense probably damaging 1.00
IGL02584:Hgfac APN 5 35043961 unclassified probably benign
R0506:Hgfac UTSW 5 35044240 missense probably damaging 1.00
R0664:Hgfac UTSW 5 35048178 missense probably benign 0.34
R1733:Hgfac UTSW 5 35043674 missense probably damaging 1.00
R1775:Hgfac UTSW 5 35042850 unclassified probably benign
R1871:Hgfac UTSW 5 35042913 makesense probably null
R3826:Hgfac UTSW 5 35048162 missense probably damaging 1.00
R4553:Hgfac UTSW 5 35042856 missense probably damaging 0.97
R5888:Hgfac UTSW 5 35045407 missense probably damaging 1.00
R5905:Hgfac UTSW 5 35042362 missense probably benign 0.20
R6017:Hgfac UTSW 5 35044395 missense probably damaging 1.00
R6056:Hgfac UTSW 5 35041629 nonsense probably null
R6124:Hgfac UTSW 5 35044384 missense probably benign 0.06
R7059:Hgfac UTSW 5 35044429 missense possibly damaging 0.49
Posted On2016-08-02